CN210412323U - A cut foot and transfer subassembly for electric capacity cuts foot equipment - Google Patents

Abstract

The utility model relates to a foot-cutting transfer component for a foot-cutting device of an electric capacity, which comprises a cutter seat arranged on a frame, a cutter head arranged in the cutter seat in a sliding way and a driving component arranged on the frame and used for driving the cutter head to move, wherein the cutter head is used for carrying out the foot-cutting action of the electric capacity in the foot-cutting device of the electric capacity; the clamping and transferring assembly comprises an installation frame and a transferring seat, the installation frame is arranged on the rack, the transferring seat is slidably arranged on the installation frame, clamping claws capable of clamping capacitors in rows are arranged on the transferring seat, a driving piece used for driving the clamping claws to stretch is arranged on the transferring seat, and a linkage portion which is connected with the driving assembly and drives the transferring seat to slide is arranged on the rack in a manner of following the action of the capacitor cutting feet of the cutting head. The utility model has the characteristics of the foot is cut to electric capacity is efficient.

Description

A cut foot and transfer subassembly for electric capacity cuts foot equipment

Technical Field

The utility model belongs to the technical field of the technique of foot is cut to electric capacity and specifically relates to a cut foot and transfer subassembly that is used for electric capacity to cut foot equipment is related to.

Background

The electronic elements are small in size and small in size, pins need to be cut off during batch production, if manual cutting is used, the efficiency is low, the pins are influenced by subjective factors, the sizes of the cut pins are different, the quality cannot be guaranteed, the operation is careless, and safety accidents can also occur.

At present, in order to solve the above problems, chinese patent with publication number CN207068681U discloses an automatic bulk capacitor pin shearing device, which includes a frame, a feeding machine and a pin shearing machine, wherein the feeding machine and the pin shearing machine are arranged on the frame, the pin shearing machine includes a feeding channel, a cutter seat, a discharging chute, a finished product box and a waste collecting box, one end of the feeding channel is communicated with the feeding machine, the other end is provided with the cutter seat, the discharging chute is arranged between the cutter seat and the finished product box, and the waste collecting box is located below the cutter seat;

although the pin shearing device can complete the pin shearing operation of the capacitor pins, when the capacitor is conveyed to the cutter seat in the feeding channel, the cutter seat can only cut off the pins of one capacitor independently in each cutting action, so that the capacitor cannot shear the pins in batches, the pin shearing efficiency of the capacitor is low, and certain improvement is realized.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cut foot and transfer subassembly for foot equipment is cut to electric capacity has the efficient characteristics of electric capacity cut foot.

The above technical purpose of the present invention can be achieved by the following technical solutions:

the utility model provides a cut foot and transfer subassembly for foot equipment is cut to electric capacity, sets up in the frame that the foot equipment was cut to electric capacity, should cut the foot and transfer the subassembly and include:

the pin shearing assembly comprises a cutter seat arranged on the rack, a cutter head arranged in the cutter seat in a sliding manner, and a driving assembly arranged on the rack and used for driving the cutter head to move, wherein the cutter head is used for performing capacitance pin shearing action in capacitance pin shearing equipment;

the subassembly is transferred in the centre gripping for following the electric capacity of cutter head and cutting the foot action and remove in order to remove electric capacity in bank centre gripping, this centre gripping is transferred the subassembly and is including setting up the mounting bracket in the frame and sliding the seat of transferring that sets up on the mounting bracket, it can be provided with the gripper jaw of in bank centre gripping electric capacity on the seat to transfer, it is provided with the driving piece that is used for ordering about the gripper jaw is flexible to transfer to be provided with in the frame and links to each other to order about to transfer the gliding linkage portion of seat with the electric capacity of following the cutter head and cutting.

