CN213700560U - Fuse and capacitor dispensing and assembling integrated equipment - Google Patents

Abstract

The utility model discloses a fuse and capacitor dispensing and assembling integrated equipment, which comprises a cabinet body, a conveying box, a vibrating disk, a direct vibration mechanism, a workbench and a dividing disk, wherein the top of the workbench is fixed with the cabinet body, the top of the workbench is positioned in the cabinet body and is rotatably installed with the dividing disk, one side of the workbench is fixed with the conveying box, the inside of the conveying box is fixedly installed with the vibrating disk, the outlet end of the vibrating disk is fixed with the direct vibration mechanism, the direct vibration mechanism penetrates into the cabinet body, the position of the top of the workbench corresponding to the direct vibration mechanism is provided with an automatic capacitor feeding device capable of transferring capacitors, the fuse and capacitor dispensing and assembling integrated equipment realizes full-automatic continuous action of the automatic capacitor feeding device, the automatic capacitor feeding disk mechanism, the automatic capacitor dispensing device, the UV curing device and the automatic pin cutting device, thereby ensuring the product quality and reducing the labor cost, the production efficiency is improved.

Description

Fuse and capacitor dispensing and assembling integrated equipment

Technical Field

The utility model relates to an electron trade processing equipment technical field, equipment integration equipment is glued to concrete protective tube and electric capacity point.

Background

The protective tube and the capacitor are common electronic circuit components, and under certain conditions, due to the space limitation of a circuit board, in order to save the installation space of the protective tube and the capacitor as much as possible, the protective tube and the capacitor are assembled and then inserted into the circuit board, and in order to ensure the connection stability of the protective tube and the capacitor, the two components are generally required to be subjected to adhesive dispensing connection. In the past production operation, the assembly and the glue dispensing of the protective tube and the capacitor are carried out manually, and after the glue dispensing is finished, the protective tube and the capacitor are required to be manually subjected to unified pin cutting so as to conveniently insert the circuit board.

The gluing is uneven often can appear among the manual production operation process, and the protective tube is participated in length nonconformity, is participated in bad human factors such as deformation with the electric capacity with the condenser, influences protective tube and electric capacity subassembly and inserts the circuit board, and more importantly manual assembly operating efficiency can't satisfy present electronics trade production manufacturing efficiency requirement far away, for this reason, we provide a protective tube and electric capacity point and glue equipment integration equipment.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can realize that an automation equipment that can realize electric capacity automatic feeding, protective tube and electric capacity automatic point and glue, UV glues actions such as solidification, automatic pin cutting replaces manual work to improve production efficiency and product quality.

In order to achieve the above object, the utility model provides a following technical scheme: a fuse and capacitor dispensing and assembling integrated device comprises a cabinet body, a conveying box, a vibration disc, a direct vibration mechanism, a workbench and a dividing disc, wherein the top of the workbench is fixedly provided with the cabinet body, the top of the workbench is positioned in the cabinet body and is rotatably provided with the dividing disc, one side of the workbench is fixedly provided with the conveying box, the interior of the conveying box is fixedly provided with the vibration disc, the outlet end of the vibration disc is fixedly provided with the direct vibration mechanism, the direct vibration mechanism penetrates into the cabinet body, the position of the top of the workbench, corresponding to the direct vibration mechanism, is provided with a capacitor automatic feeding device capable of transferring capacitors, the position of the top of the workbench, corresponding to the capacitor automatic feeding device, is positioned on one side of the dividing disc and is provided with a capacitor material taking upper rotating disc mechanism, the other side of the top of the workbench, positioned on the other side of the dividing disc, is provided, and a material receiving and placing disc device is arranged on one side, away from the automatic dispensing device, of the workbench top index disc.

