device and method to increase the quality of the weld bead in friction welding

专利摘要:
The invention relates to an apparatus and method for increasing the quality of the weld bead in friction welding, with the following characteristics: a) a receiving plate (1) with a power head (2), the latter having a receiving flange (19) for receiving an assembly bell (3) connected by means of a union nut (7) to a welding shoe (4) with a welding pin tip (5); b) the welding shoe (4) has a basic circular shape in which there is a transverse web that moves through the cross section and rises at a right angle to said basic form, said transverse web having a width of approximately 1/4 at 1/5 the diameter of the basic shape, and having an arched sliding shoe surface and smooth shoe surface (9), c) the welding pin tip (5) has substantially a surface structure in the form of a thread tapering, this thread-like structure is not arranged in a purely circular manner.
公开号:BR112016020751B1
申请号:R112016020751-3
申请日:2015-03-13
公开日:2021-03-02
发明作者:Markus Weigl
申请人:Grenzebach Maschinenbau Gmbh；
IPC主号:

专利说明:

[0001] A method for online quality control in friction welding, the method of which is based on the objective of being safe and simple, is known from DE 10 2004 030 381 B3.
[0002] In order for this objective to be achieved, it is claimed that a friction welding tool is being rotationally moved and pushed by pressure is introduced into the material of operating parts to be welded and guided along a connection point of the operating parts to be welded, in which pressure impingement, and / or the friction welding tool oscillations that occur during the friction welding process and the friction welding process, in the operating parts to be welded, or in other elements that are excited by the welding process, are / are measured as a function of time, and are / are subsequently converted (s) to the frequency amplitude spectrum by means of a Fourier transform, and that the spectra determined frequency amplitudes are compared with reference values in order to check the soldered connection produced in terms of quality.
[0003] Furthermore, WO 2007/006669 A1 is known as a friction welding tool, as well as a method and assembly for real-time control of a friction welding process by recording acceleration forces and / or oscillations in the tool body.
[0004] This document is based on the objective of providing a compact and universally employable friction welding tool, and a method and set for real-time verification of a friction welding process, through which optimization of the joint process in a simple and cost effective manner it is successively achieved such that, as a result of it, a joint bead results without necessary post-processing, and meets the quality requirements, and the stress on the friction welding system is minimized . This objective is achieved by a friction welding tool that is composed of a main tool body, and a tool stirring screw having a shoulder and a pin, said friction welding tool, according to claim 1, being characterized by the fact that at least one sensor to detect the accelerating forces acting on the main body of the tool is integrated into the main body of the tool.
[0005] In addition, a friction welding tool and a method for producing it is known from WO 2013/182182 A1. This publication is substantially based on the objective of improving such a tool in terms of its useful life. For this proposal, a probe that serves to apply frictional heat is intended to comprise a first probe region that is formed from a first material, and a second probe region that is formed from a second material.
[0006] A method and a device for improving the quality of the weld bead in friction welding are known from DE 10 2012 010 836 B1, the latter emanating from the applicant, the method and the device being based on the objective of increasing the service life of the friction tool from approximately 2 hours to 15 hours, and to increase the quality of the joint cord such that no post-processing as a whole is required. This is achieved by a device having the following characteristics: (a) a receiving plate 1 having a power head 2 and a spindle bearing 4 for receiving a friction welding tip 9, in which a helically machined transport screw 6 that serves to transport any application of material not required in the spindle bearing 4 opens in openings 8 that lead obliquely to the outside; (b) the longitudinal axis of the spindle bearing 4 in relation to the vertical is inclined at an angle of 2.8 to 3.2 degrees; (c) the sliding face of the rotating spindle is made up of a planar sliding face 10 and, in particular, in order to weld curved strands, in each case an inherently domed sliding face 11 that joins on two opposite sides, and being inclined at an acute angle towards the sliding face 11; (d) the friction welding tip 9 is in the form of a truncated cone in which the coverage area is raised in the center, and in which the surface area of the truncated cone is formed by six pieces of trapezoidal area, three of which pieces of area each sit opposite each other at an angle of 120 degrees, being uniformly distributed in the circumference, and occupy a proportion of more than 1/6 in the circular circumference.
