CN117175871A - Stator processing is with cooperateing fixed equipment - Google Patents
Stator processing is with cooperateing fixed equipment Download PDFInfo
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- CN117175871A CN117175871A CN202311446747.5A CN202311446747A CN117175871A CN 117175871 A CN117175871 A CN 117175871A CN 202311446747 A CN202311446747 A CN 202311446747A CN 117175871 A CN117175871 A CN 117175871A
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- 238000003825 pressing Methods 0.000 claims description 3
- 230000007547 defect Effects 0.000 abstract description 5
- 238000003754 machining Methods 0.000 description 6
- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical group [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 description 3
- 238000000034 method Methods 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 239000007858 starting material Substances 0.000 description 1
- 230000001360 synchronised effect Effects 0.000 description 1
- 238000004804 winding Methods 0.000 description 1
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Abstract
The cooperative fixing equipment for stator processing can drive the rotating sheet component to rotate through the power component, so that the stator core blank can be pulled to rotate in a variable direction, the clamping component can be used for clamping and positioning stator core blanks with different sizes, the traction strip component can be used for pulling the lifting cover body to rise and fall in a variable direction, the lifting component can be driven, the lifting component can be used for driving the linkage component to rotate, the rotating body rotation is achieved, the cutting tool in a variable direction is achieved, the cutting tool can be driven through the cutting layering component, the cutting is carried out on the center hole of the stator core blank, and the defect that the cutting of the center hole of the stator core blank with different sizes cannot be carried out at present, and the cutting opening with different sizes cannot be cut is effectively avoided.
Description
Technical Field
The application belongs to the technical field of stator processing, and particularly relates to cooperative fixing equipment for stator processing.
Background
The motor stator is an important component of motors such as a generator motor, a starter motor and the like. The stator is an important part of the motor. The stator consists of a stator core, a stator winding and a stand. The main function of the stator is to generate a rotating magnetic field, while the main function of the rotor is to be cut by magnetic lines in the rotating magnetic field to generate (output) current.
In order to perform machining on the stator, it is currently common to perform machining on the stator by using an apparatus and a method such as the apparatus and the method for machining a stator and a rotor of a motor, which are disclosed in patent number CN202310067241.7, wherein machining is performed at a center hole of a stator core blank to achieve a design size.
At present, cutting processing is mainly carried out on a central hole of a stator core blank through a cutting assembly, the cutting assembly rotates a rotary roller, so that under the traction of a first external wire port and a second external wire port which are arranged in a mirror image mode, a change hoop on the first external wire port and the second external wire port is close to each other face to face, the radian of a press bar and an assembling piece is changed, the press bar presses the assembling piece to operate, the bearing bar protrudes out of a receiving hole, and finally a ball piece on the bearing bar is used for correcting a cutting tool.
Disclosure of Invention
In order to solve the defects in the prior art, the application provides a cooperative fixing device for stator processing, wherein a power assembly is arranged to drive a rotating sheet assembly to rotate, so that stator core blanks are pulled to rotate in a variable direction, clamping and positioning can be performed on stator core blanks with different sizes through a clamping assembly, lifting and changing directions of a lifting cover body can be pulled through a traction strip assembly, the state of the lifting assembly is pulled, the linkage assembly can be pulled through the lifting assembly to rotate, the rotating body is rotated, the variable direction of a cutting tool is achieved, the cutting tool can be pulled through a cutting layering assembly, the cutting is performed on the central holes of the stator core blanks with different sizes, and the defect that the cutting holes with different sizes cannot be cut at present is effectively avoided.
The application adopts the following technical scheme.
A cooperative fixing device for stator processing, comprising:
the bearing table is fixedly connected with a first upright post and a second upright post, one end, which is farther from the bearing table, of the first upright post and the second upright post is fixedly connected with an upper wall, a rotating sheet component and a power component are arranged on the bearing table, a clamping component is arranged on the rotating sheet component, a traction strip component is arranged on the first upright post, a lifting cover body is arranged on the traction strip component, a lifting component is arranged on the lifting cover body and the second upright post, a linkage component is arranged on the lifting component, the linkage component is fixedly connected with a rotating body, a plurality of cutting tools are arranged on the rotating body, and one side, close to the bearing table, of the upper wall is fixedly connected with a cutting layering component.
