CN220296362U - Trimming and forming equipment - Google Patents

Abstract

The utility model discloses trimming and forming equipment, which comprises a workbench; the feeding mechanism, the welding mechanism, the forming mechanism and the discharging mechanism are sequentially arranged on the workbench; the forming mechanism comprises a conveying assembly, a trimming assembly and a bending assembly, the conveying assembly is movably arranged on the workbench, the trimming assembly and the bending assembly are sequentially located on a conveying track of the conveying assembly, and the bending assembly is located between the trimming assembly and the blanking mechanism. According to the copper sheet trimming and shaping device, trimming and shaping are carried out on the welded copper sheet through the trimming assembly, the trimmed copper sheet is conveyed to the bending assembly through the conveying assembly to be bent and shaped, so that the soft connecting pins are manufactured, and then the soft connecting pins are conveyed to the blanking mechanism through the conveying assembly to be manufactured. Therefore, the labor cost required by processing the flexible connection pins is effectively reduced, time and labor are saved, and the trimming and shaping and bending forming processes are realized in the same equipment, so that the occupied space is reduced.

Description

Trimming and forming equipment

Technical Field

The utility model relates to the technical field of power battery processing, in particular to trimming and forming equipment.

Background

The power battery is a power source for providing power source for tools, and is a storage battery for providing electric energy for electric automobiles, electric trains and electric bicycles. With the rapid development of the new energy automobile industry, the power battery gradually becomes the main stream.

In the related art, when processing a flexible connection pin of a power battery, a trimming and shaping is usually performed on a copper sheet, and then the copper sheet after trimming and shaping is collected and transferred to a next station for bending and shaping, so as to manufacture the flexible connection pin. However, the existing manner of collecting and transferring copper sheets requires high labor cost, time and effort, and occupies more space, thereby affecting the production capacity of the flexible connection pins.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides trimming and forming equipment.

The utility model discloses trimming and forming equipment, which comprises a workbench;

the feeding mechanism, the welding mechanism, the forming mechanism and the discharging mechanism are sequentially arranged on the workbench;

the forming mechanism comprises a conveying assembly, a trimming assembly and a bending assembly, the conveying assembly is movably arranged on the workbench, the trimming assembly and the bending assembly are sequentially located on a conveying track of the conveying assembly, and the bending assembly is located between the trimming assembly and the blanking mechanism.

Preferably, the conveying assembly comprises a fixed block, a sliding seat, a first pushing cylinder, a lifting cylinder and a first absorption part, wherein the sliding seat is movably connected with the fixed block, the first pushing cylinder is arranged on the sliding seat, the output end of the first pushing cylinder is connected with the fixed block, and the sliding seat can do reciprocating linear movement relative to the fixed block; the lifting cylinder is arranged at one end of the sliding seat, which is close to the trimming assembly or the bending assembly, the first adsorption piece is connected to the output end of the lifting cylinder, and the first adsorption piece can reciprocate relative to the sliding seat.

Preferably, the side cut subassembly includes first supporting seat, first portion of sliding, the cutting piece, cutting cavity and carrier block, the workstation is located to first supporting seat, first supporting seat is located to first portion of sliding activity, first portion of sliding can be reciprocating lift removal relative to first supporting seat, the cutting piece is connected in the one end of first portion of sliding, the cutting cavity is offered in first supporting seat, the cutting intracavity is located to the carrier block, the carrier block cooperatees with the cutting piece and sets up, the cutting piece can remove to the one end of cutting piece towards the carrier block and stretch into the cutting intracavity.

Preferably, the bending assembly comprises a second supporting seat, a second sliding part, a pressing block, a forming seat and a movable block, wherein the second supporting seat is arranged on the workbench, the second sliding part is movably arranged on the second supporting seat, the second sliding part can reciprocate relative to the second supporting seat, the pressing block is connected to one end of the second sliding part, the forming seat is arranged on the second supporting seat, the movable block is movably arranged in the forming seat, and the pressing block can move to one side of the pressing block deviating from the second sliding part to be abutted to the movable block.

Preferably, the feeding mechanism comprises a feeding conveying belt, a bearing frame, a first driving part, a movable rod, a first material taking assembly and a second material taking assembly, wherein the feeding conveying belt is arranged on a workbench, one end of the bearing frame is close to the feeding conveying belt, the first driving part is arranged on the bearing frame, the movable rod is connected to the driving end of the first driving part, the movable rod can reciprocate linearly relative to the bearing frame, and the first material taking assembly and the second material taking assembly are respectively arranged at two ends of the movable rod.