Preferably, the automatic capacitor feeding device comprises a sliding rail plate, a mounting plate, a material taking cylinder, a material taking gas claw, a first flat gas conveying claw, a second flat gas conveying claw, a third flat gas conveying claw, a leveling cylinder, a conveying platform, a leveling clamping die, a cutter cylinder and a pin cutter, wherein the conveying platform is fixedly mounted at the top of a workbench, the sliding rail plate is fixed at one side of the conveying platform, the mounting plate is connected to the surface of the sliding rail plate in a sliding manner, the material taking cylinder is fixedly mounted on the surface of the mounting plate, the material taking gas claw, the first flat gas conveying claw, the second flat gas conveying claw and the third flat gas conveying claw are fixedly mounted at the bottom of the extending end of the material taking cylinder, close to the direct vibration mechanism, on the surface of the mounting plate, the leveling cylinder is fixedly mounted at the position, close to the direct vibration mechanism, the leveling clamping die is fixed at the extending end of the leveling cylinder, the cutter cylinder is fixedly mounted at the top, the leveling clamping die and the pin cutting knife are both in sliding connection with the conveying table.

Preferably, electric capacity is got and is changeed carousel mechanism and is included pay-off gas claw, revolving cylinder, air cylinder, translation cylinder, movable plate and protective tube electric capacity equipment diaphragm capsule down, the fixed position that the workstation top is close to the mounting panel has the movable plate, and movable plate fixed mounting has the translation cylinder on the surface, translation cylinder extension end is fixed with the air cylinder that pushes down, and pushes down air cylinder extension end and be fixed with revolving cylinder, revolving cylinder bottom rotates and is connected with pay-off gas claw, the graduated disk is fixed with protective tube electric capacity equipment diaphragm capsule equidistantly on the surface, and pay-off gas claw and protective tube electric capacity equipment diaphragm capsule position corresponding.

Preferably, automatic adhesive deposite device includes that mounting bracket, rubber tube, point glue cylinder, point glue translation motor and point glue rifle, the mounting bracket is fixed and is located the graduated disk at the workstation top and keeps away from electric capacity and get material carousel mechanism one side, mounting bracket bottom symmetry sliding connection has two carriages, and the mounting bracket top is installed and is glued translation motor, point glue translation motor output and carriage fixed connection, the inside fixed mounting of carriage has the point glue cylinder, and the point glue cylinder extension end is fixed with some glue guns, the workstation top is located mounting bracket one side and is fixed with the rubber tube, and the rubber tube is linked together through pipeline and point glue gun.

Preferably, receive material balance device and include the mobile platform, receive the magazine, cut foot cylinder, cutter, cut foot pressure flitch, receive material translation motor, cut foot pressure material cylinder, delivery board and blank gas claw, the workstation top is fixed with the mobile platform, and mobile platform top sliding connection has a material receiving box, receive magazine top one side and be fixed with the delivery board, and the delivery board bottom corresponds and receives magazine bottom sliding mounting and have a blank gas claw, delivery board opposite side top fixed mounting has the material translation motor of receiving, receive material translation motor bottom regulation and have cut foot pressure material cylinder, and cut foot pressure material cylinder bottom and be fixed with cut foot pressure flitch, the position that the workstation top corresponds condenser assembling die box is fixed with the cut foot cylinder, and the position that cut foot cylinder extension end corresponds cut foot pressure flitch is fixed with the cutter.

Preferably, the four corners of the bottom of the workbench are symmetrically fixed with friction foot pads, and the bottom of the workbench, which is close to the friction foot pads, is fixedly provided with rollers.

Compared with the prior art, the beneficial effects of the utility model are that:

