A DIRECT TENSION INDICATOR WASHER (Machine-translation by Google Translate, not legally binding)

专利摘要:
A direct voltage indicating washer (DTI). The DTI washer has an annular body and one or more U-shaped horseshoe protrusions. The annular body includes a central hole with a circumference, an outer edge, a first face, and a second face opposite the first. Each of the horseshoe protuberances has a height, a vertex near the central hole, and an opening directed towards the outer edge. The horseshoe protrusions are integral with the annular body and wedged and partially cut from the annular body to protrude from the first face of the annular body and leave one or more corresponding slits in the second face of the annular body. The horseshoe protuberances may be radially offset from the annular body. its corresponding slits. An indicator material is initially encapsulated and held within the area on the first face defined by each of the horseshoe protuberances. (Machine-translation by Google Translate, not legally binding)
公开号:ES2699362A1
申请号:ES201830354
申请日:2018-04-09
公开日:2019-02-08
发明作者:Turner F Jonathan M；David L Sharp
申请人:TurnaSure LLC；
IPC主号:

专利说明:

[0001]
[0002]
[0003]
[0004] Related request
[0005]
[0006] This application claims the benefit of priority to the US provisional patent application with serial number 62 / 484,017, filed on April 11, 2017, the content of which is incorporated in this application by reference.
[0007]
[0008] Technical field
[0009]
[0010] The present invention relates generally to direct tension indicating washers, and in general to direct tension indicating washers having one or more pairs of slits and protuberances useful in commercial facilities such as facility structures, steel bridges, rails, transportation , heavy equipment, heavy industrial, construction, agricultural and general structural steel fastening applications.
[0011]
[0012] Background
[0013]
[0014] In the construction of steel structures, such as bridges and buildings, it is common to join two or more joining members together (eg, a beam to a column) by forming openings in each of the joining members, forming matching openings in Splice plates that extend between the joint members, inserting bolts through the openings and securing the bolts on the opposite side of the joint members with nuts. The fastener installation requirements for these structural applications are detailed in a series of standards. Original equipment manufacturing standards, Department of Transportation construction standards, and other standards well known in the industry such as those published by the Structural Connections Research Council (RCSC). Other similar standards from different consensus bodies also exist in different markets.
[0015]
[0016] The industry uses a series of different fasteners, including (1) hexagonal head fasteners and flanged head (2); pin and collar fasteners; 3) twist-type fasteners. Each of these restraints is summarized below. It is also known in the art to use a direct tension indicator washer (DTI), also referred to as a washer or load indicating clamp, to control the tightening of the clamped joint developing an indication of the tension in the subject. It is still more known to include an indicator material, such as an extrudable silicone, with the DTI washer to provide a clear visual indication that a predetermined clamp tension has been achieved.
[0017] Hexagonal head fasteners can be installed using conventional (pneumatic) air impact wrenches and other wrenches that include hand-operated, electrically operated and hydraulically operated keys. These fasteners are typically installed using either torque-based, compression-based, or grade-based installation techniques. Hex head fasteners may have complicated washer usage requirements, depending on the geometry of the hole, the connection materials, and the installation method. The installation of any hex head fastener may require at least two installers to ensure proper rotation of the nut relative to the bolt. In some installations, the bolt can move or "roll" in the hole during installation, which is why many installation specifications require matching marks of the bolts and nuts.This operation is often inaccurate, subject to the knowledge of the operator or of the inspector, and can even replicate after installation on fasteners that have not been tensioned.
[0018]
[0019] Pin and collar fasteners (also known as locking pin and collar systems) operate according to a direct tension principle. Examples of pin and collar fasteners can be found at least in U.S. Patent Nos. 2,531,048; Do not.
[0020] 3,057,246; No. 3,915,053; No. 4,943,196; No. 5,049,016; and No. 5,562,379. The pin and collar fasteners have a pin with a first portion that includes a first plurality of annular rings (as opposed to the helical threads in the bolt of the torsion break fastener), a second portion with a second plurality of annular rings , and a neck portion between the first portion and the second portion. The first portion of the pin is connected to a head of the holder, and the second portion of the pin defines one end of the holder. A collar is arranged around the pin for engagement with the first portion. The collar is deformed by cold working around the pin and the first plurality of annular rings. The pin is broken from the neck portion when the pulling capacity of the neck portion is exceeded. These fasteners are not removable and the tools required to install these fasteners are expensive and cumbersome. Although these fasteners have a demonstrated ability to break in the neck, providing a high assurance of direct tensile loads, they have a problem with properly fitting connections, particularly those that include large layers. At a certain point of forming in the annular rings, the tensile loads begin to be applied against the rings in the pin, not directly to the Support surface of the head on the opposite side of the connection. These fasteners are not capable of performing efficient sequential adjustment operations.
[0021]
[0022] The torsion break fasteners are based on an installation based on a torque. Examples of torsion break fasteners and related tools are described in industry standard specifications ASTM F1852 and F2280, and JSS S10T, and at least in GB 834787 A and in U.S. Patent Nos. 2,928,302; 4,637,764; 4,659,267; 4,836,063; and 5,108,238. These fasteners are known by various other names, including TC bolts, Tru-tension bolts, tension control bolts, torque control bolts, Tor-shear bolts, LeJeune bolts, among others. The torsional break fasteners have a bolt with a threaded rod and a threaded coupling nut with the threaded rod. The bolt also has a head at one end of the stem and a fluted end at the other end of the stem. Importantly, there is a cutting groove between the fluted end and the threaded rod, causing a concentration of tension in that area. A manual wrench or an automatic wrench, having an inner bushing coupled with the knurled portion and an outer bushing coupled with an outer surface of the nut, applies a twisting force on the bolt and nut. When the torsional load of the nut exceeds a cutting capacity in the cutting groove, the fluted end is removed from the end of the bolt. In such fastening assemblies, the clamping stresses are related to calculated friction coefficients, not to the actual tensile or clamping load. Therefore, this clamping system is highly dependent on a frictional coupling, and the effectiveness of clamping (in other words, the ability of the clamp to achieve and maintain the desired clamping load) may vary with temperature, lubrication, weathering and other environmental factors.
[0023]
[0024] Regardless of the type of fastening used, a DTI washer can be combined with the clamp to control the tightening of a clamped joint by developing an indication of the tension in the clamp. Using DTI washers to measure tension in the clamp is preferable for measuring tension based on torque control because the torque control measures can result in wide variations in tension in the clamp. Variations in tension can result from factors such as variations in the lubricity of the fastener, burrs in the threads of the threaded fasteners, variations in friction in the bearing surface between the joint members and the threaded fastener, dirt or corrosion in the threads, temperature, and the like.
[0025]
[0026] A typical DTI washer includes a plurality of protrusions that are minted and partially cut from an annular body to leave indentations in the annular body. By For example, as shown in FIGS. 1A, 1B, and 1C, a prior art DTI washer 10 includes an annular body 20 surrounding a central hole 22. Figure 1A represents a top view of the DTI washer 10 of the prior art, Figure 1B represents a bottom view of the DTI washer 10 of the prior art, and Figure 1C represents a cross-sectional view of the washer 10 DTI of the prior art. the prior art along line 1C-1C of Figure 1A. A first face 24 of the annular body 20 includes a plurality of protuberances 30 surrounding the central hole 22 along a concentric circle 32. A second face 26 of the annular body 20 includes a plurality of slits 40. The area of the annular body 20 between the plurality of slits 40 and the central hole 22 is referred to as the core 50. DTI washers of this type are disclosed in U.S. Pat. No. 5,015,132. Although many variations of these washers are known (for example, U.S. Patent No. 5,667,346, discloses DTI washers having curved protuberances), the DTI washers of the prior art share a common feature of the protuberances 30 which are aligned with and centered on the slits 40.
[0027]
[0028] With reference to Figures 2A and 2B, the DTI washer 10 of the prior art can be used to join two or more joining members 110 into an example joining assembly 100. As shown in Figure 2A, the DTI washer 10 of the prior art is placed on a first side of the joining members 110. An externally threaded member, such as a bolt 120 having a head 122 and a threaded rod 124, is then inserted through the connecting members 110 and the central hole 22 of the DTI washer 10 of the prior art so that a Support surface 126 of pin 120 makes contact with the protrusions 30 of the 10 DTI washer of the prior art. Then, an internally threaded member, such as a nut 130, is fixed to the stem 124 of the bolt 120 on a second side of the joining members 110 opposite the head 122 of the bolt 120. In some cases, a washer 140 can be placed between the second side of the joint members 110 and the nut 130 to isolate the rotation of the nut 130 from the joint members 110.
[0029] As shown in FIG. 2B, as the nut 130 is rotated and tightened on the threaded rod 124 of the bolt 120, the protuberances 30 are pushed into the slots 40. The tightening stops once the gap between head 122 of the pin 120 and the prior art DTI washer 10 disappears or is reduced to a desired distance indicating the desired amount of tension in the threaded shank 124. The dimensions and material properties of the prior art DTI washer 10 determine how much tension is required to push the protuberances 30 back into the slits 40. The slits 40 may be at least partially filled as a result of the protuberances 30 are pushed back into the annular body 20, and perform a function not useful in the operation of the DTI washer 10 of the prior art. Rather, the slits 40 are a result of the displacement of the material during the forming operation that creates protuberances 30.
[0030]
[0031] Regardless of the embodiment, the DTI washer may include an indicator material to provide a clear visual indication that a predetermined pressure has been achieved in the fastener. U.S. Patent No. 5,931,618 entitled "Direct Tension Indicator Washers" discloses said material, and the DTI washer with the material is sold commercially under the trademark Squirter.RTM .. The DTI Washer has a first surface with at least one protrusion formed therein. first surface and a second surface with at least one groove formed in the second surface opposite the protrusion The inner diameter of the DTI washer has a wall of inner diameter which meets the second surface on an inner diameter edge. The outer diameter of the outer diameter wall meets the second surface at an outer diameter edge, the inner diameter edge and the outer diameter edge are arranged in different planes, this difference causes the flattened DTI washer to exert force against an outer diameter. bolt and maintain bolt tension The DTI washer includes an indicator material in the slit and a channel formed in the second surface that goes from the slit to the outer diameter of the DTI washer.
