CN212682276U - Pin cutting forming structure of electronic component pin folding device - Google Patents

Abstract

The utility model provides a foot shaping structure is cut to electronic component roll over foot device belongs to electronic component processing equipment technical field. The problem of how to improve the production efficiency of electronic component pin forming processing in the prior art is solved. The utility model provides an electronic component rolls over foot shaping structure of cutting of foot device, includes the frame and links firmly in the fixing base of frame, sliding connection has the slider on the fixing base, install three at least parallel arrangement's clamping jaw on the slider, the connecting seat has been linked firmly on the frame, wear to be equipped with shear plate one and profiled sheeting one in the connecting seat, wear to be equipped with shear plate two and profiled sheeting two in the fixing base, shear plate one, profiled sheeting one, shear plate two and profiled sheeting two all are located the below of parallel arrangement clamping jaw, the frame is equipped with the driving piece that can drive the clamping jaw centre gripping, and drives shear plate one simultaneously and shear plate two cooperations and cut foot, profiled sheeting one and profiled sheeting two cooperation shaping. This electronic component rolls over foot device cuts foot shaping structure, has improved production efficiency.

Description

Pin cutting forming structure of electronic component pin folding device

Technical Field

The utility model belongs to the technical field of electronic component processing equipment, a leg forming structure is cut to electronic component roll over foot device is related to.

Background

In order to make the electronic component meet the circuit board mounting requirement, the two pins of the electronic component are usually required to be cut to make the lengths of the two pins consistent, and then the two pins are subjected to molding processing according to the required shape. The traditional technology is to cut the foot through the manual work, the electronic component who will cut again buckles through tools such as tool for manual operation, its speed of buckling is slow, low in production efficiency, the current equipment that still has the foot of cutting to the electronic component pin alone specially, carry out the equipment of contour machining to the electronic component pin alone specially, the shearing and the contour machining of electronic component pin need separately to process, cut the back with the electronic component pin, carry the electronic component after will cutting to the equipment of contour machining through the manual work again, mass production often production efficiency is also lower, how to improve the production efficiency of electronic component pin contour machining is the problem that prior art personnel need solve.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to the above-mentioned problem that prior art exists, provide an electronic component rolls over foot device cut foot shaping structure, the utility model aims to solve the technical problem that: how to improve the production efficiency of the electronic element pin forming processing.

The purpose of the utility model can be realized by the following technical proposal:

the utility model provides an electronic component rolls over foot shaping structure of cutting of foot device, includes the frame, the fixing base has been linked firmly on the frame, sliding connection has the slider on the fixing base, install three at least parallel arrangement's clamping jaw on the slider, the connecting seat has been linked firmly on the frame, wear to be equipped with shear plate one and profiled sheeting one in the connecting seat, the fixing base in wear to be equipped with shear plate two and profiled sheeting two, shear plate one and two relative settings of shear plate, profiled sheeting one and two relative settings of profiled sheeting, shear plate one, profiled sheeting two and profiled sheeting two all are located the below of parallel arrangement's clamping jaw, the frame be equipped with the driving piece, the driving piece can drive the clamping jaw centre gripping, and drive shear plate one simultaneously and two cooperations of shear plate cut foot, profiled sheeting one and profiled sheeting two cooperation shaping.

The slide block slides on the fixed seat, so that the clamping jaws arranged on the slide block in parallel move along with the movement of the slide block, the clamping jaw at the front end clamps the electronic element at the material conveying position, the electronic element is clamped and sent to the upper parts of the first shearing plate and the second shearing plate, the first shearing plate and the second shearing plate are close to clamp the electronic element and simultaneously shear pins of the electronic element, the clamping jaws loosen the electronic element and slide through the slide block to enable the clamping jaw at the front end to clamp the electronic element at the material conveying position again, after the pins are sheared, the electronic element sheared by the pins is clamped by the next clamping jaw, the electronic element is loosened by the first shearing plate and the second shearing plate, the electronic element sheared by the pins is sent to the upper parts of the first forming plate and the second forming plate which are arranged oppositely in a clamping way by the clamping jaw matched with the slide block, the first forming plate and the second forming plate are close to clamp the electronic element, the pins, and the latter clamping jaw loosens the electronic element, enables the clamping jaw to clamp the electronic element after the pin shearing is finished again through sliding of the sliding block, clamps the formed electronic element through the next clamping jaw after the pin shearing is finished, loosens the electronic element through the first forming plate and the second forming plate, and finally clamps the electronic element and sends the electronic element to a finished product station.