Through the technical scheme, the cutter head can slide under the action of the driving assembly to perform capacitance pin shearing action, the linkage part can drive the transfer seat to slide between the preparation station and the pin shearing station of the capacitance pin shearing equipment along with the action of the cutter head, when the transfer seat is opposite to the preparation station, the driving piece drives the clamping claws to clamp the capacitors in rows, at the moment, the cutter head does not perform the capacitance pin shearing action, then, the transfer seat moves while performing the capacitance pin shearing action along with the cutter head, the capacitors in rows are sent into the pin shearing station, after the capacitors in rows are sent, the cutter head just extends into the feeding guide rail to complete the pin shearing action on the capacitors, then, the driving piece drives the clamping claws to reset, and the transfer seat resets to repeatedly clamp the next group of capacitors in rows;

through the mode that the foot was cut in row, was got in row clamp to above-mentioned electric capacity, can effectively improve the efficiency that the foot was cut to the electric capacity to the length homogeneous that the electric capacity pin was cut off in guaranteeing a set of electric capacity improves the quality that the electric capacity pin was cuted.

Preferably, the driving assembly comprises a first rotating shaft rotatably mounted on the frame and a first eccentric wheel arranged on the first rotating shaft, a first connecting rod used for driving the cutting head to slide is mounted on the first eccentric wheel, and a first driving portion used for driving the first rotating shaft to rotate is arranged on the frame.

Through above-mentioned technical scheme, first drive division orders about first axis of rotation and rotates, and first axis of rotation drives first eccentric wheel and rotates, and then first eccentric wheel drives the cutter head and slides under the effect of first connecting rod, and the cutter head stretches into and accomplishes the foot action of cutting to electric capacity in the feeding guide rail.

Preferably, the first driving part comprises a driving motor fixed on the frame and a first synchronous pulley mounted on an output shaft of the driving motor, a second synchronous pulley is coaxially mounted on the first rotating shaft, and a first synchronous belt body is arranged between the first synchronous pulley and the second synchronous pulley.

Through above-mentioned technical scheme, the setting of above-mentioned first drive division, simple structure easily realizes.

Preferably, the linkage part comprises a second rotating shaft and a second eccentric wheel, the second rotating shaft is rotatably installed on the rack, the second eccentric wheel is arranged on the second rotating shaft, the second eccentric wheel is provided with a second connecting rod for driving the transfer seat to slide, the output shaft of the driving motor is provided with a third synchronous belt pulley, the second rotating shaft is coaxially provided with a fourth synchronous belt pulley, and a second synchronous belt body is arranged between the third synchronous belt pulley and the fourth synchronous belt pulley.

Through the technical scheme, driving motor passes through the third synchronous pulley, the fourth synchronous pulley, the second synchronous belt body can drive the second axis of rotation and rotate, make the direction of rotation of first axis of rotation and second axis of rotation the same, and then the second axis of rotation drives the second eccentric wheel and rotates, the second eccentric wheel drives through the second connecting rod and transfers the seat and slide, setting through above-mentioned linkage portion, thereby when realizing that the cutter head is gliding, it slides to transfer the action that the seat followed the cutter head, in order to send into the electric capacity of preparing station department and cut the foot station.

Preferably, the clamping jaw comprises a first mounting rod horizontally fixed on the driving part and a second mounting rod slidably inserted into the end part of the first mounting rod, a first clamping piece is fixed on the first mounting rod, a second clamping piece is fixed on the second mounting rod, a clamping space is formed between the first clamping piece and the second clamping piece, and a fastening piece for fastening the second mounting rod is arranged on the first mounting rod.

Through above-mentioned technical scheme, the second installation pole slides and pegs graft at first installation pole tip, and then can adjust the position of second installation pole through the fastener, realizes the regulation of centre gripping space interval, adapts to the centre gripping demand of different specification electric capacities.

Preferably, the fastener is a bolt.

Through the technical scheme, the bolt is simple in structure and easy to realize.

Preferably, the cutter seat is provided with a material pressing component which slides along with the cutter head to move up and down;

the material pressing assembly comprises a material pressing frame and a material pressing head, the material pressing frame is slidably mounted on the cutter seat, the material pressing head is slidably inserted into the material pressing frame in an inserting mode, a first linkage frame is arranged on the material pressing frame, a second linkage frame is arranged on the cutter head, a first linkage wheel is rotatably mounted in the first linkage frame, and a second linkage wheel which is abutted to the outer wheel surface of the first linkage wheel is rotatably mounted on the second linkage frame.