[0032]
[0033] U.S. Patent No. 6,425,718 entitled "Direct Multiple Tension Indicator Washer Having First and Second Height Projections" discloses an alternative to the DTI washer disclosed in U.S. Patent No. 5,963,618. Extrudes the indicator material of a variable color depending on the compressive force applied thereto by providing first and second surfaces having respective protrusions (i.e., prominences) and slits.The compression force on the washer is equal to the tension a bolt passing through the washer The slits in the second surface are filled with a solid extrudable colored material By making at least one first protrusion higher than at least one second protrusion, the first protrusion will be compressed before the second protrusion , causing it to extrude the colored material into its corresponding slit before the s The second boss does the same when the tension on the bolt is increased. By making the material under the first protrusion of a different color than the material under the second protrusion, an operator can determine which of the two desired tensions of the bolt has been reached. During use, an operator simply tightens the bolt by passing it through the washer or a threaded nut into the bolt until the bolt reaches a first desired tension as indicated by the extruded material of the first color, such as green. An intervention stage is performed on the first bolt tension, if required. The operator then continues to tighten the bolt or nut until the bolt reaches a second desired tension as indicated by the second color extruded material, such as red.
[0034] Each of the different existing fasteners and the DTI washers has deficiencies. When the tension control bolts of the torsion type are fully tightened, for example, their tips are cut to give an indication that a final total preload has been achieved. Therefore, if only a tight fit is required, the load is presumed adequate. These types of bolts do not offer any indication of adjustment before final total tensioning. Clamping systems using Squirter® type DTI washers also do not provide a visual indication of fit. In addition, these systems do not have a flattening in two different stages of the protuberances that allow to check both the adjustment and the final total tightening. In fact, there is no known prior art system that includes a load indicating function for both the adjustment stage and the final tightening stage.
[0035]
[0036] There is also a known DTI washer with protrusions of different heights to perform different functions, or unique ways to encapsulate an elastomeric material that will be issued at the appropriate time indicating a bolt properly adjusted or fully tightened. Prior art bolt use practices, such as the use of a calibrated wrench or nut twist, require a continuous kind of tightening operations so that an operator can verify that an initial tightening operation is being performed. This inspection is a continuous activity, since there is no evidence after adjusting that the work has been done. The inspection is a verification or confirmation that the completion of this work is being observed.
[0037]
[0038] To overcome the shortcomings of existing DTI washers, one object is to provide an improved DTI washer. Another object is to allow a DTI washer to perform two or more discrete load measurements accurately. A related object is to allow a DTI washer to perform two or more different operations as a function of the plastic deformation of the protuberances.
[0039]
[0040] It is yet another object to use protrusions of unique shape and variable height to allow a visual indication that the fastener assembly has been properly tightened. A related object is to overcome the limitations of existing DTI washers, especially those marketed as DTI Squirter® washers, which suffer from the elastomeric indicator material that gives premature visual indications that a bolt is tight adequately. Another related object is to overcome geometric limitations of standard DTI washers by introducing protrusion shapes that protect the elastomeric indicator material during handling, packaging, shipping and storage so that the elastomeric material can visually indicate when adequate tension in the elastomeric material has been reached. cap screw.
[0041]
[0042] A further object is to delay, through a geometrical function, the emission of an elastomeric material until the clamping assembly is properly tightened. Still another object is to capture the elastomeric material so that during use it is against a relatively smooth surface (e.g., a washer or nut) which ensures predictable and repeatable accurate results. (This configuration contrasts with prior art squirt-type devices, for which the elastomeric material is placed against the unpredictable surface of structural steel which can vary from very smooth to rough). It is yet another object to provide a visual proof that the "tight" clamping condition for a clamp has been achieved and that the clamp is in firm contact with the component to be joined.
[0043]
[0044] Summary
[0045]
[0046] To achieve these and other objects, and in view of their purposes, an improved DTI washer is provided. According to one embodiment, the DTI washer has an annular body and one or more U-shaped horseshoe protrusions. The annular body includes a central hole, a circumference, an outer edge, a first face, and a second face opposite to the first face. The horseshoe protuberances each have a height, a vertex closer to the central hole and an opening directed toward the outer edge. The horseshoe protuberances are integral with the annular body and wedged and cut partially from the annular body to protrude from the first face of the annular body and leave one or more corresponding slits in the second face of the annular body. The horseshoe protuberances may be radially offset from their corresponding slits. An indicator material is encapsulated and initially contained within the area on the first face defined by each of the horseshoe protuberances. According to another embodiment, the DTI washer has one or more additional protuberances that have a height greater than the height of the horseshoe protuberances.
[0047]
[0048] According to a further embodiment, a joint assembly is provided that includes at least one joint member, a DTI washer disposed adjacent to the at least one joint member, a first support member on a first side of the at least one joint member. union member, and a second support member on a second side of the at least one member of Union. The DTI washer has an annular body and one or more U-shaped horseshoe protrusions. The annular body includes a central hole, a circumference, an outer edge, a first face, and a second face opposite the first face. The horseshoe protuberances each have a height, a vertex as close to the central hole, and an opening directed towards the outer edge. The horseshoe protuberances are integral with the annular body and wedged and cut partially from the annular body to protrude from the first face of the annular body and leave one or more corresponding slits in the second face of the annular body. The horseshoe protuberances may be radially offset from their corresponding slits. An indicator material is encapsulated and initially contained within an area on the first face defined by each of the horseshoe protuberances. The first and second support members are fixed to or disposed loosely around a shank located in an opening of at least one attachment member, and the central hole in the annular body, so that the first support member has a surface of support in contact with the one or more horseshoe protrusions of the DTI washer and the second support member has a support surface in contact with the second side of the at least one attachment member.
[0049]
[0050] According to yet another embodiment, the DTI washer includes an annular body, a set of first protuberances, and a set of second protuberances. The annular body includes a central hole, a circumference, a first face, and a second face opposite the first face. The first protuberances each have a first height and are integral with the annular body and minted and cut partially from the annular body to protrude from the first face of the annular group and leave one or more corresponding first slits in the second face of the annular body. The second protuberances each have a height less than the first height and are integral with the annular body and wedged and partially cut from the annular body to protrude from the first face of the annular body and leave one or more corresponding second recesses in the second face of the ring body. At least one of the first protrusions or of the second protrusions is radially offset from their corresponding slits.
[0051]
[0052] According to a further embodiment, a joint assembly is provided including at least one joint member, a DTI washer disposed adjacent to the at least one attachment member, a first support member on a first side of the at least one first joining member, and a second support member on a second side of the at least one first joining member. The DTI washer has an annular body, a set of first protuberances, and a set of second protuberances. The ring body includes a central hole, a circumference, a first face and a second face opposite the first face. The first protuberances each have a first height and are integral with the annular body and wedged and cut partially from the annular body to protrude from the first face of the annular body and leave one or more corresponding first slits in the second face of the annular body. The second protuberances each have a second height smaller than the first height and are integral with the annular body and wedged and cut partially from the annular body to protrude from the first face of the annular body and leave one or more corresponding second recesses in the annular body. the second face of the ring body. At least one of the first protuberances or second protrusions are radially offset from their corresponding slits. The first and second support members are loosely fixed or arranged about an axis located in an opening of the at least one joint member and the central hole of the annular body, in such a way that the first support member has a surface of support in contact with at least the first protrusions of the DTI washer and the second support member has a support surface in contact with the second side of the at least one joining member.
[0053]
[0054] It will be understood that both the foregoing general description and the following detailed description are by way of example, but are not restrictive of the invention.
[0055]
[0056] BRIEF DESCRIPTION OF THE DRAWINGS
[0057]
[0058] The invention is better understood from the following detailed description when read in conjunction with the accompanying drawings. It is emphasized that, in accordance with a common practice, the various features of the drawings are not to scale. On the contrary, the various characteristics are expanded or reduced arbitrarily for clarity. Included in the drawings are the following figures:
[0059]
[0060] Figure 1A is a top view of a prior art direct tension indicator (DTI) washer;
[0061]
[0062] Figure 1B is a bottom view of the prior art DTI washer of Figure 1A;
[0063] Figure 1C is a cross-sectional view of the prior art DTI washer of Figure 1A;
[0064]
[0065] Figure 2A is a side view of a joint assembly including the prior art DTI washer of Figure 1A;
[0066] Figure 2B is a side view of the joint assembly of Figure 2A, after the joint assembly has been tightened to collapse the protrusions of the DTI washer of the prior art;
[0067]
[0068] Figure 3 is a cross-sectional view of the DTI washer having ^offset protrusions and ^grooves;
[0069]
[0070] Figure 4 illustrates, in a perspective view, the "2 stage" DTI washer concept with protuberances purposely configured to more than one standard height;
[0071]
[0072] Figure 4A is a top view of the DTI washer shown in Figure 4;
[0073]
