CN211218431U - Disk foot device and disk foot braider - Google Patents

Abstract

The utility model discloses a foot coiling device and a foot coiling braider, wherein the foot coiling device comprises a frame, a lower clamping forming leg coiling mechanism is arranged on the frame, and the lower clamping forming leg coiling mechanism comprises an open component, a shaping component, a foot opening bending component, a vertical bending component, an M-shaped leg coiling component and a C-shaped leg coiling component which are arranged in sequence; the opening assembly comprises a leg separating cone and a first limiting block; the shaping assembly comprises a second limiting block and a first opening and closing clamping jaw assembly which are matched with each other; the foot-opening bending assembly comprises a third limiting block and a second opening clamping jaw assembly which are matched with each other; the vertical bending assembly comprises a side supporting assembly and a first clamping assembly which are matched with each other; the disc M-shaped leg assembly comprises a first shaping block and a second shaping block which are matched with each other; the C-shaped tray leg assembly includes a third shaped block and a third open jaw assembly that mate. The structure is exquisite, the high integration of component part, has realized the miniaturization, and transmission efficiency is high, does benefit to and has improved production efficiency, reduction in production cost.

Description

Disk foot device and disk foot braider

Technical Field

The utility model relates to an electronic components production facility field especially relates to dish foot device and dish foot braider.

Background

Along with the continuous upgrading, thinning and high integration of electronic products, electronic elements are converted into patch type from past plug-in type to save the installation space of a circuit board, the functions of the products are expanded, and the electronic elements are a large revolution of the electronic industry, so the requirements of the whole electronic industry on the braider are greatly improved along with the miniaturization of the electronic elements. In a belt knitting machine, a foot-turning device is usually provided, by means of which the axial pins on the electronic component can be machined into an M-shape. However, in the prior art, the problems of low production efficiency and large volume generally exist in the foot bending device suitable for the M-shaped element.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: provided are a miniaturized disk foot device and a disk foot braider with high production efficiency.

In order to solve the technical problem, the utility model discloses a technical scheme be: the tray leg device is used for molding two welding legs of an electronic element into an M shape and comprises a rack, wherein a lower clamp forming tray leg mechanism and an upper clamp conveying and moving mechanism are arranged on the rack and used for conveying the electronic element, and the lower clamp forming tray leg mechanism comprises an opening assembly, a shaping assembly, a leg opening and bending assembly, a vertical bending assembly, an M-shaped tray leg assembly and a C-shaped tray leg assembly which are sequentially arranged;

the explosion component comprises a leg dividing cone and a first limiting block, a V-shaped groove matched with the leg dividing cone is formed in the first limiting block, and the explosion component is used for separating the two welding feet;

the shaping assembly comprises a second limiting block and a first opening and closing clamping jaw assembly which are matched with each other, and the shaping assembly is used for shaping the two welding feet into a vertical state respectively;

the pin opening bending assembly comprises a third limiting block and a second opening clamping jaw assembly which are matched with each other, and is used for separating the tail sections of the two welding pins to enable the tail sections of the two welding pins to form a splayed shape;

the vertical bending assembly comprises a side supporting assembly and a first clamping assembly which are matched, and the vertical bending assembly is used for bending the tail sections of the two welding feet by 90 degrees;

the M-shaped leg component comprises a first shaping block and a second shaping block which are matched with each other, and the M-shaped leg component is used for shaping the tail end of the welding leg into a U shape;

the C-shaped leg component comprises a third shaping block and a third opening and closing clamping jaw component which are matched with each other, and the C-shaped leg component is used for bending the tail end of the welding foot inwards.

In order to solve the technical problem, the utility model discloses still adopt following technical scheme: the disc foot braider comprises the disc foot device, and a braiding mechanism is further arranged on the rack and comprises a material taking assembly for taking materials from the upper clamp conveying and moving mechanism, or the upper clamp conveying and moving mechanism comprises a material discharging assembly for discharging materials to the braiding mechanism.