Preferably, the first material taking assembly comprises a first mounting plate, a first jacking cylinder and a first adsorption part, wherein the first mounting plate is connected to the movable rod, the first jacking cylinder is arranged on the first mounting plate, the first adsorption part is connected to the output end of the first jacking cylinder, and the first adsorption part can reciprocate relative to the feeding conveying belt.

Preferably, the second material taking assembly comprises a second mounting plate, a connecting block, a sliding cylinder, a second jacking cylinder and a second adsorption part, wherein the second mounting plate is connected to the movable rod, the connecting block is movably arranged on the second mounting plate, the sliding cylinder is arranged on the connecting block, the output end of the sliding cylinder is connected to the second mounting plate, the connecting block can do reciprocating linear movement towards the direction close to or far away from the welding mechanism, the second jacking cylinder is arranged on the connecting block, the second adsorption part is connected to the output end of the second jacking cylinder, and the second adsorption part can do reciprocating lifting movement relative to the connecting block.

Preferably, the welding mechanism comprises a second driving piece, a screw rod, a mounting seat, a welding machine and a positioning jig, wherein one end of the screw rod is connected to the driving end of the second driving piece, the mounting seat is in threaded connection with the screw rod, the mounting seat can do reciprocating linear movement relative to the workbench, the welding machine is arranged on the mounting seat, and the positioning jig is located between the welding machine and the bearing frame.

Preferably, the blanking mechanism comprises a containing frame, a receiver and a blanking assembly, wherein the containing frame is arranged on the workbench, the receiver and the workbench are adjacently arranged, one end of the blanking assembly is close to the containing frame, and the other end of the blanking assembly is close to the receiver.

Preferably, the unloading subassembly includes carriage, third driving piece, the board that slides, second promotes cylinder, connecting plate and second absorption piece, the carriage is located to the third driving piece, one side of the board that slides is connected in the drive end of third driving piece, the board that slides can be towards being close to or keep away from the direction of receiver and do reciprocal linear movement, the board that slides is located to the second promotion cylinder, the connecting plate is connected in the output of second promotion cylinder, the second absorption piece is connected in the one end that the second promoted cylinder was kept away from to the connecting plate, the second absorption piece can be reciprocal elevating movement relative to the connecting plate.

The beneficial effects of this application lie in: and the feeding mechanism feeds copper sheets to the welding mechanism, the welding mechanism performs ultrasonic welding on the copper sheets, the welded copper sheets are subjected to edge trimming and shaping through the edge trimming assembly, the trimmed copper sheets are conveyed to the bending assembly through the conveying assembly to be subjected to bending forming, so that soft connecting pins are manufactured, the soft connecting pins are conveyed to the blanking mechanism through the conveying assembly, and the soft connecting pins are manufactured by the blanking mechanism. Therefore, the labor cost required by processing the flexible connection pins is effectively reduced, time and labor are saved, and the trimming and shaping and bending forming processes are realized in the same equipment, so that the occupied space is reduced.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute an undue limitation to the application. In the drawings:

FIG. 1 is a perspective view of a trim molding apparatus in an embodiment;

FIG. 2 is a perspective view showing the structure of the inside of the stand in the embodiment;

FIG. 3 is a cross-sectional view showing a loading mechanism in an embodiment;

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

FIG. 5 is an enlarged view of portion B of FIG. 3;

FIG. 6 is a cross-sectional view showing a welding mechanism in an embodiment;

FIG. 7 is a cross-sectional view of an embodiment showing a trim assembly and a bend assembly;

FIG. 8 is an enlarged view of portion C of FIG. 7;

FIG. 9 is an enlarged view of portion D of FIG. 7;

FIG. 10 is a cross-sectional view of an embodiment showing a transfer assembly;

FIG. 11 is an enlarged view of portion E of FIG. 10;

fig. 12 is a sectional view showing a blanking mechanism in the embodiment.

In the attached drawings, 1, a workbench; 11. a table body; 12. a bottom plate; 2. a feeding mechanism; 21. a feeding conveyer belt; 22. a carrier; 23. a first driving member; 24. a movable rod; 25. a first take-out assembly; 251. a first mounting plate; 252. a first jacking cylinder; 253. a first adsorption unit; 26. a second take-out assembly; 261. a second mounting plate; 262. a connecting block; 263. a slip cylinder; 264. a second jacking cylinder; 265. a second adsorption unit; 27. a rotary cylinder; 28. a turnover block; 3. a welding mechanism; 31. a second driving member; 32. a screw rod; 33. a mounting base; 34. a welding machine; 35. positioning jig; 4. a forming mechanism; 41. a transfer assembly; 411. a fixed block; 412. a sliding seat; 413. a first pushing cylinder; 414. a lifting cylinder; 415. a first absorbent member; 42. a trimming assembly; 421. a first support base; 422. a first slip part; 423. cutting the block; 424. a cutting chamber; 425. a bearing block; 43. a bending assembly; 431. a second support base; 432. a second slip part; 433. briquetting; 434. forming a seat; 435. a movable block; 5. a blanking mechanism; 51. a holding rack; 52. a material receiving device; 53. a blanking assembly; 531. a carriage; 532. a third driving member; 533. a slip plate; 534. a second pushing cylinder; 535. a connecting plate; 536. a second absorbent member.