Through the technical scheme, when the cutting knife head slides to perform shearing operation on the capacitor pins, the second linkage wheel is separated from the first linkage wheel, so that the pressing effect of the pressing head on the capacitor is realized; when the cutting head slides and does not cut the capacitor pins, the second linkage wheel is abutted to the second linkage wheel so as to drive the cutting head to move in the vertical direction, and the influence of the pressing head on transferring the capacitor to the pin cutting station is avoided.

To sum up, the utility model discloses a beneficial technological effect does:

the subassembly is transferred in the centre gripping passes through electric capacity in bank clamp and gets, cuts the mode that the foot subassembly was cut the foot through the in bank, can effectively improve the efficiency that the foot was cut to electric capacity to guarantee the length homogeneous that the electric capacity pin was cut off in a set of electric capacity, improve the quality that the electric capacity pin was cuted.

Drawings

FIG. 1 is a schematic view of the overall structure of the embodiment;

FIG. 2 is a schematic view showing the installation of a feed rail in the embodiment;

FIG. 3 is a cross-sectional view of a feed rail in an embodiment;

FIG. 4 is an enlarged view of portion A of FIG. 3;

FIG. 5 is a schematic view of a first configuration of the scissors assembly and the clamping and transfer assembly of the embodiment;

FIG. 6 is a second structural view of the scissors assembly and the clamping and transfer assembly according to the embodiment;

fig. 7 is a sectional view of the clamping and transfer assembly in the embodiment.

Reference numerals: 1. a frame; 2. a feed guide rail; 21. a feed channel; 22. feeding stop bars; 23. an adjustment section; 231. a kidney-shaped hole; 232. fastening a bolt; 3. a shear pin assembly; 31. a cutter seat; 32. a cutter head; 33. a drive assembly; 331. a first rotating shaft; 332. a first eccentric wheel; 333. a first link; 34. an auxiliary cutter head; 35. a first driving section; 351. a drive motor; 352. a first timing pulley; 353. a second timing pulley; 354. a first synchronous belt body; 4. a clamping and transferring assembly; 41. a mounting frame; 42. a transfer seat; 43. a drive member; 44. a gripper jaw; 441. a first mounting bar; 442. a second mounting bar; 443. a first clip piece; 444. a second clip; 445. a fastener; 45. a linkage section; 451. a second rotating shaft; 452. a second eccentric wheel; 453. a second link; 454. a third synchronous pulley; 455. a fourth timing pulley; 456. a second synchronous belt body; 46. a proximity switch; 5. a supporting seat; 6. adjusting the screw rod; 7. feeding a vibrating disk; 8. a fixed mount; 9. pressing the material strips; 10. adjusting the bolt; 11. a material blocking rod; 12. a roller; 13. a material pressing component; 131. a material pressing frame; 132. pressing the material head; 133. a guide bar; 134. a guide sleeve; 135. an elastic spring; 136. adjusting a rod; 137. adjusting the nut; 14. a first linkage wheel; 15. a second linkage wheel; 16. a guide ramp; 17. a discharge sloping plate; 18. a finished product collection box; 19. a waste collection box.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, a pin cutting and transferring assembly for a capacitor pin cutting device is provided in the capacitor pin cutting device, and the capacitor pin cutting device includes a rack 1, a feeding guide rail 2, a pin cutting assembly 3, and a clamping and transferring assembly 4. This application is got, the mode of foot is cut in bank through electric capacity in bank clamp, can effectively improve the electric capacity and cut the efficiency of foot to guarantee the length homogeneous that electric capacity pin was cut off in a set of electric capacity, improve the quality that electric capacity pin was cuted.