[0074] Figure 4B is a cross-sectional view of the DTI washer taken along the ^{line 4B-4B of Figure 4A;}
[0075]
[0076] Figure 4C is a cross-sectional view of a DTI washer taken along the line 4C-4C of Figure 4A;
[0077]
[0078] Figure 4D is an edge view of the DTI washer shown in Figure 4A;
[0079]
[0080] Figure 4E is a detail view highlighted by the circle 4E of Figure 4C;
[0081]
[0082] ^{Figure 5 illustrates, in a perspective view, an alternative embodiment of the} two-stage DTI washer with horseshoe-shaped protrusions;
[0083]
[0084] Figure 5A is a top view of the DTI washer shown in Figure 5;
[0085]
[0086] Figure 5B is a cross-sectional view of the DTI washer taken along the line 5B-5B of Figure 5A;
[0087]
[0088] ^{Figure 5C is a detailed view highlighted by the circle 5C of Figure 5B}
[0089]
[0090] Figure 5D is a detailed view highlighted by the circle 5D of Figure 5A;
[0091]
[0092] Figure 5E is a detailed view highlighted by the circle 5E of Figure 5A;
[0093]
[0094] Figure 5F is a cross-sectional view of the horseshoe protrusions of the DTI washer taken along the line 5F-5F of Figure 5E;
[0095]
[0096] ^{Figure 5G is an edge view of the DTI washer shown in Figure 5A;}
[0097]
[0098] Figure 6 illustrates a punch used to form the horseshoe protrusions in the annular body of the DTI washer shown in Figure 5;
[0099] Figure 7 illustrates an indicator material captured within the horseshoe protuberances of the DTI washer shown in Figure 5;
[0100]
[0101] Figure 8 illustrates an indicator material deposited completely within the area defined by the horseshoe protuberances of the DTI washer shown in Figure 5;
[0102]
[0103] Figure 9A is a top view of another alternative embodiment of the DTI washer with only a set of protuberances, in particular horseshoe-shaped protrusions;
[0104] Figure 9B is a detail view highlighted by the circle 9B of Figure 9A;
[0105]
[0106] Figure 9C is a cross-sectional view of the horseshoe protrusion of the DTI washer taken along line 9C-9C of Figure 9B;
[0107]
[0108] Figure 9D is a cross-sectional view of the DTI washer taken along the line 9D-9D of Figure 9A;
[0109]
[0110] Figure 9E is an edge view of the DTI washer shown in Figure 9A;
[0111]
[0112] Figure 10 shows the stacking of components used to join two or more joining members in an example joint assembly using one of the embodiments of the DTI washer illustrated in Figures 4, 5 and 9A;
[0113]
[0114] Figure 11 illustrates, in a perspective view, an alternative embodiment of a DTI washer in two stages with horseshoe shaped protrusions and a plurality of lobes; Y
[0115]
[0116] Figure 11A is a top view of the DTI washer shown in Figure 11.
[0117]
[0118] Detailed description
[0119]
[0120] The common industrial problems between several types of connections are related to the establishment of two important installation criteria. These two criteria are the adjustment tension and the final tension (often referred to as the clamping load). The adjustment tension of a given connection, before total tensioning, will ensure that all the connected layers are in firm and continuous contact, and where the application of additional torque or tension to adjacent fasteners will not decrease the tension in the fasteners already installed. The Structural Connections Research Council ("RCSC"), in section 8.1 of its descriptive report for structural joints using high-strength bolts (August 1, 2014) defines "tight fit" as "the condition that exists when all the layers in a connection have been put in direct contact by the pins in the union and all the bolts in the union have been tightened enough to avoid the removal of the nuts without the use of a key ".
[0121]
[0122] The adjustment tension should be sufficient to bring the layers into continuous contact, or as close in continuous contact as possible, but preferably it is made below the elastic limit of the fastener. In connections that require full tensioning, a final installation voltage can be achieved through various methods. Without good control of the adjustment operation many fasteners are over-tensioned and in some cases the connecting layers are not put in a continuous and firm contact. In many cases, the lubricants are so effective and so few tests are made on coincidental field assemblies, that the adjustment voltage exceeds by mistake the final installation voltage required. The application of an additional turn to already highly tensioned fasteners increases the risk of critical failures of stressed fasteners beyond the maximum tensile strength. Severe narrowing and breaking can occur.
[0123]
[0124] The final installation voltage is the voltage that exceeds the minimum design voltage to meet the requirement of a particular application, specification or standard. In connections using fastening systems subject to final tensioning using a torque there is a well-documented set of concerns that refer to the repeatability and variability of the torque-based installation methods, including the variability in the torque applied, changes in environmental conditions, the passage of time, the repeatability of the equipment, the maintenance of the equipment and various other potential problems. In connections using fastening systems subject to final tensioning using a compression or angle, there is a well-documented set of concerns with respect to establishing an appropriate fit condition.
[0125]
[0126] The existing DTI washers and the industry-wide approach to fasteners have been aimed at ensuring that the fasteners have been properly tightened after the final installation. There has not been any device that focuses on ensuring that the joint has been adjusted, or properly compacted in firm contact, before final tightening. However, engineers recognize that the set point is critical for any method of tightening bolt groups for high voltage levels required. The RCSC in its descriptive report for structural joints using high strength bolts (August 1, 2014), stated: "With all methods, it is important to first install bolts in all the union holes and compact the union until the connected layers are in firm contact, it is only after the completion of this operation that the joint can be prestressed reliably. "
[0127] Although the adjustment stage of the bolt tightening is recognized as critical to achieving acceptable results after final tightening, there is no practical visual tool available to indicate the achievement of a compact fit. Prior art fastening methods such as a calibrated wrench (torque wrench), torsion type bolts and DTI washers do not give evidence or visual proof that the adjustment condition has been achieved before the final tightening to a minimum required pre-charge. In addition, a significant number of joints per bolt do not need to be fully tightened, because the tight fit is adequate for an appropriate function. In these latter cases, there is a method to visually determine if the adjustment condition has been achieved.
[0128]
[0129] So far there has not been a practical way to visually discern if the adjustment has been made. The traditional DTI washers allow, after a close inspection, a visual signal that the adjustment has been made when the protuberances show some initial amount of very small incremental deformation. Considerable force is required to achieve this small compression, on the order of 50% of the final minimum stress.
[0130]
[0131] In almost all cases an adequate adjustment is achieved in a load considerably less than the load that causes the deformation of the protrusion. The DTI washers of the prior art do not allow for a (obvious) greater deformation in the fit, however, since if they were manufactured to be weak enough to deform in an obvious change of their dimensions (flattening of the protrusion reduction of the gap) they would be too weak to indicate the scope of a minimum specified preload before fully collapsing to a condition without gap. In other words, if the conventional DTI washers were made weak enough to provide a visual and obvious indication of adjustment, they should be too weak to indicate the final tension. And the final tension is the main focus of the engineers and contractors in the unions that require a previous load.
[0132]
[0133] Referring now to the drawings, in which similar reference numerals refer to similar elements, through the various figures comprising the drawings, FIG. 3 is a cross-sectional view of an exemplary embodiment of a washer. Direct Tension Indicator (DTI) having radially offset protuberances and grooves. The offset of the protrusions and grooves improves the mechanical strength of the 400 DTI washer, in particular when it is used around a bolt inserted in an enlarged opening in one or more joint members. The 400 DTI washer includes an annular body 410 surrounding a central hole 412. The 400 DTI washer further comprises a plurality of integral protuberances 420 with the annular body 410. The protuberances 420 are wedged and cut from the annular body 410 to project from a first face 414 of the annular body 410 and leave a plurality of corresponding slits 430 on a second face 416 of the annular body 410 opposite the first face 414. By integral, it is means that the annular body 410 and the protuberances 420 are made in a single piece or in a single unitary part without additional pieces. Each protrusion 420 is defined by a pair of outer side walls 422 that extend against the first face 414 of the annular body 410 and an outer surface 424 extending between the pair of outer side walls 422 and between two spaced regions of the first face 414. Each slit 430 is defined by a pair of inner side walls 432 that extend partially through the annular body 410 from the second face 416, and from which the pair of outer side walls 422 have been cut, and a interior surface 434 extending between the pair of interior side walls 432 and between two spaced regions of the second face 416. The region of the annular body 410 between the slits 430 and the central hole 412 is defined as the core 440.
[0134]
[0135] In the embodiment shown in Figure 3, the protuberances 420 and the slits 430 can be rectangular and straight-bounded, with outer side walls 422 and inner side walls 432 substantially tangential to concentric circles with the central hole 412 and substantially perpendicular to the first face 414 and the second face 416, respectively. Other embodiments may include protuberances 420 and slits 430 having a suitable shape and size. Typically, the protuberances 420 and the slits 430 are spaced at regular intervals around the central hole 412. There is no limit on the number of protuberances 420 and corresponding slots 430 that can be included in the 400 DTI washer.
[0136]
[0137] As shown in FIG. 3, the washer 400 DTI is further defined by the slits 430 which are offset from the protuberances 420 and which are located farther from the central hole 412. The amount of phase shift is defined by the distance D1 which is equal to the distance between a center line of a protuberance 420 and a center line of a corresponding slit 430. The distance will vary with the size and total thickness of the 400 DTI washer, as well as the specific application for which it is intended. The "phase shift" of the 400 DTI washer is the subject of US Patent No. 9,863,457 owned by TurnaSure, LLC, the assignee of the patent application in question, and is incorporated herein by reference in its entirety.
[0138]
[0139] Preferably, the 400 DTI washer is manufactured by an out-of-phase extrusion process in which the punch forming the slits 430 is not aligned intentionally with the die that forms the protuberances 420. The use of said out-of-phase extrusion process is not traditionally desirable because an extrusion out of phase of the center causes unequal forces in the manufacturing equipment, which is associated with a life of the tools reduced, excessive tool wear, and tool failure. It has been found that by offsetting the grooves 430 of the protuberances 420 the performance of the 400 DTI washer is improved in at least three ways: (1) by reducing the probability of unpredictable and undesirable deformation of the annular body 410, (2) by changing the direction in which the protuberances 420 are compressed during tightening, and (3) avoiding nesting.
[0140]
