CN112958893A - Rotor spot welding device - Google Patents
Rotor spot welding device Download PDFInfo
- Publication number
- CN112958893A CN112958893A CN202110168558.0A CN202110168558A CN112958893A CN 112958893 A CN112958893 A CN 112958893A CN 202110168558 A CN202110168558 A CN 202110168558A CN 112958893 A CN112958893 A CN 112958893A
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- CN
- China
- Prior art keywords
- rotor
- spot welding
- welding device
- workbench
- telescopic
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K11/00—Resistance welding; Severing by resistance heating
- B23K11/10—Spot welding; Stitch welding
- B23K11/11—Spot welding
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K11/00—Resistance welding; Severing by resistance heating
- B23K11/36—Auxiliary equipment
Abstract
The invention relates to the technical field of motor rotor welding, and particularly discloses a rotor spot welding device which comprises a workbench, wherein a driving motor capable of intermittently rotating is fixed on the workbench, and the output end of the driving motor can be matched with a rotor; the workbench is fixed with a welding head which is positioned above the output end of the driving motor; the workstation lateral wall is fixed with the mould, and open the bottom of going up the mould has first recess, and workstation lateral wall fixedly connected with is used for carrying the conveying mechanism of rotor, is equipped with vertical flexible first telescopic machanism under conveying mechanism, and first telescopic machanism's free end fixedly connected with is used for with last mould complex lower mould, and open at the top of lower mould has the second recess, and the space that first recess and second recess formed can hold the space of rotor. The invention aims to provide a rotor spot welding device to solve the technical problem that the operation steps of a spot welding process of a rotor are complex.
Description
Technical Field
The invention relates to the technical field of motor rotor welding, and particularly discloses a rotor spot welding device.
Background
The rotor is a rotating part of the generator and is an important component of the generator. The yoke of the rotor is usually made of a plurality of steel plate laminations which are stacked and then fixed by a plurality of axial welds along the circumferential direction of the rotor laminations.
At present, a common method for welding rotor laminations is to manually use a welding gun to weld for multiple times, and after one welding is finished, the welding gun needs to rotate a specific angle to weld the next time until the welding is finished. The welding method has low welding efficiency, and the welding quality is unstable during manual operation, so that the requirement of mass production is difficult to meet.
Disclosure of Invention
The invention aims to provide a rotor spot welding device to solve the technical problem that the operation steps of a spot welding process of a rotor are complex.
In order to achieve the purpose, the basic scheme of the invention is as follows: the rotor spot welding device comprises a workbench, wherein a driving motor capable of intermittently rotating is fixed on the workbench, and the output end of the driving motor can be matched with a rotor; the workbench is fixed with a welding head which is positioned above the output end of the driving motor; the workstation lateral wall is fixed with the mould, open the bottom of going up the mould has first recess, workstation lateral wall fixedly connected with is used for carrying the conveying mechanism of rotor, be equipped with vertical flexible first telescopic machanism under conveying mechanism, first telescopic machanism's free end fixedly connected with is used for with last mould complex lower mould, open at the top of lower mould has the second recess, the space that first recess and second recess form can hold the space of rotor, the workstation is still fixedly connected with the flexible second telescopic machanism of level, the flexible end of second telescopic machanism cooperates with the tip of rotor.
The working principle and the beneficial effects of the basic scheme are as follows: this technical scheme utilizes conveying mechanism to realize transporting the rotor in batches. First telescopic machanism can carry out the ascending propelling movement of vertical direction to the rotor through setting up under conveying mechanism. In the process that the first telescopic mechanism extends upwards, the lower die at the end part of the first telescopic mechanism jacks up the rotor, and then the technical effect of supporting and bearing the lower die is achieved. The second recess of lower mould realizes holding the rotor, effectively avoids the rotor to take place from the lower mould condition of droing. At the in-process of first flexible jack-up lower mould, the lower membrane can be with the inconsistent cooperation of upper die, and then makes first recess and second recess form a complete space and be used for holding the rotor. The rotor is lifted by the first telescopic mechanism and then is positioned on the same horizontal plane with the second telescopic mechanism, and then the second telescopic mechanism which is horizontally telescopic is utilized to extend, so that the telescopic end of the second telescopic mechanism is abutted against the end part of the rotor, and the rotor is pushed to be close to the driving motor. The rotor is offset behind driving motor, and driving motor drives the rotor and carries out intermittent type and rotates, makes the rotor rotate in the space that first recess and second recess formed. And after the rotor rotates for a certain angle, the welding head welds the laminations of the rotor. After the welding is completed, the shrinkage of the first telescopic mechanism enables the rotor to fall into the conveying mechanism again, and the function of discharging the rotor is achieved.