Specifically, be provided with supporting seat 5 in the frame 1, feeding guide 2 slidable mounting is on supporting seat 5, and the rotation is installed in frame 1 and threaded connection is on feeding guide 2 in order to be used for adjusting the accommodate the lead screw 6 of feeding guide 2 height from top to bottom, and wherein, be provided with the height-adjusting that the scale is used for restricting feeding guide 2 on the supporting seat 5.

The feeding guide rail 2 is used for arranging and conveying capacitors, a feeding port and a discharging port are formed in the feeding guide rail 2, a feeding vibration disc 7 is connected to the feeding port, bulk capacitors are placed in the feeding vibration disc 7, the capacitors can enter the feeding guide rail 2 through the feeding port after being arranged by the feeding vibration disc 7, the capacitors are arranged in the feeding guide rail 2 in a straight line, the capacitors are continuously fed by the feeding vibration disc 7, and the capacitors can move and be conveyed along the feeding guide rail 2.

The feeding guide rail 2 is provided with a preparation station and a pin cutting station, and the feeding guide rail 2 has a shape suitable for placing a capacitor. Specifically, feedstock channel 21 has been seted up at feedstock guide 2's middle part, and feedstock channel 21 sets up along feedstock guide 2's length direction, and feedstock channel 21 runs through feedstock guide 2 feed inlet and discharge gate, and feedstock channel 21 is used for supplying the electric capacity pin to insert. Feeding guide rail 2 is provided with feeding shelves strip 22 in feed channel 21's both sides, is formed with the feeding chamber that is used for supplying electric capacity to place between two feeding shelves strip 22, and from this, electric capacity when arranging in a word in feeding guide rail 2, electric capacity is arranged in the feeding chamber, and the lower terminal surface of electric capacity is contradicted on feed channel 21's border, and the pin of electric capacity is inserted in feed channel 21.

It is worth mentioning that, in order to make the feeding cavity adapt to the capacitors with different specifications, the feeding guide rail 2 is provided with an adjusting portion 23 for adjusting the distance between the feeding cavities, and the adjusting portion 23 includes a kidney-shaped hole 231 formed on the feeding stop strip 22 and a fastening bolt 232 which is inserted into the kidney-shaped hole 231 and has an end portion screwed on the feeding guide rail 2.

In this application, for the stability of guaranteeing the electric capacity and carrying in feeding guide rail 2, avoid the electric capacity to break away from in the feeding chamber. Combine shown in fig. 2 and fig. 3, be provided with mount 8 in the frame 1, slidable mounting has a fixing base on the mount 8, be fixed with on the fixing base and press material strip 9, press material strip 9 to be located feeding channel 21 top of feeding guide rail 2 and the extending direction the same with feeding guide rail 2, it presses the material clearance to be formed with between material strip 9 and the feeding guide rail 2, wherein, rotate on the mount 8 and install adjusting bolt 10 of tip threaded connection on the fixing base, rotatory adjusting bolt 10, can change the upper and lower position of pressure material strip 9, and then realize pressing the regulation of material clearance size, so that press the material clearance to adapt to the electric capacity use of different specifications.

It is worth to be noted that, as shown in fig. 3 and 4, a material blocking rod 11 is vertically inserted in a sliding manner at a preparation station of the feeding guide rail 2 on the material pressing strip 9, under the action of gravity, an end of the material blocking rod 11 extends into the material pressing gap, and a roller 12 is rotatably installed at an end of the material blocking rod 11. The material blocking rod 11 can limit the conveying of the capacitor in the feeding guide rail 2, so that the capacitor can be stopped when conveyed to a preparation station in the feeding guide rail 2 and is arranged in a row along the feeding guide rail 2.

As shown in fig. 1 and 5, the pin shearing assembly 3 can perform a pin shearing action on the capacitor conveyed into the pin shearing station, wherein the adjusting screw 6 adjusts the height of the feeding guide rail 2, so as to adjust the cutting length of the capacitor pin.