The beneficial effects of the utility model reside in that: the foot-coiling device provided by the utility model has the advantages of exquisite structure, highly integrated components, miniaturization, high transmission efficiency and contribution to improving the production efficiency; the tail end is provided with a C-shaped leg assembly, and the length of a welding leg of the electronic element is prolonged in a limited welding area, so that the surface-mounted electronic element can be connected with an external member more stably.

Drawings

Fig. 1 is a schematic structural diagram of an overall structure of a disc foot braider according to a first embodiment of the present invention;

FIG. 2 is an enlarged view of detail A in FIG. 1;

fig. 3 is a schematic structural view of a lower clamp forming leg-coiling mechanism in a leg-coiling device according to a first embodiment of the present invention;

FIG. 4 is an enlarged view of detail B of FIG. 3;

fig. 5 is a schematic structural view of a swing rod camshaft transmission mechanism in a plate foot device according to a first embodiment of the present invention;

fig. 6 is a schematic structural view of another view angle of the swing link camshaft transmission mechanism in the disc foot device according to the first embodiment of the present invention;

fig. 7 is a front view of a swing link camshaft transmission mechanism in a disc foot device according to a first embodiment of the present invention;

fig. 8 is a rear view of a pendulum rod camshaft transmission mechanism in a disc foot device according to a first embodiment of the present invention;

fig. 9 is a drawing showing the relationship between the material-taking assembly and the swing link camshaft driving mechanism in the disc foot braider according to the first embodiment of the present invention;

fig. 10 is a schematic view of an electronic component processed by the tray foot device according to the first embodiment of the present invention.

Description of reference numerals:

1. a frame; 2. a lower clamp forming tray leg mechanism; 21. a base plate; 3. an upper clamp conveying and moving mechanism; 31. a lower die; 32. an upper die; 33. a first jaw; 34. a second jaw; 35. a roller; 4. opening the component; 41. a leg dividing awl; 42. a first stopper; 5. a shaping component; 51. a second limiting block; 52. a first openable jaw assembly; 6. a pin opening and bending component; 61. a third limiting block; 62. a second open-close jaw assembly; 7. vertically bending the assembly; 71. a side support component; 72. a first clamping assembly; 8. a pan M-leg assembly; 81. a first shaped block; 82. a second shaped block; 9. a disc C-leg assembly; 91. a third shaped block; 92. a third open jaw assembly; 10. a swing rod camshaft transmission mechanism; 11. a first clamping test assembly; 12. a knockout assembly; 13. a second clamping test assembly; 14. rotating the clamping assembly by 180 degrees; 15. a pin cutting assembly; 16. a braiding mechanism; 17. a material taking assembly; 18. a vibrating disk mechanism.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 to 10, a leg coiling device for shaping two legs of an electronic component into an M-shape includes a frame 1, the frame 1 is provided with a lower clip forming leg coiling mechanism 2 and an upper clip transfer moving mechanism 3, the upper clip transfer moving mechanism 3 is used for transferring the electronic component, the lower clip forming leg coiling mechanism 2 includes an opening component 4, a shaping component 5, a leg opening bending component 6, a vertical bending component 7, a M-shaped leg coiling component 8 and a C-shaped leg coiling component 9 which are sequentially arranged;

the explosion component 4 comprises a leg dividing cone 41 and a first limiting block 42, a V-shaped groove matched with the leg dividing cone 41 is formed in the first limiting block 42, and the explosion component 4 is used for separating two welding feet;

the shaping assembly 5 comprises a second limiting block 51 and a first opening and closing clamping jaw assembly 52 which are matched with each other, and the shaping assembly 5 is used for shaping the two welding feet into a vertical state respectively;

the open leg bending assembly 6 comprises a third limiting block 61 and a second opening and closing clamping jaw assembly 62 which are matched with each other, and the open leg bending assembly 6 is used for separating the tail sections of the two welding legs to enable the tail sections of the two welding legs to form a splayed shape;

the vertical bending assembly 7 comprises a side abutting assembly 71 and a first clamping assembly 72 which are matched, and the vertical bending assembly 7 is used for bending the tail sections of the two welding feet by 90 degrees;

the disc M-shaped leg assembly 8 comprises a first shaping block 81 and a second shaping block 82 which are matched, and the disc M-shaped leg assembly 8 is used for shaping the tail end of the welding leg into a U shape;

the C-shaped leg assembly 9 comprises a third shaped block 91 and a third open clamping jaw assembly 92 which are matched, and the C-shaped leg assembly 9 is used for bending the tail end of the welding leg inwards.