Preferably, the power component is used for driving the rotating sheet component to rotate, the clamping component is used for clamping and positioning the stator core blank, the traction strip component is used for traction of lifting and falling of the cover body, the lifting and falling component is used for traction of the linkage component, the linkage component is used for traction of the rotating body to rotate, and the cutting layering component is used for pressing the cutting tool.
Preferably, the rotating plate component comprises a rotating positioning port fixedly connected to the bearing table, a rotating body is rotated in the rotating positioning port, the rotating body is fixedly connected with a rotating roller, and the rotating roller is fixedly connected with the rotating plate.
Preferably, the power assembly comprises a lifting table fixedly connected to the bearing table, a motor is fixedly connected to the lifting table, a rotating rod of the motor is fixedly connected to a rotating roller I, the rotating roller I is fixedly connected with a spiral umbrella disc I, the spiral umbrella disc I is meshed with a spiral umbrella disc II, and the spiral umbrella disc II is fixedly connected with the rotating roller.
Preferably, the clamping assembly comprises a positioning frame fixedly connected to the rotary plate, the positioning frame is connected with a first lead screw, the upper part of the first lead screw is fixedly connected with a first rotary handle, one end of the first lead screw, which is farther from the first rotary handle, is screwed with a first clamp piece, and the first clamp piece is connected with the positioning frame in a moving way.
Preferably, the first lower wall is fixedly connected to the positioning frame, the rotating piece is fixedly connected to the linear motor, the motor rod of the linear motor is fixedly connected to the running frame, the running frame is in moving connection with the rotating piece, the running frame wire is connected with the second screw rod, the upper portion of the second screw rod is fixedly connected with the second rotating handle, one end of the second screw rod, which is farther from the second rotating handle, is rotatably connected with the second clamp piece, the second clamp piece is in moving connection with the running frame, and the running frame is fixedly connected with the second lower wall.
Preferably, the bearing table is provided with a bearing body, and the bearing body is connected with the rotating piece.
Preferably, the traction bar component comprises a curved tension type hoop which is rotationally connected with a first upright post, the curved tension type hoop is fixedly connected with a third spiral umbrella disk, the third spiral umbrella disk is meshed with a fourth spiral umbrella disk, the fourth spiral umbrella disk is fixedly connected with a third screw, the third screw is connected with an inner wire port formed in the upper wall in a threaded manner, a first disc spring is fixedly connected in the curved tension type hoop, a guide piece is fixedly connected with the first disc spring, the guide piece is in moving connection with the curved tension type hoop, the guide piece is fixedly connected with a curved tension bar, the curved tension bar is thoroughly provided with the curved tension type hoop and is in moving connection with the curved tension type hoop, the curve Zhang Tiaogu is connected with a fifth spiral umbrella disk, the fifth spiral umbrella disk is meshed with a second spiral umbrella disk, the first upright post is thoroughly provided with a lifting cover body and is in moving connection with the lifting cover body, and the third screw is connected with the lifting cover body in a threaded manner.
Preferably, the cutting device comprises a positioning hoop fixedly connected to the rotating body, the positioning hoop is fixedly connected with a plurality of disc springs II, one end, farther from the positioning hoop, of each disc spring II is fixedly connected with an assembling ring, each assembling ring is fixedly connected with a moving ring, the moving rings are in moving connection with the positioning hoop, the lower parts of the moving rings are provided with cutting tools, the upper parts of the moving rings are provided with embedding ports, the cutting layering assembly comprises pneumatic pistons fixedly connected to the upper wall, one end, farther from the upper wall, of each pneumatic piston is fixedly connected with an embedding strip, and the lifting cover body is provided with the embedding ports at positions facing the lower parts of the embedding strips.
