CN116690361A

CN116690361A - Grinding machine for mold production

Info

Publication number: CN116690361A
Application number: CN202310871931.8A
Authority: CN
Inventors: 穆梦丽; 莫计才
Original assignee: Dongguan Xingdeli Technology Co ltd
Current assignee: Dongguan Xingdeli Technology Co ltd
Priority date: 2023-07-17
Filing date: 2023-07-17
Publication date: 2023-09-05

Abstract

The invention is suitable for the technical field of mould production, and provides a mould production grinding machine, which comprises a grinding machine main body, wherein a workbench and a grinding block are arranged on the grinding machine main body, an installation box is fixed on one side of the grinding machine main body, a conveying seat is fixed on one side of the installation box, conveying belts are arranged at two ends of the conveying seat, and pushing mechanisms are arranged on the installation box and the grinding machine main body, and the mould production grinding machine further comprises: the feeding mechanism comprises a control assembly, a lifting assembly, a reversing assembly and a feeding seat. According to the grinding machine for producing the die, the feeding mechanism is matched with the conveying seat and the conveying belt, the die which is polished can be placed on the conveying seat, and the die to be polished on the conveying seat is moved to one side close to the grinding machine main body, so that automatic feeding and discharging of the die are realized, the production efficiency of the die is improved, and the working efficiency and the practicability of the grinding machine are improved.

Description

Grinding machine for mold production

Technical Field

The invention belongs to the technical field of mold production, and particularly relates to a grinding machine for mold production.

Background

The die is a tool which can make the blank into a workpiece with a specific shape and size under the action of external force. The mould has a specific contour or cavity shape, the blank can be separated according to the contour shape by using the contour shape with the cutting edge, and the blank can obtain a corresponding three-dimensional shape by using the cavity shape. The mold generally comprises a movable mold and a fixed mold (or a male mold and a female mold), which can be separated and combined. During production, the die is required to be polished through a grinding machine, so that the surface of a product after the die is pressed and molded is smooth, and the production quality of the product is improved.

The existing grinding machine for die production comprises a grinding machine body, wherein a workbench is arranged on the grinding machine body, a support is fixed on the workbench, a rotating mechanism is arranged at one end of the support, a grinding wheel is fixed at the output end of the rotating mechanism, a limiting and fixing mechanism for a die is further arranged on the workbench, and the fixing mechanism is matched with the rotating mechanism and the workbench in a mode, so that the die is polished.

The grinding quality of the die can be guaranteed by the existing grinding machine for die production, but the die is still conveyed to a workbench or a designated position from the workbench in a manual conveying mode when being fed and discharged, and because the manufacturing materials of the die are different, part of the die is heavy in weight, the die is manually conveyed, so that the grinding machine is time-consuming and labor-consuming, production safety accidents are easy to occur, and the personal safety of workers is threatened to a certain extent.

Therefore, in view of the above-mentioned current situation, there is an urgent need to develop a grinding machine for mold production to overcome the shortcomings in the current practical application.

Disclosure of Invention

Aiming at the defects existing in the prior art, the embodiment of the invention aims to provide a grinding machine for die production, so as to solve the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides a mould production is with grinding machine, includes the grinding machine main part, be provided with workstation and polishing piece in the grinding machine main part, just still be provided with the mobile mechanism that is used for driving workstation and polishing piece in the grinding machine main part, one side of grinding machine main part is fixed with the mount pad, one side of mount pad is fixed with the transfer seat, the both ends of transfer seat all are provided with the conveyer belt, all install the pushing mechanism who is used for promoting the mould in mount pad and the grinding machine main part, still include:

the feeding mechanism comprises a control assembly, a lifting assembly, a reversing assembly and a feeding seat, wherein the control assembly is arranged in the mounting box, and the output end of the control assembly is respectively connected with the lifting assembly and the reversing assembly;

the lifting assembly comprises a fourth rotating shaft, a rotating member, a stirring member, a second connecting member and a lifting member, wherein one end of the fourth rotating shaft is connected with the control assembly, the other end of the fourth rotating shaft is fixedly provided with the rotating member, one end of the rotating member is provided with the stirring member, one end of the stirring member is in sliding fit with a third sliding groove formed in the second connecting member, the second connecting member is fixed at the bottom of the lifting member, the lifting member is arranged in an installation box in a sliding manner, and the top of the lifting member is provided with a reversing assembly;