From the above description, the beneficial effects of the present invention are: the foot-coiling device provided by the utility model has the advantages of exquisite structure, highly integrated components, miniaturization, high transmission efficiency and contribution to improving the production efficiency; the tail end is provided with a C-shaped disc leg assembly 9, and the length of a welding leg of the electronic component is prolonged in a limited welding area (as shown in figure 10), so that the surface-mounted electronic component can be connected with an external member more stably.

Further, the lower clamp forming disc leg mechanism 2 further comprises a first clamping testing assembly 11 and a material beating assembly 12 which are arranged between the shaping assembly 5 and the open pin bending assembly 6, and the material beating assembly 12 is far away from the opening assembly 4.

As can be seen from the above description, at this time, the first clamping test component 11 is used for testing the performance of the electronic component, and the knockout component 12 is used for rejecting a defective electronic component according to the test structure (specifically, when the defective electronic component is transferred to the working area of the knockout component 12, the knockout component 12 does not clamp the electronic component, thereby dropping the electronic component, and when the defective electronic component is transferred to the working area of the knockout component 12, the knockout component 12 clamps the electronic component so that the upper clamp conveying moving mechanism 3 transfers the electronic component later).

Further, the lower clamping forming tray leg mechanism 2 further comprises a second clamping testing component 13 arranged between the first clamping testing component 11 and the material beating component 12 and a 180-degree rotating clamping component 14 arranged on the rack 1, wherein the 180-degree rotating clamping component 14 is arranged between the first clamping testing component 11 and the second clamping testing component 13.

As can be seen from the above description, at this time, the first clamping test assembly 11 is used to detect the directions of the positive and negative electrodes of the electronic component, and when the directions of the positive and negative electrodes of the electronic component are the unexpected directions of the positive and negative electrodes, the electronic component rotates on the 180 ° rotary clamping assembly 14, so that the directions of the positive and negative electrodes of the electronic component are changed into the expected directions of the positive and negative electrodes, and the second clamping test assembly 13 is further capable of testing the performance of the electronic component.

Further, the lower clamp forming disc leg mechanism 2 further comprises a foot cutting assembly 15 arranged between the shaping assembly 5 and the foot opening bending assembly 6.

As can be seen from the above description, the foot cutting assembly 15 is used to cut off the excess length of the electronic component foot so that the length of the electronic component foot is consistent, which is beneficial to improving the consistency of the electronic component foot.

Furthermore, the device also comprises a swing rod camshaft transmission mechanism 10 arranged on the rack 1, and the swing rod camshaft transmission mechanism 10 is in transmission connection with the lower clamp forming disc leg mechanism 2.

As can be seen from the above description, the swing link camshaft transmission mechanism 10 is a transmission mechanism commonly used in the mechanical automation technology field, and a user can perform specific setting according to actual needs. The swing rod camshaft transmission mechanism 10 has the advantages that multiple machine positions can be simultaneously operated, so that the production efficiency is improved, the production energy consumption is reduced, and the cost is saved.

Further, the lower clamp forming disc leg mechanism 2 comprises two bottom plates 21 which can be opened and closed, and a part of the opening assembly 4, a part of the shaping assembly 5, a part of the foot opening bending assembly 6, a part of the vertical bending assembly 7, a part of the disc M-shaped leg assembly 8 and a part of the disc C-shaped leg assembly 9 are respectively arranged on one bottom plate 21; the other part of the opening component 4, the other part of the shaping component 5, the other part of the open-foot bending component 6, the other part of the vertical bending component 7, the other part of the disc M-shaped leg component 8 and the other part of the disc C-shaped leg component 9 are respectively arranged on the other bottom plate 21.