Preferably, the lifting assembly comprises a ratchet bar fixedly connected to the second upright post, the ratchet bar is meshed with a ratchet disc, the ratchet disc is fixedly connected with a second rotating roller, and the second rotating roller is in screwed connection with the lifting cover body; the linkage assembly comprises a spiral umbrella disc six fixedly connected with the rotating roller II, the spiral umbrella disc six is meshed with the spiral umbrella disc seven, the spiral umbrella disc seven is fixedly connected with a rotating roller III, the rotating roller III is connected with a roller seat in a rotating mode, the roller seat is fixedly connected with the lifting cover body, the rotating roller III is fixedly connected with a ratchet disc eight, the ratchet disc eight is meshed with the ratchet disc nine, the ratchet disc nine is fixedly connected with a rotating roller four, the rotating roller four is connected with the lifting cover body in a rotating mode, and the rotating roller four is fixedly connected with the rotating body.
Compared with the prior art, the application has the advantages that the power component can be used for pulling the rotating sheet component to rotate, so that the stator core blank can be pulled to rotate in a variable direction, the clamping component can be used for clamping and positioning stator core blanks with different sizes, the pulling strip component can be used for pulling the lifting and falling cover body to rise and fall in a variable direction, the lifting and falling component can be used for pulling the linkage component to rotate, the rotating body can be pulled to rotate, the cutting tool can be pulled to rotate in a variable direction, the cutting tool can be pulled to cut the central hole of the stator core blank, and the defect that the cutting holes with different sizes cannot be cut at present can be effectively avoided.
Drawings
FIG. 1 is a schematic side-by-side arrangement of a cooperative fixing apparatus for stator machining in accordance with the present application;
FIG. 2 is a schematic view at X in FIG. 1;
FIG. 3 is a three-dimensional schematic view of a clamp assembly of a cooperative fixing device for stator machining in accordance with the present application;
fig. 4 is a three-dimensional schematic view of a cutting tool of the cooperative fixing device for stator processing in accordance with the present application.
Detailed Description
In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be clearly and completely expressed with reference to the drawings in the embodiments of the present application. The embodiments of the application that are presented are only some, but not all, embodiments of the application. All other embodiments, which can be made by those skilled in the art without inventive faculty, are within the scope of the application.
As shown in fig. 1 to 4, a cooperative fixing device for stator processing according to the present application includes:
the bearing table 2, the bearing table 2 is fixedly connected with a first upright post 3 and a second upright post 4, one end, which is farther from the bearing table 2, of the first upright post 3 and the second upright post 4 is fixedly connected with an upper wall 5, a rotating piece component 6 and a power component 7 are arranged on the bearing table 2, a clamping component 8 is arranged on the rotating piece component 6, a traction strip component 9 is arranged on the first upright post 3, a lifting cover body 10 is arranged on the traction strip component 9, a lifting cover body 10 and a lifting component 21 are arranged on the second upright post 4, a linkage component 22 is arranged on the lifting component 21, the linkage component 22 is fixedly connected with a rectangular or circular rotating body 23, a plurality of cutting tools 24 are arranged on the rotating body 23, and one side, which is close to the bearing table 2, of the upper wall 5 is fixedly connected with a cutting layering component 25.
In a preferred but non-limiting embodiment of the present application, the power assembly 7 is used for driving the rotating sheet assembly 6 to rotate, the clamping assembly 8 is used for clamping and positioning the stator core blank, the traction bar assembly 9 is used for pulling the lifting cover body 10 to lift, the lifting assembly 21 is used for pulling the linkage assembly 22, the linkage assembly 22 is used for pulling the rotating body 23 to rotate, and the cutting press bar assembly 25 is used for pressing the cutting tool 24.
In a preferred but non-limiting embodiment of the present application, the rotating plate assembly 6 comprises a rotating positioning opening 612 fixedly connected to the carrying platform 2, a rectangular or circular rotating body 613 is screwed in the rotating positioning opening 612, the rotating body 613 is fixedly connected to a rotating roller 614, and the rotating roller 614 is fixedly connected to the rotating plate 615.