the reversing assembly comprises a third transmission module, a fifth rotating shaft, a first friction wheel, a second friction wheel, a rotating shaft, a sliding part, an adjusting part, a sliding seat and an elastic part, wherein one end of the third transmission module is connected with the control assembly, the other end of the third transmission module is connected with the fifth rotating shaft, the first friction wheel matched with the second friction wheel is installed on the fifth rotating shaft, the second friction wheel is fixed on the rotating shaft, one end of the rotating shaft is movably installed on the sliding part, the other end of the rotating shaft extends out of the installation box and is connected with the bottom of the feeding seat, the sliding part is slidably installed in the sliding seat through the elastic part, one end of the sliding part extends out of the sliding seat and intermittently abuts against one end of the adjusting part, the mutually abutting surfaces of the sliding part and the adjusting part are inclined surfaces, the adjusting part is fixed on the inner wall of the installation box, and a through groove for the feeding seat to pass through is formed in the transmission seat.

The conveying belt on one side of the conveying seat conveys the die to be polished to the conveying seat, and the conveying belt on the other side of the conveying seat conveys the die after polishing; the control mechanism drives the fourth rotating shaft and the third transmission module to rotate at the same time, the third transmission module drives the first friction wheel to rotate through the fifth rotating shaft, the fourth rotating shaft drives the rotating piece to rotate, the rotating piece drives the stirring piece to rotate, the stirring piece drives the second connecting piece to reciprocate through the third sliding groove, the second connecting piece drives the lifting piece to reciprocate, and the lifting piece drives the feeding seat to reciprocate through the reversing assembly;

when the slider rises to and contradicts with the adjusting part, the adjusting part drives the slider to transversely move on the sliding seat, the slider drives the rotation axis and the second friction wheel to transversely move, when the second friction wheel contradicts with the first friction wheel, the stirring piece slides in the third chute, and the feeding seat rises to the top of transfer seat, the feeding seat lifts the mould of waiting to polish of placing on the transfer seat, the first friction wheel drives the second friction wheel and rotates, the second friction wheel drives the feeding seat through the rotation axis and rotates, the feeding seat rotates the mould of finishing polishing to the top of transfer seat, and rotate the mould of waiting to polish to be close to one side of grinding machine main part, lifting assembly realizes the automatic unloading of going up to the mould through the mode with switching-over subassembly complex.

As a further technical scheme of the invention, the first friction wheel and the second friction wheel are in a vertical state.

As a further technical scheme of the invention, the control assembly comprises a second driving piece, a third gear, a fourth gear, a third rotating shaft and a second transmission module, wherein the second driving piece is fixed in the mounting box, the third gear meshed with the fourth gear is arranged at the output end of the second driving piece, the fourth gear is fixed on the third rotating shaft, the third rotating shaft is movably arranged in the mounting box, one end of the third rotating shaft is connected with the fifth rotating shaft through the third transmission module, and the other end of the third rotating shaft is connected with the fourth rotating shaft through the second transmission module.

As a further technical scheme of the invention, the pushing mechanism comprises a mounting seat, fixing columns, connecting columns, a driving assembly, a pushing assembly and a pushing seat, wherein the mounting seat is respectively fixed on a mounting box and a grinding machine main body, the fixing columns used for sliding installation of the connecting columns are distributed on the mounting seat, first sliding grooves used for sliding of the pushing assembly are formed in two sides of each fixing column, one end of each connecting column is fixedly connected with the corresponding pushing seat, the driving assembly is arranged on the mounting seat, the output end of the driving assembly is connected with one end of the pushing assembly, and the other end of the pushing assembly penetrates through the first sliding grooves and is connected with the other end of the connecting column.

As a further technical scheme of the invention, the driving assembly comprises a first driving piece, a first transmission module, a first rotating shaft, a first gear and a second gear, wherein the first driving piece is fixed on the mounting seat, the output end of the first driving piece is connected with the first rotating shaft through the first transmission module, the first rotating shaft is movably mounted on the mounting seat, the first gear is fixed on the first rotating shaft, the two ends of the first gear are respectively meshed with the second gear, and the second gear is fixed on the pushing assembly.