when the device is used, a square capacitor is placed in a vibrating disc, the capacitor automatically enters a feeding track of a direct vibration mechanism along a material distributing guide rail of the vibrating disc, reaches a discharge port position of a direct vibration device one by one, a material taking gas claw is driven by a material taking cylinder to take the capacitor back to a material receiving clamp of the capacitor from the discharge port position of the direct vibration mechanism, a flat gas claw III is driven by the material taking cylinder to horizontally send the capacitor at a pin cutting position to the material clamp of the capacitor to be taken, the material feeding gas claw moves the capacitor to be taken to be right above a capacitor feeding position at an index plate under the drive of a translation cylinder, the direction of the capacitor is adjusted through the rotation of a rotary cylinder, finally the capacitor is pressed down through a pressing cylinder, the capacitor is sent to a fuse capacitor assembling die box, the capacitor is fed, after the colloid is solidified, a fuse and a capacitor assembling piece enter the pin cutting station along with the rotation of the index plate, a material cutting pressing plate moves downwards under the, the device comprises a material pressing cylinder, a pin cutting cylinder, a cutter, a safety tube and a capacitor, wherein the pin cutting cylinder drives the cutter to cut off redundant lengths of the material pins, the lengths of the safety tube and the capacitor are unified, after the pin cutting is completed, the safety tube and the capacitor assembly enter a material receiving station along with the rotation of a dividing disc, a material receiving gas claw clamps the safety tube and the capacitor assembly, the material receiving gas claw is driven by a material receiving translation motor to translate the safety tube and the capacitor assembly and place the safety tube and the capacitor assembly into a material receiving box, the safety tube is manually taken out of the safety tube material disc, the safety tube is pressed into a designated position of a safety tube capacitor assembly die box, the safety tube and the capacitor are assembled, the safety tube and capacitor are glued and assembled into an integrated device, the automatic capacitor feeding device, the capacitor material taking disc mechanism, the automatic pin gluing device, the UV curing device and the automatic.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the present invention;

fig. 3 is a schematic structural view of the automatic capacitor loading device of the present invention;

fig. 4 is a schematic structural view of the upper turntable mechanism for taking materials by using capacitors according to the present invention;

FIG. 5 is a schematic view of the structure of the automatic dispensing device of the present invention;

fig. 6 is the structure schematic diagram of the material receiving and placing device of the present invention.

In the figure: 1. a cabinet body; 2. a delivery box; 21. a vibrating pan; 22. a direct vibration mechanism; 3. a work table; 31. rubbing the foot pad; 32. a roller; 4. a capacitor automatic feeding device; 41. a slide rail plate; 42. mounting a plate; 43. a material taking cylinder; 44. a material taking gas claw; 45. a first flat gas-feeding claw; 46. a second flat gas-feeding claw; 47. a third flat gas-feeding claw; 48. leveling the cylinder; 49. a conveying table; 410. leveling the clamping die; 411. a cutter cylinder; 412. a pin cutter; 5. a capacitor material taking upper rotary table mechanism; 51. feeding gas claw; 52. a rotary cylinder; 53. pressing down the air cylinder; 54. a translation cylinder; 55. moving the plate; 56. a fuse capacitor assembly mold box; 6. an automatic dispensing device; 61. a mounting frame; 62. a hose; 63. a dispensing cylinder; 64. a glue dispensing translation motor; 65. a glue gun; 7. a UV curing device; 8. a material receiving and placing plate device; 81. a mobile station; 82. a material receiving box; 83. a pin cutting cylinder; 84. a cutter; 85. cutting a foot pressing plate; 86. a material receiving translation motor; 87. a pin cutting and pressing cylinder; 88. a conveying plate; 89. material cutting pneumatic claw; 9. an index plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 and 2, in the figure, an integrated device for dispensing and assembling a fuse and a capacitor comprises a cabinet 1, a conveying box 2, a vibration disk 21, a direct vibration mechanism 22, a workbench 3 and an index plate 9, wherein the cabinet 1 is fixed on the top of the workbench 3, the index plate 9 is rotatably installed on the top of the workbench 3 in the cabinet 1, the conveying box 2 is fixed on one side of the workbench 3, the vibration disk 21 is fixedly installed in the conveying box 2, the direct vibration mechanism 22 is fixed at the outlet end of the vibration disk 21, the direct vibration mechanism 22 penetrates into the cabinet 1, the vibration disk 21 and the direct vibration mechanism 22 both have the same working principle as that of the existing direct vibration conveying disk, after the capacitor loading of the index plate 9 is completed, a fuse capacitor assembling mold 56 rotates along with the index plate 9 to convey a capacitor from a capacitor to a capacitor level from the capacitor, and after an optical fiber sensor detects a capacitor signal, the index plate 9 continues to rotate, and the capacitor is conveyed to the fuse tube feeding station.

The fuse tube is manually taken out of the fuse tube tray and pressed into the specified position of the fuse tube capacitor assembling die box 56, and the fuse tube and the capacitor are assembled.

