CN116038457B

CN116038457B - Spring grinding machine with turning bearing device

Info

Publication number: CN116038457B
Application number: CN202211673777.5A
Authority: CN
Inventors: 费庆民; 金根生; 黄栋
Original assignee: Zhejiang Jinchang Spring Co ltd
Current assignee: Zhejiang Jinchang Spring Co ltd
Priority date: 2022-12-26
Filing date: 2022-12-26
Publication date: 2023-08-22
Anticipated expiration: 2042-12-26
Also published as: CN116038457A

Abstract

The application discloses a spring grinding machine with a material turning bearing device, which comprises a material turning bearing device; the material turning bearing device comprises a horizontal supporting seat which is horizontally and rotatably arranged at one side of the working bracket; the end surface of the horizontal supporting seat far away from the working bracket is vertically and rotatably provided with a vertical supporting seat; the two ends of the vertical supporting seat, which are close to the end surface of the working bracket, are respectively provided with a spring supporting seat, and the horizontal supporting seat is positioned between a pair of spring supporting sleeves; the spring support seat comprises an annular support disc; a plurality of spring supporting sleeves of circular cylinders vertically penetrate through and are fixed on the supporting disc; spring cover plate mechanisms are respectively arranged at two ends of the vertical supporting seat; the spring cover plate mechanism comprises a vertical moving seat which vertically penetrates through and vertically moves on the vertical supporting seat; the end faces of the vertical moving seat far away from the vertical supporting seat are respectively provided with an upper cover plate and a lower cover plate in a rotating mode. The spring overturning device has the effects of avoiding manual spring overturning one by one and improving spring overturning efficiency.

Description

Spring grinding machine with turning bearing device

Technical Field

The application relates to the field of spring grinding machines, in particular to a spring grinding machine with a turning bearing device.

Background

The actuator needs to use a compression spring, and the compression spring needs to grind two end faces of the compression spring after coiling is completed, so that the perpendicularity of the spiral spring is guaranteed, the end faces of the two supporting rings are kept in contact with other parts, and the deflection characteristic is reduced; the procedure becomes a grinding spring; the spring grinding is carried out by a spring grinding machine, and after springs are manually put in batches on the spring setting seat in the process, the spring setting seat enters the spring grinding machine to grind the upper side end face of the springs; then taking out the spring setting seat to manually turn over, and enabling the spring setting seat to enter a spring grinding machine again to grind the other end face of the spring;

with respect to the related art in the above, the inventors consider that there are the following drawbacks: spring turn-over is carried out between polishing two end faces of the spring respectively through the manual work, and because the springs are polished in batches, the spring turn-over needs to consume a large amount of time, and meanwhile, the springs can be omitted in the turn-over process, so that the springs are polished by only one end face, and the efficiency and the quality of polishing the springs are greatly reduced.

Disclosure of Invention

In order to improve the technical problem of spring overturning efficiency, the application provides a spring grinder with a overturning bearing device.

The application provides a spring grinder with a turning bearing device, which adopts the following technical scheme:

a spring grinder with a turning bearing device comprises a working bracket and a grinding device arranged at the upper end of the working bracket; the device also comprises a turning bearing device; the material turning bearing device comprises a horizontal supporting seat which is horizontally and rotatably arranged at one side of the working bracket; the end surface of the horizontal supporting seat far away from the working bracket is vertically and rotatably provided with a vertical supporting seat; the two ends of the vertical supporting seat, which are close to the end surface of the working bracket, are respectively provided with a spring supporting seat, and the horizontal supporting seat is positioned between a pair of spring supporting sleeves; the spring support seat comprises an annular support disc; a plurality of spring supporting sleeves of circular cylinders vertically penetrate through and are fixed on the supporting disc; spring cover plate mechanisms are respectively arranged at two ends of the vertical supporting seat; the spring cover plate mechanisms are in one-to-one correspondence with the spring supporting seats; the spring cover plate mechanism comprises a vertical moving seat which vertically penetrates through and vertically moves on the vertical supporting seat; the end face of the vertical moving seat far away from the vertical supporting seat is respectively provided with an upper cover plate and a lower cover plate in a rotating way; the upper cover plate and the lower cover plate are respectively positioned at the upper side and the lower side of the spring supporting seat at the corresponding sides and are parallel to the supporting disc; the upper and lower cover plates are used for shielding openings on the corresponding sides of the spring support sleeve.