Further, the swing rod camshaft transmission mechanism 10 is in transmission connection with the upper clamp conveying and moving mechanism 3.

Further, the upper clamp conveying and moving mechanism 3 comprises a lower die 31 and an upper die 32 located above the lower die 31, the upper die 32 is movable along the Y-axis direction relative to the lower die 31, the upper die 32 is connected with the lower die 31 through a reset assembly, the swing rod camshaft transmission mechanism 10 is connected with the lower die 31 and drives the lower die 31 to move along the X-axis direction, a plurality of first claws 33 are arranged on the lower die 31, and a plurality of second claws 34 matched with the first claws 33 are arranged on the upper die 32; and the swing rod camshaft transmission mechanism 10 is provided with a roller 35 which is abutted against the upper die 32 to drive the upper die 32 to move along the Y-axis direction.

The disc foot braider comprises the disc foot device, the frame 1 is further provided with a braiding mechanism 16, the braiding mechanism 16 comprises a material taking assembly 17 for taking materials from the upper clamp conveying and moving mechanism 3, or the upper clamp conveying and moving mechanism 3 comprises a material discharging assembly for discharging materials to the braiding mechanism 16.

According to the description, the disc foot braider can immediately braid and package after the disc feet of the electronic element are finished, so that the mechanical automation degree and the production efficiency are improved, and the production cost is controlled.

Further, a vibrating disk mechanism 18 is further arranged on the machine frame 1, and a discharge end of the vibrating disk mechanism 18 is arranged close to the uncovering component 4.

According to the description, the disc foot braider can realize automatic feeding, and the production efficiency is further improved.

Example one

Referring to fig. 1 to 10, a first embodiment of the present invention is: referring to fig. 1 to 4, the disc foot braider comprises a disc foot device, the disc foot device is used for molding two welding feet of an electronic element into an M shape (or molding each welding foot of the electronic element into a U shape, so that the two welding feet look into the M shape together), the disc foot device comprises a frame 1, a lower clamp forming disc leg mechanism 2 and an upper clamp conveying moving mechanism 3 are arranged on the frame 1, the upper clamp conveying moving mechanism 3 is used for conveying the electronic element, and the lower clamp forming disc leg mechanism 2 comprises an opening component 4, an integral component 5, an opening foot bending component 6, a vertical bending component 7, a disc M-shaped leg component 8 and a disc C-shaped leg component 9 which are sequentially arranged; the explosion component 4 comprises a leg dividing cone 41 and a first limiting block 42, a V-shaped groove matched with the leg dividing cone 41 is formed in the first limiting block 42, and the explosion component 4 is used for separating two welding feet; the shaping assembly 5 comprises a second limiting block 51 and a first opening and closing clamping jaw assembly 52 which are matched with each other, and the shaping assembly 5 is used for shaping the two welding feet into a vertical state respectively; the open leg bending assembly 6 comprises a third limiting block 61 and a second opening and closing clamping jaw assembly 62 which are matched with each other, and the open leg bending assembly 6 is used for separating the tail sections of the two welding legs to enable the tail sections of the two welding legs to form a splayed shape; the vertical bending assembly 7 comprises a side abutting assembly 71 and a first clamping assembly 72 which are matched, and the vertical bending assembly 7 is used for bending the tail sections of the two welding feet by 90 degrees; the disc M-shaped leg assembly 8 comprises a first shaping block 81 and a second shaping block 82 which are matched, and the disc M-shaped leg assembly 8 is used for shaping the tail end of the welding leg into a U shape; the C-shaped leg assembly 9 comprises a third shaped block 91 and a third open clamping jaw assembly 92 which are matched, and the C-shaped leg assembly 9 is used for bending the tail end of the welding leg inwards.