Cut foot subassembly 3 including setting up the blade holder 31 in frame 1, and the cutter head 32 of slip setting in blade holder 31, and set up the drive assembly 33 that is used for driving cutter head 32 motion on frame 1, blade holder 31 sets up the foot position department of cutting at feeding guide rail 2, cutter head 32 is relative with the foot position of cutting of feeding guide rail 2, the lateral wall of feeding guide rail 2 is provided with the sword groove, the sword groove communicates with each other with feedstock channel 21, cutter head 32 can stretch into feedstock channel 21 of feeding guide rail 2 through the sword groove. An auxiliary cutter head 34 opposite to the cutter head 32 is arranged on the inner wall of the feeding channel 21, so that the cutter head 32 can slide into a pin shearing station of the feeding guide rail 2, the cutter head 32 abuts against the auxiliary cutter head 34, and then the pins of the capacitor are subjected to capacitor pin shearing action.

The clamping and transfer assembly 4 is used for following the action of the capacitor trimming of the cutter head 32 to feed the capacitors from the preparation station of the feed guide 2 into the trimming station in a row.

Specifically, the clamping and transferring assembly 4 comprises a mounting frame 41 arranged on the frame 1 and a transferring seat 42 slidably arranged on the mounting frame 41, the sliding direction of the transferring seat 42 is the same as the conveying direction of the feeding guide rail 2, wherein a driving part 43 is fixedly arranged on the transferring seat 42, the driving part 43 adopts a driving cylinder, and an output rod of the driving part 43 faces one side of the feeding guide rail 2. The output rod of the driving member 43 is provided with a clamping claw 44, the driving member 43 is used for driving the clamping claw 44 to extend above the feeding guide rail 2, and the clamping claw 44 can clamp the capacitors in a row.

It should be noted that the clamping claw 44 includes a first mounting rod 441 horizontally fixed on the driving member 43, and a second mounting rod 442 slidably inserted into an end of the first mounting rod 441, a first clamping piece 443 is fixed on the first mounting rod 441, a second clamping piece 444 is fixed on the second mounting rod 442, the first mounting rod 441 and the second mounting rod 442 are arranged in the same direction as the conveying direction of the feeding guide rail 2, the first clamping piece 443 and the second clamping piece 444 are located on one side of the feeding guide rail 2, the first clamping piece 443 and the second clamping piece 444 are respectively perpendicular to the first mounting rod 441 and the second mounting rod 442, end portions of the first clamping piece 443 and the second clamping piece 444 are both rounded, the first clamping piece 443 and the second clamping piece 444 are made of rigid plastic, and the first clamping piece 443 and the second clamping piece 444 are between 1mm and 2mm thick, preferably 1mm thick.

A clamping space is formed between the first clamping piece 443 and the second clamping piece 444, a fastening piece 445 with an end portion abutting against the outer wall of the second mounting rod 442 is screwed on the first mounting rod 441, the fastening piece 445 is used for fastening the second mounting rod 442 in the first mounting rod 441, and the second mounting rod 442 is fixed at any position on the first mounting rod 441, and the fastening piece 445 is a bolt.

Therefore, when the driving member 43 drives the clamping claw 44 to extend into the upper portion of the feeding guide rail 2, the second clamping piece 444 can extend into the gap between two adjacent capacitors, and the rounded corner at the end of the second clamping piece 444 cannot damage the outer wall of the capacitor. Thus, the capacitor blocked by the striker rod 11 at the preparation station is held in a row by the first clip piece 443 and the second clip piece 444.

The frame 1 is provided with a linkage part 45 connected with the driving component 33 to drive the transfer seat 42 to slide along with the capacitive cutting foot action of the cutter head 32. The transfer base 42 can transfer the row of capacitors from the preparation station to the pin cutting station after the capacitors are clamped by the clamping claws 44 in the row between the preparation station and the pin cutting station of the feeding guide rail 2 under the action of the linkage part 45.