Through adopting above-mentioned technical scheme, the spring is placed in the spring supporting sleeve, through one hundred eighty degrees of vertical supporting seat rotation, drives a pair of supporting disk, all spring supporting sleeves and spring in the spring supporting sleeve and turns over, and a pair of upper and lower apron keeps directly over the spring supporting seat and under this in-process, prevents that the spring from breaking away from the spring supporting sleeve, improves spring turn-over efficiency like this.

Optionally, the work support comprises a horizontal work table; a plurality of uniformly distributed supporting feet are arranged on the bottom surface of the horizontal workbench, and a vertical supporting plate is formed at one end of the upper end surface, far away from the turning bearing device; an upper supporting plate is formed at the upper end of the vertical supporting plate; the polishing device is arranged on the upper supporting plate and is positioned between the vertical supporting plate and the turning bearing device.

Through adopting above-mentioned technical scheme, when horizontal support seat horizontal rotation, the spring support seat can not interfere with the work support, does not influence the going on that follow-up spring polished.

Optionally, a lifting hydraulic cylinder is fixed on the lower end surface of the horizontal workbench; a lifting support plate is fixed on a piston rod of the lifting hydraulic cylinder; the lifting support plate is positioned right below the polishing device.

Through adopting above-mentioned technical scheme, in the spring polishing process, lift the backup pad and rise the upper and lower apron of the spring supporting seat downside that supports the processing position, improve the stability of the processing position of spring.

Optionally, the polishing device comprises a hydraulic cylinder fixed on the upper end surface of the upper supporting plate; a polishing lifting plate is fixed at the lower end of a piston rod of the hydraulic cylinder; a polishing motor is fixed on the bottom surface of the polishing lifting plate; the lower end of the output shaft of the polishing motor is fixed with a polishing wheel.

Through adopting above-mentioned technical scheme, pneumatic cylinder control polishing wheel goes up and down, can guarantee going on smoothly of polishing, avoided the spring supporting seat to carry out the position of processing simultaneously and do not interfere.

Optionally, a vertical connecting plate is formed at one end of the upper end surface of the horizontal workbench, which is close to the turning bearing device; the end surface of the vertical connecting plate far away from the vertical supporting plate is provided with a horizontal connecting plate; a horizontal rotating motor is fixed on the upper end surface of the horizontal connecting plate; the horizontal supporting seat is fixed at the upper end of an output shaft of the horizontal rotating motor.

Through adopting above-mentioned technical scheme, horizontal rotation motor drive horizontal support seat horizontal rotation for the spring support seat reaches and leaves the processing position.

Optionally, a vertical rotating motor is fixed on the end surface of the horizontal supporting seat, which is close to the vertical supporting seat; the vertical supporting seat is fixed on an output shaft of the vertical rotating motor.

Through adopting above-mentioned technical scheme, vertical rotating electrical machines drive on the vertical face of vertical supporting seat and rotate and accomplish the turn-over to the spring.

Optionally, the vertical moving seat is a cuboid; a pair of vertical moving grooves for vertically moving the vertical moving seat are formed on the vertical supporting seat; drive notches are formed at two ends of the end face, far away from the horizontal support seat, of the vertical support seat respectively; the driving notch is communicated with the vertical moving groove; a rack fixing seat matched with the driving notch is formed on the end surface of the vertical moving seat far away from the horizontal supporting seat; a vertical driving rack is fixed on the end surface of the rack fixing seat far away from the vertical moving seat; a pair of motor support plates are formed on the end surface of the vertical support seat far away from the horizontal support seat; vertical driving motors are respectively fixed on the end surfaces of the pair of motor support plates, which are close to each other; a vertical driving gear is fixed on an output shaft of the vertical driving motor; the vertical driving gear is engaged with the vertical driving rack of the corresponding side.

Through adopting above-mentioned technical scheme, vertical driving motor drives vertical drive gear and rotates, and vertical drive gear drives vertical movement seat vertical movement at vertical supporting seat through rather than the vertical drive rack of meshing to change the upper and lower position of a pair of upper and lower apron, guarantee going on smoothly of polishing of spring.