In a preferred but non-limiting embodiment of the present application, the power assembly 7 comprises a lifting platform 712 fixedly connected to the carrying platform 2, a motor 713 is fixedly connected to the lifting platform 712, a rotating rod of the motor 713 is fixedly connected to a first rotating roller 714, the first rotating roller 714 is fixedly connected to a first spiral umbrella disk 715, the first spiral umbrella disk 715 is meshed with a second spiral umbrella disk 716, and the second spiral umbrella disk 716 is fixedly connected to the rotating roller 614.
In a preferred but non-limiting embodiment of the present application, the clamping assembly 8 comprises a positioning frame 812 fixedly connected to a rotating plate 615, wherein the positioning frame 812 is screwed to a screw one 813 (the positioning frame 812 is provided with an inner screw opening for being screwed with the screw one), the upper portion of the screw one 813 is fixedly connected to a rotating handle one 814, one end of the screw one 813 further from the rotating handle one 814 is screwed to a clamping plate one 815, and the clamping plate one 815 is movably connected with the positioning frame 812.
In a preferred but non-limiting embodiment of the present application, the first lower wall 816 is fixedly connected to the positioning frame 812, the rotary blade 615 is fixedly connected to the linear motor 817, the motor rod of the linear motor 817 is fixedly connected to the running frame 818, the running frame 818 is movably connected to the rotary blade 615, the running frame 818 is connected to the second screw 819 (the running frame 818 is provided with an inner screw opening to be connected to the second screw), the second screw 819 is fixedly connected to the second screw 820 at an upper portion, the second screw 819 is rotatably connected to the second clamp 821 at a position farther from the second screw 820, the second clamp 821 is movably connected to the running frame 818, and the second lower wall 822 is fixedly connected to the running frame 818.
Thus, when the motor 713 is started, the rotation of the rotating rod of the motor 713 pulls the first rotating roller 714 to rotate, the rotation of the first rotating roller 714 pulls the first spiral umbrella disk 715 to rotate, the rotation of the first spiral umbrella disk 715 pulls the second spiral umbrella disk 716 to rotate, the second spiral umbrella disk 716 pulls the rotating roller 614 to rotate, so that the rotating sheet 615 rotates, the stator iron core blank is synchronously placed on the first 816 and the second 822, the first 814 and the second 820 rotating handles, the first 814 rotating handle pulls the first 813 rotating screw, the first 815 rotating clamp sheet performs clamping on one side of the stator iron core blank, the second 820 rotating handle pulls the second 819 rotating screw, and the second 821 rotating clamp sheet performs clamping on the other side of the stator iron core blank.
In a preferred but non-limiting embodiment of the present application, a rectangular or circular carrier is provided on the carrying table 2, and the carrier is connected to the rotating piece 615, so that the rotating piece 615 can be carried by the carrier.
In a preferred but non-limiting embodiment of the present application, the traction bar assembly 9 comprises a curved band 912 screwed to the first column 3, the curved band 912 is fixedly connected to the third spiral umbrella disk 913, the third spiral umbrella disk 913 is meshed with the fourth spiral umbrella disk 914, the fourth spiral umbrella disk 914 is fixedly connected to the third spiral umbrella disk 915, the third spiral umbrella disk 915 is connected to an inner wire opening formed in the upper wall 5 in a threaded manner, the first disk spring 916 is fixedly connected to the first curved band 912, the first disk spring 916 is fixedly connected to a guide piece 917, the guide piece 917 is movably connected to the curved band 912, the guide piece 917 is fixedly connected to the curved band 918, the curved band 918 is penetratingly provided with the curved band 912, and is movably connected to the curved band 912, the fifth spiral umbrella disk 919 is meshed with the second spiral umbrella disk 716, the first column 3 is penetratingly provided with the lifting cover 10, and is movably connected to the lifting cover 10, and the third column 915 is movably connected to the lifting cover 10 (the lifting cover 10 is connected to the inner wire opening formed by the third wire opening).