[0141] Figure 4 illustrates, in a perspective view, the concept of a "two stage" DTI washer 500 with protrusions purposely set to more than a standard height The two stage DTI 500 washer has a ring of first protuberances 520a Higher and a second ring of second second protuberances 520b The first protrusions 520a flatten during the initial tightening or tightening operation and the second protrusions 520b flatten or collapse when the specified minimum final pin tension has been achieved. Therefore, the first set of first protuberances 520a visually demonstrate when adjustment operations have been performed, and the second set of second protuberances 520b visually indicate that the final tightening has been achieved.The DTI 500 washer may not include an elastomeric indicator material. .
[0142]
[0143] The slits (not shown) corresponding to the first protrusions 520a and the second protuberances 520b, could be sized and shaped according to any disclosed embodiment. For example, the slits could be directly below their respective, rectangular, straight-boundary protuberances 520a and 520b. The slits could be offset from their respective protuberances 520a and 50b, or the slits and protuberances 520a and 520b could be conical.
[0144]
[0145] The 500 DTI washer includes an annular body 510 surrounding a central hole 512. The protuberances 520a and 520b are integral with the annular body 510. The protuberances 520a and 520b are wedged and cut from the annular body 510 to project from a first face 514 of the annular body 510 and leave a corresponding plurality of slits in a second face 516 of the annular body 510 opposite the first face 514. By integral, it is meant that the annular body 510 and the protuberances 520a and 520b are made in one piece or in a single unitary part without additional pieces.
[0146]
[0147] The protuberances 520a and 520b (and their respective slits) are spaced at regular intervals along respective imaginary circles around the central hole 512. Of Preferably, although not necessarily, the first set of first protuberances 520a is located closer to the central hole 512 and the second protuberances 520b are located farther from the central hole 512. There is no limit on the number of protuberances 520a and 520b (and corresponding slits) that can be included in the 500 DTI washer.
[0148]
[0149] Figure 4 illustrates that the 500 DTI washer has a series of notches 550 formed around the circumference of the annular body 510. The notches 550 may be grouped in pairs around each of the second protuberances 520b, as illustrated; alternatively, the notches 550 could be located equidistantly around the periphery of the 500 DTI washer. The notches 550 function to distinguish the 500 DTI washer from conventional washers and to provide a location for an operator to place a tool such as a thickness gauge. Although eight notches 550 are shown in FIG. 4, any number of notches 550 suitable to accomplish these functions could be provided.
[0150]
[0151] The 500 DTI washer may also have, typically but not necessarily, on its first face 514, a number of different indicia. For example, first signs 552 can indicate the type of washer 500 DTI, a few seconds 554 can indicate the lot number of the washer 500 DTI, and a third clues 556 can be the logo or other information indicating the origin (is say, the manufacturer or distributor) of the 500 DTI washer. Said indicia 552, 554 and 556 can be useful for the operator, among others.
[0152]
[0153] Figure 4A is a top view of the washer 500 DTI shown in Figure 4. Figure 4B is a cross-sectional view of washer 500 DTI taken along line 4B-4B of Figure 4A. Figure 4C is a cross-sectional view of the DTI washer 500 taken along the line 4C-4C of Figure 4A. Figure 4D is an edge view of the washer 500 DTI shown in Figure 4A. And Figure 4E is a detailed view highlighted by the circle 4E in Figure 4C.
[0154]
[0155] The following example dimensions are included to clearly demonstrate the general nature of the 500 DTI washer. These example dimensions are exemplary, not restrictive, of the 500 DTI washer. With reference to Figure 4A, for a 500 DTI washer of 7/8 inch (2.22 cm) of the 144 ksi type, the inner diameter 560 is approximately 0.938 inches (2.38 cm) and the diameter 562 of outer support is approximately 1,600 inches (4.06 cm). The length 564 of the first protuberances 520A is approximately 0.250 inches (0.635 cm) and typically falls in the range of 0.245 to 0.255 inches (0.622 to 0.648 cm). The length 566 of the second protuberances 520b is of approximately 0.380 inches (0.965 cm) and typically falls in the range of 0.375 to 0.385 inches (0.953 to 0.978 cm). The diameter of the outer circle along which the second protuberances 520b are arranged is approximately 1.535 inches (3.899 cm); This diameter is called the "tangential diameter of protuberance" or "PTD". The radius 558 of the notches 550 is approximately 0.060 inches (0.152cm).
[0156]
[0157] With reference to FIG. 4B, the height 568 of the second protuberances 520b is in the range of about 0.025 to 0.035 inches (0.064 to 0.089 cm). The width 570 of the second protuberances 520b is approximately 0.080 inches (0.203 cm), and typically falls in the range of approximately 0.075 to 0.085 inches (0.191 to 0.216 cm).
[0158] With reference to Figure 4C, the height 572 of the first protuberances 520a is in the range of about 0.045 to 0.055 inches (0.114 to 0.140cm). The width 574 of the first protuberances 520a is approximately 0.055 inches (0.140), and typically falls in the range of approximately 0.050 to 0.060 inches (0.127 to 0.152 cm). The outer diameter 576 of the DTI 500 is approximately 1,730 inches (4,394 cm), and typically falls in the range of approximately 1,720 to 1,750 inches (4,369 to 4,445 cm).
[0159]
[0160] With reference to Figure 4D, the height 578 of the 500 DTI washer is a minimum of about 0.158 inches (0.401 cm) and the distance 580 from the second face 516 to the top of the first protuberances 520a is a maximum of about 0.260 inches. (0.660 cm). Finally, with reference to FIG. 4E, the distance 582 by which the first protuberances 520a are offset from their respective slits (ie, the center offset distance) is approximately 0.030 inches (0.076 cm).
[0161]
[0162] Figure 5 illustrates, in a perspective view, an alternative embodiment of a DTI 600 washer in two stages with two sets of protuberances having more than one standard height. The 600 DTI washer is similar to the 500 DTI washer, except that the second ring of second shorter protrusions 520b is replaced by a second ring of 620 "horseshoe" or shorter U-shaped protuberances. 520a flattened during the adjustment or initial tightening operation and, like the second protuberances 520b, the horseshoe protuberances 620 flatten or collapse when the specified minimum final bolt tension has been achieved.The main function of the horseshoe protuberances 620 it is not the resistance, rather, as described below, the main function of the horseshoe protuberances 620 is to contain and control the flow of an indicator material 690.
[0163] As noted, the 600 DTI washer is similar to the 500 DTI washer. The 600 DTI washer includes an annular body 510 surrounding a central hole 512. The first protuberances 520a and the horseshoe protuberances 620 are integral with the annular body 510. The first protuberances 520a and the horseshoe protuberances 620 are wedged and cut from the annular body 510 to project from a first face 514 of the annular body 510 and leave a plurality of corresponding slits in a second face 516 of the annular body 510 opposite the first face 514. By integral, it is meant that the annular body 510 and the protuberances 520a and 620 are made in one piece or in a single unitary part without additional pieces.
[0164]
[0165] The protuberances 520a and 620 (and their respective slits) are spaced at regular intervals along respective imaginary circles around the central hole 512. Preferably, but not necessarily, the first set of first protuberances 520a is located closer to the central hole 512 and the horseshoe protuberances 620 are located farther from the central hole 512. As illustrated in Figure 5A, which is a top view of the 600 DTI washer shown in Figure 5, the first set of first protuberances 520a is spaced at regular intervals along the imaginary circle 622 and the protuberances 620 of horseshoe are separated at regular intervals along imaginary circle 624. There is no limit on the number of protuberances 520a and 620 (and corresponding slits) that can be included in the 600 DTI washer.
[0166]
[0167] Figure 5 also illustrates that the 600 DTI washer has a series of notches 550 formed around the circumference of the annular body 510. The notches 550 function to distinguish the 600 DTI washer from conventional washers and to provide a location for an operator to place a tool such as a thickness gauge. Although eight notches 550 are shown in Figure 5, any number of notches 550 suitable for achieving these functions can be provided.
[0168]
[0169] The 600 DTI washer may also have, typically but not necessarily, on its first face 514, a number of different indicia. For example, first signs 552 can indicate the type of washer 600 DTI, a few seconds 554 can indicate the batch number of the 600 DTI washer, and a third signs 556 can be the logo or other information indicating the provenance (it is say, manufacturer or distributor) of the 600 DTI washer. Said indicia 552, 554 and 556 can be useful for the operator, among others.
[0170]
[0171] Figure 5B is a cross-sectional view of the DTI washer 600 taken along the line 5B-5B of Figure 5A. Figure 5C is the detail view highlighted by the circle 5C of Figure 5B. Figure 5D is the detail view highlighted by circle 5D of Figure 5A. The Figure 5E is the detail view highlighted by the circle 5E of Figure 5A. Figure 5F is a cross-sectional view of the horseshoe protuberances 620 of the DTI washer 600 taken along the line 5F-5F of Figure 5E. And Figure 5G is an edge view of the 600 DTI washer shown in Figure 5A.
[0172]
[0173] The following example dimensions are included to more clearly demonstrate the general nature of the 600 DTI washer. These example dimensions are exemplary, not restrictive, of the 600 DTI washer. With reference to Figure 5A, for a 3/4 inch DTI washer of 600 mm (1.91 cm) type 325 ksi, the inner diameter 560 is approximately 0.813 inches (2.07 cm), and the diameter 562 of outer support it is approximately 1,555 inches (3.95 cm). The length 564 of the first protuberances 520a is approximately 0.315 inches (0.800 cm), and typically falls in the range of 0.310 to 0.320 inches (0.787 to 0.813 cm). The diameter of the imaginary circle 622 along which the first protuberances 520a are arranged is approximately 1,125 inches (2,858 cm); the diameter is called the "tangential diameter of protuberances" or "PTD". The diameter of the imaginary circle 624 along which the horseshoe protuberances 620 are arranged is approximately 1,441 inches (3,660 cm). At radius 558 of the notches 550 is approximately 0.060 inches (0.152cm).
[0174]
[0175] With reference to Figure 5B, the height 572 of the first protuberances 520a is in the range of about 0.045 to 0.055 inches (0.114 to 0.140 cm). The width 574 of the first protuberances 520a is approximately 0.080 ± 0.002 inches (0.203 ± 0.005cm). The outer diameter 576 of the DTI 600 is approximately 1.615 inches (4.102 cm), and typically falls in the range of approximately 1.605 to 1.625 inches (4.077 to 4.128 cm). Also illustrated in Figure 5B are slits 640 on the second face 516 which correspond to the first protuberances 520a. With reference to Figure 5C, the distance 582 by which the first protuberances 520a are offset from their respective slits 640 is approximately 0.030 inches (0.076 cm).
[0176]
[0177] With reference to Figure 5D, the length 666 of the horseshoe protuberances 620 is approximately 0.210 inches (0.533 cm). The width 670 of the horseshoe protuberances 620 is approximately 0.150 inches (0.381 cm). The thickness 669 of the walls of the horseshoe protuberances 620 is approximately 0.035 inches (0.089 cm). With reference to Figure 5F, the maximum height 668 of the horseshoe protuberances 620 is approximately 0.040 inches (0.102 cm) and the apex of the horseshoe protuberances 620 located closest to the central hole 512. The height of the horseshoe protuberances 620 gradually decreases as a taper 667 along the width 670 of the horseshoe protrusions 620 until the height is zero where the horseshoe protuberances 620 meet the first face 514 in the imaginary circle 624. Also shown in Figure 5F are slits 630 corresponding to the horseshoe protuberances 620. It should be noted, as shown in FIG. 5F, that there is no gap between the slits 630 and the horseshoe protuberances 620.