As a further technical scheme of the invention, the pushing component comprises a second rotating shaft, a rotating piece, a first connecting piece and a connecting seat, wherein the second rotating shaft is symmetrically and movably arranged on the mounting seat around the first rotating shaft, a second gear is fixed on the second rotating shaft, the rotating pieces are arranged at two ends of the second rotating shaft, one end of each rotating piece penetrates through a first sliding groove and is connected with the first connecting piece in a sliding mode, and the first connecting piece is fixed on the connecting column through the connecting seat.

As a further technical scheme of the invention, one end of the rotating piece is provided with a second chute, and the second chute is in sliding fit with the first connecting piece.

Compared with the prior art, the invention has the beneficial effects that:

the conveying belt on one side of the conveying seat conveys the die to be polished to the conveying seat, and the conveying belt on the other side of the conveying seat conveys the die after polishing; the second driving piece drives the third gear to rotate, the third gear drives the third rotating shaft to rotate through the fourth gear, the third rotating shaft drives the second transmission module and the third transmission module to rotate at the same time, the second transmission module drives the fourth rotating shaft to rotate, the third transmission module drives the first friction wheel to rotate through the fifth rotating shaft, the fourth rotating shaft drives the rotating piece to rotate, the rotating piece drives the stirring piece to rotate, the stirring piece drives the second connecting piece to reciprocate through the third sliding groove, the second connecting piece drives the lifting piece to reciprocate, and the lifting piece drives the feeding seat to reciprocate through the reversing component;

when the sliding part rises to be in conflict with the adjusting part, the adjusting part drives the sliding part to transversely move on the sliding seat, the sliding part drives the rotating shaft and the second friction wheel to transversely move, when the second friction wheel is in conflict with the first friction wheel, the stirring part slides in the third sliding groove, because the third sliding groove is of an arc-shaped structure, when the stirring part slides in the third sliding groove, the feeding seat stops lifting, and the feeding seat is arranged above the conveying seat, one end of the feeding seat lifts the die to be polished, which is placed on the conveying seat, the first friction wheel drives the second friction wheel to rotate, the second friction wheel drives the feeding seat to rotate through the rotating shaft, the die to be polished is rotated to the upper side of the conveying seat, and the die to be polished is rotated to one side close to the grinding machine body.

In order to more clearly illustrate the structural features and efficacy of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and examples.

Drawings

Fig. 1 is a schematic diagram of a cross section of a grinder structure for mold production according to an embodiment of the present invention.

Fig. 2 is a side view of the structure of fig. 1.

Fig. 3 is an enlarged view of the structure of the mounting box and feeding mechanism of fig. 1.

Fig. 4 is a side view of the structure of fig. 3.

Fig. 5 is an enlarged view of the structure at a in fig. 1.

Fig. 6 is an enlarged view of the push mechanism of fig. 2.

Fig. 7 is a side view of the structure of fig. 6.

Fig. 8 is an enlarged view of the structure at B in fig. 7.

Reference numerals: 1-grinding machine main body, 2-workbench, 3-grinding block, 4-pushing mechanism, 41-mounting seat, 42-fixed column, 43-connecting column, 44-first slide groove, 45-driving component, 451-first driving component, 452-first transmission module, 453-first rotating shaft, 454-first gear, 455-second gear, 46-pushing component, 461-second rotating shaft, 462-rotating component, 463-second slide groove, 464-first connecting component, 465-connecting seat, 47-pushing seat, 5-conveyor belt, 6-conveying seat, 7-mounting box, 8-feeding mechanism, 81-control component, 811-second driving component, 812-third gear, 813-fourth gear, 814-third rotating shaft, 815-second transmission module, 82-lifting component, 821-fourth rotating shaft, 822-rotating component, 823-second connecting component, 825-third slide groove, 825-lifting component, 83-reversing component, 5-third transmission module, 834-third rotating shaft, 833-fourth rotating component, 833-fourth rotating shaft, 833-fourth rotating component, 835-sliding component, 833-sliding component, 9-sliding component, and sliding component, which are all installed in the same.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

