• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a positive locking fastening comprising: - a screw (1) having a radial hole (120) at a threaded portion (12); - a nut (2) having a clamping portion (21); - a cap (3); - a pin (4). The cap (3) has a locking portion (31) for covering the threaded portion (12) and a locking portion (30) for meshing with a clamping portion (21) of the nut (2). . The locking portion (31) of said cap has at least one pair of diametrically opposed apertures (32) adapted to allow alignment of a pair of apertures (32) with the radial hole (120) to permit inserting the pin (4) into said radial hole and openings and thereby locking the attachment irrespective of the relative position of the nut (2) relative to the screw (1). The invention also relates to a method for implementing the binding according to the invention.
    公开号:FR3067767A1
    申请号:FR1755416
    申请日:2017-06-15
    公开日:2018-12-21
    发明作者:Mohamed Abou Halima;Loic MEIFFRE
    申请人:LISI Aerospace SAS;
    IPC主号:
    专利说明:

    POSITIVE LOCK FIXING
    TECHNICAL AREA
    The invention belongs to the field of mechanical fasteners.
    More particularly, the invention belongs to the field of positive locking mechanical fasteners.
    STATE OF THE ART
    A problem raised in the fixing of a structural assembly by threaded fasteners is that of loosening in use, generally a consequence of vibrations. Positive locking devices are implemented to solve this problem.
    It is known to use brake wires to avoid loosening of the fasteners by vibration. A disadvantage of such threads is that they do not sufficiently limit the loosening of the fasteners.
    American patent application US 5 360 303 describes a device for locking a nut on a screw. The device comprises a cap placed on the nut and a threaded part of the screw through which a radial hole passes. Holes placed around a circumference of the cap allow a pin to be inserted through the radial hole and holes in the cap when these are aligned.
    The relative position of the cap relative to the nut being limited to a given number of configurations depending on a number of teeth formed in the cap to be engaged on the tips of the nut, a drawback of this solution is that, despite a increased number of positions of the cap relative to the nut, the alignment of the radial hole with one of the holes of the cap is not always possible, depending on the position of the nut after installation of the fixing. It may therefore be necessary to tighten the nut so that the pin can be inserted into the cap and the radial hole, the nut then no longer being tightened to the nominal torque.
    STATEMENT OF THE INVENTION
    The invention proposes to solve the problems of the prior art.
    The invention relates to a cap intended to mesh with a nut and intended to receive a pin, said cap being substantially of revolution around a main axis and comprising:
    a locking portion at a first end, said locking portion defining an interior surface corresponding to a housing intended to mesh with a tightening portion of the nut, of angular period Θ around a main axis of said nut substantially coincident with the main axis of the cap when said cap is placed on said nut;
    a locking portion at a second end, a side wall of said locking portion comprising at least one pair of through openings adapted to receive the pin, said openings of a pair being arranged symmetrically with respect to the main axis, along a direction defined by centers of said pair openings, the openings being similar in dimensions with a height along the direction of the main axis and a length defined by an angular sector φ intended to allow movement of a rectilinear part of the pin when the latter is placed in one of the at least one pair of openings, said openings being located substantially at the same height from said main axis;
    said blocking and locking portions being fixed and integral with each other and said cap being characterized in that the angular sector φ is equal to:
    θ φ = Ν where N denotes a number of pairs of openings.
    In one embodiment, the locking portion comprises at least two pairs of openings and the pairs of openings are arranged so that:
    for each of said pairs of openings, regardless of the position of said cap when the latter is placed on the nut, a pair of openings covers the same single portion of an elementary angular sector, of angular amplitude Θ, said portion being associated with a portion of the elementary pattern of the tightening portion of the nut;
    a meeting of the portions of the elementary angular sector covered by half of the openings of said pairs of openings covers the entirety of said elementary angular sector.
    In one embodiment, the openings are notches.
    In one embodiment, the openings are oblong holes.
    In one embodiment, the locking portion and the locking portion are connected together by a connecting portion.
    In one embodiment, the cap has a tray closing said cap at the second end.