In a preferred but non-limiting embodiment of the application, the cutting tool 24 comprises a positioning band 2412 fixedly connected to the rotating body 23, the positioning band 2412 is fixedly connected with a plurality of disc springs 2413, one end of each disc spring 2413, which is farther from the positioning band 2412, is fixedly connected with an assembling ring 2414, the assembling ring 2414 is fixedly connected with a moving ring 2415, the moving ring 2415 is movably connected with the positioning band 2412, a cutting tool 2416 is arranged at the lower part of the moving ring 2415, an embedding opening 2417 is arranged at the upper part of the moving ring 2415, the cutting trim strip assembly 25 comprises a pneumatic piston 2512 fixedly connected to the upper wall 5, one end of the pneumatic piston 2512 farther from the upper wall 5 is fixedly connected with an embedding strip 2513, and an embedding opening 2514 is arranged on the lifting cover 10, which is located below the embedding strip 2513.
Thus, the rotation of the second spiral umbrella disk 716 pulls the fifth spiral umbrella disk 919 to rotate, the rotation of the fifth spiral umbrella disk 919 pulls the curved strip 918 to rotate, the traction guide piece 917 rotates, the curved hoop 912 rotates, the traction spiral umbrella disk three 913 rotates, the rotation of the third spiral umbrella disk 913 pulls the fourth spiral umbrella disk 914 rotates, the traction screw three 915 rotates, the lifting cover 10 rises and falls according to the direction parallel to the first upright post 3 and the second upright post 4, the meshing state of the fifth spiral umbrella disk 919 and the second spiral umbrella disk 716 is released, the corresponding directions of the cutting tool 2416 and the stator core blank can be changed, and the cutting is performed on the different directions of the central hole of the stator core blank.
In a preferred but non-limiting embodiment of the present application, the lifting assembly 21 comprises a ratchet bar 2112 fixedly connected to the second upright post 4, the ratchet bar 2112 engages the ratchet disc 2113, the ratchet disc 2113 is fixedly connected to the second rotating roller 2114, and the second rotating roller 2114 is in screwed connection with the lifting cover 10; the linkage assembly 22 comprises a screw umbrella disc six 2212 fixedly connected with a rotating roller two 2114, the screw umbrella disc six 2212 is meshed with a screw umbrella disc seven 2213, the screw umbrella disc seven 2213 is fixedly connected with a rotating roller three 2214, the rotating roller three 2214 is screwed with a roller seat 2215, the roller seat 2215 is fixedly connected with a lifting cover body 10, the rotating roller three 2214 is fixedly connected with a ratchet disc eight 2216, the ratchet disc eight 2216 is meshed with a ratchet disc nine 2217, the ratchet disc nine 2217 is fixedly connected with a rotating roller four 2218, the rotating roller four 2218 is screwed with the lifting cover body 10, and the rotating roller four 2218 is fixedly connected with a rotating body 23.
Thus, when the lifting cover 10 is lifted up and down, the ratchet disc 2113 is pulled to lift up and down, the ratchet disc 2113 is meshed with the ratchet strip 2112, so that the ratchet disc 2113 is rotated, the rotation roller two 2114 is pulled to rotate the spiral umbrella disc six 2212, the rotation of the spiral umbrella disc six 2212 is pulled to rotate the spiral umbrella disc seven 2213, the rotation of the spiral umbrella disc seven 2213 is pulled to rotate the rotation roller three 2214, the rotation of the spiral umbrella disc three 2214 is pulled to rotate the ratchet disc eight 2216, the rotation of the ratchet disc eight 2216 is pulled to rotate the ratchet disc nine 2217, the rotation of the ratchet disc nine 2217 is pulled to rotate the rotation roller four 2218, and the rotation body 23 is rotated, so that the direction of the cutting tool 2416 is changed.
In short, the stator core blank to be cut is firstly placed on the clamping component 8, clamping and positioning are carried out on the stator core blank through the clamping component 8, in this way, the power component 7 is started to drive the rotary piece component 6, so that the clamping component 8 rotates, the stator core blank rotates to change the orientation, the synchronous rotary piece component 6 can drag the traction bar component 9, the lifting cover body 10 can be lifted up and down under the traction of the traction bar component 9, the orientation of the lifting component 21 can be changed under the traction of the lifting cover body 10, the linkage component 22 can be used for driving the linkage component 22 under the traction of the lifting component 21, the rotary body 23 rotates, the cutting tool 24 rotates to change the orientation under the traction of the rotary body 23, the cutting tool 24 is started when the set cutting tool 24 is placed under the cutting tool 25, the cutting tool 24 is pressed, and the cutting tool 24 is used for cutting the center hole of the stator core blank through the cutting tool 24.