It should be noted that, proximity switches 46 for detecting the transfer base 42 are disposed on both sides of the mounting frame 41, the proximity switches 46 are respectively opposite to the preparation station and the pin cutting station, and the proximity switches 46 are used for controlling the driving member 43 to operate. When the transfer seat 42 moves to one side of the mounting frame 41 and is opposite to the preparation working position, the proximity switch 46 detects the transfer seat 42 and controls the driving part 43 to drive the clamping claw 44 to extend out to clamp the capacitor; when the transfer base 42 is moved to the other side of the mounting frame 41 and is opposed to the cutting position, the proximity switch 46 detects the transfer base 42 and controls the driving member 43 to retract the gripping claws 44.

In this application, the driving assembly 33 includes a first rotating shaft 331 rotatably installed on the frame 1, and a first eccentric wheel 332 disposed on the first rotating shaft 331, an axial line of the first eccentric wheel 332 and an axial line of the first rotating shaft 331 are located on the same direction line, a first connecting rod 333 for driving the cutter head 32 to slide is installed on the first eccentric wheel 332, specifically, one end of the first connecting rod 333 is hinged on an eccentric point of the first eccentric wheel 332, the other end of the first connecting rod 333 is hinged on an end portion of the cutter head 32, and a first driving portion 35 for driving the first rotating shaft 331 to rotate is disposed on the frame 1.

The first driving unit 35 includes a driving motor 351 fixed to the frame 1 and a first timing pulley 352 coaxially mounted on an output shaft of the driving motor 351, the first timing pulley 352 is mounted on the output shaft of the driving motor 351 by a flat key, a second timing pulley 353 is coaxially mounted on the first rotating shaft 331, the second timing pulley 353 is mounted on the first rotating shaft 331 by a flat key, and a first timing belt 354 is provided between the first timing pulley 352 and the second timing pulley 353.

As shown in fig. 5 and 6, the linkage portion 45 includes a second rotation shaft 451 rotatably mounted on the frame 1, and a second eccentric 452 provided on the second rotation shaft 451, wherein an axial line of the second eccentric 452 is located on the same direction line as an axial line of the second rotation shaft 451, and the second eccentric 452 is mounted on the second rotation shaft 451 in a flat key manner. A second connecting rod 453 for driving the transfer base 42 to slide is mounted on the second eccentric 452, specifically, one end of the second connecting rod 453 is hinged to the eccentric point of the second eccentric 452, the other end of the second connecting rod 453 is hinged to the transfer base 42, a third synchronous pulley 454 is mounted on an output shaft of the driving motor 351, a fourth synchronous pulley 455 is coaxially mounted on the second rotating shaft 451, and a second synchronous belt body 456 is disposed between the third synchronous pulley 454 and the fourth synchronous pulley 455.

In the present application, the diameter of the second eccentric 452 is greater than the diameter of the first eccentric 332, and the distance between the eccentric point of the second eccentric 452 and the center point is greater than the distance between the eccentric point of the first eccentric 332 and the center point. Thus, the sliding distance of the first eccentric 332 driving the cutter head 32 is smaller than the sliding distance of the second eccentric 452 driving the transfer base 42. When the transfer base 42 slides to a position opposite to the preliminary working position, the cutter head 32 is about to slide to a position farthest away from the feeding guide rail 2, and when the transfer base 42 slides to a position opposite to the foot cutting working position, the cutter head 32 is about to slide and extend into the feeding guide rail 2 to perform foot cutting action.

Therefore, the arrangement of the linkage part 45 can realize that the clamping claws 44 clamp the capacitors in a row, and when the transfer seat 42 transfers the capacitors from the preparation station to the pin cutting station, the cutting knife head 32 can cut off the pins of the capacitors in a row.

The cutter holder 31 is provided with a pressing component 13 which slides along with the cutter head 32 to move up and down, the pressing component 13 is located at the pin cutting station of the feeding guide rail 2, and the pressing component 13 is used for pressing a capacitor on the pin cutting station. The pressing component 13 comprises a pressing frame 131 slidably mounted on the cutter holder 31 and a pressing head 132 slidably inserted in the pressing frame 131 and located above the pin cutting station of the feeding guide rail 2, the pressing frame 131 is vertically slidably mounted on the cutter holder 31, and the pressing head 132 can vertically slide on the pressing frame 131. The two sides of the pressing head 132 are connected with guide rods 133, the pressing frame 131 is provided with a guide sleeve 134 for the insertion of the guide rods 133, the guide rods 133 are sleeved with elastic springs 135, one ends of the elastic springs 135 are abutted against the pressing frame 131, and the pressing frame 131 is provided with an adjusting member for adjusting the height of the pressing head 132.