Detailed Description

Various embodiments of the utility model are disclosed in the following drawings, in which details of the practice are set forth in the following description for the purpose of clarity. However, it should be understood that these practical details are not to be taken as limiting the utility model. That is, in some embodiments of the utility model, these practical details are unnecessary. Moreover, for the sake of simplicity of the drawing, some well-known and conventional structures and elements are shown in the drawings in a simplified schematic manner.

It should be noted that all directional indications such as up, down, left, right, front, and rear … … in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture such as that shown in the drawings, and if the particular posture is changed, the directional indication is changed accordingly.

In addition, the descriptions of the "first", "second", etc. in this application are for descriptive purposes only and are not intended to specifically indicate a sequential or a cis-position, nor are they intended to limit the utility model, but are merely intended to distinguish between components or operations described in the same technical term, and are not to be construed as indicating or implying a relative importance or implying that the number of technical features indicated is not necessarily limited. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

For a further understanding of the utility model, its features and advantages, reference is now made to the following examples, which are illustrated in the accompanying drawings in which:

referring to fig. 1 and 2, fig. 1 is a perspective view of a trimming-forming apparatus in an embodiment, and fig. 2 is a perspective view of a structure for showing the inside of a table body 11 in an embodiment. The trimming and forming device in this embodiment is used for implementing trimming and forming and bending of a workpiece to be machined, for example, implementing trimming and forming and bending of a copper sheet, so as to manufacture a flexible connection pin. The trimming and forming equipment comprises a workbench 1, a feeding mechanism 2, a welding mechanism 3, a forming mechanism 4 and a discharging mechanism 5, wherein the feeding mechanism 2, the welding mechanism 3, the forming mechanism 4 and the discharging mechanism 5 are sequentially arranged on the workbench 1. In practical application, the copper sheet is fed to the welding mechanism 3 by the feeding mechanism 2, ultrasonic welding is carried out on the copper sheet by the welding mechanism 3, trimming and shaping and bending are carried out on the copper sheet by the forming mechanism 4, so that the soft connection pins are manufactured, and then the soft connection pins are discharged by the discharging mechanism 5.

The workbench 1 comprises a workbench body 11 and a bottom plate 12, wherein the bottom plate 12 is arranged in the workbench body 11, namely, the workbench body 11 is used for bearing the bottom plate 12.

Referring to fig. 2 to 4, fig. 3 is a sectional view for showing the feeding mechanism 2 in the embodiment; fig. 4 is an enlarged view of a portion a in fig. 3. The feeding mechanism 2 comprises a feeding conveyer belt 21, a bearing frame 22, a first driving piece 23, a movable rod 24, a first material taking assembly 25 and a second material taking assembly 26, wherein the feeding conveyer belt 21 is arranged on the bottom plate 12, and in the embodiment, the feeding conveyer belt 21 is driven to rotate by external driving equipment so as to be used for sequentially feeding copper sheets. One end of the bearing frame 22 is close to the feeding conveyer belt 21, and the bearing frame 22 and the feeding conveyer belt 21 are parallel. The first driving member 23 is mounted on the carrier 22, the movable rod 24 is connected to the driving end of the first driving member 23, in this embodiment, a gear transmission assembly is disposed between the movable rod 24 and the first driving member 23, the driving end of the first driving member 23 is connected to one end of the gear transmission assembly, and the movable rod 24 is connected to the gear transmission assembly, so that the movable rod 24 can reciprocate linearly relative to the carrier 22, and the connection relationship among the driving wheel, the driven wheel and the driving belt in the gear transmission assembly is not repeated herein. In addition, the first driving member 23 is a stepper motor, and an output shaft of the stepper motor is connected to the movable rod 24, and in other embodiments, the first driving member 23 may be another driving member capable of making the movable rod 24 reciprocate linearly. The first material taking component 25 and the second material taking component 26 are respectively arranged at two ends of the movable rod 24, the first material taking component 25 is used for feeding the copper sheets conveyed by the feeding conveyor belt 21 to the welding mechanism 3, and the second material taking component 26 is used for feeding the copper sheets processed by the welding mechanism 3 to the forming mechanism 4.