In the process, the driving part simultaneously drives the clamping jaws arranged in parallel to clamp or loosen, the corresponding clamping jaws clamp the electronic element at the material conveying position, clamp the electronic element at the position where the shearing plate I and the shearing plate II are matched with the shearing legs and clamp the electronic element at the position where the forming plate I and the forming plate II are matched with the forming plate II, the three actions are synchronously carried out, the corresponding clamping jaws convey the electronic element to the positions above the shearing plate I and the shearing plate II, convey the electronic element after the shearing at the shearing plate I and the shearing plate II to the positions above the forming plate I and the forming plate II, and convey the electronic element after the forming at the forming plate I and the forming plate II to a finished product station, the three actions are also synchronously carried out, the shearing plate I and the shearing plate II are matched to shear the pins of the electronic element, and the forming plate I and the forming plate II are matched to form the pins of the electronic element, the two actions are simultaneously carried out, so that the cutting and the forming of the pins of the electronic element can be automatically realized, the electronic element is transferred by clamping at least three clamping jaws which are arranged in parallel and matching with the sliding block to move, the manual operation is not needed, the automation is realized, and the production efficiency of the forming and processing of the pins of the electronic element is improved.

In the foot shaping structure of cutting of foretell electronic component book foot device, the one end of shear plate one and the one end of profiled sheeting one have linked firmly push pedal one, push pedal one and connecting seat between be equipped with spring one, it is connected with cam one to rotate on the frame, cam one offsets with push pedal one and leans on, the driving piece can drive cam one and rotate, the one end of shear plate two and the one end of profiled sheeting two have linked firmly push pedal two, push pedal two and fixing base between be equipped with spring two, it is connected with cam two to rotate on the frame, cam two supports with push pedal two and leans on, the driving piece can drive cam two and rotate. The driving piece can drive the first push plate and the second push plate simultaneously to achieve that the first shear plate and the second shear plate are close to clamp the electronic element, the first forming plate and the second forming plate are close to clamp the electronic element, the first spring can enable the first shear plate and the first forming plate to return, and the second spring can enable the second shear plate and the second forming plate to return.

In the pin cutting forming structure of the pin folding device for electronic components, the first cam is connected to the base through the first rotating shaft, the second cam is connected to the base through the second rotating shaft, and the driving piece can drive the first rotating shaft and the second rotating shaft to rotate simultaneously.

In the foot shaping structure of cutting of foretell electronic component book foot device, the bottom of the other end of clipboard one has linked firmly the cutter, cutter protrusion clipboard one, the bottom of the other end of clipboard two has linked firmly the baffle, the baffle just both cooperations realize cutting the foot relatively with the cutter, the bottom of the other end of clipboard one has linked firmly shaping piece one, the bottom of the other end of shaping board two has linked firmly shaping piece two, shaping piece one is relative with shaping piece two and both cooperations realize the pin shaping. The baffle cooperates with the cutter to realize that electronic component pin cuts, and shaping piece one cooperates the pin shaping with shaping piece two, and shaping piece one and shaping piece two can set to the pin of different shapes and buckle the mould combination of shape.

In the foot shaping structure of cutting of foretell electronic component book foot device, the clamping jaw includes clamping bar one and clamping bar two, clamping bar one and clamping bar two all are the L shape, clamping bar one and clamping bar two are all worn to locate on the slider, the bottom of the exposed core of clamping bar one is equipped with clamp splice one, the bottom of the exposed core of clamping bar two is equipped with clamp splice two, clamp splice two is relative with clamp splice one and both can offset and lean on, the clamping jaw is three, and clamp bar two in every clamping jaw all is connected through push pedal three, be equipped with spring three between push pedal three and the slider, this foot shaping structure of cutting still includes cam three, cam three is connected on the frame through pivot three, cam three supports with the push pedal three-phase and leans on, the driving piece can drive pivot three rotations. The first clamping jaw can realize getting the material and transfer the operation to clipboard one and clipboard two tops, and the second clamping jaw can realize that the electronic component after shearing transfers the operation to clipboard one and clipboard two tops, and the third clamping jaw can realize accomplishing the operation that the electronic component after the shaping transferred to the finished product station, and the cam is three to rotate and promotes push pedal three and realize that three clamping jaws are synchronous centre gripping or loosen, and the spring three can realize that three clamping jaws are synchronous to be pressed from both sides tightly.