[0007] After finishing the welding process, the problem occurs that the friction welding tip that comes out from the joining patterns, either causes an increased ejection of material or, in the case of a shallow hole, causes a longer path throughout the exit process. In both cases, post-processing, which is more or less complex and thus causes costs, is required. The resistance of the weld bead produced also suffers here, because the process of plasticizing and subsequent cooling of the bonding patterns by means of the more or less abrupt exit of the friction tip from the plasticized mass of the bonding patterns breaks the total microstructure of the welded materials, the risk of cracking is thereby increased in the event of heavy stresses on the weld bead.
[0008] If post-processing is not carried out, the final hole remains in the component. The final bore here not only represents a significant visual disadvantage, but in the case of seal welding, for example, it can lead to leaks. In the case of dynamic stress, the final hole has a high notch factor, potentially leading to the introduction of fractures. A cord that is free of a final hole in the same way offers advantages in case of chemical stress and an impingement of the cord by the liquid medium (heat exchanger).
[0009] The present invention is therefore based on the objective of optimizing the welding procedure in friction welding in such a way that complete prevention of the so-called final hole (the remaining negative impression of the stirring tool) at the end of the welding is achieved, and the quality of the weld bead is thereby increased.
[0010] This objective is achieved by the device according to claim 1, a device for increasing the quality of the weld bead in friction welding, the device having the following characteristics: (a) a receiving plate 1 having a power head 2, in which the latter has a receiving flange 19 for receiving an assembly bell 3 which by means of a union nut 7 is connected to a welding shoe 4 having a welding pin tip 5; (b) the welding shoe 4 has a basic circular shape in which a transverse web, moving through the cross section and rising orthogonally to this basic shape, is located approximately 1/4 to 1/5 of the width diameter of the basic shape, and has an arched shoe sliding face and smooth face of the shoe 9, in which a small planar face in the form of a notch-like taper 16 is located on each side of this face 9 in the region of the periphery of this face 9; (c) the welding pin tip 5 has a surface structure that is substantially in the form of an excessively tapered thread, in which this thread-like structure is not arranged to be purely circular, but at each thread pitch it has three flat areas that are distributed on the circumference, in which the centers of these flat areas each are mutually placed at an angle of 120 degrees, and in which the conduction of this thread-like structure is 0.5 mm, and the flank height varies from 0.25 mm to 0.05 mm.
[0011] It is furthermore claimed that each of the notch-type tapering 16 is configured as a step with a height of a plurality of millimeters; that a negative pressure that ensures that contaminations in the tool are largely removed is generated in the assembly bell 3 by means of a pressure generating device, in which through this system it can also be determined by measuring the counter pressure prevailing in the tool if the region outlet 8 on the welding shoe 4 is obstructed or free; that the contact pressure of the sliding face of the shoe and the smooth face of the shoe 9 is adjustable, the respective adjustment being measured and revealed; that the result of the welding process is optically monitored; or by the method according to claim 6, respectively, method for increasing the quality of the weld bead in friction welding, the method having the following characteristics: (a) at the beginning of the welding process, a welding pin tip 5 in a welding shoe 4, guided as a welding tool by the power head 2 by means of an assembly bell 3, in a pin insertion path 10 it is inserted in the component 6 to be joined; (b) right after the current welding procedure is carried out on a welding path 11 until the planned weld bead has been completely processed, in which the adjustment angle 12 of the welding tool in relation to the vertical is maintained to the end the welding path 11; (c) in the following exhaustion path of pin 13, the welding tool is again removed from the component 6 to be joined, in which the adjustment angle 12 slowly and continuously increases to the end of the exhaustion path of pin 13 until the extension angle of pin 15; (d) in the following extension path of the pin 14, the welding tool is removed from the component 6 to be joined in such a way that the extension angle of the pin 15 in relation to the vertical, which exists at the beginning of the extension path 14, further increases, the welding tool moving continuously away from the component 6 to be joined, without forming a hole. A negative pressure that ensures that contaminations in the tool are largely removed is generated at the mounting bell 3 by means of a pressure generating device, which through this system can also be determined by measuring the back pressure prevailing in the tool if the exit region 8 on the welding shoe 4 is obstructed or free; that the contact pressure of the sliding face of the shoe and the smooth face of the shoe 9 is adjustable, the respective adjustment being measured, regulated, and revealed; and a computer program having a program code for carrying out the method steps according to any one of claims 6 to 8, if and when the program is executed on a computer; and a machine-readable conveyor having the program code of a computer program to effect the method, if and when the program is executed on a computer.
[0012] The device, according to the invention, will be described in more detail here. In figures and in detail:
[0013] Figure 1 shows a side view of an assembly for friction welding;
[0014] Figure 2 shows a series of illustrations of the welding procedure;
[0015] Figure 3 shows the illustration of a preferred welding shoe;
[0016] Figure 4 shows an illustration of a particular construction method of the welding shoe as above;
[0017] Figure 5 shows an illustration of a sealing package;
[0018] Figure 6 shows the illustration of the total assembly of a welding pin tip 5; and
[0019] Figure 7 shows a particular shape of a welding pin tip 5.
[0020] Figure 1 shows a side view of an assembly for friction welding. A receiving plate 1 that can be guided by a robotic arm carries a power head 2 having a mounting bell 3 which, by means of a receiving flange 19, is attached to the power head 2. The mounting bell 3 serves to receive a welding shoe 4 having a pin assembly for a welding pin, in which the welding shoe 4 by means of a union nut 7, is attached to the mounting bell 3, and is secured against being inadvertently twisted. The component 6 to be joined is processed by a welding pin tip 5.
[0021] Figure 2 shows a series of illustrations of the welding procedure. The welding shoe 4 shown here is shown in five different positions a) to e) during the welding procedure, in order to correspond to the progress of the process. A pin insertion path 10, in which a welding pin tip 5 is inserted into the component 6 to be joined, starts at position 2a). The insertion path 10 can also be omitted, that is, the total insertion procedure is carried out at a specific point. The welding pin tip 5 typically penetrates to be perpendicular to the upper side of the workpiece, and is then adjusted to the adjustment angle 12. The pin insertion path 10 is followed by the current welding path 11 The sliding face of the shoe and the smooth face of the shoe 9, and the exit region for the welding material 8, are particularly identified here. The welding shoe 4 is located at the beginning of the welding path 11 in position 2b), in which the welding shoe 4 is inserted into the component 6 to be joined at an adjustment angle 12, the last being in relation to the vertical for the total welding tool.
[0022] Reference signals 5 and 9 are known from position 2a. The welding path 11 is followed by an exhaust path of the pin 13.
[0023] The welding shoe 4 is shown at the beginning of the exhaust path of pin 13 in position 2c), referred to the exhaust path of pin 13, followed by an extension path of pin 14.
[0024] It can be derived from position 2d) that the welding shoe at the beginning of the extension path of pin 14 has an extension angle of pin 15 (measured in relation to the vertical) that decreases slightly to the end of the path of extension of the pin 14, in which the welding shoe at the end of the extension path 14 moves further away, while the extension angle of the pin 15 constantly increases, and compresses the plasticized material and is then raised from the component 6 to be joined. This condition is shown in position 2e). It is important here that the welding shoe moves through all regions of the weld bead that were previously agitated by the welding pin tip 5. This corresponds to a "cold compression" of the extension path.
[0025] Figure 3 shows the illustration of a preferred welding shoe.
[0026] This welding shoe 4 can be seen in figure 3a. A notch-like taper 16 on the sliding face of the shoe and on the smooth face of the shoe 9 is particularly identified here on the right side, in which this welding shoe 4 in this view can be seen from the wide side thereof. The notch-like taper 16 on both sides of the welding shoe 4 leads to an aerodynamic shape or arc-like shape, whereby the welding shoe 4 becomes less sensitive to be oriented in a suboptimal way towards to the so-called welding impact and can therefore be more readily guided around the rays that are to be welded. In this context, this can be referred to as self-centering of the welding shoe 4.
[0027] The same welding shoe is illustrated in figure 3b, rotated by 90 degrees, and seen from the narrow side of it, in which the notch-like taper 16 that was shown in figure 3a can be seen from the front on this View.
[0028] Figure 3c shows the welding shoe 4 of figure 3a in section. The pin assembly 18 can be seen here in particular, the cross-sectional profile of said pin assembly 18 follows an approximately "trumpet-shaped" curve. The tolerance in the assembly of pin 18, between the axis of pin 17 and the welding shoe 4, is approximately 100 μm.
[0029] Figure 3d shows this special welding shoe 4 as seen from below. Here, the sliding face and the smooth face of the shoe 9, together with a referenced notch-like taper 16 and the pin axis 17, are particularly identified. The welding pin tip 5 can be seen as being central, in the center of the welding shoe 4. The welding shoe 4 shown here has a substantially circular basic shape in which a transverse web rises, moving through the cross section, and rising orthogonally, and extends across a width of approximately 1/4 to 1/5 of the diameter, having an arched boundary face that functions as the sliding face of the shoe and the smooth face of the shoe 9, and having a contour of the type of an articulated lever, or of a rolling curve. A small planar face, which in each case acts similar to a notch-like tapering on the sliding face of the shoe and on the smooth face of the shoe 9, is located respectively on each side of this arched boundary face, in the region of the periphery to the basic circular shape. Figure 3e provides a spatial illustration of the welding shoe 4 described.