The first material taking assembly 25 includes a first mounting plate 251, a first lifting cylinder 252, and a first adsorption portion 253, where the first mounting plate 251 is connected to one end of the movable rod 24, and the first lifting cylinder 252 is mounted on the first mounting plate 251. The first adsorption part 253 is connected to a piston rod of the first lifting cylinder 252, so that the first adsorption part 253 can reciprocate up and down relative to the feeding conveyor belt 21. The first adsorption portion 253 has four air nozzles, and the four air nozzles are connected with the piston rod of the first lifting cylinder 252 for vacuum adsorption of the copper sheet.

Referring to fig. 3 and 5, fig. 5 is an enlarged view of a portion B in fig. 3. The second material taking assembly 26 includes a second mounting plate 261, a connecting block 262, a sliding cylinder 263, a second jacking cylinder 264 and a second adsorption portion 265, the second mounting plate 261 is connected to one end of the movable rod 24 far away from the first mounting plate 251, the connecting block 262 is slidably mounted on the second mounting plate 261, the sliding cylinder 263 is mounted on the connecting block 262, a piston rod of the sliding cylinder 263 is connected to the second mounting plate 261, so that the connecting block 262 can make reciprocating linear movement in a direction close to or far away from the welding mechanism 3. The second jacking cylinder 264 is installed in the connecting block 262, and the second adsorption part 265 is connected in the piston rod of the second jacking cylinder 264 for the second adsorption part 265 can be reciprocating lift removal relative to the connecting block 262, in this embodiment, the structure of second adsorption part 265 is the same with the structure of first adsorption part 253, in order to be used for the copper sheet after the vacuum adsorption welding, and the redundant description is not repeated here.

The feeding mechanism 2 further comprises a rotary air cylinder 27 and a turnover block 28, the rotary air cylinder 27 is arranged on the side wall of the feeding conveyor belt 21, and the rotary air cylinder 27 is arranged at one end, far away from the bearing frame 22, of the feeding conveyor belt 21. One end of the turning block 28 is connected to the output end of the revolving cylinder 27, and the turning block 28 is located above the feeding conveyor belt 21, so that the revolving cylinder 27 drives the turning block 28 to turn. In the previous process of entering the trimming and forming equipment, the upward side of the copper sheet is opposite to the required processing side of the trimming and forming equipment, so that during feeding, the turning block 28 is driven to rotate by the rotary cylinder 27, and the copper sheet subjected to the previous process is turned to the required processing side of the trimming and forming equipment.

Referring to fig. 6 and 7, fig. 6 is a cross-sectional view showing the welding mechanism 3 in the embodiment, and fig. 7 is a cross-sectional view showing the trimming assembly 42 and the bending assembly 43 in the embodiment. The welding mechanism 3 comprises a second driving piece 31, a screw rod 32, a mounting seat 33, a welding machine 34 and a positioning jig 35, one end of the screw rod 32 is connected to the driving end of the second driving piece 31, and the second driving piece 31 drives the screw rod 32 to rotate. In this embodiment, the second driving member 31 is a servo motor, and an output shaft of the servo motor is connected to the screw 32, and in other embodiments, the second driving member 31 may be another driving member capable of rotating the screw 32. The bottom of mount pad 33 overlaps outside locating lead screw 32, mount pad 33 and lead screw 32 threaded connection for mount pad 33 can do reciprocal linear movement relative to bottom plate 12. In this embodiment, a guiding mechanism is provided between the mounting base 33 and the bottom plate 12, so that the mounting base 33 can perform a reciprocating linear movement smoothly. The welder 34 is mounted on the mounting base 33, the positioning jig 35 is rotatably disposed on the bottom plate 12, and the positioning jig 35 is located between the welder 34 and the carrier 22. In this embodiment, the rotation of the positioning jig 35 is realized by a servo motor, and the positioning jig 35 has two processing positions for placing copper sheets, wherein one processing position is close to the welding machine 34, and the other processing position is close to the carrier 22. During processing, the copper sheets are fed through the feeding conveyor belt 21, the first adsorption part 253 is driven to move downwards through the first jacking air cylinder 252 so as to adsorb the copper sheets, and then the first driving piece 23 drives the movable rod 24 to move linearly, so that the copper sheets are fed onto the positioning jig 35. Next, the positioning jig 35 rotates, and the second driving member 31 drives the mounting seat 33 to move, so that the welding machine 34 welds the copper sheet on the positioning jig 35. After the welding is finished, the positioning jig 35 rotates, the sliding cylinder 263 drives the connecting block 262 to move towards the direction close to the positioning jig 35, and the second jacking cylinder 264 drives the second adsorption part 265 to move downwards, so that the welded copper sheet is adsorbed. And, with the movement of the movable rod 24, the welded copper sheet is conveyed to the forming mechanism 4 for processing.