Compared with the prior art, the technical scheme can realize a plurality of operation steps of conveying, feeding, fixing, driving the rotor to rotate, welding for a plurality of times and discharging automatically. The welding process of the rotor is completely automated, the production efficiency of rotor welding is effectively improved, actual manual operation steps are simplified, the manual manufacturing cost is reduced, and meanwhile, the accuracy of the welding process is also effectively improved.
Further, the cavity formed by butting the first groove and the second groove is a cylindrical cavity, and the cavity formed by butting the first groove and the second groove is coaxial with the driving motor.
Has the advantages that: this technical scheme forms the position of cavity through injecing first recess and second recess to realize that the rotor can carry out circumferential direction in the cavity under driving motor's drive, effectively reduce frictional resistance each other.
Further, the workbench is also provided with an air pump, and an air outlet of the air pump faces the end part of the welding head.
Has the advantages that: this technical scheme is through addding the air pump to realize effectively improving the welding quality of rotor welding point to the timely cooling of rotor welding point under the state of soldered connection work, improve rotor strength.
Further, conveying mechanism includes two sets of conveying chains, and two sets of conveying chains are parallel to each other, first telescopic machanism locates under the space between two sets of conveying chains.
Has the advantages that: this technical scheme is through setting up the conveying chain of two parallels to the realization supports the axial both ends of rotor. Simultaneously can also utilize the clearance between two parallel conveying chains are adjacent to realize holding first telescopic machanism, and first telescopic machanism's flexible end can conflict to the bottom of rotor through the clearance between two conveying chains to realize the technical effect that the lower mould lifted the rotor.
Further, a plurality of support seats are arranged on each group of conveying chains along the circumferential direction, and third grooves used for supporting the end portions of the rotors are formed in the support seats.
Has the advantages that: this technical scheme is through addding the support seat to the effect of rotor shaft end cooperation support is realized. And a third groove is formed in the bracket seat, so that the end part of the rotor is stably supported.
Further, the workstation top is fixed with the loading board, it has the slide to open on the loading board, slide extending direction is on a parallel with the driving motor axial, sliding connection has the backup pad on the slide, second telescopic machanism fixed connection in the backup pad lateral wall.
Has the advantages that: this technical scheme is through seting up the slide on the loading board to in the realization backup pad is in the ascending free slip of horizontal direction, and then the realization is adjusted the second telescopic machanism position, in order to freely select the position of fixed second telescopic machanism according to the axial length of rotor.
Further, the supporting plate is perpendicular to the bearing plate.
Has the advantages that: this technical scheme is through injecing the position vertical relation of backup pad and loading board to the realization is to the stable support of second telescopic machanism.
Further, the slide is the bar slide.
Has the advantages that: this technical scheme is through the slide that adopts bar structure to in the free slip of realization backup pad.
Furthermore, the left side and the right side of the lower die of the workbench are respectively fixed with a third telescopic mechanism, and a support block matched with the side wall of the lower die is fixed at the telescopic end of the third telescopic mechanism.
Has the advantages that: this technical scheme is through addding the third telescopic machanism to realize pressing from both sides tight fixedly to the lower mould, effectively improve the stability that the lower mould supported the rotor process.
Furthermore, the side wall of the workbench is fixedly connected with a positioning rod, a positioning block is fixed at the free end of the positioning rod and is positioned at the output shaft of the driving motor, and the end part of the positioning block can be abutted to the gap between adjacent laminations of the rotor.
Has the advantages that: this technical scheme utilizes the locating piece of locating lever so that insert the clearance department to the adjacent lamination of rotor, and every time driving motor rotates, the locating piece alright in order to insert the clearance to the adjacent lamination of next rotor, and then makes a gasket position department of waiting to weld towards the soldered connection. Through the clearance grafting cooperation of the adjacent lamination of locating piece and rotor, reach the technological effect of rotation angle location, ensure that the angle of rotor every turn all keeps unanimous.