[0030] Figure 4 shows an illustration of a particular construction method of the welding shoe as above. This welding shoe 4 is shown here having the welding pin tip 5 thereof, and the axis of the pin 17 thereof, when processing a component 6 to be joined. Here, the sliding face of the shoe and the smooth face of the shoe 9 are characterized by the fact that the notch-like taper 16 is configured as a step with a height of a plurality of millimeters. In this sense, this one is a so-called "relief groove" that significantly reduces any compression and compaction of the component to be joined when the last one impacts the welding shoe 4. In addition, better free displacement properties result, that is, the excess material is more readily driven out. This is expressed in an improved bead surface configuration of the welded joints and is reduced "clogging" of the welding shoe 4. In the illustration shown, the total welding shoe 4 is grossly highlighted as being engaged in the component 6 to be joined.
[0031] Figure 5 shows an illustration of three design embodiments of a seal package. In this context, reference is not made to an assembly, since, apart from the appropriate guide, a seal defined in relation to the welding process must also be guaranteed. It is preferable here that the collar of the pin 26 in the cross section thereof has the shape of the end piece of a trumpet, as shown to the right of the figure.
[0032] Figure 6 shows the illustration of the total assembly of a welding pin tip 5. As a base, the receiving flange 19 for the mounting bell 3, can be seen here, in which a mounting screw 20 having a conus serves to mount the mounting bell 3 on the receiving flange 19. A welding pin mounting conus 24 that encloses a pin axis 17 which by means of an adjustment element 22 is connected to a welding pin counter 25, it is mounted so as to be central in the mounting bell 3. The counterpinning of the welding pin 25 is fixed by means of a mounting screw 21. A coarse adjustment of the effective length of the welding pin tip 5 can be carried out by by means of the counterpinning of the welding pin 25, in which said coarse adjustment can be carried out by means of a respective fine pitch thread (not referenced in more detail). A fine adjustment of the effective length of the welding pin tip 5 can be carried out by means of a piezo element (likewise not referenced in more detail) which is electronically variable in terms of length.
[0033] Here, 9 again refers to the sliding face of the shoe and the smooth face of the shoe 9 of the welding shoe 4, in which the welding shoe 4 by means of a lock 23 is secured against being twisted, and by means of a union nut 7 is attached to the mounting bell 3. The outlet region 8 for the welding material of the welding shoe 4 is likewise visible here. It is preferably provided here by means of the visible gap that exists anywhere between the welding pin mounting shell 24 and the mounting bell 3, which a negative pressure, which ensures that contaminations in the tool are greatly removed, it is generated by means of a pressure generating device (not referenced in more detail here). This procedure can also be facilitated by adding a nanotechnology-based cleaning liquid. By means of this system, it can also be determined by measuring the counter pressure prevailing in the tool if the outlet region 8 in the welding shoe 4 is obstructed or free. In addition, it is preferably provided that a respective cleaning cycle using ionized air and / or suitable cleaning fluids is carried out at specific intervals. In addition, it is provided by means of a device (not referenced in more detail), which excess material that is created during the welding process is likewise sucked out.
[0034] Figure 7 shows a particular shape of a welding pin tip 5.
[0035] An enlarged side view of a preferred construction method of a welding pin tip can be seen here in figure 7a. This mode of construction has a surface structure that is substantially in the form of an excessively tapered thread. However, this thread-like structure is not arranged to be purely circular, but at each step of thread 3 it has flat areas that are distributed in the circumference, in which the centers of these flat areas are mutually placed at an angle of 120 degrees, as shown in figure 7b. The conduction of this thread-like structure is 0.5 mm, and the flank height ranges from 0.25 mm to 0.05 mm.
[0036] The tool parts that are engaged, preferably, have a coating with ZrCrN or CrN.
[0037] The complex controller of the described motion sequences requires a special control program. List of reference signs 1 Receiving plate (robotic arm) 2 Power head 3 Mounting bell for the tool 4 Welding shoe 5 Welding pin tip 6 Component to be joined 7 Union nut as assembly for a welding shoe 8 Exit region for welding material 9 Sliding face of the shoe and smooth face of the shoe 10 Insertion path of the pin 11 Welding path (bead) 12 Adjustment angle of the welding tool 13 Exhaust path of the pin 14 Extension path of the pin (increase in the angle of the adjustment angle) 15 spin-out pin angle 16 Notch tapering of the smooth face of the shoe 17 Pin shaft 18 Seal package on the welding shoe 19 Receiving flange for the mounting bell 3 20 Screw mounting bolt having a cone for the mounting bell 3 21 Mounting bolt for the pin stop 22 Adjusting element for the pin length 23 Welding shoe lock that prevents twisting 24 Mounting bolt welding pin act 25 Welding pin counter 26 Pin collar