    The invention also relates to a positive locking fastener comprising:
    a screw having a threaded portion having a radial hole passing through said threaded portion;
    a nut intended to be put in place on the screw, said nut comprising a tightening portion, an external surface of which defines in a horizontal plane a profile of angular period θ around a main axis of said nut;
    said binding being characterized in that it further comprises:
    a cap according to the invention, an internal volume of the locking portion being of dimensions defined to contain a free end of the screw projecting from the nut, said cap being moreover intended to mesh with the clamping portion of the nut, the inner surface of the blocking portion forming an imprint complementary to the profile of the clamping portion and the angular sector φ being equal to a fraction of the angular period of said profile;
    a pin having a rectilinear part intended to be inserted into a pair of openings of the cap and into the radial hole of the screw, when said hole and openings are aligned, so as to lock the fixing.
    In one embodiment:
    the nut is a twelve-sided nut defining a star profile with twelve vertices with an angular period of 30 °;
    the cap has two pairs of openings; the angular sector φ is equal to 15 °;
    In one embodiment, the pin has a curved portion capable of matching an outer surface of the locking portion of the cap to hold said pin in place.
    In one embodiment, the pin is a spring pin.
    In one embodiment, a minimum radial dimension of the first part of the peripheral wall is greater than a maximum radial dimension of the threaded portion of the screw.
    The invention also relates to a method of implementing a positive locking fastener according to the invention. The method according to the invention comprises the following steps:
    insertion of the screw into a hole made beforehand in a structural assembly consisting of structural elements to be held together;
    placing the nut on the screw by applying a tightening torque;
    fitting the cap on the tightening portion of the nut; if the radial hole is not aligned with a pair of cap openings, remove the cap in a vertical direction, rotate the cap around its main axis, in a given direction of rotation, by an angle equal to the period angular Θ, then replace the cap;
    insertion of the pin into the aligned radial openings and hole.
    BRIEF DESCRIPTION OF THE FIGURES
    The invention will be better understood on reading the description which follows and on examining the figures which accompany it. These are presented only as an indication and in no way limit the invention.
    FIG. 1A represents an isometric view of a positive locking fastener according to the invention, maintaining a structural assembly, in an exemplary embodiment of the invention in which the cap has two pairs of openings.
    FIG. 1B represents an isometric view with section along the plane (OYZ) of the locking device in the exemplary embodiment of FIG. 1A.
    Figure 2 shows a top view of a twelve-sided nut.
    3 shows a sectional view of the cap along a horizontal median plane of the oblong holes of the locking portion of the cap in the embodiment of Figure 1 A.
    FIG. 4 represents the angular sectors covered by two openings belonging to two pairs of different openings, in an embodiment in which the cap has two pairs of openings.
    FIG. 5 represents a view of the cap in section along a meridian plane.
    Figures 6a; 6c; 6th and 6g represent sectional views along a horizontal plane of the screw and the nut in various orientations of the nut relative to the screw.
    Figures 6b; 6d; 6f and 6h represent sectional views along a median plane of the oblong holes of the locking portion of the cap.
    Figures 7a-7c show the assembly clearances between the various elements of the binding according to the invention.
    Figure 8 shows a sectional view of the cap along a median horizontal plane of the oblong holes of the locking portion of the cap in an exemplary embodiment in which the cap has a single pair of openings.
    FIG. 9 represents a section view of the cap along a median horizontal plane of the oblong holes of the locking portion of the cap in an exemplary embodiment in which the cap has three pairs of openings.
    FIG. 10 represents an isometric view of a cap in an embodiment in which the openings of the cap are notches.
    The figures are block diagrams proposed for a good understanding of the invention and are not necessarily to scale.
    DETAILED DESCRIPTION
    In the description, the terms "horizontal" and "vertical" must be interpreted with reference to the configuration of the elements on the drawings and to an associated orthonormal reference (O; X; Y; Z).
    A "vertical" direction is given by the direction of the axis (OZ).
    A plane parallel to the plane (OXY) is therefore a "horizontal" plane and any axis of such a plane has a horizontal direction.