The application can drive the rotating sheet component 6 to rotate by arranging the power component 7, thereby driving the stator core blank to rotate to change the orientation, can execute clamping positioning on stator core blanks with different sizes by the clamping component 8, can drive the lifting cover body 10 to lift by the traction strip component 9, can drive the lifting component 21, can drive the linkage component 22 by the lifting component 21, and can drive the rotating body 23 to rotate, thereby realizing the change of the orientation of the cutting tool 24, can drive the cutting tool 24 by the cutting layering component 25, and can cut the center hole of the stator core blank. The stator is the motor stator.
Compared with the prior art, the application has the advantages that the power component can be used for pulling the rotating sheet component to rotate, so that the stator core blank can be pulled to rotate in a variable direction, the clamping component can be used for clamping and positioning stator core blanks with different sizes, the pulling strip component can be used for pulling the lifting and falling cover body to rise and fall in a variable direction, the lifting and falling component can be used for pulling the linkage component to rotate, the rotating body can be pulled to rotate, the cutting tool can be pulled to rotate in a variable direction, the cutting tool can be pulled to cut the central hole of the stator core blank, and the defect that the cutting holes with different sizes cannot be cut at present can be effectively avoided.
Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present application and not for limiting the same, and although the present application has been described in detail with reference to the above embodiments, it should be understood by those of ordinary skill in the art that: modifications and equivalents may be made to the specific embodiments of the application without departing from the spirit and scope of the application, and any modifications and equivalents are intended to be encompassed within the scope of the claims.
Claims (10)
1. A cooperative fixing device for stator processing, comprising:
the bearing table is fixedly connected with a first upright post and a second upright post, one end, which is farther from the bearing table, of the first upright post and the second upright post is fixedly connected with an upper wall, a rotating sheet component and a power component are arranged on the bearing table, a clamping component is arranged on the rotating sheet component, a traction strip component is arranged on the first upright post, a lifting cover body is arranged on the traction strip component, a lifting component is arranged on the lifting cover body and the second upright post, a linkage component is arranged on the lifting component, the linkage component is fixedly connected with a rotating body, a plurality of cutting tools are arranged on the rotating body, and one side, close to the bearing table, of the upper wall is fixedly connected with a cutting layering component.
2. The cooperative fixing device for stator processing of claim 1, wherein the power assembly is used for driving the rotating plate assembly to rotate, the clamping assembly is used for clamping and positioning the stator core blank, the traction bar assembly is used for traction lifting the cover body, the lifting assembly is used for traction linkage assembly, the linkage assembly is used for traction rotating body to rotate, and the cutting press bar assembly is used for pressing the cutting tool.
3. The cooperative fixing device for stator processing of claim 1, wherein the rotating plate assembly comprises a rotating positioning opening fixedly connected to the bearing table, a rotating body is rotated in the rotating positioning opening, the rotating body is fixedly connected with a rotating roller, and the rotating roller is fixedly connected with the rotating plate.
4. The cooperative fixing device for stator processing of claim 1, wherein the power assembly comprises a lifting table fixedly connected to the bearing table, a motor is fixedly connected to the lifting table, a rotating rod of the motor is fixedly connected to a rotating roller I, the rotating roller I is fixedly connected to a spiral umbrella disk I, the spiral umbrella disk I is meshed with a spiral umbrella disk II, and the spiral umbrella disk II is fixedly connected with the rotating roller.
5. The cooperative fixing apparatus for stator processing of claim 1, wherein the clamping assembly comprises a positioning frame fixedly connected to the rotating plate, the positioning frame is connected to a first screw, an upper portion of the first screw is fixedly connected to a first rotating handle, a further end of the first screw from the first rotating handle is connected to a first clamping plate in a rotating manner, and the first clamping plate is connected to the positioning frame in a moving manner.