Optionally, a pair of vertical guide blocks are respectively formed on the end surfaces of the vertical moving seat far from and close to the horizontal supporting seat; a pair of vertical guide grooves matched with the vertical guide blocks are respectively formed on the side walls of the corresponding sides of the vertical moving groove.

By adopting the technical scheme, the vertical guide block is matched with the vertical guide groove, so that the accuracy of the moving direction of the vertical moving seat is improved.

Optionally, cover plate driving motors are respectively fixed on the upper end face and the lower end face of the vertical moving seat; a driving connecting plate is fixed on the upper cover plate and the lower cover plate; the driving connecting plate is fixedly connected with the output shaft of the cover plate driving motor at the corresponding side.

Through adopting above-mentioned technical scheme, apron driving motor passes through drive connecting plate and drives upper and lower apron horizontal rotation for upper and lower apron is kept away from or is close to the spring supporting seat.

Optionally, a pair of supporting plates are detachably fixed at two ends of the end face, close to the working support, of the vertical supporting seat respectively.

By adopting the technical scheme, the spring support seat is convenient to replace and maintain subsequently.

In summary, the beneficial effects of the application are as follows:

1. the springs do not need to be manually carried out one by one, so that the spring overturning efficiency is improved.

2. And the position stability of the spring during processing is improved, and the polishing quality of the end face of the spring is improved.

Drawings

Fig. 1 is a schematic top view of the present application.

Fig. 2 is a schematic view of the structure of the section A-A of fig. 1 according to the present application.

Fig. 3 is a schematic view of the structure of the section B-B of fig. 1 according to the present application.

Fig. 4 is a schematic top view of the connection of the vertical support 34 and the pair of vertically movable bases 353 of the present application.

Reference numerals illustrate:

10. a working bracket; 11. a horizontal work table; 12. supporting feet; 13. a vertical support plate; 14. an upper support plate; 15. a vertical connecting plate; 16. a horizontal connecting plate; 17. lifting a hydraulic cylinder; 18. lifting the supporting plate;

20. a polishing device; 21. a hydraulic cylinder; 22. polishing the lifting plate; 23. polishing a motor; 24. grinding wheel;

30. a turning bearing device; 31. a horizontal rotating motor; 32. a horizontal support base; 33. a vertical rotary motor; 34. a vertical support base; 340. a vertical moving groove; 3400. a driving notch; 341. a motor support plate; 342. a connecting frame is fixed; 343. a reinforcing frame; 35. a spring cover plate mechanism; 351. a vertical driving motor; 352. a vertical drive gear; 353. a vertical moving seat; 3531. a vertical guide block; 3532. a rack fixing seat; 3533. a vertical drive rack; 354. a cover plate driving motor; 355. an upper cover plate and a lower cover plate; 3551. a driving connecting plate; 36. a spring support base; 361. a support plate; 362. a spring support sleeve; 363. an outer connecting frame.

Detailed Description

The application is described in further detail below with reference to fig. 1-4.

The application discloses a spring grinder with a turning material bearing device, referring to fig. 1-2, comprising a working bracket 10, a grinding device 20 arranged at the upper end of the working bracket 10 and a turning material bearing device 30 arranged at one side of the working bracket 10; the turning load bearing device 30 is used for placing and supporting the springs, realizing turning of the springs, and simultaneously transferring the springs to the lower part of the polishing device 20 for polishing and to the outer side of the working support 10 for spring loading and unloading.

Referring to fig. 1-2, a work stand 10 includes a horizontal work table 11; a plurality of uniformly distributed supporting feet 12 are arranged on the bottom surface of the horizontal workbench 11, and a vertical supporting plate 13 is formed at one end of the upper end surface; the vertical support plate 13 is far away from the turning bearing device 30; an upper support plate 14 is formed at the upper end of the vertical support plate 13; one end of the upper supporting plate 14 is fixed at the upper end of the vertical supporting plate 13, and the other end horizontally faces the turning bearing device 30; a vertical connecting plate 15 is formed at one end of the upper end surface of the horizontal workbench 11, which is close to the turning bearing device 30; the end surface of the vertical connecting plate 15, which is far away from the vertical supporting plate 13, is formed with a horizontal connecting plate 16.