权利要求:
Claims (11)
[0001]
1. Device to increase the quality of the weld bead in friction welding, characterized by the fact that it comprises the following characteristics: a) a receiving plate (1) having a power head (2), in which the latter has a receiving flange (19) for receiving an assembly bell (3) which by means of a union nut (7) is connected to a welding shoe (4) having a welding pin tip (5); b) the welding shoe (4) has a basic circular shape in which a transverse web, which moves through the cross section and rising orthogonally to this basic shape, is located and has a width from 1/4 to 1/5 the diameter of the basic shape and has an arched sliding shoe face (29), in which the transverse web further comprises a smooth face of the shoe (9) and a small planar face (16) which is located on each side of the smooth face of the shoe (9) and in contact with the smooth face of the shoe (9); c) the welding pin tip (5) has a surface structure that is substantially in the form of an excessively tapered thread, in which the surface structure similar to the thread is not arranged in a way to be purely circular, but, in each thread pitch (28), has three flat areas that are distributed on the circumference of the surface structure similar to the thread, in which the centers of these flat areas each are mutually placed at an angle of 120 degrees, and in which the control of this similar structure the thread is 0.5 mm, and the flank height varies from 0.25 mm to 0.05 mm.
[0002]
2. Device according to claim 1, characterized by the fact that each of the first small planar faces comprises a height of a plurality of millimeters.
[0003]
Device according to claim 1 or 2, characterized by the fact that the mounting bell (3) is configured to receive a positive pressure generated by means of a pressure generating device.
[0004]
4. Device according to any one of the preceding claims, characterized by the fact that the sliding face of the shoe and the smooth face of the shoe (9) are configured to receive an adjustable contact pressure and the device is configured to measure and reveal respective adjustment.
[0005]
5. Device according to any of the preceding claims, characterized by the fact that the quality of the weld bead in friction welding is optically monitored.
[0006]
6. Device according to any one of the preceding claims, characterized by the fact that the welding shoe (4) further comprises a second small planar face in contact with each of the first small planar faces.
[0007]
7. Device according to any one of the preceding claims, characterized in that the device is adapted to measure a back pressure in the device to determine whether an outlet region (8) in the welding shoe (4) is obstructed or free.
[0008]
8. Method for increasing the quality of the weld bead in friction welding, characterized by the fact that it comprises the following steps: a) providing the device as claimed in claim 1; b) insert a welding pin tip (5) in a pin insertion path (10) in a component (6) to be joined; c) weld the component (6) to be joined in a welding path (11) until the planned weld bead is completely processed, in which the adjustment angle (12) of the welding tool in relation to the vertical is maintained until the end of the welding path (11); d) remove the tip of the welding pin (5) from the component (6) to be joined following the exhaust path of the pin (13), in which the adjustment angle (12) increases slowly and continuously until the end of the exhaustion of the pin (13) to the angle of extension of the pin (15); e) remove the device from the component (6) to be joined in an extension path of the pin (14), in such a way that the extension angle of the pin (15) in relation to the vertical, which comes out at the beginning of the extension path (14), further increases, the welding tool moves continuously away from the component (6) to be joined, without forming a hole.
[0009]
9. Method according to claim 8, characterized by the fact that a negative pressure is generated at the mounting bell (3) by means of a pressure generating device.
[0010]
10. Method, according to claim 8, characterized by the fact that the contact pressure of the sliding face of the shoe and the smooth face of the shoe (9) is adjustable, the respective adjustment being measured, regulated, and revealed.
[0011]
11. Method according to claim 8, characterized in that it further comprises measuring a back pressure in the device to determine whether an outlet region (8) in the welding shoe (4) is obstructed or free.