[0178]
[0179] Finally, with reference to Figure 5G, the height 578 of the 600 DTI washer is a minimum of about 0.158 inches (0.401 cm) and a maximum of about 0.169 inches (0.429 cm). The distance 580 from the second face 516 to the top of the first protuberances 520a is a maximum of approximately 0.208 inches (0.528 cm).
[0180] 500, 600 DTI washers are manufactured using a tool (such as a punch) and a die. The tool and the die are used to stamp the various protuberances and grooves in a rough washer. Figure 6 illustrates a punch 800 used to form the horseshoe protuberances 620 in the annular body 510 of the DTI 600 washer. The punch 800 has "shovel" shaped portions 620a, each of which forms an individual horseshoe protuberance 620. Although a punch having U-shaped portions can be used to form the horseshoe protuberances 620, the tests have proven that said punch is not durable as punch 800 having shovel-shaped portions 620a, blunt-shaped portions 620a improve tool life and are superior in the forming of horseshoe protrusions 620 on the side of the punch of the shaping operation Other processes can be used to form the 500, 600 DTI washers, such as a metal machining or a metal casting In all cases, the metal product will be heat treated by tempering and annealing after shaped to produce the load similar to a spring and the deformation properties.
[0181]
[0182] As illustrated in Figure 7, an important function of the horseshoe protuberances 620 is to capture the indicator material 690. The horseshoe protuberances 620 should be located on the first face 514 of the DTI 600 washer next to the outer edge 692 of the DTI washer 600, and along the imaginary circle 624, to ensure that the material 690 indicators visible when a flat washer 140 it is placed on the 600 DTI washer. The location of the horseshoe protuberances 620 could be adjusted but should be as close to the outer edge 692 as possible while still providing a flat surface on which the indicator material 690 will appear when the pin 120 is tightened. The indicator material 690 is an extrudable elastomeric solid material such as silicone, and may be colored to improve visibility and to provide additional information to the operator.
[0183] A number of shapes and dimensions were investigated for the horseshoe protuberances 620. Among the shapes there was a variation in the continuous annular protuberance type represented in U.S. Patent No. 9,863,457; a V shape and an open end circle or C-shaped protrusion. The investigation revealed that the "U-shaped" horseshoe protrusions 620 provided the most reliable way to contain the 690 indicator material, and were also able to be Furthermore, providing the taper 667 to the horseshoe protuberances 620 directed towards the outer edge 692 of the DTI 600 washer ensures both (i) excellent delineation between two adjustment points and of final tension, and (ii) the benefit of directing the indicator material 690 toward the outer edge 692 where the indicator material 690 gives the visual information to the operator.The indicator material 690 provides a clear visual indication that a predetermined tension has been achieved in The "default" is determined in advance, so that the predetermined characteristics (in this case, the Clamping or clamping force against 600 DTI washer must be determined; that is, chosen or at least known, before some event (in this case, the tightening of the subject).
[0184]
[0185] The prototype tests have confirmed that the application, retention and directed flow of the indicator material 690 are improved by the shape of the horseshoe protuberances 620. As illustrated in Figure 7, the indicator material 690 is deposited on the horseshoe protuberances 620, where the indicator material 690 is protected by the walls of the horseshoe protuberances 620. After flattening the horseshoe protuberances 620, the indicator material 690 is pushed towards the open ends of the horseshoe protuberances 620, resulting in a visual indication of preload since the indicator material 690 is emitted beyond the outer diameter of the standard flat washer 140 which is placed on the 600 DTI washer as a part of the joint assembly 100. The taper 667 of the horseshoe protuberances 620 (i) helps push the indicator material 690 to the outer edge 692, and (ii) improves the accuracy, predictability, consistency and accuracy of how the indicator material 690 is emitted near the bolt required.
[0186]
[0187] Although the horseshoe protuberances 620 have the taper 667 in one embodiment, they do not have the taper 667 in an alternative embodiment. The horseshoe protuberances 620 of the alternative embodiment have a uniform height. The protuberances 620 that do not have (or less) taper 667 maximize (or increase) the volume or amount of the indicator material 690 is protected by the walls of the horseshoe protuberances 620. Therefore, the amount of taper 667 given to the Horseshoe protrusions 620 varies from zero to a maximum depending on the particular application.
[0188]
[0189] Another feature of the 600 DTI washer illustrated in Figure 7 is remarkable. Five horseshoe protrusions 620 are shown, instead of the four shown in Figure 5. This difference illustrates the point that any suitable number of horseshoe protuberances 620 is possible for the 600 DTI washer. In the same way, although the horseshoe protuberances 620 (and the first protuberances 520a, for that case) as illustrated have the same shape and dimensions, such uniformity is not required. Therefore, the horseshoe protuberances 620 can have different shapes, dimensions, or both depending on the application in which the 600 DTI washer will be used.
[0190]
[0191] As Figure 7, Figure 8 illustrates the indicator material 690 captured within the horseshoe protuberances 620 of the 600 DTI washer. Figure 7 illustrates the indicator material 690 partially deposited within the area on the first face 514 defined by the horseshoe protuberances 620. In contrast, Figure 8 illustrates the indicator material 690 deposited completely within the area on the first face 514 defined by the horseshoe protuberances 620. In contrast, Figure 8 illustrates the indicator material 690 deposited completely within the area on the first face 514 defined by the horseshoe protuberances 620. The shape of the indicator material 690 can be totally parallel to the shape of the horseshoe protuberances 620, including the height, width and length.
[0192]
[0193] Figure 9A is a top view of another alternative embodiment of a DTI washer 700 with only one set of protuberances, in particular horseshoe protuberances 620. The 700 DTI washer is similar to the 600 DTI washer, except that the first ring of first protuberances 520a is removed leaving only the second ring of horseshoe protrusions 620. Again, the main function of the horseshoe protuberances 620 is not the resistance; Rather, the main function of the horseshoe protuberances 620 is to contain and control the flow of the indicator material 690.
[0194]
[0195] The first protuberances 520a are removed from the 700 DTI washer because they are not necessary in certain applications. The 700 DTI washer is used only for tight fitting joints that do not require full tensioning. Compared to the first protuberances 520a, the short, rather small, strong horseshoe protrusions 620 provide some resistance to flattening. The horseshoe protrusions 620 collapse, comparatively easily, however, and therefore emit the indicator material 690 under a significantly lower load than would be required. a bolt tightened completely. The comparatively easy emission of the 690 indicator material is perfect for tight fitting bolts because such bolts are not required to have a significant tension on them. In fact, the amount of tension is not specified in any code or standard. Certainly some force will be needed to flatten the horseshoe protuberances 620 and emit the indicator material 690. Whatever the amount of that force, however, the force will undoubtedly be sufficient to exceed the requirements for a tight fit because the tight fit is defined as sufficient tension to prevent removal of the nut by hand. More important, the operator will be able to verify the adjustment condition visually from the first moment.
[0196]
[0197] Figure 9B is the detailed view highlighted by the circle 9B of Figure 9A. Figure 9C is a cross-sectional view of the horseshoe protrusion 620 of the washer 700 DTI taken along the line 9C-9C of Figure 9B. Figure 9D is a cross-sectional view of the DTI washer 700 taken along the line 9D-9D of Figure 9A. And Figure 9E is an edge view of the washer 700 DTI shown in Figure 9A.
[0198]
[0199] The following example dimensions are included to more clearly demonstrate the general nature of the 700 DTI washer. These example dimensions are exemplary, not restrictive, of the 700 DTI washer. With reference to Figure 9A, for a 3/4 inch (1.91 cm) DTI 700 inch type "R-fit" washer, the inner diameter 560 is approximately 0.813 inches (2.07 cm) and the supporting diameter 562 The outer diameter is approximately 1,555 inches (3.95 cm) The diameter of the imaginary circle 624 along which the horseshoe protuberances (620) are arranged is approximately 1,441 inches (3,660 cm.) The radius 558 of the notches 550 is approximately 0.060 inches (0.152 cm).
[0200]
[0201] With reference to Figure 9C, the maximum height 668 of the horseshoe protuberances 620 is approximately 0.040 inches (0.102 cm) at the apex of the horseshoe protuberances 620 located closest to the central hole 512. The height of the horseshoe protrusions 620 gradually decreases as a taper 667 along the width 670 of the horseshoe protuberances 620 until the height is zero, where the horseshoe protuberances 620 meet the first face 514 in the circle 624 imaginary. Also shown in Figure 9C are slits 630 corresponding to the horseshoe protuberances 620. It should be noted, as shown in Figure 9C, that there is no gap between the slits 630 and the horseshoe protuberances 620.
[0202]
[0203] With reference to Figure 9D, the outer diameter 576 of the 700 DTI washer is approximately 1.615 inches (4.102 cm) and typically falls in the range of approximately 1.605 to 1.625 inches (4.077 to 4.128 cm). Finally, with reference to Figure 9E, the height 578 of the 700 DTI washer is a minimum of approximately 0.126 inches (0.320 cm).
[0204]
[0205] The 500, 600, 700 DTI washers are typically made of carbon steel alloy according to ASTM F 2437-06. Carbon steels contain carbon as the main alloying element. They are designated by four numbers AISI, and have 0.4% silicon and 1.2% manganese. Molybdenum, chromium, nickel, copper and aluminum are present in small quantities. Impurities such as sulfur and phosphorus are also found in these steels. The carbon steels AISI 1040 and AISI 1050 have a high carbon content and can be hardened by a heat treatment followed by annealing and annealing to achieve a tensile strength of 150 to 250 ksi. Although carbon steel is preferred, the 500, 600, 700 DTI washers can be made of stainless steel, non-ferrous materials, and other alloying materials.
[0206]
[0207] The use of 500, 600, 700 DTI washers constructed in accordance with the embodiments described above is illustrated in Figure 10 with reference to Figures 2A and 2B. Figure 10 shows the stacking of components used for the joining of two or more joining members 110 in an example joining assembly 100. The nut 130, the conventional flat washer 140, and the washer 500, 600, 700 DTI all surround the bolt 120.
[0208] Figure 11 illustrates, in a perspective view, an alternative embodiment of a DTI 600th washer in two stages with two sets of protuberances having more than one standard height. Washer 600a DTI is similar to 600 DTI washer, except that (i) washer 600a DTI does not have any notch 550, and (ii) washer 600a DTI adds a plurality of lobes 650. Although other number could be adequate lobes 650, four example lobes 650 are illustrated. And, although other configurations would be suitable, four lobes 650 are arranged symmetrically on each side of a central A axis so that the center points of the lobes 650 are separated by ninety degrees. Each lobe 650 has an inner radius 652 between the outer diameter 576 of the washer 600a DTI and the lobe 650, a periphery 656, and an outer radius 654 between the inner radius 652 and the periphery 656.