As shown in fig. 1 to 5, as a grinding machine for producing a mold provided in one embodiment of the present invention, the grinding machine for producing a mold includes a grinding machine body 1, a workbench 2 and a grinding block 3 are provided on the grinding machine body 1, a moving mechanism for driving the workbench 2 and the grinding block 3 to move is further provided on the grinding machine body 1, a mounting box 7 is fixed on one side of the grinding machine body 1, a conveying seat 6 is fixed on one side of the mounting box 7, conveying belts 5 are provided at both ends of the conveying seat 6, a pushing mechanism 4 for pushing the mold is mounted on the mounting box 7 and the grinding machine body 1, an access door 9 is further provided on one side of the grinding machine body 1, and the grinding machine further includes:

the feeding mechanism 8 comprises a control assembly 81, a lifting assembly 82, a reversing assembly 83 and a feeding seat 84, wherein the control assembly 81 is arranged in the installation box 7, and the output end of the control assembly 81 is respectively connected with the lifting assembly 82 and the reversing assembly 83;

the lifting assembly 82 comprises a fourth rotating shaft 821, a rotating member 822, a stirring member 823, a second connecting member 824 and a lifting member 826, one end of the fourth rotating shaft 821 is connected with the control assembly 81, the other end of the fourth rotating shaft 821 is fixed with the rotating member 822, one end of the rotating member 822 is provided with the stirring member 823, one end of the stirring member 823 is in sliding fit with a third sliding groove 825 formed in the second connecting member 824, the second connecting member 824 is fixed at the bottom of the lifting member 826, the lifting member 826 is slidably arranged in the mounting box 7, and the top of the lifting member 826 is provided with the reversing assembly 83;

the reversing assembly 83 comprises a third transmission module 831, a fifth rotating shaft 832, a first friction wheel 833, a second friction wheel 834, a rotating shaft 835, a sliding member 836, an adjusting member 837, a sliding seat 838 and an elastic member 839, one end of the third transmission module 831 is connected with the control assembly 81, the other end of the third transmission module 831 is connected with the fifth rotating shaft 832, the fifth rotating shaft 832 is provided with a first friction wheel 833 matched with the second friction wheel 834, the second friction wheel 834 is fixed on the rotating shaft 835, one end of the rotating shaft 835 is movably mounted on the sliding member 836, the other end of the rotating shaft 835 extends out of the mounting box 7 and is connected with the bottom of the feeding seat 84, the sliding member 836 is slidably mounted in the sliding seat 838 through the elastic member 839, one end of the sliding member 836 extends out of the sliding seat and is intermittently abutted against one end of the adjusting member 837, the mutually abutted surfaces of the sliding member 836 and the adjusting member 837 are inclined surfaces, the adjusting member 837 is fixed on the inner wall of the mounting box 7, and the feeding seat 84 is provided with a feeding groove 10.

As shown in fig. 3 and 4, as a preferred embodiment of the present invention, the first friction wheel 833 and the second friction wheel 834 are perpendicular to each other.

As shown in fig. 3 and 4, as a preferred embodiment of the present invention, the control unit 81 includes a second driving member 811, a third gear 812, a fourth gear 813, a third rotating shaft 814, and a second transmission module 815, wherein the second driving member 811 is fixed in the mounting box 7, the third gear 812 meshed with the fourth gear 813 is mounted on an output end of the second driving member 811, the fourth gear 813 is fixed on the third rotating shaft 814, the third rotating shaft 814 is movably disposed in the mounting box 7, one end of the third rotating shaft 814 is connected with the fifth rotating shaft 832 through the third transmission module 831, and the other end of the third rotating shaft 814 is connected with the fourth rotating shaft 821 through the second transmission module 815.

In this embodiment, the conveyor belt 5 on one side of the conveyor seat 6 conveys the die to be polished to the conveyor seat 6, and the conveyor belt 5 on the other side of the conveyor seat 6 conveys the die after polishing; the second driving piece 811 drives the third gear 812 to rotate, the third gear 812 drives the third rotating shaft 814 to rotate through the fourth gear 813, the third rotating shaft 814 simultaneously drives the second transmission module 815 and the third transmission module 831 to rotate, the second transmission module 815 drives the fourth rotating shaft 821 to rotate, the third transmission module 831 drives the first friction wheel 833 to rotate through the fifth rotating shaft 832, the fourth rotating shaft 821 drives the rotating piece 822 to rotate, the rotating piece 822 drives the poking piece 823 to rotate, the poking piece 823 drives the second connecting piece 824 to reciprocate through the third sliding groove 825, the second connecting piece 824 drives the lifting piece 826 to reciprocate, and the lifting piece 826 drives the feeding seat 84 to reciprocate through the reversing component 83;