Referring to fig. 7 to 9, fig. 8 is an enlarged view of a portion C of fig. 7, and fig. 9 is an enlarged view of a portion D of fig. 7. The forming mechanism 4 includes a conveying assembly 41, a trimming assembly 42 and a bending assembly 43, wherein the conveying assembly 41 is movably disposed on the bottom plate 12, and a linear driving device is disposed between the conveying assembly 41 and the bottom plate 12 to realize that the conveying assembly 41 can reciprocate relative to the bottom plate 12. The trimming assembly 42 and the bending assembly 43 are sequentially positioned on the conveying track of the conveying assembly 41, and the bending assembly 43 is positioned between the trimming assembly 42 and the blanking mechanism 5. After the copper sheets are welded, the movable rod 24 moves to enable the second adsorption part 265 to move the welded copper sheets to the trimming assembly 42 for trimming and shaping, then the trimmed copper sheets are conveyed to the bending assembly 43 for bending and shaping through the conveying assembly 41, so that flexible connection pins are manufactured, and then the flexible connection pins are conveyed to the blanking mechanism 5 through the conveying assembly 41. In this embodiment, there are two conveying assemblies 41, one conveying assembly 41 is used for conveying the trimmed copper sheet to the bending assembly 43, and the other conveying assembly 41 is used for conveying the soft connection pins to the blanking mechanism 5. In addition, a guiding mechanism is provided between the transfer assembly 41 and the base plate 12, so that the transfer assembly 41 can smoothly perform reciprocating linear movement.

Referring to fig. 10 and 11, fig. 10 is a cross-sectional view for showing the transfer assembly 41 in the embodiment, and fig. 11 is an enlarged view of a portion E in fig. 10. Wherein, the conveying components 41 include a fixed block 411, a sliding seat 412, a first pushing cylinder 413, a lifting cylinder 414 and a first absorbing component 415, the fixed block 411 is vertically disposed on the bottom plate 12, in this embodiment, the fixed blocks 411 in the two conveying components 41 are mutually fixed by a plate, so that the distance between the two fixed blocks 411 is fixed. In the present embodiment, a linear driving device is disposed between the sliding seat 412 and the base plate 12, so that the sliding seat 412 can perform a reciprocating linear movement relative to the base plate 12. The sliding seat 412 is movably connected with the fixed block 411, the first pushing cylinder 413 is mounted on the sliding seat 412, and a piston rod of the first pushing cylinder 413 is connected with the fixed block 411, so that the sliding seat 412 can perform reciprocating linear movement relative to the fixed block 411. The lifting cylinder 414 is installed at one end of the sliding seat 412, which is close to the trimming assembly 42 or the bending assembly 43, and the first absorbing member 415 is connected to a piston rod of the lifting cylinder 414, so that the first absorbing member 415 can reciprocate relative to the sliding seat 412. The first adsorbing member 415 has the same structure as the second adsorbing member 265.

Referring to fig. 7 to 9, the trimming assembly 42 includes a first supporting seat 421, a first sliding portion 422, a cutting block 423, a cutting cavity 424 and a bearing block 425, wherein the first supporting seat 421 is mounted on the bottom plate 12, and the first sliding portion 422 is movably mounted on the first supporting seat 421, so that the first sliding portion 422 can reciprocate relative to the first supporting seat 421. In this embodiment, the first sliding portion 422 realizes the reciprocating lifting movement through the motor and the gear transmission assembly, which is the prior art, and is not repeated. The cutting block 423 is connected to the bottom end of the first sliding portion 422, the cutting cavity 424 is disposed at the bottom end of the first supporting seat 421, and the cutting cavity 424 is disposed opposite to the cutting block 423. The bearing block 425 is installed in the cutting cavity 424, and the bearing block 425 is matched with the cutting block 423, in this embodiment, the size of the bearing block 425 is smaller than that of the cutting cavity 424, and when the first sliding portion 422 moves downward, the cutting block 423 moves synchronously until one end of the cutting block 423 facing the bearing block 425 extends into the cutting cavity 424. After the welded copper sheet moves to the bearing block 425, the first sliding part 422 is driven to move downwards, so that the cutting block 423 moves synchronously until one end of the cutting block 423, which faces the bearing block 425, stretches into the cutting cavity 424, and at this time, the cutting block 423 cuts and shapes the redundant part of the copper sheet. Then, the first pushing cylinder 413 pushes the sliding seat 412 to move towards the direction close to the bearing block 425, so that the first absorbing member 415 extends between the cutting block 423 and the bearing block 425, and the lifting cylinder 414 drives the first absorbing member 415 to absorb the trimmed copper sheet, so that the trimmed copper sheet is moved to the bending assembly 43.