In the pin cutting forming structure of the pin folding device for electronic components, the first clamping block is provided with the first semicircular notch, the second clamping block is provided with the second semicircular notch, and when the first clamping block abuts against the second clamping block, the first notch and the second notch form a circular hole. Enabling the electronic component to be clamped within the circular aperture.

In foretell electronic component rolls over foot shaping structure of cutting of device, the guide way has on the fixing base, slider sliding connection is on the guide way, it is four to rotate on the frame and be connected with the cam, four cams link to each other with the slider, four rotations of cam can drive the slider and slide on the guide way, four cams are connected on the frame through pivot four, the driving piece can drive pivot four and rotate, still be equipped with reset spring on the frame, reset spring's one end links to each other with the slider, and other end frame links to each other. The four cams rotate to drive the sliding block to slide on the guide groove, so that the clamping jaws which are connected to the sliding block and arranged in parallel clamp and transfer the electronic element, and the return spring enables the sliding block to return accurately.

In the pin shearing forming structure of the pin folding device for the electronic element, the cam is provided with the connecting shaft on the fourth side, and the upper end of the connecting shaft is fixedly connected with the operating handle. The connecting shaft can be manually operated to rotate, and the connecting shaft rotates to drive the cam to rotate, so that the cam rotates to drive the sliding block to slide on the guide groove.

In the above pin cutting and forming structure of the pin folding device for electronic components, the driving member is a motor.

Compared with the prior art, the utility model has the advantages as follows:

the pin shearing and forming of the electronic element can be automatically realized, the electronic element is transferred by the clamping jaws arranged in parallel and matched with the sliding block to move, manual operation is not needed, automation is realized, and therefore the production efficiency of the pin forming processing of the electronic element is improved.

Drawings

Fig. 1 is a schematic structural diagram 1 of a pin cutting forming structure of the pin folding device of the electronic component of the present invention.

Fig. 2 is a schematic structural diagram 2 of the pin cutting forming structure of the pin folding device of the electronic component of the present invention.

Fig. 3 is a schematic structural diagram 3 of the pin cutting and forming structure of the pin folding device of the electronic component of the present invention.

Fig. 4 is an enlarged view of a portion a of fig. 1.

Fig. 5 is an enlarged view of a portion B of fig. 2.

Fig. 6 is an enlarged view of a portion C of fig. 3.

FIG. 7 is a schematic structural diagram of a cutter, a baffle, a first forming block, a second forming block, a first shearing plate, a first forming plate, a second shearing plate and a second forming plate.