[0209] As illustrated in Fig. 11A, which is a top view of the washer 600a DTI shown in Fig. 11, and as the washer 600 DTI, the washer 600a DTI includes a first set of first protuberances 520a spaced at regular intervals to along the imaginary circle 622 and the horseshoe protuberances 620 separated at regular intervals along the imaginary circle 624. The slits (not shown) corresponding to the first protuberances 520a and the second protuberances 520b could be sized and formed according to any disclosed embodiment.
[0210] The lobes 650 address the need identified by the applicant to increase the distance between the shovel-shaped portions 620a of the punch 800 to form the horseshoe protuberances 620 and the outer diameter 576 of the DTI washer 600a. The location of the horseshoe protuberances 620 in the DTI washer 600a is limited because the horseshoe protuberances 620 need (i) to be appropriately mounted low and to be covered by the standard hardened washer 140 where they can be reformed, but (ii) allow the user see the material 690 indicator as the material 690 indicator is pushed out of the horseshoe protuberances 620. Therefore, as indicated above, the location of the horseshoe protrusions 620 could be adjusted but should be as close as possible to the outer edge 692 of the DTI washer 600a while still providing a flat surface on which the material will appear. 690 indicator when pin 120 is tightened. Said acceptable location of the horseshoe protuberances 620 is too close to the outer diameter 576 of the DTI washer 600a, however, for a shaping and especially an easy handling is using punch 800. In particular, the small distance weakens the punch 800 because the shovel-shaped portions 620a are too close to the outer edge of the punch when the corresponding horseshoe protuberances 620 are close to the outer edge 692 of the DTI washer 600a. This disadvantage is exacerbated when the wall heights of the horseshoe protuberances 620 must be adjusted during forming. On the other hand, it is also undesirable to increase the outer diameter 576 of the DTI 600a washer.
[0211]
[0212] As reflected in the DTI 600a washer, the lobes 650 provide a solution to the identified disadvantage by increasing the amount of material surrounding the horseshoe protuberances 620. Said increase is achieved by extending the annular body 510 beyond the outer edge 692 in the area proximate the horseshoe protuberances 620. The lobes 650 help to reduce the volume of existence of necessary raw material, because some of the material used to form the lobes 650 can be found within the circumferential gaps around which the outside diameter 576 of the DTI 600th washer is stamped. . The lobes 650 also improve the effectiveness of the 600th DTI washer, because the lobes 650 create a "platform" or a "cover" over which the indicator material 690 can flow. Thus, the lobes 650 improve the visibility of the indicator material 690 when extruded and is disposed on the flat projecting surface of the lobes 650. The user or installer can more easily see that the tensioning of the pin 120 has been completed.
[0213]
[0214] The following example dimensions are included to more clearly demonstrate the general nature of the DTI 600a washer. These example dimensions are exemplary, not restrictive, of the 600th DTI washer. With reference to Figure 11A, for a 3/4 inch DTI washer 600a (1.91 cm) of type 325 ksi, the inner diameter 560 is approximately 0.813 inches (2.07 cm) and the diameter 562 of outer support is approximately 1,555 inches (3.95 cm). The length 564 of the first protuberances 520a is approximately 0.375 inches (0.953 cm) and typically falls in the range of 0.370 to 0.380 inches (0.940 to 0.965 cm). The diameter of the imaginary circle 622 along which the first protuberances 520a are arranged is approximately 1,125 inches (2,858 cm); This diameter is called the "tangential diameter of protuberance" or "PTD". The diameter of the imaginary circle 624 along which the horseshoe protuberances 620 are arranged is approximately 1,441 inches (3,660 cm). The inner radius 652 of the lobes 650 is approximately 0.125 inches (0.318 cm), the outer radius 656 of the lobes 650 is approximately 0.063 inches (0.160 cm), and the periphery 656 of the lobes 650 defines a diameter of approximately 1.750 inches (4.445). cm).
[0215]
[0216] The height 572 of the first protuberances 520a is in the range of about 0.035 to 0.055 inches (0.114 to 0.140 cm). The width 574 of the first protuberances 520a is approximately 0.090 ± 0.002 inches (0.229 ± 0.005 cm). The outer diameter 576 of the DTI 600 is approximately 1,620 inches (4,114 cm), and typically falls in the range of approximately 1,436 to 1,625 inches (3,647 to 4,128 cm). The distance 582 by which the first protuberances 520a are offset from their respective slits 640 is approximately 0.025 inches (0.064 cm).
[0217]
[0218] The length 666 of the horseshoe protuberances 620 is approximately 0.240 inches (0.609 cm). The width 670 of the horseshoe protuberances 620 is approximately 0.165 inches (0.419 cm). The thickness 669 of the walls of the horseshoe protuberances 620 is approximately 0.050 inches (0.127 cm). The maximum height 668 of the horseshoe protuberances 620 is approximately 0.040 inches (0.102 cm) at the apex of the horseshoe protuberances 620 located closest to the central hole 512. Finally, the height 578 of the 600th DTI washer is a maximum of about 0.126 inches (0.320 cm). The distance 580 from the second face 516 to the top of the first protuberances 520a is a maximum of approximately 0.240 inches (0.610 cm).
[0219] With reference to Figures 2A and 2B, the DTI washer 10 of the prior art can be replaced by any of the washers 500, 600, 600a, 700 DTI and used to join two or more joint members 110 into the joint assembly 100 of example. The washer 500, 600, 600a, 700 is located on a first side of the joining member 110. An externally threaded member, such as the bolt 120 having the head 122 and the threaded rod 124, is then inserted through the connecting members 110 and the central hole 512 of the washer 500, 600, 600a, 700 DTI so that the supporting surface 126 of the pin 120 makes contact with at least some of the protuberances of the washer 500 , 600, 600th, 700 DTI. Then, an internally threaded member, such as the nut 130, is fixed to the stem 124 of the bolt 120 on a second side of the union members 110 opposite the head 122 of the bolt 120. In some cases, the washer 140 may be located between the second side of the joint members 110 and the nut 130 to isolate the rotation of the nut 130 from the joint members 110.
[0220]
[0221] As the nut 130 is rotated and tightened on the threaded shank 124 of the bolt 120, at least some of the protrusions of the washer 500, 600, 600a, 700 DTI are pushed into their respective slits. For the 500, 600 and 600th DTI washer, the first protuberances 520a disappear and are reduced to a desired distance indicating the desired amount of adjustment tension on the threaded rod 124. For the 700 DTI washer, the horseshoe protuberances 620 disappear or are reduced to a desired distance and the indicator material 690 is emitted at the interface between the washer 140 and the upper part of the first face 514 of the 700 DTI washer. Both of which indicate the achievement of the desired amount of adjustment tension on the threaded rod 124. The use of the 700 DTI washer is then completed, having fulfilled its function in a tight fitting application.
[0222] For the 500, 600 and 600th DTI washer, however, the tightening will continue beyond the achievement of the tight adjustment tension. As shown in FIG. 2B, the tightening is stopped once the gap between the head 122 of the pin 120 and the washer 500, 600 and 600a DTI disappears or is reduced to a desired distance indicating the desired amount of torque. final tension on threaded rod 124. More specifically, the tightening is stopped for the 500 DTI washer when the second protuberances 520b disappear or are reduced to a desired distance indicating the desired amount of final tension on the threaded shank 124. The tightening stops for the washer 600, 600a DTI when the horseshoe protuberances 620 disappear are not reduced to a desired distance and the indicator material 690 emitted at the interface between the washer 140 and the top or first face 514 of the washer 600 , 600th DTI, both of which indicate the achievement of the desired amount of final tension on the threaded rod 124.
[0223]
[0224] The dimensions and material properties of the 500, 600, 600a, 700 DTI washer (and for the 600, 600a, 700 DTI washer, the dimensions and material properties of the indicator material 690) determine how much tension is required to push the protuberances 520a , 520b, 620 back to their respective slits 630, 640 (and for the washer 600, 600a, 700 DTI, to issue the material 690 indicator). The slits 630, 640 may be at least partially filled as a result of the protuberances 520a, 520b, 620 being pushed back into the annular body 510, and they do not perform any useful function in the operation of the washer 500, 600, 600a , 700 DTI. Rather, the slits 630, 640 are a result of material displacement during the forming operation that creates the protuberances.
[0225]
[0226] As shown in Figures 2A and 2B, the joining assembly 100 includes one or more adjacent joining members, for example the first (or upper) joining member 110 adjacent to a second (or lower) joining member 110. . It will be understood that "adjacent" as used herein does not mean directly adjacent.In other words, one or more additional components may be disposed between the first joining member 110 and the second joining member 110, for example a third connecting member, space, etc. The joining assembly 100 further includes an opening formed through the first joining member 110, and the second joining member 110. The opening may be formed in the first joining member 110 and in the second joining member 110 independently or simultaneously, and the opening may have a uniform or non-uniform diameter For example, the opening may have a larger or smaller diameter in the first joining member 110 than in the second member 110. An embodiment of the washer 500, 600, 600a, 700 DTI described above is placed in the first connecting member 110 with the second face 516 of the washer. 500, 600, 600a, 700 DTI adjacent to a support surface of the first joining member 110. The supporting surface is the surface of the first joining member 110 opposite the second surface adjacent the second joining member 110. The central hole 512 of the washer 500, 600, 600a, 700 DTI is aligned with the opening. It will be understood that one or more washers, plates, or other elements may also be placed between the first joint member 110 and the washer 500, 600, 600a, 700 DTI, but is not required.
[0227]
[0228] As indicated above, the washers 500, 600, 600a, 700 DTI can include any number of protuberances 520a, 520b, 620 and slits 630, 640, and the protuberances 520a, 520b, 620 and the slits 630, 640 can have any suitable size and shape. Typically, the protuberances 520a, 520b, 620 and their corresponding slits 630, 640 will be of approximately equal shape and dimension. In other embodiments the protrusions 520a, 520b, 620 may be smaller than their corresponding slits 630, 640. In another exemplary embodiment, the washer 500, 600, 600a, 700 DTI includes protuberances 520a, 520b, 620 which they are conical in such a way that the mass is concentrated along a central region between the walls outer sides of the protuberances 520a, 520b, 620. The protuberances 520a, 520b, 620 and their corresponding slits 630, 640 may be aligned, or offset, as desired for a particular application.
[0229]