Referring to fig. 2 and 3, the top of the worktable 3 is provided with an automatic capacitor feeding device 4 capable of transferring capacitors at a position corresponding to the direct vibration mechanism 22, the top of the worktable 3 is provided with an automatic capacitor feeding turntable mechanism 5 at a position corresponding to the automatic capacitor feeding device 4 at one side of the index plate 9 at a position corresponding to the position of the automatic capacitor feeding device 4, the top of the worktable 3 is provided with an automatic adhesive dispensing device 6 at the other side of the index plate 9 at the top of the worktable 3, a UV curing device 7 is fixedly installed at one side of the worktable 3 corresponding to the automatic adhesive dispensing device 6, a material receiving and swinging plate device 8 is arranged at one side of the index plate 9 at the top of the worktable 3 away from the automatic adhesive dispensing device 6, the automatic capacitor feeding device 4 and the automatic capacitor feeding device 5 realize the functions of automatic capacitor feeding and uniform distribution, the high-efficiency adhesive dispensing of capacitors is realized under the function of the automatic adhesive dispensing device 6, after the dispensing of the protective tube and the capacitor is finished, the protective tube and the capacitor enter a colloid curing station along with the rotation of the dividing plate 9, the pressure plate compresses the protective tube and the capacitor under the pushing of the pressure material setting cylinder, and the colloid is cured under the irradiation of the UV curing line light sources at two sides.

Referring to fig. 2 and 3, the automatic capacitor loading device 4 includes a sliding rail plate 41, a mounting plate 42, a material taking cylinder 43, a material taking gas claw 44, a first flat gas feeding claw 45, a second flat gas feeding claw 46, a third flat gas feeding claw 47, a leveling cylinder 48, a conveying table 49, a leveling clamp 410, a cutter cylinder 411 and a pin cutter 412, the conveying table 49 is fixedly mounted on the top of the worktable 3, the sliding rail plate 41 is fixed on one side of the conveying table 49, the mounting plate 42 is slidably connected on the surface of the sliding rail plate 41, the material taking cylinder 43 is fixedly mounted on the surface of the mounting plate 42, the material taking gas claw 44, the first flat gas feeding claw 45, the second flat gas feeding claw 46 and the third flat gas feeding claw 47 are fixedly mounted at the bottom of the extending end of the material taking cylinder 43 near the straight vibrating mechanism 22, the leveling cylinder 48 is fixedly mounted on the conveying table 49 near the straight vibrating mechanism 22, and the leveling clamp 410 is fixed at the extending end of the leveling cylinder 48, a cutter cylinder 411 is fixedly installed on the top of the conveying table 49 far away from the direct vibration mechanism 22, a pin cutter 412 is fixed on the extended end of the cutter cylinder, the leveling clamp die 410 and the pin cutter 412 are both connected with the conveying table 49 in a sliding manner, a square capacitor is placed in the vibration disc 21, the capacitor automatically enters the feeding track of the direct vibration mechanism 22 along the material distributing guide rail of the vibration disc 21 and reaches the discharge hole position of the direct vibration device one by one, the material taking gas claw 44 takes the capacitor back from the discharge hole position of the direct vibration mechanism 22 to the capacitor material receiving clamp under the drive of the material taking cylinder 43, the leveling gas claw I flatly sends the capacitor brought back by the material taking gas claw 44 to the leveling position of the capacitor pin under the drive of the material taking cylinder 43, the leveling clamp die 410 flattens the capacitor pin under the drive of the leveling cylinder 48, the leveling gas claw II flatly sends the capacitor at the leveling position to the pin cutting position of the capacitor pin under the drive of the material taking cylinder 43, and the, the capacitor is cut, the lengths of the capacitor pins are unified, and the third flat gas feeding claw is driven by the material taking cylinder 43 to horizontally feed the capacitor at the position of the cut pin to the capacitor clamp to be taken.