In the figure, 1, a machine base; 2. a fixed seat; 3. a slider; 4. a clamping jaw; 5. a connecting seat; 6. A shear plate I; 7. forming a first forming plate; 8. a second shear plate; 9. a second forming plate; 10. pushing a first plate; 11. a first spring; 12. a first cam; 13. a first rotating shaft; 14. a second push plate; 15. A second spring; 16. a second cam; 17. a second rotating shaft; 18. a cutter; 19. a baffle plate; 20. forming a first forming block; 21. forming a second forming block; 22. a first clamping rod; 23. a second clamping rod; 24. a first clamping block; 25. a second clamping block; 26. pushing a third plate; 27. a third spring; 28. a third cam; 29. A rotating shaft III; 30. a first gap is formed; 31. a second gap; 32. a guide groove; 33. a fourth cam; 34. a rotating shaft IV; 35. a return spring; 36. a connecting shaft; 37. a handle is operated.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1-7, the foot cutting forming structure of the electronic component foot folding device of the present invention comprises a frame 1, a fixing seat 2 is fixedly connected to the frame 1, a guiding groove 32 is formed on the fixing seat 2, a slider 3 is slidably connected to the guiding groove 32, a cam four 33 is connected to the slider 3, the cam four 33 can drive the slider 3 to slide on the guiding groove 32 by rotating, the cam four 33 is connected to the frame 1 by a rotating shaft four 34, a driving member can drive the rotating shaft four 34 to rotate, a return spring 35 is further disposed on the frame 1, one end of the return spring 35 is connected to the slider 3, the frame 1 at the other end is connected to the other end, the cam four 33 rotates to drive the slider 3 to slide on the guiding groove 32, so that the clamping jaw 4 connected to the slider 3 can clamp and transfer the electronic component, the return spring 35 can accurately return the slider 3, a connecting shaft 36 is disposed on, the rotation of the connecting shaft 36 can be realized by manual operation, the rotation of the connecting shaft 36 drives the rotation of the four cam 33, so that the four cam 33 can drive the sliding block 3 to slide on the guide groove 32, the sliding block 3 is provided with a plurality of clamping jaws 4 which are arranged in parallel, preferably, the three clamping jaws 4 are provided, each clamping jaw 4 comprises a first clamping rod 22 and a second clamping rod 23, each clamping rod 22 and each clamping rod 23 are L-shaped, each clamping rod 22 and each clamping rod 23 penetrate through the sliding block 3, the bottom of the clamping end of each clamping rod 22 is provided with a first clamping block 24, the bottom of the clamping end of each clamping rod 23 is provided with a second clamping block 25, each clamping block 25 is opposite to the corresponding clamping block 24 and can abut against the corresponding clamping block 24, each clamping block 24 is provided with a first semicircular notch 30, each clamping block 25 is provided with a second semicircular notch 31, and when each clamping block 24 abuts against the corresponding clamping block 25, each notch 30 and each notch 31 form a circular hole, so that an electronic element, the second clamping rod 23 in each clamping jaw 4 is connected through a third push plate 26, a third spring 27 is arranged between the third push plate 26 and the sliding block 3, the pin shearing forming structure further comprises a third cam 28, the third cam 28 is connected to the machine base 1 through a third rotating shaft 29, the third cam 28 abuts against the third push plate 26, and the driving piece can drive the third rotating shaft 29 to rotate.

The base 1 is fixedly connected with a connecting seat 5, a first shear plate 6 and a first forming plate 7 penetrate through the connecting seat 5, a second shear plate 8 and a second forming plate 9 penetrate through the fixing seat 2, the first shear plate 6 and the second shear plate 8 are oppositely arranged, the first forming plate 7 and the second forming plate 9 are oppositely arranged, the first shear plate 6, the first forming plate 7, the second shear plate 8 and the second forming plate 9 are all positioned below clamping jaws 4 which are arranged in parallel, one end of the first shear plate 6 and one end of the first forming plate 7 are fixedly connected with a first push plate 10, a first spring 11 is arranged between the first push plate 10 and the connecting seat 5, a first cam 12 is rotatably connected to the base 1 and can abut against the first push plate 10, the first cam 12 is connected to the base 1 through a first rotating shaft 13, a driving piece can drive the first rotating shaft 13 to rotate, one end of the second shear plate 8 and one end of the second forming plate 9 are fixedly connected with a second push plate 14, and a second spring 15 is arranged between, the base 1 is rotatably connected with a second cam 16, the second cam 16 can abut against a second push plate 14, the second cam 16 is connected to the base 1 through a second rotating shaft 17, the driving part can drive the second rotating shaft 17 to rotate, the driving part can simultaneously drive the first push plate 10 and the second push plate 14 to enable a first shearing plate 6 and a second shearing plate 8 to approach and clamp an electronic element, a first forming plate 7 and a second forming plate 9 to approach and clamp the electronic element, a first spring 11 can enable the first shearing plate 6 and the first forming plate 7 to return, a second spring 15 can enable the second shearing plate 8 and the second forming plate 9 to return, the bottom of the other end of the first shearing plate 6 is fixedly connected with a cutter 18, the cutter 18 protrudes out of the first shearing plate 6, the bottom of the other end of the second shearing plate 8 is fixedly connected with a baffle 19, the baffle 19 is opposite to the cutter 18 and is matched with the cutter 18 to realize the cutting of the cutting, the bottom of the other end of the first forming plate 7 is fixedly, the first forming block 20 is opposite to the second forming block 21 and is matched with the second forming block 21 to realize pin forming, the baffle 19 is matched with the cutter 18 to realize pin shearing of the electronic element, the first forming block 20 is matched with the second forming block 21 to realize pin forming, and the first forming block 20 and the second forming block 21 can be arranged into die combinations with different shapes of bent pins.