With reference to fig. 3 to 8, further, the present invention further includes a swing link camshaft transmission mechanism 10 disposed on the frame 1, the swing link camshaft transmission mechanism 10 is in transmission connection with the lower clip forming tray leg mechanism 2, the lower clip forming tray leg mechanism 2 includes two bottom plates 21 capable of being opened and closed, and a portion of the opening assembly 4, a portion of the shaping assembly 5, a portion of the opening leg bending assembly 6, a portion of the vertical bending assembly 7, a portion of the tray M-shaped leg assembly 8, and a portion of the tray C-shaped leg assembly 9 are respectively disposed on one of the bottom plates 21; the other part of the opening component 4, the other part of the shaping component 5, the other part of the open-foot bending component 6, the other part of the vertical bending component 7, the other part of the disc M-shaped leg component 8 and the other part of the disc C-shaped leg component 9 are respectively arranged on the other bottom plate 21. Optionally, the leg separating cone 41, the second limiting block 51, the second opening/closing jaw assembly 62, the side abutting assembly 71, a part of the first clamping assembly 72, the first shaping block 81 and the third shaping block 91 are respectively disposed on one of the bottom plates 21. The first limiting block 42, the first opening/closing jaw assembly 52, the third limiting block 61, the other part of the first clamping assembly 72, the second shaping block 82 and the third opening/closing jaw assembly 92 are respectively arranged on the other bottom plate 21.

In detail, when the opening assembly 4 acts, the leg separating cone 41 is inserted between the two welding legs, and as the two bottom plates 21 are folded, the two welding legs are separated more and more, and the V-shaped groove of the first limiting block 42 limits the maximum opening degree of the two welding legs. When the shaping assembly 5 acts, the second limiting block 51 is inserted between the two welding feet, and then the first opening and closing clamping jaw assembly 52 is folded inwards from two sides of the second limiting block 51, so that each part of each welding foot along the length direction of the welding foot is abutted against the second limiting block 51, and shaping is achieved. When the foot-opening bending assembly 6 acts, the third limiting block 61 is inserted between the two welding feet, and then the second opening and closing clamping jaw assembly 62 is folded inwards from the two sides of the third limiting block 61, so that the front sections of the welding feet are folded inwards, and the tail sections of the welding feet are separated outwards, so that the welding feet are bent outwards subsequently (the third limiting block 61 can be arranged to be of a structure with a narrow upper part and a wide lower part). When the vertical bending assembly 7 acts, the first clamping assembly 72 firstly clamps the front section of the solder leg, and then the side abutting assembly 71 advances along the Y-axis direction (the side abutting assembly 71 is located below the working area of the first clamping assembly 72), so that the tail section of the solder leg is vertically bent in the gap between the side abutting assembly 71 and the first clamping assembly 72. When the M-shaped leg assembly 8 acts, the first shaping block 81 comprises two strip-shaped protrusions arranged in parallel, the second shaping block 82 comprises two open grooves for accommodating the strip-shaped protrusions, guide arc surfaces are arranged on two sides of the opening of each open groove respectively, therefore, the first and second shaping blocks can bend two welding feet into a U shape when approaching each other, and then the two welding feet are seen to form an M shape. When the dish C type leg subassembly 9 moves, the one end of third shaping piece 91 is equipped with the storage tank of holding leg, and the end of two legs is located the both sides of the other end of third shaping piece 91 respectively, and the both sides of the other end of third shaping piece 91 have the spigot surface of slope inwards respectively, thereby third opening clamping jaw subassembly 92 cooperates the terminal realization of the spigot surface centre gripping leg of third shaping piece 91 to let the terminal realization of leg buckle inwards.