The adjusting member comprises an adjusting rod 136 arranged on the material pressing head 132 and a through hole arranged on the material pressing frame 131 for the inserting connection of the adjusting rod 136, the adjusting rod 136 is fixedly arranged in the middle of the material pressing head 132, an adjusting nut 137 is connected to the adjusting rod 136 through a thread, and the adjusting nut 137 is abutted to the material pressing frame 131. Therefore, the adjusting nut 137 is rotated to change the position of the adjusting nut 137 on the adjusting rod 136, so that the height position of the material pressing head 132 on the material pressing frame 131 is adjusted, and the adjusting mode is simple and easy to realize.

Referring to fig. 6 and 7, a first linkage frame is arranged on the material pressing frame 131, a second linkage frame is arranged on the cutter head 32, a first linkage wheel 14 is rotatably arranged in the first linkage frame, and a second linkage wheel 15 which is abutted against the outer wheel surface of the first linkage wheel 14 is rotatably arranged on the second linkage frame. Therefore, when the cutting head 32 slides to cut the pins of the capacitor, the second linkage wheel 15 is separated from the first linkage wheel 14, so that the pressing effect of the material pressing head 132 on the capacitor under the action of gravity is realized; when the cutting head 32 does not cut the pins of the capacitor, the second linkage wheel 15 abuts against the second linkage wheel 15 to drive the cutting head 32 to move in the vertical direction, so that the influence of the pressing head 132 on the clamping claw 44 to convey the capacitor to the pin cutting station along the feeding guide rail 2 is avoided.

It should be noted that the lower surfaces of the two ends of the pressing head 132 are provided with the guiding inclined planes 16, the guiding inclined planes 16 avoid blocking and interfering the entering of the capacitor, and the inclination angle of the guiding inclined planes 16 is 45 °.

Consequently, drive assembly 33 drives cutter head 32 reciprocal slip and cuts with the electric capacity pin on the feeding guide rail 2 in, presses material subassembly 13 to push down on electric capacity to compress tightly electric capacity when the foot is cut to electric capacity, thereby avoid electric capacity to take place the condition of beating when cutting the foot, avoid influencing the quality that the electric capacity pin was cut.

In this application, be connected with ejection of compact swash plate 17 on the discharge gate of feeding guide rail 2, be provided with the finished product on the frame 1 and collect box 18, the finished product is collected box 18 and is located the below of ejection of compact swash plate 17, cuts the electric capacity of foot completion and exports from the discharge gate of feeding guide rail 2, enters into the finished product through ejection of compact swash plate 17 and collects box 18. Wherein, be provided with garbage collection box 19 in the foot station of cutting of feeding guide rail 2, the back is cuted the electric capacity pin to cutter head 32, and the waste material falls from feedstock channel 21 to be accepted by garbage collection box 19.

When the capacitor pin is sheared, in order to improve the stability of the capacitor, the pressing component 13 which moves up and down along with the sliding of the cutter head 32 is arranged on the cutter holder 31, and the pressing component 13 is used for pressing the capacitor on the pin shearing station of the feeding guide rail 2.