Preferably, the driving part is a motor, a gear set is arranged in the machine base 1 and connected with the gear set, the gear set is respectively connected with the first rotating shaft 13, the second rotating shaft 17, the third rotating shaft 29 and the fourth rotating shaft 34, the motor can drive the sliding block 3 to slide and clamp the clamping jaw 4, and simultaneously the first shearing plate 6 and the second shearing plate 8 are driven to be matched with the shearing pins, the first forming plate 7 and the second forming plate 9 for forming.

The first clamping jaw 4 can realize getting the material and transferring to the operation above the first shearing plate 6 and the second shearing plate 8, the second clamping jaw 4 can realize transferring the cut electronic element to the operation above the first forming plate 7 and the second forming plate 9, the third clamping jaw 4 can realize transferring the formed electronic element to the finished product station, the cam three 28 rotates to push the third pushing plate 26 to realize synchronous clamping or loosening of the three clamping jaws 4, and the spring three 27 can realize synchronous clamping of the three clamping jaws 4.

The sliding block 3 slides on the fixed seat 2, so that a first clamping jaw 4 arranged on the sliding block 3 clamps an electronic component at a material conveying position through a driving piece, the electronic component is clamped and conveyed above a first shearing plate 6 and a second shearing plate 8, the first shearing plate 6 and the second shearing plate 8 are closed to clamp the electronic component and simultaneously shear pins of the electronic component, the first clamping jaw 4 loosens the electronic component and enables the first clamping jaw 4 to clamp the electronic component at the material conveying position again through the sliding block 3, after the pins are sheared, the second clamping jaw 4 clamps the electronic component after the pins are sheared, the first shearing plate 6 and the second shearing plate 8 loosen the electronic component, the second clamping jaw 4 clamps and matches the sliding block 3 to slide the electronic component after the pins are sheared and convey the electronic component above a first forming plate 7 and a second forming plate 9 which are arranged oppositely, the first forming plate 7 and the second forming plate 9 are closed to clamp the electronic component, and pins of the electronic component are molded, so that the electronic component is bent into different shapes, the second clamping jaw 4 loosens the electronic component, the second clamping jaw 4 slides through the sliding block 3 to clamp the electronic component after the pins are cut, the molded electronic component is clamped through the third clamping jaw 4 after the electronic component is cut, the electronic component is loosened through the first molding plate 7 and the second molding plate 9, and finally the electronic component is clamped and sent to a finished product station, and the operation is continuously circulated.

The driving piece simultaneously drives the three clamping jaws 4 which are arranged in parallel to clamp or loosen, the first clamping jaw 4 clamps an electronic component at a material conveying position, the second clamping jaw 4 clamps an electronic component at a shearing plate I6 and a shearing plate II 8 which are matched with the shearing pins, and the third clamping jaw 4 clamps an electronic component formed by matching a forming plate I7 and a forming plate II 9, the three actions are carried out synchronously, the first clamping jaw 4 conveys the electronic component to the positions above the shearing plate I6 and the shearing plate II 8, the second clamping jaw 4 conveys the electronic component which is sheared at the shearing plate I6 and the shearing plate II 8 to the positions above the forming plate I7 and the forming plate II 9, and the third clamping jaw 4 conveys the electronic component formed at the forming plate I7 and the forming plate II 9 to a finished product station, the three actions are also carried out synchronously, and the shearing plate I6 and the shearing plate II 8 are matched to shear the pins of the electronic component, The first forming plate 7 and the second forming plate 9 are matched to form pins of the electronic element, and the two actions are carried out simultaneously, so that the pins of the electronic element can be automatically sheared and formed, the clamping jaws 4 arranged in parallel can clamp and match with the sliding blocks to move to transfer the electronic element, manual operation is not needed, automation is realized, and the production efficiency of forming and processing the pins of the electronic element is improved.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (9)

1. The utility model provides an electronic component rolls over foot shaping structure of cutting of foot device, includes frame (1), fixed seat (2) have been linked firmly on frame (1), sliding connection has slider (3) on fixed seat (2), its characterized in that, install clamping jaw (4) of at least three parallel arrangement on slider (3), connecting seat (5) have been linked firmly on frame (1), wear to be equipped with shear plate one (6) and profiled sheeting one (7) in connecting seat (5), fixed seat (2) in wear to be equipped with shear plate two (8) and profiled sheeting two (9), shear plate one (6) and shear plate two (8) set up relatively, profiled sheeting one (7) and profiled sheeting two (9) set up relatively, shear plate one (6), profiled sheeting one (7), shear plate two (8) and profiled sheeting two (9) all are located the below of parallel arrangement's clamping jaw (4), frame (1) be equipped with the driving piece, the driving piece can drive clamping jaw (4) centre gripping, and drive shear plate (6) and shear plate two (8) cooperation simultaneously and cut foot, profiled sheeting (7) and profiled sheeting (9) cooperation shaping.