    Throughout the description, the angles are expressed in degrees.
    With reference to FIGS. 1A and 1B, a fixing comprising a screw 1 and a nut 2 keeps two structural elements fixed to one another forming a structural assembly 5.
    The screw 1 extends along a vertical longitudinal axis Δ and has a head 10, a body 11 and a threaded portion 12 crossed by a radial hole 120, an axis Ai of said radial hole being intersecting and perpendicular to the longitudinal axis Δ. The radial hole 120 is located in a portion of the screw 1 protruding from the nut 2 on the side opposite to the structural assembly 5 when the nut 2 is put in place, near one end of the screw 1, by example at a distance between 1mm and 1cm from said end. The radial hole 120 is of section adapted to the passage of a pin rod which is a priori cylindrical with a circular section.
    When the screw 1 is installed, the nut 2 is screwed onto the threaded portion 12 of the said screw with the application of a nominal tightening torque, so that the structural elements of the structural assembly 5 are held together by the screw 1 and nut 2 with the desired pre-tension force.
    The nut 2 comprises a base 20, in contact with the structural assembly 5, and a tightening portion 21 allowing the application of the tightening torque, by means of a tool comprising a socket of shape complementary to said tightening portion .
    With reference to FIG. 2, the clamping portion 21 has an external face defining, in a horizontal plane, a profile P in the shape of a star with twelve vertices, shown in thick solid line in the figure, said profile thus having a period angular Θ around an axis substantially coincident with the longitudinal axis Δ when the nut 2 is put in place. In the example of embodiment described in the figures, the nut 2 is a hexagonal nut, and the angular period θ of the profile is 30 °.
    After tightening the nut 2 on the screw 1, a cap 3 according to the invention is installed over the nut 2 and the screw 1.
    Referring to Figures 3 and 5, the cap 3 has a locking portion 30 at a first end and a locking portion 31 at a second end.
    The locking 30 and locking 31 portions are fixedly secured to each other, if necessary by means of a connection portion 34.
    The cap 3 determines a hollow shape substantially of revolution around a main axis, which main axis is substantially coincident with the axis Δ of the screw 1 when it is put in place.
    The locking portion 30 determines an interior surface which corresponds to a housing for the nut 2 on which said cap is intended to be placed. This interior surface also has a shape and dimensions so that not only does the locking portion 30 engage on the tightening portion 21 of the nut, but also that the cap 3 rotates with respect to the 'nut 2 is impossible in the engaged position. By rotation impossible, it must be understood without damage to the cap and within the limit of necessary or unavoidable clearances to allow the mounting of the cap taking into account the manufacturing tolerances of the cap 3 and the nut 2.
    The locking portion 30 has for example an inner surface complementary to the outer surface of the tightening portion 21 of the nut.
    A configuration of the cap 3 vis-à-vis the threaded portion 12 and the clamping portion 21 can be modified by vertically removing said cap, by performing one or more rotations of said cap around the axis Δ, d ' an angular pitch of 30 ° equal, in the illustrated example, to the angular period Θ of the profile P of the clamping portion 21, then by replacing the cap 3 vertically. In the exemplary embodiment illustrated in the drawings, there are, by the angular periodicity of the profile P, twelve possible angular positions of the cap 3 on the nut 2, which can be obtained from a given initial angular position, by eleven successive rotations of the cap 3 with a step of 30 ° (or 0 degrees) in a given direction of rotation or in the other.
    The locking portion 31 determines an interior volume whose dimensions, determined by a side wall of said locking portion, are defined to contain a free end of the screw 1 on which the nut 2 is placed.
    In a preferred embodiment, the internal volume of the locking portion 31 is cylindrical with a circular cross section with an axis of the main axis and a diameter greater than the maximum diameter of the threaded portion 12 of the screw 1, for example the maximum diameter of said threaded portion increased by a clearance for placing the cap effortlessly and without damaging the cap and or the thread of the screw 1.