Drawings
FIG. 1 is a schematic cross-sectional side view of a rotor spot welding apparatus according to an embodiment of the present invention;
fig. 2 is a schematic cross-sectional view taken at a-a in fig. 1.
Detailed Description
The following is further detailed by way of specific embodiments:
reference numerals in the drawings of the specification include: the device comprises a workbench 1, a servo motor 2, a matching block 3, a welding head 4, an upper die 5, a first groove 6, a lower die 7, a second groove 8, an air pump 9, an air guide pipe 10, a conveying chain 11, a bracket base 12, a third groove 13, a first telescopic air cylinder 14, a bearing plate 15, a slide way 16, a supporting plate 17, a third telescopic air cylinder 18, a butting block 19, a second telescopic air cylinder 20, a positioning rod 21 and a positioning block 22.
The embodiment is basically as shown in the attached figures 1 and 2: rotor spot welding device, including workstation 1, the bottom bolted connection has servo motor 2 on the workstation 1, and servo motor 2's drive shaft is on a parallel with the horizontal plane, and servo motor 2's drive shaft coaxial key-type connection is fixed with cooperation piece 3, and the tip of cooperation piece 3 is opened has the axle head complex keyway with the rotor.
The top of the working table 1 is also fixed with a welding head 4, the welding head 4 faces vertically to the right lower side, and the welding head 4 is positioned above the matching block 3. An upper die 5 is further welded and fixed to the top of the workbench 1, a first groove 6 is formed in the bottom of the upper die 5, and the longitudinal section of the first groove 6 is of a semicircular structure. The axis of the first groove 6 is coaxial with the rotation axis of the servo motor 2. The top of the workbench 1 is also fixedly connected with an air pump 9 through bolts, the output end of the air pump 9 is fixedly connected with an air guide pipe 10, and the air guide pipe 10 can be freely bent and fixed at any posture. The output end of the gas guide tube 10 faces the bottom of the welding head 4.
The lateral wall of workstation 1 is equipped with conveying mechanism, and conveying mechanism includes two conveying chain 11 that the structure is the same, and every conveying chain 11 is closed loop structure, and every conveying chain 11 has a plurality of support frame bases 12 along circumference equidistant array, and the third recess 13 that is used for supporting the rotor tip is seted up on the top of every support frame base 12. A first vertical telescopic cylinder 14 is fixed under the space between the two conveying chains 11 through a bolt, a telescopic end of the first telescopic mechanism is fixedly connected with a lower die 7 in a welding mode, a second groove 8 is formed in the top of the lower die 7, and the structure of the second groove 8 is symmetrical to that of the first groove 6. The cavity formed by butting the first groove 6 and the second groove 8 is a cylindrical cavity, and the cavity formed by butting the first groove 6 and the second groove 8 is coaxial with the servo motor 2.
A bearing plate 15 is fixed on the top of the workbench 1 at one side of the conveying chain 11 far away from the servo motor 2 through a bolt, two mutually parallel slideways 16 are formed in the top of the bearing plate 15, and the extending direction of the slideways 16 is parallel to the axial direction of the servo motor 2. The supporting plate 17 is connected to the slide way 16 of the bearing plate 15 in a sliding manner, the supporting plate 17 is fixedly connected with a second telescopic cylinder 20 through a bolt, the second telescopic cylinder 20 freely stretches along the horizontal direction, and a push plate matched with the end of the rotor is fixedly connected to the telescopic end key of the second telescopic cylinder 20.
The left side and the right side of the lower die 7 of the workbench 1 are respectively provided with a third telescopic cylinder 18 through bolts, the telescopic direction of the third telescopic cylinder 18 is parallel to the horizontal plane, the telescopic end of each third telescopic cylinder 18 is fixedly connected with a supporting block 19, and the outer wall of each supporting block 19 is matched with the side wall of the lower die 7. The side wall of the working table 1 is fixedly connected with a positioning rod 21, a positioning block 22 is fixed at the free end of the positioning rod 21, the positioning block 22 is located on the horizontal right side of an output shaft of the servo motor 2, the positioning block 22 is of a sheet plate structure, and the end portion of the positioning block 22 is flexible and can be inserted into a gap between adjacent laminations of the rotor in a butting mode.