Referring to fig. 2, a lifting hydraulic cylinder 17 is fixed to the lower end surface of the horizontal table 11; a lifting support plate 18 is fixed on a piston rod of the lifting hydraulic cylinder 17; the lifting support plate 18 is located directly below the grinding device 20.

Referring to fig. 1-2, the grinding device 20 includes a hydraulic cylinder 21 fixed to an upper end surface of the upper support plate 14; a polishing lifting plate 22 is fixed at the lower end of a piston rod of the hydraulic cylinder 21; a polishing motor 23 is fixed on the bottom surface of the polishing lifting plate 22; a grinding wheel 24 is fixed at the lower end of the output shaft of the grinding motor 23.

Referring to fig. 1 to 4, the turning load carrying device 30 includes a horizontal rotary motor 31 fixed to an upper end surface of the horizontal connecting plate 16; a horizontal supporting seat 32 is fixed at the upper end of the output shaft of the horizontal rotary motor 31; a vertical rotating motor 33 is fixed on the vertical end surface of the horizontal support seat 32; a vertical support seat 34 is fixed to an output shaft of the vertical rotary motor 33.

The two ends of the end surface of the vertical supporting seat 34, which is close to the horizontal supporting seat 32, are respectively formed with a fixed connecting frame 342, and the end surface of the vertical supporting seat 34, which is far away from the horizontal supporting seat 32, is formed with a pair of motor supporting plates 341; two ends of the vertical supporting seat 34 are respectively and vertically formed with rectangular groove-shaped vertical moving grooves 340 with upper and lower openings; a driving notch 3400 is formed on the side wall of the vertical moving groove 340 far away from the horizontal supporting seat 32; a reinforcing frame 343 is formed on the upper end surface of the vertical supporting seat 34; the reinforcing frame 343 spans across the driving notch 3400; a pair of reinforcement frames 343 are provided for reinforcing the rigidity of the vertical support base 34.

The material turning carrying device 30 further comprises a pair of spring support seats 36; the spring support base 36 includes an annular support plate 361; a plurality of ring column spring supporting sleeves 362 vertically penetrate through and are fixed on the supporting disk 361; the spring support sleeve 362 is used to vertically insert the spring and keep the spring in a vertical state; an outer connecting frame 363 is formed on the outer cylindrical surface of the supporting disk 361; the outer link 363 is connected to the corresponding side fixing link 342 by bolts.

Spring cover plate mechanisms 35 are respectively arranged at two ends of the vertical supporting seat 34; the spring cover plate mechanism 35 includes a pair of upper and lower cover plates 355 respectively located on upper and lower sides of the spring support base 36 and a rectangular parallelepiped-shaped vertically movable base 353 vertically movable in the vertically movable groove 340; cover plate driving motors 354 are respectively fixed on the upper and lower end surfaces of the vertical moving seat 353; a driving connection plate 3551 is fixed on the upper and lower cover plates 355; the driving connection plate 3551 is fixedly connected with the output shaft of the cover plate driving motor 354 at the corresponding side; a pair of upper and lower cover plates 355 are respectively positioned at upper and lower sides of the spring supporting seat 36 at the corresponding sides and parallel to the supporting disk 361; the upper and lower cover plates 355 serve to cover the openings of the respective sides of the spring supporting sleeve 362; the upper and lower cover plates 355 may be circular plates and the diameters of the upper and lower cover plates 355 are larger than the outer diameter of the support disk 361.

A rack fixing seat 3532 matched with the driving notch 3400 is formed on the end surface of the vertical moving seat 353; the end surface of the rack fixing seat 3532 far away from the vertical moving seat 353 is fixedly provided with a vertical driving rack 3533; vertical driving motors 351 are respectively fixed on end surfaces of the pair of motor supporting plates 341, which are close to each other; a vertical drive gear 352 is fixed on the output shaft of the vertical drive motor 351; the vertical drive gears 352 are engaged with the vertical drive racks 3533 of the respective sides.