[0230] The washers 500, 600, 600a, 700 DTI offer new devices to make possible the adaptation of an existing device for uses never previously considered. The 500, 600, 600a, 700 DTI washers incorporate beneficial or necessary geometric shapes to measure the bolt tension more precisely what alternative resistant techniques. The 600, 600a, 700 DTI washers allow the in case of the action of the indicator material 690 and the release of the indicator material 690 when a fastener is properly tightened, providing a visual and permanent indication that the joint assembly 100 has been properly tightened.
[0231]
[0232] The manufacturing processes of the 500, 600, 600a, 700 DTI washers include processes never previously used to manufacture DTI washers. The processes allow the 500, 600, 600a, 700 DTI washers to incorporate geometric shapes that could not have been previously manufactured. The methods of using washers 500, 600, 600a, 700 DTI include previously never used methods.
[0233]
[0234] The various embodiments shown in the 500, 600, 600a, 700 DTI washers offer many advantages over the existing DTI washers. For example and as outlined above, the existing Squirter® DTI washer (disclosed in U.S. Patent No. 5,931,618) has an indicator material located in slits and channels formed in the bottom or second surface (opposite the top or top surface). from which protuberances protrude). The channels lead from the slits to the outer diameter of the DTI washer. The existing Squirter® DTI washer suffers from major design defects.
[0235]
[0236] A major problem with the design is that the indicator material is placed in the slots in the lower surface of the DTI and is channeled from the slits to the outside diameter. The surface condition of the joining member 110 (typically steel) or intervening component) after which the DTI washer is placed during installation can vary quite dramatically from a very smooth polished surface to a coarse, rough and non-uniform surface. The variability in the surface roughness of the joining member 110 (or the intervening component) is matched to the variability at the point at which the indicator material is emitted from the DTI washer. This variability gives incorrect information to the operator, because the indicator material can be issued too early to be very helpful in some applications, while in other applications the material Indicator may not be issued at all or may be issued incompletely even on a tight bolt just before it breaks.
[0237]
[0238] In contrast, the washers 600, 600a, 700 DTI place the indicator material 690 on the first face 514 (ie the upper part) of the annular body 510 from which the horseshoe protuberances 620 extend. The first face 514 of the washers 600, 600a, 700 DTI is always placed against a predictable hard and smooth surface; typically, the lower face of the head 122 of a pin 120 or of a conventional washer 140. Therefore, the location of the indicator material 690 on the first face 514 substantially improves the accuracy and repeatability of the information provided to the operators by the washers 600, 600a, 700 DTI. No DTI washer known to date offers a feature on the top surface that can act as a "well" and contain or confine the indicator material for extrusion or subsequent emission once the DTI washer is placed under load and flattened.
[0239]
[0240] Various shapes of the horseshoe protuberances 620 were considered. The specific shape of the horseshoe extrusion 620 was selected as an ideal balance between the strength and durability required of the tools that produce the 600, 600a, 700 DTI washers, while simultaneously directing and limiting the material flow 690 indicator in the most beneficial and controlled way. The horseshoe protuberances 620 located on the first face 514 of the washers 600, 600a, 700 DTI are protuberances, similar to the protrusions that measure the load of the bolt. But the main function of horseshoe protuberances 620 is not resistance; Rather, the main function of the horseshoe protuberances 620 is to contain the indicator material 690 and direct the indicator material 690 toward the outer diameter as a visual signal that the bolt has been tightened.
[0241] As noted above, there is another problem for conventional DTI washers. The existing DTI washers seek to ensure that the fasteners have been properly tightened after the final installation. There has not been any device that focuses first on making sure that a clamped joint has been adjusted, or properly compacted in a firm contact, before the final tightening. The washers 500, 600, 600a DTI present a solution, however, to this limitation associated with the existing DTI washers. The washers 500, 600, 600a DTI use protuberances 520a, 520b, 620 of different heights and resistances to allow functionality in two stages. The first set of weaker and taller protuberances 520a deform and flatten markedly upon application of the comparatively small load required to tighten a joint assembly 100 in firm contact. Subsequently, the second set of stronger and shorter protrusions 520b, 620 provide the additional strength needed to allow the 500, 600, 600th DTI washer to indicate the achievement of the minimum specified final preload before the total collapse of the protuberances 520b, 620.
[0242]
[0243] The horseshoe protuberances 620 of the washers 600, 600a DTI work in conjunction with the first higher protuberances 520a. An important feature of the horseshoe protrusions 620 is that, although they are protuberances, they are not as high as the first (major) protuberances 520a that function to measure the bolt load. As the bolt load increases during tightening, the first protuberances 520a are compressed. During this pin tightening step, the horseshoe protuberances 620 do nothing because they are shorter and do not contact another structure. Once the tightening of screws has approximated the point at which the bolt 120 is approaching the target minimum specified tension, however, the first protuberances 520a have been compressed sufficiently to allow contact of the horseshoe protuberances 620 with the flat hardened surface of the bottom of the head 122 of the pin 120 or the conventional washer 140. This contact and the shape of the horseshoe protuberances 620 results in a forced emission of the indicator material 690 towards the open side of the horseshoe. Therefore, as the tightening of the bolt approaches the final specified loads, only then the indicator material 690 is emitted and indicates that bolt tightening has taken place.
[0244]
[0245] An application for the 500, 600, 600th DTI washers is to overcome a limitation related to the structural bolt tightening system introduced by LeJeune Bolt Company and known as the "TNA clamping system." The TNA clamping system uses a tightening in two stages, the first stage of which performs a tight adjustment operation controlled by torque The second stage performs the final tightening operation controlled by angle See US Patent Application Publication No.
[0246] 2014/0048299 entitled "Torque-angle structural fastening system" presented by Chad M. Larson of the LeJeune Bolt Company.
[0247]
[0248] In neither of the two stages the TNA clamping system provides a visual indication that the operation has been completed. The DTI washers 500, 600, 600a take care of both the adjustment and the final tightening to provide a clear visual and measurable reduction in the spacing between the protuberances 520a, 520b, 620 and the head 122 of the pin 120 both in the adjustment stages and in the final tightening. Therefore, the washers 500, 600, 600a DTI can be used with the fastening system TNA to improve the operation of the fastening system TNA. Specifically, the visual indication of tight adjustment of the washers 500, 600, 600a DTI the beneficial one as it provides visual evidence that the first tightening step has been performed and the clamping tool of the clamping system TNA can be changed according to the configuration angle for the final tightening. In addition, after completion of the final tightening by the TNA clamping system, the washers 500, 600, 600a DTI demonstrate that the joint assembly 100 has been fully tightened.
[0249] In summary, one or more of the 500, 600, 600a, 700 DTI washers disclosed above offer some or all of the following listed advantages:
[0250]
[0251] (1) The protuberances 520a, 520b and 620 have different heights, resistances and shapes allowing to perform different functions.
[0252]
[0253] (2) The uniquely shaped horseshoe protrusions 620 encapsulate and precisely guide the indicator material 690.
[0254]
[0255] (3) The protuberances 620 emit in the indicator material 690 just as the bolt 120 approaches the appropriate tension, and not continuously and prematurely as in the existing DTI washers.
[0256]
[0257] (4) Each of the 500, 600, 600a, 700 DTI washers provides a clear visual indication of a tight fit.
[0258]
[0259] (5) DTI 500, 600, 600a washers provide a clear visual indication of the final tension.
[0260]
[0261] (6) The protuberances 520a, 520b and 620 have geometric shapes and dimensions that improve their function.
[0262]
[0263] (7) Each of the 500, 600, 600a, 700 DTI washers show durability during packaging, shipping and storage.
[0264]
[0265] In a further summary, one or more of the 500, 600, 600a, 700 DTI washers disclosed above have one or all of the following uses and applications. First, the 500, 600, 600a, 700 DTI washers provide visual proof that the adjustment has been achieved. Second, the DTI 500, 600, 600a washers provide visual proof that the adjustment has been achieved, and subsequently and separately that the final tension has been achieved. Third, the 500, 600, 600a, 700 DTI washers can be used in combination with the TNA clamping system. Fourth, the DTI washers 500, 600, 600a provide a clear visual signal that the DTI washers 500, 600, 600a have been properly flattened, and therefore, the joint assembly 100 is properly and adequately tightened to full tightening applications. Finally, the 700 DTI washer can be used to provide a clear visual indication that an adjustment has been achieved in joint assemblies 100 for which only a tight fit is required.
[0266]
[0267] In a further summary, one or more of the 500, 600, 600a, 700 DTI washers disclosed above accomplish some or all of the following listed purposes and functions:
[0268]
[0269] (a) allow a DTI washer to perform two or more load measurements accurately;
[0270]
[0271] (b) allowing a DTI washer to perform two or more different operations as a function of the plastic deformation of the protuberances;
[0272]
[0273] (c) using protuberances of a unique shape and of a variable height to allow visual indication that the joint assembly 100 has been properly tightened;
[0274]
[0275] (d) overcome the geometric limitations of the standard DTI washers through protruding shapes that protect the indicator material 690 during handling, packaging, shipping and storage so that the indicator material 690 can visually indicate when the tension of the indicator has been achieved. proper bolt;
[0276]
[0277] (e) overcome other limitations of existing DTI washers;
[0278]
[0279] (f) overcoming the design flaws of conventional Squirter® DTI washers that suffer from the indicator material giving premature or otherwise inaccurate visual indications that a bolt is properly tightened;
[0280]
[0281] (g) through a geometric design, the delay in the emission of the indicator material 690 until the joint assembly 100 has been properly tightened;
[0282]
[0283] (h) capturing the indicator material 690 so that during use, the indicator material 690 is located against a relatively smooth surface (e.g., washer 140 or head 122 of pin 120) which ensures predictable, repeatable and accurate results; Y
[0284]
[0285] (i) provide visual proof that the tight fit condition has been achieved in the joint assembly 100 and that the connection is in firm contact.
[0286]
[0287] Although illustrated and described above with reference to certain specific embodiments and examples, the present invention, however, is not intended to be limited to the details shown. Rather, various modifications can be made to the details within the scope and range of equivalents of the claims and without departing from the spirit of the invention. It is expressly intended, for example, that all the ranges listed in In this document, include within your scope all the most limited ranges that fall within the broadest ranges. It is also expressly intended that the steps of the methods of using various devices disclosed above are not restricted to any particular order.