    In the embodiment illustrated in the figures, the locking portion 31 comprises a plate 33 closing the locking portion 31 at the second end, in particular making it possible to stiffen the cap 3 or to seal the attachment. This plate 33 is optional, the interior volume of the locking portion 31 being able to be opened.
    In addition, with reference to Figure 3, the side wall of the locking portion 31 has two pairs of through openings 32 (holes or notches for example). The openings of a pair are arranged symmetrically with respect to the main axis in a direction defined by the centers of said openings of the pair considered. Thus, a first pair determines a first direction carried by an axis A 2 and a second pair determines a second direction carried by an axis A 3 .
    In addition, the openings 32 are all located substantially at the same height on the main axis and the axes A 2 and A 3 form an angle Δφ. In the example illustrated, Δφ is equal to 75 ° in order to guarantee a sufficient canvas between two adjacent openings 32. Depending on the material of the cap, this angle may have other values, as will be understood later. In this example, all the openings 32 are similar in size and with a height along the direction of the main axis and a length defined by an angular sector φ in the median horizontal plane. The dimensions of the openings 32 are adapted to allow the insertion of a straight portion of a pin 4. The angular sector φ is determined with respect to the angular period θ of the periodic profile P of the tightening portion 21 of the nut 2, depending on the relationship:
    Θ φ = 2
    In the embodiment illustrated in the figures, the openings 32 are oblong holes, the angular period θ is equal to 30 °, the angular sector p is equal to 15 °. Thus, the two adjacent openings 32 cover the same angular sector as a section of the nut.
    When the cap 3 is placed on the threaded portion 12 of the screw 1 and the tightening portion 21 of the nut 2, the straight portion of the pin 4 passes through the radial hole 120 and two diametrically opposite openings 32 of a pair openings, a curved part of the pin 4 bearing on an outer surface of the second part of the cap 3 to maintain said pin in said cap. A shape of the curved part is adapted so as to match the outer surface of the cap 3. Advantageously, the pin used is a spring pin.
    To allow the insertion of the pin 4 in the cap 3, the axis Ai of the radial hole should be substantially coincident with one of the axes A 2 or A 3 of the pairs of openings, that is to say say that an angle formed by the axis Ai with one of the axes A 2 or A 3 is less than or equal to the angular sector φ, equal to Θ / 2 in the example illustrated.
    The choice of the angular sectors φ covered by the openings 32 and of the angle Δφ between directions of the two pairs of openings 32 is such that, whatever the position of the cap on the nut, and to the manufacturing tolerances, a first angular sector φ Ί of a first pair of openings is always placed opposite the same first half-period of 15 ° of a flange of the nut 2, and the second angular sector φ 2 of the second pair of openings 32 is always placed in front of the same second half-period of 15 ° with a flange of the nut, the first and the second half-period covering different portions of the same pattern, and the whole half-periods covering a period Θ.
    FIG. 4 illustrates a relative position of the openings 32 of the cap 3 relative to the tightening portion 21 of the nut 2. In an initial configuration of the cap 3 with respect to the nut 2, in the exemplary embodiment illustrated in FIG. 4, the angular sector φ Ί of 15 ° makes it possible to cover with the pin 4 inserted in the pair of openings 32 associated with the axis A 2 an angular sector of 15 ° corresponding to a first half-period of an elementary pattern of the profile P, for example a half-period comprising the top of a flange of the nut. The second angular sector φ 2 of 15 ° corresponds to a second half-period of said elementary pattern, for example the half-period comprising a hollow of a flange of the nut.
    It is therefore possible, by a suitable rotation of the cap 3, to find a position of the cap 3 making it possible to substantially align the axis Ai with one of the axes A 2 or A 3 without modifying the position of the nut relative to when drilling the screw radially. The angular sectors φ covered by the holes 32 as well as the angle Δφ between the directions of the two pairs of holes 32 therefore make it possible to find a position of the cap 3 allowing the insertion of the straight part of the pin 4 whatever the relative orientation of the radial hole 120 of the screw 1 with respect to the nut 2.