when the sliding member 836 rises to collide with the adjusting member 837, the adjusting member 837 drives the sliding member 836 to move laterally on the sliding seat 838, the sliding member 836 drives the rotating shaft 835 and the second friction wheel 834 to move laterally, when the second friction wheel 834 collides with the first friction wheel 833, the poking member 823 slides in the third sliding groove 825, because the third sliding groove 825 is a sliding groove with an arc structure, the poking member 823 slides in the third sliding groove 825, the feeding seat 84 stops lifting at this moment, and the feeding seat 84 is located above the conveying seat 6, one end of the feeding seat 84 lifts the die to be polished placed on the conveying seat 6, the first friction wheel 833 drives the second friction wheel 834 to rotate, the second friction wheel 834 drives the feeding seat 84 to rotate through the rotating shaft 835, the feeding seat 84 rotates to above the conveying seat 6, and rotates the die to be polished to a side close to the grinding machine main body 1, when the feeding seat 84 descends again, the die to be polished stays on the conveying seat 6, thereby realizing automatic feeding and discharging of the die, and improving the production efficiency and practical use of the grinding machine.

In a preferred embodiment, the second driving member 811 is preferably a servo motor;

the second transmission module 815 is preferably a belt transmission structure;

the rotation member 822 preferably has a rod-like structure;

the poking part 823 and the lifting part 826 are both preferably in a columnar structure;

the third transmission module 831 preferably adopts a gear transmission structure formed by two groups of bevel gears meshed with each other;

the slider 836 and the adjuster 837 are preferably each of a block-like configuration;

the spring 839 is preferably a spring.

As shown in fig. 6 to 8, as a preferred embodiment of the present invention, the pushing mechanism 4 includes a mounting seat 41, a fixing column 42, a connecting column 43, a driving component 45, a pushing component 46 and a pushing seat 47, where the mounting seat 41 is fixed on the mounting box 7 and the grinding machine body 1 respectively, the fixing column 42 for sliding the connecting column 43 is distributed on the mounting seat 41, first sliding grooves 44 for sliding the pushing component 46 are formed on two sides of the fixing column 42, one end of the connecting column 43 is fixedly connected with the pushing seat 47, the driving component 45 is disposed on the mounting seat 41, an output end of the driving component 45 is connected with one end of the pushing component 46, and another end of the pushing component 46 passes through the first sliding groove 44 and is connected with another end of the connecting column 43.

As shown in fig. 6 to 8, as a preferred embodiment of the present invention, the driving assembly 45 includes a first driving member 451, a first transmission module 452, a first rotating shaft 453, a first gear 454 and a second gear 455, wherein the first driving member 451 is fixed on the mounting seat 41, an output end of the first driving member 451 is connected to the first rotating shaft 453 through the first transmission module 452, the first rotating shaft 453 is movably mounted on the mounting seat 41, the first gear 454 is fixed on the first rotating shaft 453, two ends of the first gear 454 are engaged with the second gear 455, and the second gear 455 is fixed on the pushing assembly 46.

As shown in fig. 6 to 8, as a preferred embodiment of the present invention, the pushing assembly 46 includes a second rotating shaft 461, a rotating member 462, a first connecting member 464, and a connecting seat 465, wherein the second rotating shaft 461 is symmetrically and movably disposed on the mounting seat 41 around the first rotating shaft 453, a second gear 455 is fixed on the second rotating shaft 461, rotating members 462 are mounted on both ends of the second rotating shaft 461, one end of the rotating member 462 passes through the first sliding slot 44 and is slidably connected with the first connecting member 464, and the first connecting member 464 is fixed on the connecting post 43 through the connecting seat 465.

As shown in fig. 6 to 8, as a preferred embodiment of the present invention, a second sliding groove 463 is formed at one end of the rotating member 462, and the second sliding groove 463 is slidably engaged with the first connecting member 464.