The lower clamp forming disc leg mechanism 2 further comprises a first clamping testing assembly 11 and a material beating assembly 12 which are arranged between the shaping assembly 5 and the open leg bending assembly 6, and the material beating assembly 12 is far away from the opening assembly 4. Preferably, the lower clamp forming tray leg mechanism 2 further includes a second clamping testing component 13 disposed between the first clamping testing component 11 and the material beating component 12, and a 180 ° rotary clamping component 14 disposed on the frame 1, wherein the 180 ° rotary clamping component 14 is located between the first clamping testing component 11 and the second clamping testing component 13. In detail, a part of the first clamping testing assembly 11, a part of the second clamping testing assembly 13, and a part of the knockout assembly 12 are respectively disposed on one of the bottom plates 21, and another part of the first clamping testing assembly 11, another part of the second clamping testing assembly 13, and another part of the knockout assembly 12 are respectively disposed on another of the bottom plates 21. As can be easily understood, the two parts of the knockout assembly 12 are slidably disposed on the two bottom plates 21 along the Y-axis direction, and are driven by the driving member fixed on the bottom plates 21 to open and close.

The lower clamp forming leg coiling mechanism 2 further comprises a foot cutting assembly 15 arranged between the shaping assembly 5 and the foot opening bending assembly 6, one part of the foot cutting assembly 15 is arranged on one base plate 21, the other part of the foot cutting assembly 15 is arranged on the other base plate 21, and the opening and closing of the two base plates 21 can enable the foot cutting assembly 15 to cut the welding feet.

The swing rod camshaft transmission mechanism 10 is in transmission connection with the upper clamp conveying and moving mechanism 3. In this embodiment, the upper clamp conveying and moving mechanism 3 includes a lower die 31 and an upper die 32 located above the lower die 31, the upper die 32 is movable along the Y-axis direction relative to the lower die 31, the upper die 32 is connected to the lower die 31 through a reset assembly, the swing rod camshaft transmission mechanism 10 is connected to the lower die 31 and drives the lower die 31 to move along the X-axis direction, a plurality of first claws 33 are provided on the lower die 31, and a plurality of second claws 34 matched with the first claws 33 are provided on the upper die 32; and the swing rod camshaft transmission mechanism 10 is provided with a roller 35 which is abutted against the upper die 32 to drive the upper die 32 to move along the Y-axis direction.

As shown in fig. 1, a braiding mechanism 16 is further disposed on the frame 1, and the braiding mechanism 16 includes a material taking assembly 17 for taking material from the upper clamp conveying and moving mechanism 3, or the upper clamp conveying and moving mechanism 3 includes a material discharging assembly for discharging material to the braiding mechanism 16. In this embodiment, be equipped with on the frame 1 get material subassembly 17, get material subassembly 17 including continuous lifter and vacuum nozzle. Preferably, the lifting rod is in transmission connection with the swing rod camshaft transmission mechanism 10.

Further, still be equipped with vibration dish mechanism 18 on the frame 1, the discharge end of vibration dish mechanism 18 is close to the subassembly 4 that bursts open sets up, go up press from both sides conveying moving mechanism 3 follow the discharge end of vibration dish mechanism 18 and with the material move the workspace of subassembly 4 that bursts open to realize automatic material loading.

As shown in fig. 10, fig. 10 is a schematic view of an electronic component processed by the present foot-turning device.

In summary, the disc foot device and the disc foot braider provided by the utility model have the advantages of exquisite structure, highly integrated components, miniaturization, high transmission efficiency, and contribution to improving the production efficiency and reducing the production cost; the tail end is provided with a C-shaped leg assembly, and the length of a welding leg of the electronic element is prolonged in a limited welding area, so that the surface-mounted electronic element can be connected with an external member more stably.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (10)