Referring to fig. 2 and 4, the capacitance taking upper turntable mechanism 5 includes a feeding air claw 51, a rotary air cylinder 52, a lower air cylinder 53, a translational air cylinder 54, a moving plate 55 and a fuse capacitor assembly mold box 56, the moving plate 55 is fixed at a position on the top of the worktable 3 close to the mounting plate 42, the translational air cylinder 54 is fixedly installed on the surface of the moving plate 55, the lower air cylinder 53 is fixed at the extension end of the translational air cylinder 54, the rotary air cylinder 52 is fixed at the extension end of the lower air cylinder 53, the feeding air claw 51 is rotatably connected to the bottom of the rotary air cylinder 52, the fuse capacitor assembly mold box 56 is equidistantly fixed on the surface of the index plate 9, the feeding air claw 51 corresponds to the fuse capacitor assembly mold box 56 in position, the feeding air claw 51 moves a capacitor to be taken to a position right above a capacitor loading position on the index plate 9 under the driving of the translational air cylinder 54, and the capacitance direction is adjusted by the rotation of the rotary air, and finally, the capacitor is pressed down through the pressing-down air cylinder 53, the capacitor is sent into the fuse capacitor assembling die box 56, and the capacitor loading is completed.

Referring to fig. 2 and 5, the automatic glue dispensing device 6 includes an installation frame 61, a glue tube 62, a glue dispensing cylinder 63, a glue dispensing translation motor 64, and a glue dispensing gun 65, the installation frame 61 is fixed on the top of the workbench 3 and located on one side of the dividing plate 9 away from the capacitor material taking upper turntable mechanism 5, the bottom of the installation frame 61 is symmetrically and slidably connected with two sliding frames, the glue dispensing translation motor 64 is installed on the top of the installation frame 61, the output end of the glue dispensing translation motor 64 is fixedly connected with the sliding frames, the glue dispensing cylinder 63 is fixedly installed inside the sliding frames, the glue dispensing gun 65 is fixed at the extended end of the glue dispensing cylinder 63, the glue tube 62 is fixed on one side of the installation frame 61 at the top of the workbench 3, the glue tube 62 is communicated with the glue dispensing gun 65 through a pipeline, after the fuse tube and the capacitor are assembled, the fuse tube enters the glue dispensing station after rotating along, the pipeline of the glue gun 65 is conducted, glue begins to be discharged outwards, and meanwhile the glue dispensing driving motor drives the glue gun 65 to translate integrally, so that glue dispensing on the two sides of the protective tube and the two sides of the capacitor is completed simultaneously.

Referring to fig. 2 and 6, the material receiving swing plate device 8 includes a moving platform 81, a material receiving box 82, a pin cutting cylinder 83, a cutter 84, a pin cutting and material pressing plate 85, a material receiving translation motor 86, a pin cutting and material pressing cylinder 87, a conveying plate 88 and a material cutting gas claw 89, the moving platform 81 is fixed on the top of the working platform 3, the material receiving box 82 is connected to the top of the moving platform 81 in a sliding manner, the conveying plate 88 is fixed on one side of the top of the material receiving box 82, the material cutting gas claw 89 is installed on the bottom of the conveying plate 88 in a sliding manner and corresponds to the bottom of the material receiving box 82, the material receiving translation motor 86 is fixed on the top of the other side of the conveying plate 88, the pin cutting and material pressing cylinder 87 is fixed on the bottom of the pin cutting and material pressing cylinder 87, the pin cutting and material pressing plate 85 is fixed on the bottom of the pin cutting and material pressing cylinder 85, the pin cutting cylinder 83 is fixed on the top of the working platform 3 in a position corresponding to the fuse, after the colloid is solidified, the protective tube and the capacitor assembly enter a pin cutting station along with the rotation of the dividing plate 9, a material cutting and pressing plate moves downwards under the driving of a pin cutting and pressing cylinder 87 to compress materials, a pin cutting cylinder 83 drives a cutter 84 to cut off redundant lengths of the materials, the lengths of the protective tube and the capacitor assembly are unified, after the pin cutting is completed, the protective tube and the capacitor assembly enter a material receiving station along with the rotation of the dividing plate 9, a material receiving gas claw clamps the protective tube and the capacitor assembly, and the material receiving gas claw translates the protective tube and the capacitor assembly into a material receiving box 82 under the driving of a material receiving translation motor 86.