In the present embodiment, the first driving member 451 drives the first rotating shaft 453 through the first transmission module 452, the first rotating shaft 453 drives the first gear 454 to rotate, the first gear 454 drives the second rotating shaft 461 to rotate through the second gear 455, the second rotating shaft 461 drives the rotating member 462 to rotate, the rotating member 462 drives the first connecting member 464 to move through the second chute 463, the first connecting member 464 drives the connecting post 43 to move through the connecting seat 465, and the connecting post 43 drives the pushing seat 47 to move;

the pushing seat 47 arranged on the mounting box 7 can push the die to be polished on the feeding seat 84 to the workbench 2, the pushing seat 47 arranged on the grinding machine body 1 can push the polished die on the workbench 2 to the feeding seat 84, the feeding mechanism 8 is convenient to place the polished die on the conveying seat 6, and the die to be polished on the conveying seat 6 is moved to one side close to the grinding machine body 1, so that automatic feeding and discharging of the die are realized, the production efficiency of the die is improved, and the working efficiency and the practicability of the grinding machine are improved.

In a preferred embodiment, the first driving member 451 is preferably a servo motor;

the first transmission module 452 preferably adopts a belt transmission structure;

the rotating member 462 preferably has a rod-like structure;

the first connector 464 preferably has a cylindrical configuration.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims

1. The utility model provides a mould production is with grinding machine, includes the grinding machine main part, be provided with workstation and polishing piece in the grinding machine main part, just still be provided with the mobile mechanism that is used for driving workstation and polishing piece in the grinding machine main part, one side of grinding machine main part is fixed with the mount pad, one side of mount pad is fixed with the transfer seat, the both ends of transfer seat all are provided with the conveyer belt, all install the pushing mechanism who is used for promoting the mould on mount pad and the grinding machine main part, its characterized in that still includes:

2. The mold manufacturing grinder according to claim 1, wherein the first friction wheel and the second friction wheel are in a vertical state.

3. The grinding machine for producing dies according to claim 1, wherein the control assembly comprises a second driving member, a third gear, a fourth gear, a third rotating shaft and a second transmission module, the second driving member is fixed in the mounting box, the output end of the second driving member is provided with the third gear meshed with the fourth gear, the fourth gear is fixed on the third rotating shaft, the third rotating shaft is movably arranged in the mounting box, one end of the third rotating shaft is connected with the fifth rotating shaft through the third transmission module, and the other end of the third rotating shaft is connected with the fourth rotating shaft through the second transmission module.

4. The grinder for mold production according to claim 1, wherein the pushing mechanism comprises a mounting seat, a fixing column, a connecting column, a driving assembly, a pushing assembly and a pushing seat, the mounting seat is respectively fixed on the mounting box and the grinder body, the mounting seat is provided with fixing columns for sliding installation of the connecting column, two sides of the fixing columns are provided with first sliding grooves for sliding of the pushing assembly, one end of the connecting column is fixedly connected with the pushing seat, the driving assembly is arranged on the mounting seat, an output end of the driving assembly is connected with one end of the pushing assembly, and the other end of the pushing assembly penetrates through the first sliding grooves and is connected with the other end of the connecting column.

5. The grinder for mold production according to claim 4, wherein the driving assembly comprises a first driving member, a first transmission module, a first rotating shaft, a first gear and a second gear, the first driving member is fixed on the mounting seat, the output end of the first driving member is connected with the first rotating shaft through the first transmission module, the first rotating shaft is movably mounted on the mounting seat, the first gear is fixed on the first rotating shaft, the second gear is meshed with two ends of the first gear, and the second gear is fixed on the pushing assembly.

6. The grinder for mold production according to claim 5, wherein the pushing assembly comprises a second rotating shaft, rotating members, a first connecting member and a connecting seat, the second rotating shaft is symmetrically and movably arranged on the mounting seat around the first rotating shaft, a second gear is fixed on the second rotating shaft, the rotating members are mounted at two ends of the second rotating shaft, one end of each rotating member penetrates through a first sliding groove and is connected with the first connecting member in a sliding mode, and the first connecting member is fixed on the connecting column through the connecting seat.

7. The machine of claim 6, wherein a second runner is provided at one end of the rotating member, the second runner being in sliding engagement with the first connecting member.