    It should be noted that this reasoning is valid for other values of the angle Δφ, for example 45 °, 105 ° or 135 °. These values correspond to odd integer multiples other than 1 of the angular half-period equal to Θ / 2. For the examples cited, a rotation of one step, three steps or four steps of 30 ° respectively makes it possible to cover a given elementary angular sector.
    Figures 6a to 6d show the extreme positions of the cap 3 relative to the pin 4 for an angle formed between the screw 1 and the nut 2 varying from -7.5 ° to 7.5 °, this angle being defined as andp between the axis Ai of the radial hole 120 and a horizontal axis intersecting the axis Δ and passing through a reference point M of the clamping portion 21. This first range of values can be entirely covered by a first pair of openings 32.
    Figures 6e to 6h show the extreme positions of the cap 3 relative to the pin 4 for an angle formed between the screw 1 and the nut 2 varying from 7.5 ° to 22.5 °. This second range of values cannot be covered by the first pair of openings 32, the cap 3 is therefore rotated in a single step so that the second pair of openings 32 is substantially aligned with the radial hole 120. The second pair of openings 32 covers this second range of values, and thus a range of 30 ° has been successfully covered. Due to the periodicity of the profile of the tightening portion 21, it is therefore possible to put the cap 3 in place for any orientation of the nut 2 relative to the screw 1.
    The cap 3 allows the locking of the nut 2, and the pin 4 allows the locking of the screw 1 and the cap 3. The locking device according to the invention thus allows a positive locking of the fixing, the presence of the cap 3 and of the pin 4 making it possible to limit the possible loosening of the nut 2 with respect to the screw 1.
    With reference to FIGS. 7a-7c, there are clearances inherent in mounting the binding according to the invention. FIG. 7a illustrates the maximum angular play existing between the nut 2 and the cap 3. FIG. 7b illustrates the maximum play existing between the pin 4 and the cap 3. FIG. 7c illustrates the maximum play existing between the pin 4 and the screw 1.
    In practice, the binding according to the invention has a maximum loosening of approximately 27 ° due to the existence of these clearances, corresponding to a maximum loss of prestressing of approximately 9%. The term “loss of maximum prestressing” is understood to mean the loss of prestressing in the most pessimistic scenario of loosening of the fastening, ie maximum loosening.
    It should be noted that this reasoning is not limited to the exemplary embodiment illustrated but can extend to any profile P of the clamping portion 21 having an angular period θ strictly less than 90 °. An advantage of the invention is that it allows positive locking of the fixing without having to modify the nominal tightening of the nut 2 during its installation, to allow alignment of the radial hole 120 with the openings 32 of the cap 3 .
    Also, this reasoning can be generalized to a number N of pairs of openings 32 greater than or equal to 1, the angular sector φ then being equal to:
    Θ φ = N
    An angle Δφ ρ , where p is an integer between 1 and N-1, between a direction of a p-th pair of holes 32 and a direction of a pair of reference holes is such that:
    for each of the pairs of openings 32, whatever the position of the cap 3 when the latter is put in place on the nut 2, a pair of openings 32 covers the same single portion of an elementary angular sector d 'angular amplitude Θ, said portion being associated with a portion of the elementary pattern of the tightening portion 21 of the nut 2;
    a meeting of the portions of the elementary angular sector covered by half of the openings of said pairs of openings covers the entirety of said elementary angular sector.
    To obtain these two conditions, the angle between two directions of pairs of openings 5 is for example of the form:
    where 1 <p <N-1.
    It should be noted that two pairs of openings must not be separated by an angle multiple of the angular period sans, otherwise one of the two pairs would be redundant, since the two pairs of openings would then be associated with the same portion of the elementary angular sector.
    The number of pairs of openings 32 can for example be equal to 1, as illustrated in FIG. 8.
    The number of pairs of openings 32 can also be greater than or equal to 3, as illustrated in FIG. 9 showing a cap 3 having 3 pairs of openings. In this example, the angular period θ is 30 °, the angular sector φ is 10 °. A first pair of holes 32 is separated from a pair of reference holes with an angle Δφι of 40 °. A second pair of holes is separated by an angle Δφ 2 of 110 ° from said pair of reference holes.