The bending assembly 43 includes a second supporting seat 431, a second sliding portion 432, a pressing block 433, a forming seat 434 and a movable block 435, the second supporting seat 431 is mounted on the bottom plate 12, the second sliding portion 432 is movably mounted on the second supporting seat 431, so that the second sliding portion 432 can reciprocate relative to the second supporting seat 431, in this embodiment, the second sliding portion 432 also reciprocates through a motor and a gear assembly, which is herein the prior art and will not be repeated. The pressing block 433 is connected to the bottom end of the second sliding portion 432, the forming seat 434 is embedded in the bottom end of the second supporting seat 431, and the forming seat 434 is opposite to the pressing block 433. The movable block 435 is movably arranged in the forming seat 434, the movable block 435 is matched with the pressing block 433, in this embodiment, the length of the trimmed copper sheet is smaller than or equal to the length of the movable block 435, the width of the trimmed copper sheet is larger than the width of the movable block 435, and elastic elements such as springs are arranged between the movable block 435 and the forming seat 434. When the second sliding portion 432 moves downward, the pressing block 433 moves synchronously until one side of the pressing block 433 away from the second sliding portion 432 abuts against the movable block 435. After the first adsorption piece 415 moves the trimmed copper sheet to the forming seat 434, the second sliding portion 432 is driven to move downward, so that the pressing block 433 moves synchronously until one side of the pressing block 433 away from the second sliding portion 432 abuts against the copper sheet. Along with the downward movement of the pressing block 433, the pressing block 433 applies an acting force to the copper sheet, so that the movable block 435 moves downward relative to the forming seat 434 to bend two ends of the copper sheet, and the bent copper sheet is in a U-shaped arrangement, so that the soft connection pin is manufactured.

Referring to fig. 12, fig. 12 is a cross-sectional view for showing the blanking mechanism 5 in the embodiment. The blanking mechanism 5 includes a holding frame 51, a receiver 52, and a blanking assembly 53, where the holding frame 51 is vertically installed on the bottom plate 12, so as to be used for holding the flexible connection pins conveyed by the conveying assembly 41. The receiver 52 is adjacent to the table body 11, one end of the blanking component 53 is close to the accommodating frame 51, and the other end of the blanking component 53 is close to the receiver 52. In this embodiment, the material receiver 52 is a stacking type loading and unloading device, in which a tray for placing soft connection pins is stacked, and the material receiver 52 in the prior art can implement loading and unloading functions, in this embodiment, only adopting unloading functions, so as to be used for placing soft connection pins after finishing processing, and the stacking type loading and unloading device is in the prior art, which is not repeated herein.

Wherein, the blanking component 53 includes a carriage 531, a third driving member 532, a sliding plate 533, a second pushing cylinder 534, a connecting plate 535, and a second absorbing member 536, and the carriage 531 is vertically mounted on the bottom plate 12. The third driving member 532 is mounted on the carriage 531, and one side of the sliding plate 533 is connected to the driving end of the third driving member 532, so that the sliding plate 533 can perform a reciprocating linear movement in a direction approaching or separating from the receiver 52. In this embodiment, a gear transmission assembly is disposed between the sliding plate 533 and the third driving member 532, the driving end of the third driving member 532 is connected to one end of the gear transmission assembly, and the sliding plate 533 is connected to the gear transmission assembly, so that the sliding plate 533 can reciprocate linearly relative to the carriage 531. In addition, the third driving member 532 is a servo motor, and an output shaft of the servo motor is connected to the sliding plate 533, and in other embodiments, the third driving member 532 may be another driving member capable of making the sliding plate 533 reciprocate linearly. The second pushing cylinder 534 is mounted on the sliding plate 533, the connecting plate 535 is connected to a piston rod of the second pushing cylinder 534, and the second absorbing member 536 is connected to an end of the connecting plate 535 far away from the second pushing cylinder 534, so that the second absorbing member 536 can reciprocate relative to the connecting plate 535. In this embodiment, the second adsorbing member 536 is two air nozzles, and the two air nozzles are uniformly mounted on the connecting plate 535 for vacuum adsorption of the flexible connection pins. After the flexible connection pins are conveyed to the accommodating frame 51 by the conveying assembly 41, the flexible connection pins are absorbed by the second absorbing member 536, the sliding plate 533 is driven to move towards the direction close to the receiver 52 by the third driving member 532, so that the flexible connection pins move to the receiver 52, and then the second absorbing member 536 is driven to move downwards by the second pushing cylinder 534, so that the flexible connection pins are placed in the tray of the receiver 52.