The specific implementation process is as follows: firstly, an operator places the rotors on the support bases 12 of the conveying chain 11 in sequence, wherein the two axial ends of the rotors are respectively placed in the third grooves 13 of the support bases 12. Then, the operator starts the conveying chain 11 to rotate, and the rotor horizontally moves from right to left under the action of the rotation of the conveying chain 11. When the rotor removed to first telescopic cylinder 14 directly over, operating personnel stopped the rotation of conveying chain 11 to start first telescopic cylinder 14 and upwards stretch out and draw back, because first telescopic cylinder 14 is located between the conveying chain 11 of two parallels, consequently at the vertical in-process that upwards stretches out and draws back of first telescopic cylinder 14, the lower mould 7 of the flexible end of first telescopic cylinder 14 is from up jack-up down with the rotor, the in-process rotor at jack-up falls into in the second recess 8 of lower mould 7. With the continuous rising of the first telescopic cylinder 14, the rotor leaves the supporting seat and approaches the upper die 5 until the top end of the lower die 7 abuts against the top end of the upper die 5. The top of the rotor in this state enters the first groove 6, and the first groove 6 and the second groove 8 buckle the rotor in the space.
Then the operator starts the second telescopic cylinder 20, the push plate at the telescopic end of the second telescopic cylinder 20 extends towards the direction close to the rotor until abutting against the end part of the rotor, and the push plate pushes the end part of the rotor into the key groove of the servo motor 2 along with the continuous extension of the second telescopic cylinder 20. And then, starting the two third telescopic cylinders 18, wherein the third telescopic cylinders 18 extend to the position close to the lower die 7 until the abutting blocks 19 of the third telescopic cylinders 18 abut against the outer wall of the lower die 7. The welding head 4 is then activated to spot weld the outer wall of the rotor. After welding is finished at one position, the servo motor 2 is started, the servo motor 2 drives the rotor to synchronously rotate until the rotor rotates to the next position in the circumferential direction, and the welding head 4 is enabled to continue to perform spot welding. Each time the servomotor 2 is rotated, the positioning block 22 can be inserted into the gap between adjacent laminations of the next rotor, thereby positioning a pad to be welded toward the welding head 4. After the complete welding is completed, an operator controls the second telescopic cylinder 20 and the third telescopic cylinder 18 to retract in sequence, the first telescopic cylinder 14 is started to descend after the retraction is completed, and the rotor moves downwards along with the lower die 7 under the action of gravity until the rotor falls into the third groove 13 of the support base 12 again. Finally, the operator controls the conveying chain 11 to rotate continuously, conveys the welded rotor away from the first telescopic cylinder 14, and conveys the next rotor to be welded to a position right above the telescopic end of the first telescopic cylinder 14.
The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.
Claims (10)
1. The rotor spot welding device comprises a workbench, wherein a driving motor capable of intermittently rotating is fixed on the workbench, and the output end of the driving motor can be matched with the rotor; the workbench is fixedly provided with a welding head which is positioned above the output end of the driving motor; the utility model discloses a flexible rotary worktable, including workstation lateral wall, first recess, workstation lateral wall fixedly connected with be used for carrying the conveying mechanism of rotor, be equipped with vertical flexible first telescopic machanism under conveying mechanism, first telescopic machanism's free end fixedly connected with is used for with last mould complex lower mould, open at the top of lower mould has the second recess, the space that first recess and second recess formed can hold the space of rotor, the workstation is still fixedly connected with the flexible second telescopic machanism of level, the flexible end of second telescopic machanism cooperates with the tip of rotor.
2. The rotor spot welding device according to claim 1, characterized in that: the cavity formed by butting the first groove and the second groove is a cylindrical structure cavity, and the cavity formed by butting the first groove and the second groove is coaxial with the driving motor.
3. The rotor spot welding device according to claim 1, characterized in that: the workbench is further provided with an air pump, and an air outlet of the air pump faces towards the end part of the welding head.