1. Dish foot device for mould two fillets of electronic component and form M style of calligraphy, its characterized in that: the electronic component tray comprises a rack, wherein a lower clamp forming tray leg mechanism and an upper clamp conveying moving mechanism are arranged on the rack, the upper clamp conveying moving mechanism is used for conveying the electronic component, and the lower clamp forming tray leg mechanism comprises an opening component, a shaping component, a foot opening bending component, a vertical bending component, an M-shaped tray leg component and a C-shaped tray leg component which are sequentially arranged;

the explosion component comprises a leg dividing cone and a first limiting block, a V-shaped groove matched with the leg dividing cone is formed in the first limiting block, and the explosion component is used for separating the two welding feet;

the shaping assembly comprises a second limiting block and a first opening and closing clamping jaw assembly which are matched with each other, and the shaping assembly is used for shaping the two welding feet into a vertical state respectively;

the pin opening bending assembly comprises a third limiting block and a second opening clamping jaw assembly which are matched with each other, and is used for separating the tail sections of the two welding pins to enable the tail sections of the two welding pins to form a splayed shape;

the vertical bending assembly comprises a side supporting assembly and a first clamping assembly which are matched, and the vertical bending assembly is used for bending the tail sections of the two welding feet by 90 degrees;

the M-shaped leg component comprises a first shaping block and a second shaping block which are matched with each other, and the M-shaped leg component is used for shaping the tail end of the welding leg into a U shape;

the C-shaped leg component comprises a third shaping block and a third opening and closing clamping jaw component which are matched with each other, and the C-shaped leg component is used for bending the tail end of the welding foot inwards.

2. The device according to claim 1, characterized in that: the lower clamping forming tray leg mechanism further comprises a first clamping testing assembly and a knockout assembly which are arranged between the shaping assembly and the open leg bending assembly, and the knockout assembly is far away from the open assembly.

3. The device according to claim 2, characterized in that: the lower clamping forming tray leg mechanism further comprises a second clamping testing assembly arranged between the first clamping testing assembly and the material beating assembly and a 180-degree rotating clamping assembly arranged on the rack, and the 180-degree rotating clamping assembly is positioned between the first clamping testing assembly and the second clamping testing assembly.

4. The device according to claim 2, characterized in that: the lower clamp forming disc leg mechanism further comprises a pin cutting assembly arranged between the shaping assembly and the pin opening and bending assembly.

5. The device according to claim 1, characterized in that: the device also comprises a swing rod camshaft transmission mechanism arranged on the rack, and the swing rod camshaft transmission mechanism is in transmission connection with the lower clamp forming disc leg mechanism.

6. The device according to claim 5, wherein: the lower clamp forming disc leg mechanism comprises two bottom plates which can be opened and closed, and one part of the opening assembly, one part of the shaping assembly, one part of the foot opening bending assembly, one part of the vertical bending assembly, one part of the disc M-shaped leg assembly and one part of the disc C-shaped leg assembly are respectively arranged on one bottom plate; the other part of the opening assembly, the other part of the shaping assembly, the other part of the open-foot bending assembly, the other part of the vertical bending assembly, the other part of the disc M-shaped leg assembly and the other part of the disc C-shaped leg assembly are respectively arranged on the other base plate.

7. The device according to claim 5, wherein: and the swing rod camshaft transmission mechanism is in transmission connection with the upper clamp conveying and moving mechanism.

8. The device according to claim 7, wherein: the upper clamp conveying and moving mechanism comprises a lower die and an upper die positioned above the lower die, the upper die can move along the Y-axis direction relative to the lower die, the upper die is connected with the lower die through a reset component, the swing rod camshaft transmission mechanism is connected with the lower die and drives the lower die to move along the X-axis direction, a plurality of first claw teeth are arranged on the lower die, and a plurality of second claw teeth matched with the first claw teeth are arranged on the upper die; and the swing rod camshaft transmission mechanism is provided with a roller which is abutted against the upper die to drive the upper die to move along the Y-axis direction.

9. Dish foot braider, its characterized in that: the disk foot device comprises the disk foot device as claimed in any one of claims 1 to 8, wherein a braiding mechanism is further arranged on the rack, the braiding mechanism comprises a material taking assembly for taking materials from the upper clamp conveying and moving mechanism, or the upper clamp conveying and moving mechanism comprises a material discharging assembly for discharging materials to the braiding mechanism.

10. The disc foot braider of claim 9, characterized in that: still be equipped with vibration dish mechanism in the frame, the discharge end of vibration dish mechanism is close to the subassembly setting of breaking open.

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