Referring to fig. 1, friction pads 31 are symmetrically fixed at four corners of the bottom of the worktable 3, and rollers 32 are fixedly installed at positions of the bottom of the worktable 3 near the friction pads 31, so as to facilitate the overall stability and movement of the device.

In the scheme, when the device is used, a square capacitor is placed in a vibrating disc 21, the capacitor automatically enters a feeding track of a direct vibration mechanism 22 along a material distribution guide rail of the vibrating disc 21 and reaches the discharge holes of a direct vibration device one by one, a material taking gas claw 44 is driven by a material taking cylinder 43 to take the capacitor from the discharge hole of the direct vibration mechanism 22 to a capacitor material receiving clamp, a pin cutting position is driven by the material taking cylinder 43 to be horizontally fed to a capacitor material clamp to be taken, a feeding gas claw 51 is driven by a translation cylinder 54 to move the capacitor to be taken to be right above a capacitor feeding position at an index plate 9, the capacitor direction is rotationally adjusted by a rotation cylinder 52, finally the capacitor is pressed down by a pressing cylinder 53 and is fed into a fuse capacitor assembling die box 56, the capacitor feeding is completed, after the colloid is solidified, a fuse and the capacitor assembly rotate along with the index plate 9 to enter the pin cutting station, a material cutting plate is driven by a pin cutting cylinder 87 to move downwards, the device integrates the fuse tube and the capacitor assembly and comprises an automatic capacitor feeding device 4, an automatic capacitor taking disc mechanism 5, an automatic cutting glue dispensing device 6, a UV curing device 7 and an automatic pin cutting device, wherein the fuse tube and the capacitor assembly are horizontally moved into a material receiving box 82 under the drive of a material receiving translation motor 86, the fuse tube is manually taken out of a fuse tube material disc and pressed into a specified position of a fuse tube capacitor assembly die box 56 to complete the assembly of the fuse tube and the capacitor, the fuse tube and the capacitor glue dispensing and assembling integrated device realizes full-automatic continuous action of the automatic capacitor feeding device 4, the automatic capacitor taking disc mechanism 5, the automatic cutting glue dispensing device 6, the UV curing device 7 and the automatic pin cutting device, thereby ensuring the product quality and reducing the labor cost, the production efficiency is improved.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an equipment integration equipment is glued to protective tube and electric capacity point, includes the cabinet body (1), delivery box (2), vibration dish (21), directly shakes mechanism (22), workstation (3) and graduated disk (9), workstation (3) top is fixed with the cabinet body (1), and workstation (3) top is located cabinet body (1) internal rotation and installs graduated disk (9), workstation (3) one side is fixed with delivery box (2), delivery box (2) internal fixation installs vibration dish (21), and vibration dish (21) exit end is fixed with directly shakes mechanism (22), directly shake mechanism (22) and penetrate inside the cabinet body (1), its characterized in that: the position that workstation (3) top corresponds directly to shake mechanism (22) is equipped with electric capacity automatic feeding device (4) that can transfer electric capacity, and workstation (3) top corresponds electric capacity automatic feeding device (4) position and is located graduated disk (9) one side and is equipped with electric capacity and gets material carousel mechanism (5), and workstation (3) top is located graduated disk (9) opposite side and is equipped with automatic adhesive deposite device (6), workstation (3) top corresponds automatic adhesive deposite device (6) one side fixed mounting has UV solidification equipment (7), one side that automatic adhesive deposite device (6) were kept away from to workstation (3) top graduated disk (9) is equipped with receipts material balance device (8).