2. The structure of claim 1, wherein the pin-cutting structure of the pin folding device for electronic components, one end of the first shear plate (6) and one end of the first forming plate (7) are fixedly connected with a first push plate (10), a first spring (11) is arranged between the first push plate (10) and the connecting seat (5), the machine base (1) is rotatably connected with a first cam (12), the first cam (12) is abutted against a first push plate (10), the driving piece can drive the first cam (12) to rotate, one end of the second shearing plate (8) and one end of the second forming plate (9) are fixedly connected with a second push plate (14), a second spring (15) is arranged between the second push plate (14) and the fixed seat (2), the base (1) is rotatably connected with a second cam (16), the second cam (16) abuts against a second push plate (14), and the driving piece can drive the second cam (16) to rotate.

3. The structure of claim 2, wherein the first cam (12) is connected to the base (1) through a first rotating shaft (13), the second cam (16) is connected to the base (1) through a second rotating shaft (17), and the driving member can drive the first rotating shaft (13) and the second rotating shaft (17) to rotate simultaneously.

4. The electronic component rolls over foot shaping structure of device of claim 1 or 2 or 3, characterized in that, the bottom of the other end of clipboard (6) has linked firmly cutter (18), cutter (18) protrusion clipboard (6), the bottom of the other end of clipboard two (8) has linked firmly baffle (19), baffle (19) are relative with cutter (18) and both cooperate and realize cutting the foot, the bottom of the other end of clipboard (7) has linked firmly shaping piece one (20), the bottom of the other end of shaping board two (9) has linked firmly shaping piece two (21), shaping piece one (20) is relative with shaping piece two (21) and both cooperate and realize the pin shaping.

5. The electronic component pin folding device pin-shearing forming structure according to claim 1, 2 or 3, wherein the clamping jaw (4) comprises a first clamping rod (22) and a second clamping rod (23), the first clamping rod (22) and the second clamping rod (23) are both L-shaped, the first clamping rod (22) and the second clamping rod (23) are both arranged on the sliding block (3) in a penetrating manner, a first clamping block (24) is arranged at the bottom of the clamping end of the first clamping rod (22), a second clamping block (25) is arranged at the bottom of the clamping end of the second clamping rod (23), the second clamping block (25) is opposite to the first clamping block (24) and can abut against the first clamping block, the clamping jaws (4) are three, the second clamping rod (23) in each clamping jaw (4) is connected through a third push plate (26), a third spring (27) is arranged between the third push plate (26) and the sliding block (3), and the pin-shearing forming structure further comprises a third cam (28), the third cam (28) is connected to the base (1) through a third rotating shaft (29), the third cam (28) abuts against the third push plate (26), and the driving piece can drive the third rotating shaft (29) to rotate.

6. The structure of claim 5, wherein the first clamping block (24) has a first semicircular notch (30), the second clamping block (25) has a second semicircular notch (31), and when the first clamping block (24) abuts against the second clamping block (25), the first notch (30) and the second notch (31) form a circular hole.

7. The electronic component leg folding device leg cutting structure according to claim 1, 2 or 3, wherein the fixing base (2) has a guide groove (32), the sliding block (3) is slidably connected to the guide groove (32), the base (1) is rotatably connected to a cam four (33), the cam four (33) is connected to the sliding block (3), the cam four (33) can drive the sliding block (3) to slide on the guide groove (32) through rotation, the cam four (33) is connected to the base (1) through a rotating shaft four (34), the driving member can drive the rotating shaft four (34) to rotate, the base (1) is further provided with a return spring (35), one end of the return spring (35) is connected to the sliding block (3), and the base (1) at the other end is connected to the other end.

8. The structure of claim 7, wherein the cam four (33) is provided with a connecting shaft (36), and an operating handle (37) is fixedly connected to an upper end of the connecting shaft (36).

9. The structure of claim 1, 2 or 3, wherein the driving member is a motor.

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