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DE202017006112U1|2017-11-27|2017-12-13|Grenzebach Maschinenbau Gmbh|Device for virtually delay-free changing the welding direction of a system for friction stir welding when the geometric arrangement of the joining partner or material irregularities to be welded require this|

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DE102017010965A1|2017-11-27|2019-05-29|Grenzebach Maschinenbau Gmbh|Device and method for almost delay-free changing the welding direction of the welding shoulder of a plant for friction stir welding when the geometric arrangement of the joining partner or material irregularities to be welded require|

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DE102018113680A1|2018-06-08|2019-12-12|Kuka Deutschland Gmbh|Headpiece, welding tool and welding process|

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US11143624B2|2019-05-14|2021-10-12|King Abdulaziz University|Detection of friction stir welding defects using specific damping capacity|

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WO2021070237A1|2019-10-08|2021-04-15|ヤマザキマザック株式会社|Stirring pin, friction stir welding tool, and machine tool|

法律状态:
2019-08-13| B06U| Preliminary requirement: requests with searches performed by other patent offices: suspension of the patent application procedure|

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2020-12-22| B09A| Decision: intention to grant|

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2021-03-02| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 13/03/2015, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

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申请号 | 申请日 | 专利标题

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DE102014004331.2A|DE102014004331B3|2014-03-26|2014-03-26|Method and device for increasing the quality of the weld in friction stir welding and computer program and machine-readable carrier with a program code for performing the method|

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DE102014004331.2|2014-03-26|

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PCT/DE2015/000116|WO2015144115A1|2014-03-26|2015-03-13|Method and apparatus for increasing the quality of the weld seam in friction stir welding|

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