To sum up, in the trimming and forming device of the present application, during processing, the copper sheet is fed by the feeding conveyor belt 21, the first adsorption portion 253 is driven to move downwards by the first jacking cylinder 252 so as to adsorb the copper sheet, and then the first driving piece 23 drives the movable rod 24 to move linearly, so that the copper sheet is fed onto the positioning jig 35. Next, the copper sheet on the positioning jig 35 is welded by the welding machine 34, the sliding cylinder 263 drives the connecting block 262 to move towards the direction close to the positioning jig 35, and the second lifting cylinder 264 drives the second adsorption part 265 to move downwards, so that the welded copper sheet is adsorbed. And as the movable bar 24 moves, the welded copper sheets are transferred to the carrier block 425. Thereafter, the first sliding portion 422 is driven to move downwards, so that the cutting block 423 moves synchronously until one end of the cutting block 423, which faces the bearing block 425, stretches into the cutting cavity 424, and at this time, the cutting block 423 cuts and shapes the redundant part of the copper sheet. Then, the first pushing cylinder 413 pushes the sliding seat 412 to move towards the direction approaching to the bearing block 425, so that the first absorbing member 415 extends between the cutting block 423 and the bearing block 425, and the lifting cylinder 414 drives the first absorbing member 415 to absorb the trimmed copper sheet, so that the trimmed copper sheet is moved to the forming seat 434. After that, by driving the second sliding portion 432 to move downward, the pressing block 433 moves synchronously until one side of the pressing block 433 away from the second sliding portion 432 abuts against the copper sheet. Along with the downward movement of the pressing block 433, the pressing block 433 applies an acting force to the copper sheet, so that the movable block 435 moves downward relative to the forming seat 434 to bend two ends of the copper sheet, thereby manufacturing the flexible connection pins. Next, the flexible connection pins are transferred to the accommodating frame 51 by the transfer assembly 41 and sucked by the second suction member 536, and then the sliding plate 533 is driven to move toward the receiver 52 by the third driving member 532, and then the second suction member 536 is driven to move downward by the second pushing cylinder 534, thereby placing the flexible connection pins in the receiver 52. Therefore, the labor cost required by processing the flexible connection pins is effectively reduced, time and labor are saved, and the trimming and shaping and bending forming processes are realized in the same equipment, so that the occupied space is reduced.

The foregoing description is only illustrative of the utility model and is not to be construed as limiting the utility model. Various modifications and variations of the present utility model will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, or the like, which is within the spirit and principles of the present utility model, should be included in the scope of the claims of the present utility model.

Claims (10)

1. The utility model provides a side cut former, includes workstation (1), its characterized in that:

the feeding mechanism (2), the welding mechanism (3), the forming mechanism (4) and the discharging mechanism (5) are sequentially arranged on the workbench (1);

the forming mechanism (4) comprises a conveying assembly (41), a trimming assembly (42) and a bending assembly (43), wherein the conveying assembly (41) is movably arranged on the workbench (1), the trimming assembly (42) and the bending assembly (43) are sequentially located on a conveying track of the conveying assembly (41), and the bending assembly (43) is located between the trimming assembly (42) and the blanking mechanism (5).

2. The trimming and shaping apparatus according to claim 1, wherein the conveying assembly (41) comprises a fixed block (411), a sliding seat (412), a first pushing cylinder (413), a lifting cylinder (414) and a first absorbing member (415), the sliding seat (412) is movably connected with the fixed block (411), the first pushing cylinder (413) is arranged on the sliding seat (412), the output end of the first pushing cylinder (413) is connected with the fixed block (411), and the sliding seat (412) can perform reciprocating linear movement relative to the fixed block (411); the lifting cylinder (414) is arranged at one end, close to the trimming assembly (42) or the bending assembly (43), of the sliding seat (412), the first absorption part (415) is connected to the output end of the lifting cylinder (414), and the first absorption part (415) can do reciprocating lifting movement relative to the sliding seat (412).

3. The trimming and shaping apparatus according to claim 1, wherein the trimming assembly (42) comprises a first supporting seat (421), a first sliding portion (422), a cutting block (423), a cutting cavity (424) and a bearing block (425), the first supporting seat (421) is disposed on the workbench (1), the first sliding portion (422) is movably disposed on the first supporting seat (421), the first sliding portion (422) can reciprocate relative to the first supporting seat (421), the cutting block (423) is connected to one end of the first sliding portion (422), the cutting cavity (424) is opened in the first supporting seat (421), the bearing block (425) is disposed in the cutting cavity (424), the bearing block (423) is disposed in cooperation with the cutting block (423), and the cutting block (423) can move until one end of the cutting block (423) extends into the cutting cavity (424) toward the cutting cavity (424).