    The openings 32 can also be notches, as illustrated in FIG. 10.
    权利要求:
    Claims (12)
    [1" id="c-fr-0001]
    1. Cap (3) intended to mesh with a nut (2) and intended to receive a pin (4), said cap being substantially of revolution around a main axis and comprising:
    a locking portion (30) at a first end, said locking portion defining an interior surface corresponding to a housing intended to mesh with a tightening portion (21) of the nut (2), of angular period θ around a main axis of said nut substantially coincident with the main axis of the cap (3) when said cap is placed on said nut;
    a locking portion (31) at a second end, a side wall of said locking portion comprising at least one pair of through openings (32) adapted to receive the pin (4), said pair openings being arranged symmetrically relative to the main axis, in a direction defined by the centers of said openings of the pair, the openings (32) being similar in dimensions with a height along the direction of the main axis and a length defined by an angular sector φ intended to allow movement of a rectilinear part of the pin (4) when the latter is placed in one of the at least one pair of openings (32), said openings being located substantially at the same height of said main axis;
    said blocking and locking portions being fixed and integral with each other and said cap being characterized in that the angular sector φ is equal to:
    Θ φ = N where N denotes a number of pairs of openings.
    [2" id="c-fr-0002]
    2. Cap (3) according to claim 1, characterized in that the locking portion (31) has at least two pairs of openings (32) and in that the pairs of openings (32) are arranged so than :
    for each of said pairs of openings, regardless of the position of said cap when the latter is placed on the nut (2), a pair of openings (32) covers the same single portion of an angular sector elementary, of angular amplitude Θ, said portion being associated with a portion of the elementary pattern of the tightening portion (21) of the nut (2);
    a meeting of the portions of the elementary angular sector covered by half of the openings of said pairs of openings covers the entirety of said elementary angular sector.
    [3" id="c-fr-0003]
    3. Cap (3) according to claim 1 or claim 2 characterized in that the openings (32) are notches.
    [4" id="c-fr-0004]
    4. Cap (3) according to claim 1 or claim 2 characterized in that the openings (32) are oblong holes.
    [5" id="c-fr-0005]
    5. Cap (3) according to any one of the preceding claims, characterized in that the locking portion (30) and the locking portion (31) are connected to each other by a connection portion (34).
    [6" id="c-fr-0006]
    6. Cap (3) according to any one of the preceding claims, characterized in that it comprises a plate (33) closing said cap at the second end.
    [7" id="c-fr-0007]
    7. Positive locking fastening comprising:
    a screw (1) having a threaded portion (12) having a radial hole (120) passing through said threaded portion;
    a nut (2) intended to be put in place on the screw (1), said nut comprising a tightening portion (21) whose external surface defines in a horizontal plane a profile (P) of angular period θ around a main axis of said nut;
    said binding being characterized in that it further comprises:
    a cap (3) according to any one of claims 1 to 6, an internal volume of the locking portion (31) being of defined dimensions to contain a free end of the screw (1) projecting from the nut (2) , said cap being moreover intended to mesh with the tightening portion (21) of the nut (2), the internal surface of the locking portion (30) forming an imprint complementary to the profile (P) of the portion tightening (21) and the angular sector φ being equal to a fraction of the angular period of said profile (P);
    a pin (4) having a rectilinear part intended to be inserted into a pair of openings (32) of the cap (3) and into the radial hole (120) of the screw (1), when said hole and openings are aligned, so as to lock the binding.
    [8" id="c-fr-0008]
    8. Positive locking fastener according to claim 7 characterized in that:
    the nut is a twelve-sided nut defining a star profile (P) with twelve vertices with an angular period of 30 °;
    the cap (3) has two pairs of openings (32); the angular sector φ is equal to 15 °;
    the angular offset ΔψΊ between the pairs of openings (32) is equal to 75 °.
    [9" id="c-fr-0009]
    9. A binding according to claim 7 or claim 8 characterized in that the pin (4) has a curved portion adapted to match an outer surface of the locking portion (31) of the cap (3) to hold said pin in place.