4. The rotor spot welding device according to claim 1, characterized in that: conveying mechanism includes two sets of conveying chains, and two sets of conveying chains are parallel to each other and set up, first telescopic machanism locates under the space between two sets of conveying chains.
5. The rotor spot welding device according to claim 4, characterized in that: and a plurality of support seats are arranged on each group of conveying chains along the circumferential direction, and third grooves for supporting the end parts of the rotors are formed in the support seats.
6. The rotor spot welding device according to claim 1, characterized in that: the top of the workbench is fixedly provided with a bearing plate, the bearing plate is provided with a slide, the extension direction of the slide is parallel to the axial direction of the driving motor, the slide is connected with a supporting plate in a sliding manner, and the second telescopic mechanism is fixedly connected to the side wall of the supporting plate.
7. The rotor spot welding device according to claim 6, characterized in that: the supporting plate is perpendicular to the bearing plate.
8. The rotor spot welding device according to claim 7, characterized in that: the slide is the bar slide.
9. The rotor spot welding device according to claim 1, characterized in that: the workbench is provided with third telescopic mechanisms respectively fixed on the left side and the right side of the lower die, and the telescopic ends of the third telescopic mechanisms are respectively fixed with a support block matched with the side wall of the lower die.
10. The rotor spot welding device according to claim 1, characterized in that: the side wall of the workbench is fixedly connected with a positioning rod, a positioning block is fixed at the free end of the positioning rod and is positioned at the output shaft of the driving motor, and the end part of the positioning block can abut against the gap between adjacent laminations of the rotor.
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CN202110168558.0A CN112958893B (en) | 2021-02-07 | 2021-02-07 | Rotor spot welding device |
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CN202110168558.0A CN112958893B (en) | 2021-02-07 | 2021-02-07 | Rotor spot welding device |
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CN112958893B CN112958893B (en) | 2023-03-14 |
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Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20100071196A1 (en) * | 2008-09-19 | 2010-03-25 | Denso Corporation | Method of manufacturing rotor for dynamoelectric machine |
CN201557021U (en) * | 2009-06-25 | 2010-08-18 | 章宏亮 | Automatic spot welder of commutator of motor rotor |
CN207119933U (en) * | 2017-07-15 | 2018-03-20 | 江阴江信电机材料有限公司 | A kind of mash welder suitable for rotor |
CN207888047U (en) * | 2018-01-17 | 2018-09-21 | 江苏先电机械有限公司 | A kind of rotor spot welding device |
CN208743899U (en) * | 2018-06-29 | 2019-04-16 | 江门市虹宇电子电器有限公司 | A kind of full-automatic efficient rotor spot welder |
CN211759148U (en) * | 2019-12-30 | 2020-10-27 | 苏州磐驰自动化设备有限公司 | High-precision double-head automatic spot welding device for commutator rotor |
-
2021
- 2021-02-07 CN CN202110168558.0A patent/CN112958893B/en active Active
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20100071196A1 (en) * | 2008-09-19 | 2010-03-25 | Denso Corporation | Method of manufacturing rotor for dynamoelectric machine |
CN201557021U (en) * | 2009-06-25 | 2010-08-18 | 章宏亮 | Automatic spot welder of commutator of motor rotor |
CN207119933U (en) * | 2017-07-15 | 2018-03-20 | 江阴江信电机材料有限公司 | A kind of mash welder suitable for rotor |
CN207888047U (en) * | 2018-01-17 | 2018-09-21 | 江苏先电机械有限公司 | A kind of rotor spot welding device |
CN208743899U (en) * | 2018-06-29 | 2019-04-16 | 江门市虹宇电子电器有限公司 | A kind of full-automatic efficient rotor spot welder |
CN211759148U (en) * | 2019-12-30 | 2020-10-27 | 苏州磐驰自动化设备有限公司 | High-precision double-head automatic spot welding device for commutator rotor |
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Address after: No. 87-8-8 Longdu Road, Jiulongpo District, Chongqing, 400000, 5-2 Patentee after: Chongqing Baoyou electromechanical Co.,Ltd. Address before: 400080 group 9, Huzhu village, Baqiao Town, Dadukou District, Chongqing Patentee before: Chongqing Baoyou electromechanical Co.,Ltd. |