This application is got, the mode of foot is cut in bank through electric capacity in bank clamp, can effectively improve the electric capacity and cut the efficiency of foot to guarantee the length homogeneous that electric capacity pin was cut off in a set of electric capacity, improve the quality that electric capacity pin was cuted.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (7)

1. The utility model provides a cut foot and transfer subassembly for foot equipment is cut to electric capacity sets up in electric capacity on cutting frame (1) of foot equipment, and its characterized in that should cut the foot and transfer the subassembly and include:

the pin shearing assembly (3) comprises a cutter seat (31) arranged on the rack (1), a cutter head (32) arranged in the cutter seat (31) in a sliding manner, and a driving assembly (33) arranged on the rack (1) and used for driving the cutter head (32) to move, wherein the cutter head (32) is used for performing capacitance pin shearing action in capacitance pin shearing equipment;

subassembly (4) is transferred in centre gripping for following the electric capacity of cutter head (32) and cut the foot action and remove in order to carry electric capacity in bank centre gripping, this centre gripping is transferred subassembly (4) and is including setting up mounting bracket (41) on frame (1) and slip setting transfer seat (42) on mounting bracket (41), it can be in bank centre gripping electric capacity's gripper jaw (44) to transfer to be provided with on seat (42), it is used for ordering about flexible driving piece (43) of gripper jaw (44) to transfer to be provided with on seat (42), is provided with on frame (1) and cuts the foot action with the electric capacity of following cutter head (32) and orders about and transfer seat (42) gliding linkage portion (45).

2. The pin cutting and transferring assembly for the capacitor pin cutting equipment according to claim 1, wherein the driving assembly (33) comprises a first rotating shaft (331) rotatably mounted on the frame (1), and a first eccentric wheel (332) arranged on the first rotating shaft (331), a first connecting rod (333) for driving the cutter head (32) to slide is mounted on the first eccentric wheel (332), and a first driving part (35) for driving the first rotating shaft (331) to rotate is arranged on the frame (1).

3. The foot cutting and transferring assembly for the capacitive foot cutting equipment according to claim 2, wherein the first driving part (35) comprises a driving motor (351) fixed on the frame (1) and a first synchronous pulley (352) mounted on an output shaft of the driving motor (351), the first rotating shaft (331) is coaxially mounted with a second synchronous pulley (353), and a first synchronous belt body (354) is arranged between the first synchronous pulley (352) and the second synchronous pulley (353).

4. The foot-cutting transfer assembly for the capacitance foot-cutting equipment according to claim 3, characterized in that the linkage part (45) comprises a second rotating shaft (451) rotatably installed on the frame (1) and a second eccentric wheel (452) arranged on the second rotating shaft (451), a second connecting rod (453) for driving the transfer base (42) to slide is installed on the second eccentric wheel (452), a third synchronous pulley (454) is installed on an output shaft of the driving motor (351), a fourth synchronous pulley (455) is coaxially installed on the second rotating shaft (451), and a second synchronous belt body (456) is arranged between the third synchronous pulley (454) and the fourth synchronous pulley (455).

5. The pin-cutting transfer assembly for a capacitive pin-cutting device according to claim 1, wherein the clamping jaw (44) comprises a first mounting rod (441) horizontally fixed on the driving member (43) and a second mounting rod (442) slidably inserted into an end of the first mounting rod (441), a first clamping piece (443) is fixed on the first mounting rod (441), a second clamping piece (444) is fixed on the second mounting rod (442), a clamping space is formed between the first clamping piece (443) and the second clamping piece (444), and a fastening member (445) for fastening the second mounting rod (442) is arranged on the first mounting rod (441).

6. The pin cutting transfer assembly for a capacitive pin cutting apparatus of claim 5, wherein the fastener (445) is a bolt.

7. The pin cutting and transferring assembly for the capacitor pin cutting equipment according to claim 1, wherein the cutter holder (31) is provided with a pressing assembly (13) which slides along with the cutter head (32) to move up and down;

the material pressing component (13) comprises a material pressing frame (131) which is slidably mounted on the cutter seat (31) and a material pressing head (132) which is slidably inserted into the material pressing frame (131), a first linkage frame is arranged on the material pressing frame (131), a second linkage frame is arranged on the cutter head (32), a first linkage wheel (14) is rotatably mounted in the first linkage frame, and a second linkage wheel (15) which is abutted to the outer wheel surface of the first linkage wheel (14) is rotatably mounted on the second linkage frame.

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