2. The fuse and capacitor dispensing and assembling integrated equipment as claimed in claim 1, wherein: the automatic capacitor feeding device (4) comprises a sliding rail plate (41), a mounting plate (42), a material taking cylinder (43), a material taking gas claw (44), a first flat gas conveying claw (45), a second flat gas conveying claw (46), a third flat gas conveying claw (47), a leveling cylinder (48), a conveying platform (49), a leveling clamping die (410), a cutter cylinder (411) and a pin cutter (412), wherein the conveying platform (49) is fixedly mounted at the top of the workbench (3), the sliding rail plate (41) is fixedly arranged on one side of the conveying platform (49), the mounting plate (42) is connected onto the surface of the sliding rail plate (41) in a sliding manner, the material taking cylinder (43) is fixedly mounted on the surface of the mounting plate (42), the material taking gas claw (44), the first flat gas conveying claw (45), the second flat gas conveying claw (46) and the third flat gas conveying claw (47) are fixedly mounted on one side, close to the straight vibration mechanism (22), of the bottom of the extending end of the material taking, carry the position fixed mounting that is close to on platform (49) and directly shakes mechanism (22) to have flattening cylinder (48), and flattening cylinder (48) extension end is fixed with flattening clamp die (410), carry top fixed mounting that platform (49) kept away from and directly shakes mechanism (22) to have cutter cylinder (411), and cut cylinder extension end and be fixed with and participate in cutter (412), flattening clamp die (410) and participate in cutter (412) all with carry platform (49) for sliding connection.

3. The fuse and capacitor dispensing and assembling integrated equipment as claimed in claim 2, wherein: electric capacity is got and is gone up carousel mechanism (5) including pay-off gas claw (51), rotary cylinder (52), air cylinder (53) pushes down, translation cylinder (54), movable plate (55) and fuse electric capacity equipment mould box (56), the position that workstation (3) top is close to mounting panel (42) is fixed with movable plate (55), and movable plate (55) fixed mounting has translation cylinder (54) on the surface, translation cylinder (54) extension end is fixed with air cylinder (53) of pushing down, and pushes down air cylinder (53) extension end and be fixed with rotary cylinder (52), rotary cylinder (52) bottom is rotated and is connected with pay-off gas claw (51), graduated disk (9) are equidistant being fixed with fuse electric capacity equipment mould box (56) on the surface, and pay-off gas claw (51) and fuse electric capacity equipment mould box (56) position corresponding.

4. The fuse and capacitor dispensing and assembling integrated equipment as claimed in claim 1, wherein: automatic adhesive deposite device (6) are including mounting bracket (61), rubber tube (62), point glue cylinder (63), point glue translation motor (64) and some glue gun (65), mounting bracket (61) are fixed and are located graduated disk (9) at workstation (3) top and keep away from electric capacity and get material carousel mechanism (5) one side, mounting bracket (61) bottom symmetry sliding connection has two carriages, and mounting bracket (61) top is installed and is glued translation motor (64), point glue translation motor (64) output and carriage fixed connection, the inside fixed mounting of carriage has point glue cylinder (63), and point glue cylinder (63) extension end is fixed with some glue gun (65), workstation (3) top is located mounting bracket (61) one side and is fixed with rubber tube (62), and rubber tube (62) are linked together through pipeline and some glue gun (65).

5. The fuse and capacitor dispensing and assembling integrated equipment as claimed in claim 3, wherein: the receiving swing disc device (8) comprises a moving platform (81), a receiving box (82), a pin cutting cylinder (83), a cutter (84), a pin cutting pressure plate (85), a receiving translation motor (86), a pin cutting pressure cylinder (87), a conveying plate (88) and a pin cutting air claw (89), wherein the moving platform (81) is fixed at the top of the workbench (3), the receiving box (82) is connected to the top of the moving platform (81) in a sliding manner, the conveying plate (88) is fixed at one side of the top of the receiving box (82), the pin cutting air claw (89) is arranged at the bottom of the conveying plate (88) in a sliding manner corresponding to the bottom of the receiving box (82), a receiving translation motor (86) is fixedly arranged at the top of the other side of the conveying plate (88), the pin cutting pressure cylinder (87) is arranged at the bottom of the translation motor (86), and the pin cutting pressure plate (85) is fixed at the bottom of the pin cutting pressure cylinder (87, a pin cutting cylinder (83) is fixed at the position, corresponding to the fuse capacitor assembling die box (56), of the top of the workbench (3), and a cutter (84) is fixed at the position, corresponding to the pin cutting pressure plate (85), of the extending end of the pin cutting cylinder (83).

6. The fuse and capacitor dispensing and assembling integrated equipment as claimed in claim 1, wherein: workstation (3) bottom four corners department symmetry is fixed with friction callus on the sole (31), and workstation (3) bottom is close to the fixed position of friction callus on the sole (31) and installs gyro wheel (32).

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