4. The trimming and shaping apparatus according to claim 1, wherein the bending assembly (43) comprises a second supporting seat (431), a second sliding portion (432), a pressing block (433), a shaping seat (434) and a movable block (435), the second supporting seat (431) is arranged on the workbench (1), the second sliding portion (432) is movably arranged on the second supporting seat (431), the second sliding portion (432) can reciprocate relative to the second supporting seat (431), the pressing block (433) is connected to one end of the second sliding portion (432), the shaping seat (434) is arranged on the second supporting seat (431), the movable block (435) is movably arranged in the shaping seat (434), and the pressing block (433) can move to the side, deviating from the second sliding portion (432), of the pressing block (433) is abutted to the movable block (435).

5. The trimming and shaping apparatus according to claim 1, wherein the feeding mechanism (2) comprises a feeding conveyor belt (21), a carrying frame (22), a first driving member (23), a movable rod (24), a first material taking assembly (25) and a second material taking assembly (26), the feeding conveyor belt (21) is arranged on the workbench (1), one end of the carrying frame (22) is close to the feeding conveyor belt (21), the first driving member (23) is arranged on the carrying frame (22), the movable rod (24) is connected to the driving end of the first driving member (23), the movable rod (24) can reciprocate linearly relative to the carrying frame (22), and the first material taking assembly (25) and the second material taking assembly (26) are respectively arranged at two ends of the movable rod (24).

6. The trimming and shaping apparatus according to claim 5, wherein the first material taking assembly (25) comprises a first mounting plate (251), a first lifting cylinder (252) and a first adsorption portion (253), the first mounting plate (251) is connected to the movable rod (24), the first lifting cylinder (252) is disposed on the first mounting plate (251), the first adsorption portion (253) is connected to an output end of the first lifting cylinder (252), and the first adsorption portion (253) can reciprocate relative to the feeding conveyor belt (21).

7. The trimming and shaping apparatus according to claim 5, wherein the second material taking assembly (26) comprises a second mounting plate (261), a connecting block (262), a sliding cylinder (263), a second jacking cylinder (264) and a second adsorption portion (265), the second mounting plate (261) is connected to the movable rod (24), the connecting block (262) is movably arranged on the second mounting plate (261), the sliding cylinder (263) is arranged on the connecting block (262), an output end of the sliding cylinder (263) is connected to the second mounting plate (261), the connecting block (262) can reciprocate and linearly move towards a direction approaching or departing from the welding mechanism (3), the second jacking cylinder (264) is arranged on the connecting block (262), the second adsorption portion (265) is connected to an output end of the second jacking cylinder (264), and the second adsorption portion (265) can reciprocate and move relative to the connecting block (262).

8. The trimming and shaping apparatus according to claim 5, wherein the welding mechanism (3) comprises a second driving member (31), a screw rod (32), a mounting seat (33), a welding machine (34) and a positioning jig (35), wherein one end of the screw rod (32) is connected to the driving end of the second driving member (31), the mounting seat (33) is in threaded connection with the screw rod (32), the mounting seat (33) can reciprocate linearly relative to the workbench (1), the welding machine (34) is arranged on the mounting seat (33), and the positioning jig (35) is located between the welding machine (34) and the bearing frame (22).

9. The trimming and shaping apparatus according to claim 1, wherein the blanking mechanism (5) comprises a holding frame (51), a receiver (52) and a blanking assembly (53), the holding frame (51) is arranged on the workbench (1), the receiver (52) is arranged adjacent to the workbench (1), one end of the blanking assembly (53) is close to the holding frame (51), and the other end of the blanking assembly (53) is close to the receiver (52).

10. The trimming and shaping apparatus according to claim 9, wherein the blanking assembly (53) comprises a carriage (531), a third driving member (532), a sliding plate (533), a second pushing cylinder (534), a connecting plate (535) and a second absorbing member (536), the third driving member (532) is disposed on the carriage (531), one side of the sliding plate (533) is connected to the driving end of the third driving member (532), the sliding plate (533) can reciprocate linearly in a direction close to or far away from the receiver (52), the second pushing cylinder (534) is disposed on the sliding plate (533), the connecting plate (535) is connected to the output end of the second pushing cylinder (534), the second absorbing member (536) is connected to one end of the connecting plate (535) far away from the second pushing cylinder (534), and the second absorbing member (536) can reciprocate relative to the connecting plate (535).