A pair of vertical guide blocks 3531 are respectively formed on the end surfaces of the vertical moving seat 353 far from and near to the horizontal supporting seat 32; a pair of vertical guide grooves are formed on the sidewalls of the respective sides of the vertical moving groove 340, respectively, to be engaged with the vertical guide blocks 3531.

The application relates to a spring grinder with a turning bearing device, which comprises the following working principles: referring to fig. 1 in the initial state, at this time, the upper end opening of the spring supporting sleeve 362 is opened by the upper and lower cover plates 355 being far from the spring supporting seats 36, and the pair of vertically moving seats 353 are uppermost such that the lower upper and lower cover plates 355 are abutted against the lower ends of the spring supporting sleeves 362, at this time, springs are manually put into each spring supporting sleeve 362 of one of the spring supporting seats 36; then, the vertical driving motor 351 drives the vertical driving gear 352 to rotate, the vertical driving gear 352 drives the vertical moving seat 353 to descend through the vertical driving rack 3533 meshed with the vertical driving gear 352 so that the upper end of the spring exceeds the length of the spring supporting sleeve 362 to be at a proper position, then the horizontal rotating motor 31 drives the horizontal supporting seat 32 to horizontally rotate 90 degrees so that the spring supporting seat 36 is positioned right below the polishing device 20, then the hydraulic cylinder 21 drives the horizontal supporting seat 32 to descend so that the polishing wheel 24 abuts against the upper end of the spring, and then the polishing motor 23 drives the polishing wheel 24 to rotate, and the polishing wheel 24 polishes the upper end of the spring; at this time, the lifting support plate 18 abuts against the upper and lower cover plates 355 at the lower side, so that the upper and lower cover plates 355 cannot be moved down accidentally; after polishing, the horizontal rotary motor 31 drives the horizontal support seat 32 to horizontally rotate for 90 degrees to return, then the vertical drive motor 351 drives the vertical drive gear 352 to rotate, the vertical drive gear 352 drives the vertical moving seat 353 to descend through the vertical drive rack 3533 meshed with the vertical drive gear 352 so that the springs are hidden in the spring support sleeve 362, and then the cover plate drive motor 354 on the corresponding side drives the upper cover plate 355 and the lower cover plate 355 thereon to horizontally rotate to be right above the spring support seat 36 so as to prevent the springs from being separated from the spring support sleeve 362; then the vertical rotating motor 33 drives the vertical supporting seat 34 to rotate 180 degrees, so that the spring supporting seat 36 turns 180 degrees, the springs in the spring supporting seat are turned over, and then the upper cover plate 355 on the upper side horizontally rotates to return to enable the upper end opening of the spring supporting sleeve 362 to be in an open state; the other end face of the spring is then polished according to the principles described above.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims

1. A spring grinder with a turning bearing device comprises a working bracket (10) and a grinding device (20) arranged at the upper end of the working bracket (10); the method is characterized in that: the device also comprises a turning bearing device (30); the material turning bearing device (30) comprises a horizontal supporting seat (32) horizontally and rotatably arranged at one side of the working bracket (10); the end surface of the horizontal supporting seat (32) far away from the working bracket (10) is vertically and rotatably provided with a vertical supporting seat (34); the two ends of the vertical supporting seat (34) close to the end face of the working bracket (10) are respectively provided with a spring supporting seat (36), and the horizontal supporting seat (32) is positioned between a pair of spring supporting sleeves (36); the spring support seat (36) comprises an annular support disc (361); a spring support sleeve (362) of a plurality of circular cylinders vertically penetrates through and is fixed on the support disc (361); spring cover plate mechanisms (35) are respectively arranged at two ends of the vertical supporting seat (34); the spring cover plate mechanisms (35) are in one-to-one correspondence with the spring supporting seats (36); the spring cover plate mechanism (35) comprises a vertical moving seat (353) which is vertically penetrated and vertically arranged on the vertical supporting seat (34) in a moving way; an upper cover plate (355) and a lower cover plate (355) are respectively rotatably arranged on the end surfaces of the vertical moving seats (353) far away from the vertical supporting seat (34); a pair of upper and lower cover plates (355) are respectively positioned at the upper and lower sides of the spring supporting seat (36) at the corresponding sides and are parallel to the supporting disk (361); the upper and lower cover plates (355) are used for shielding openings on the corresponding sides of the spring supporting sleeve (362);