6. The cooperative fixing device for stator processing of claim 5, wherein the positioning frame is fixedly connected with the first lower wall, the rotating plate is fixedly connected with the linear motor, a motor rod of the linear motor is fixedly connected with the operating frame, the operating frame is in motion connection with the rotating plate, the operating frame is connected with the second screw rod, the upper part of the second screw rod is fixedly connected with the second rotating handle, the second screw rod is further away from the second rotating handle, the second clamp plate is in motion connection with the operating frame, and the operating frame is fixedly connected with the second lower wall.
7. The cooperative fixing device for stator processing of claim 5, wherein the bearing table is provided with a bearing body, and the bearing body is connected with the rotating piece.
8. The cooperative fixing device for stator processing according to claim 1, wherein the traction bar assembly comprises a curved tension hoop which is rotationally connected with the first upright post, the curved tension hoop is fixedly connected with the third spiral umbrella disk, the third spiral umbrella disk is meshed with the fourth spiral umbrella disk, the fourth spiral umbrella disk is fixedly connected with the third screw rod, the third screw rod is connected with an inner wire opening formed in the upper wall in a threaded manner, the first curved tension hoop is fixedly connected with a disc spring, the first curved tension hoop is fixedly connected with a guide piece, the guide piece is movably connected with the curved tension hoop, the curved tension hoop is fixedly connected with the curved tension hoop, the fifth spiral umbrella disk is meshed with the second spiral umbrella disk, the first upright post is fixedly connected with the second upright post in a threaded manner, the third screw rod is movably connected with the lifting cover, and the third screw rod is movably connected with the lifting cover.
9. The cooperative fixing device for stator processing according to claim 1, wherein the cutting tool comprises a positioning hoop fixedly connected to the rotating body, the positioning hoop is fixedly connected with a plurality of disc springs two, one end of each disc spring two, which is farther from the positioning hoop, is fixedly connected with an assembling ring, the assembling ring is fixedly connected with a moving ring, the moving ring is movably connected with the positioning hoop, a cutting tool is arranged at the lower part of the moving ring, an embedding port is arranged at the upper part of the moving ring, the cutting batten assembly comprises a pneumatic piston fixedly connected to the upper wall, one end of the pneumatic piston, which is farther from the upper wall, is fixedly connected with an embedding strip, and an embedding port is arranged on the lifting cover body at a position facing below the embedding strip.
10. The cooperative fixing device for stator processing according to claim 1, wherein the lifting assembly comprises a ratchet bar fixedly connected to the second upright post, the ratchet bar is meshed with a ratchet disc, the ratchet disc is fixedly connected with the second rotating roller, and the second rotating roller is in screwed connection with the lifting cover body; the linkage assembly comprises a spiral umbrella disc six fixedly connected with the rotating roller II, the spiral umbrella disc six is meshed with the spiral umbrella disc seven, the spiral umbrella disc seven is fixedly connected with a rotating roller III, the rotating roller III is connected with a roller seat in a rotating mode, the roller seat is fixedly connected with the lifting cover body, the rotating roller III is fixedly connected with a ratchet disc eight, the ratchet disc eight is meshed with the ratchet disc nine, the ratchet disc nine is fixedly connected with a rotating roller four, the rotating roller four is connected with the lifting cover body in a rotating mode, and the rotating roller four is fixedly connected with the rotating body.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202311446747.5A CN117175871B (en) | 2023-11-02 | 2023-11-02 | Stator processing is with cooperateing fixed equipment |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202311446747.5A CN117175871B (en) | 2023-11-02 | 2023-11-02 | Stator processing is with cooperateing fixed equipment |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN117175871A true CN117175871A (en) | 2023-12-05 |
| CN117175871B CN117175871B (en) | 2024-01-12 |
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| Application Number | Title | Priority Date | Filing Date |
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| CN202311446747.5A Active CN117175871B (en) | 2023-11-02 | 2023-11-02 | Stator processing is with cooperateing fixed equipment |
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| CN117175871B (en) | 2024-01-12 |
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