    [10" id="c-fr-0010]
    10. Attachment according to any one of claims 7 to 9 characterized in that the pin (4) is a spring pin.
    [11" id="c-fr-0011]
    11. Fastening according to any one of claims 7 to 10 characterized in that a minimum radial dimension of the first part of the peripheral wall (31) is greater than a maximum radial dimension of the threaded portion (12) of the screw (1).
    [12" id="c-fr-0012]
    12. Method for implementing a positive locking fastener according to any one of claims 7 to 11 characterized in that it comprises the following steps:
    insertion of the screw (1) into a hole previously made in a structural assembly (5) consisting of structural elements to be held together;
    placing the nut (2) on the screw by applying a tightening torque;
    5 - fitting of the cap (3) on the tightening portion (21) of the nut (2);
    if the radial hole (120) is not aligned with a pair of openings (32) of the cap (3), withdrawal of the cap (3) in a vertical direction, rotation of the cap around its main axis, in one direction of
    10 given rotation, by an angle equal to the angular period Θ, then replacing the cap (3);
    insertion of the pin (4) into the openings (32) and radial hole (120) aligned.
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    同族专利:
    公开号 | 公开日
    CN110998107B|2021-11-05|
    FR3067767B1|2019-07-19|
    US20200149580A1|2020-05-14|
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    FR615364A|1926-03-18|1927-01-06|Notched ring, intended to eliminate the slots of the nuts of pin bolts|
    FR825722A|1936-10-19|1938-03-11|Device preventing the nuts from loosening|
    US2365433A|1944-09-06|1944-12-19|Joseph R Polizzi|Lock nut|
    FR1557874A|1968-01-04|1969-02-21|
    JPH01146009U|1988-03-31|1989-10-06|
    EP0576871A1|1992-07-01|1994-01-05|Deutsche Aerospace Airbus Gesellschaft mit beschränkter Haftung|Security device|
    JPS5435247Y2|1976-12-21|1979-10-26|
    US6293744B1|2000-06-14|2001-09-25|Illinois Tool Works Inc.|Fastener system including a fastener and a cap|
    CA2778882C|2009-11-13|2020-04-07|Michael Ferman|Wheel nut assembly|
    CN104879366A|2014-02-28|2015-09-02|神讯电脑有限公司|Anti-penetration nut|
    GB2539218A|2015-06-09|2016-12-14|Airbus Operations Ltd|A pin assembly|
    US9714675B2|2015-10-13|2017-07-25|Sps Technologies, Llc|Locknut assembly|US10830558B2|2018-09-10|2020-11-10|James Matthew Underwood|Buttstock lock release lever pin assembly|
    US11078947B2|2018-09-11|2021-08-03|The Boeing Company|Combustion quenching fastener caps with holes|
    US11022164B2|2018-09-11|2021-06-01|The Boeing Company|Double shell fastener caps|
    法律状态:
    2018-12-21| PLSC| Publication of the preliminary search report|Effective date: 20181221 |
    2020-06-30| PLFP| Fee payment|Year of fee payment: 4 |
    2021-06-30| PLFP| Fee payment|Year of fee payment: 5 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1755416A|FR3067767B1|2017-06-15|2017-06-15|POSITIVE LOCK FASTENING|
    FR1755416|2017-06-15|FR1755416A| FR3067767B1|2017-06-15|2017-06-15|POSITIVE LOCK FASTENING|
    CA3066170A| CA3066170A1|2017-06-15|2018-06-14|Positive locking fastener|
    US16/621,617| US20200149580A1|2017-06-15|2018-06-14|Positive locking fastener|
    EP18749435.6A| EP3638910A1|2017-06-15|2018-06-14|Positive locking fastener|
    PCT/FR2018/051414| WO2018229444A1|2017-06-15|2018-06-14|Positive locking fastener|
    CN201880053282.8A| CN110998107B|2017-06-15|2018-06-14|Active locking fastener|
    [返回顶部]