the vertical moving seat (353) is a cuboid; a pair of vertical moving grooves (340) for vertically moving the vertical moving seat (353) are formed on the vertical supporting seat (34); drive notches (3400) are formed at two ends of the end surface of the vertical supporting seat (34) far away from the horizontal supporting seat (32) respectively; the driving notch (3400) is communicated with the vertical moving groove (340); a rack fixing seat (3532) matched with the driving notch (3400) is formed on the end surface of the vertical moving seat (353) far away from the horizontal supporting seat (32); a vertical driving rack (3533) is fixed on the end surface of the rack fixing seat (3532) far away from the vertical moving seat (353); a pair of motor support plates (341) are formed on the end surface of the vertical support seat (34) far away from the horizontal support seat (32); vertical driving motors (351) are respectively fixed on the end surfaces of the pair of motor supporting plates (341) which are close to each other; a vertical driving gear (352) is fixed on an output shaft of the vertical driving motor (351); the vertical drive gears (352) are engaged with the vertical drive racks (3533) of the respective sides.

2. The spring grinder with a material turning and bearing device according to claim 1, wherein: the working support (10) comprises a horizontal working table (11); a plurality of uniformly distributed supporting feet (12) are arranged on the bottom surface of the horizontal workbench (11), and a vertical supporting plate (13) is formed at one end of the upper end surface away from the turning bearing device (30); an upper supporting plate (14) is formed at the upper end of the vertical supporting plate (13); the grinding device (20) is arranged on the upper support plate (14) and is positioned between the vertical support plate (13) and the turning carrying device (30).

3. The spring grinder with a material turning and bearing device according to claim 2, wherein: a lifting hydraulic cylinder (17) is fixed on the lower end surface of the horizontal workbench (11); a lifting support plate (18) is fixed on a piston rod of the lifting hydraulic cylinder (17); the lifting support plate (18) is positioned right below the polishing device (20).

4. The spring grinder with a material turning and bearing device according to claim 2, wherein: the polishing device (20) comprises a hydraulic cylinder (21) fixed on the upper end surface of the upper supporting plate (14); a polishing lifting plate (22) is fixed at the lower end of a piston rod of the hydraulic cylinder (21); a polishing motor (23) is fixed on the bottom surface of the polishing lifting plate (22); and a polishing wheel (24) is fixed at the lower end of the output shaft of the polishing motor (23).

5. The spring grinder with a material turning and bearing device according to claim 2, wherein: a vertical connecting plate (15) is formed at one end of the upper end surface of the horizontal workbench (11) close to the turning bearing device (30); the end surface of the vertical connecting plate (15) far away from the vertical supporting plate (13) is provided with a horizontal connecting plate (16); a horizontal rotating motor (31) is fixed on the upper end surface of the horizontal connecting plate (16); the horizontal supporting seat (32) is fixed at the upper end of an output shaft of the horizontal rotating motor (31).

6. The spring grinder with a material turning and bearing device according to claim 1, wherein: a vertical rotating motor (33) is fixed on the end surface of the horizontal supporting seat (32) close to the vertical supporting seat (34); the vertical support seat (34) is fixed on an output shaft of the vertical rotating motor (33).

7. The spring grinder with a material turning and bearing device according to claim 1, wherein: a pair of vertical guide blocks (3531) are respectively formed on the end surfaces of the vertical moving seat (353) far from and close to the horizontal supporting seat (32); a pair of vertical guide grooves which are matched with the vertical guide blocks (3531) are respectively formed on the side walls of the corresponding sides of the vertical moving groove (340).

8. The spring grinder with a material turning and bearing device according to claim 1, wherein: cover plate driving motors (354) are respectively fixed on the upper end face and the lower end face of the vertical moving seat (353); a driving connecting plate (3551) is fixed on the upper cover plate (355); the driving connection plate (3551) is fixedly connected with an output shaft of a cover plate driving motor (354) at the corresponding side.

9. The spring grinder with a material turning and bearing device according to claim 1, wherein: a pair of support plates (361) are detachably fixed at two ends of the end face, close to the working support (10), of the vertical support seat (34).