权利要求:
Claims (20)
[1]
1. A direct voltage indicating washer, comprising:
an annular body including a central hole, a circumference, an outer edge, a first face and a second face opposite the first face; Y
one or more U-shaped horseshoe protrusions having a height, an edge closest to the central hole, and an opening directed toward the outer edge, the horseshoe protrusions being integral with the annular body and minted and partially cut from the body annular to project from the first face of the annular body and leave one or more corresponding slits in the second face of the annular body.
[2]
2. The direct tension indicator washer of claim 1, wherein each of the one or more horseshoe protrusions are radially offset from one or more corresponding slits.
[3]
3. The direct tension indicator washer of claim 1, wherein each of the one or more horseshoe protuberances has a maximum height at its apex and tapers gradually from the apex to a height zero at the opening where the protrusion of Horseshoe meets the first face of the ring body.
[4]
4. The direct tension indicating washer of claim 1 further comprising an indicator material initially encapsulated and contained within the area on the first face defined by each of the one or more horseshoe protuberances, wherein the horseshoe protuberances release and direct the indicator material out of the openings in the horseshoe protuberances and towards the outer edge of the annular body when the horseshoe protuberances collapse under a predetermined force.
[5]
5. The direct tension indicator washer of claim 4, wherein the indicator material, when initially encapsulated and contained, completely covers the area on the first face defined by each of the one or more horseshoe protuberances.
[6]
6. The direct tension indicator washer of claim 4, wherein the indicator material is an extrudable elastomeric solid.
[7]
The direct voltage indicator washer of claim 4, wherein each of the one or more horseshoe protuberances are located proximate the outer edge of the annular body.
[8]
The direct voltage indicating washer of claim 4, wherein the release of the indicator material is adapted to give an operator a visual signal that a predetermined force has been achieved.
[9]
The direct voltage indicator washer of claim 8, wherein the predetermined force is adapted to correspond to a predetermined tension in a fastener engaged, directly or indirectly, by the direct tension indicator washer.
[10]
The direct voltage indicator washer of claim 9, wherein the predetermined tension corresponds to a tight fit of the fastener.
[11]
The direct-tension indicator washer of claim 1 further comprising one or more additional protrusions having a height greater than the height of the horseshoe protuberances, the additional protuberances being integral with the annular body and minted and partially cut from the body ring to protrude from the first face of the annular body and leave one or more corresponding additional slits in the second face of the annular body opposite the first face.
[12]
12. The direct tension indicator washer of claim 1 further comprising notches disposed about the circumference of the annular body, the notches that distinguish the direct tension indicator washer from other washers and provide a location for the operator to place a tool.
[13]
The direct tension indicator washer of claim 1, wherein the one or more horseshoe protuberances are formed using a punch and a punch, the punch having one or more shovel-shaped portions, each of which forms an individual horseshoe bulge.
[14]
14. The direct tension indicator washer of claim 1, wherein the annular body has a plurality of lobes to increase the amount of material surrounding the horseshoe protrusions by extending the annular body beyond the outer edge in the vicinity of the annular body. the horseshoe protuberances.
[15]
15. A joint assembly comprising:
at least one joint member having an opening;
a direct voltage indicating washer disposed adjacent the at least one joining member, the direct tension indicating washer having:
(a) a body location that includes a central hole, aligned with the opening of the at least one joining member, an outer edge, a first face and a second face opposite the first face, and
(b) one or more U-shaped horseshoe protrusions having a height, a vertex as close to the central hole, and an opening directed towards the outer edge, the horseshoe protrusions being integral with the annular body and minted and cut partially of the annular body for protruding from the first face of the annular body and leaving one or more corresponding slits in the second face of the annular body;
a shank in the opening of the at least one connecting member and the central hole of the annular body;
a first support member either fixed to the stem or disposed loosely around the stem on a first side of the at least one attachment member, wherein the first support member has a support surface in contact with the one or more protuberances of the direct voltage indicator washer; Y
a second support member either fixed to the stem or disposed loosely around the stem on a second side of the at least one attachment member opposite the first side, wherein the second support member has a support surface in contact with the second face of the at least one joining member.
[16]
16. A direct voltage indicating washer comprising:
an annular body includes a central hole, a circumference, a first face, and a second face opposite the first face;
a set of first protuberances having a first height and which are integral with the annular body and wedged and partially cut from the annular body to protrude from the first face of the annular body and leave one or more corresponding first slits in the second face of the annular body ; Y
a set of second protrusions having a second height smaller than the first height and which are integral with the annular body and wedged and partially cut from the annular body to protrude from the first face of the annular body and leave one or more corresponding second slits in the second face of the ring body,
wherein at least one of the first protuberances or the second protrusions are radially offset from their corresponding slits.
[17]
17. The direct voltage indicating washer of claim 16, wherein the first protuberances are located closer to the central hole and the second protuberances are located farther from the central hole.
[18]
18. The direct-tension indicator washer of claim 16, wherein the first protuberances are adapted to indicate that such tight fit of a joint assembly has been achieved and the second protuberances are adapted to indicate that the final tightening of the joint has been achieved. union set.
[19]
19. The direct tension indicator washer of claim 16 further comprising notches disposed around the circumference of the annular body, the notches that distinguish the direct tension indicator washer from other washers and that provide a location for an operator to place a tool .
[20]
20. A joint assembly comprising:
at least one joint member having an opening;
a direct voltage indicating washer disposed adjacent the at least one joining member, the direct tension indicating washer having:
(a) an annular body including a central hole, dressed with the opening of the at least one meeting member, a circumference, a first face, and a second face opposite the first face,
(b) a set of first protuberances that have a first height and are integral with the annular body and wedged and partially cut from the annular body to protrude from the first face of the annular body and leave one or more corresponding first slits in the second face of the ring group, and
(c) a second set of protuberances having a second height less than the first height and which are integral with the annular body and wedged and partially cut from the annular body to protrude from the first face of the annular body and leave one or more second slits corresponding in the second layer of the annular body, wherein at least one of the first protuberances to the second protrusions are radially offset from their corresponding slits;
a shank in the opening of the at least one connecting member and the central hole of the annular body;
a first support member either fixed to the stem or disposed loosely around the stem on a first side of the at least one joint member, wherein the first support member has a support surface in contact with at least the first protuberances of the direct voltage indicator washer; Y
a second support member either fixed to the stem or disposed loosely around the stem on a second side of the at least one attachment member opposite the first side, wherein the second support member has a support surface in contact with the second side of the at least one joining member.

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GB2561459A|2018-10-17|

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US20180291945A1|2018-10-11|

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GB201905160D0|2019-05-29|

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AU2018202432A1|2018-10-25|

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ES2728720B2|2020-06-10|

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ES2699362B2|2019-11-25|

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GB201806005D0|2018-05-23|

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GB2574922A|2019-12-25|

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ES2728720A2|2019-10-28|

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优先权:

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申请号 | 申请日 | 专利标题

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US201762484017P| true| 2017-04-11|2017-04-11|

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US15/946,142|US10738817B2|2017-04-11|2018-04-05|Self-indicating direct tension indicator|ES201930403A| ES2728720B2|2017-04-11|2018-04-09|DIRECT TENSION INDICATOR WASHER|