CN219979353U - Automatic equipment for assembling capacitor and magnetic beads - Google Patents

Abstract

The utility model provides automatic equipment for assembling a capacitor and magnetic beads, which comprises an assembling mechanism and a moving mechanism, wherein the assembling mechanism comprises a mounting device, a cutting device, a dispensing device and a solidifying device, the moving mechanism comprises a mounting frame, a first moving assembly, a second moving assembly and a third moving assembly, and the solidifying device comprises a mounting frame, a UV lamp, a chain, a gear assembly, a clamping jaw and a rotating assembly. According to the automatic equipment for assembling the capacitor and the magnetic beads, the capacitor after the cutting pins are grabbed from the cutting device through the moving mechanism is moved into the mounting device to mount the magnetic beads, the moving mechanism moves the capacitor on the mounting device onto the dispensing device to dispense glue, finally the glue on the capacitor is solidified on the solidifying device, so that a plurality of manual procedures are omitted, only feeding is needed, the situation that the manual assembly is wrong or the assembly is not in place is avoided, meanwhile, the assembly efficiency can be effectively accelerated, the processing productivity is increased, and the processing efficiency is higher.

Description

Automatic equipment for assembling capacitor and magnetic beads

Technical Field

The utility model relates to the technical field of automation equipment, in particular to automation equipment for assembling a capacitor and magnetic beads.

Background

The automatic technology is widely used in the aspects of industry, agriculture, military, scientific research, transportation, business, medical treatment, service, families and the like, and the adoption of the automatic technology can not only liberate people from heavy physical labor, partial mental labor and severe and dangerous working environments, but also can expand the organ functions of the people, greatly improve the labor productivity and enhance the ability of the people to recognize the world and reform the world. In the prior art, when the capacitor and the magnetic beads are assembled, the pins of the capacitor are required to be manually cut, the magnetic beads are worn on the capacitor to be dispensed, and the capacitor and the magnetic beads after being dispensed are placed and cooled, so that the capacitor and the magnetic beads are required to be manually processed through a plurality of working procedures, the capacitor and the magnetic beads are small in size, eyes are easy to fatigue during long-time manual assembly, assembly errors or assembly failure conditions are easy under the condition of fatigue, the assembly efficiency is reduced, the production capacity is reduced, and the processing efficiency is reduced.

It is desirable to provide an automated device for assembling capacitors and magnetic beads to solve the above-mentioned problems.

Disclosure of Invention

The utility model provides automatic equipment for assembling a capacitor and magnetic beads, which solves the problems that in the prior art, when the capacitor and the magnetic beads are assembled, the capacitor is required to be manually cut into pins with overlong length, the magnetic beads are worn on the capacitor, the magnetic beads worn on the capacitor are subjected to dispensing, the dispensed capacitor and magnetic beads are subjected to lamp belt cooling, the capacitor and the magnetic beads are required to be manually processed through a plurality of working procedures, the capacitor and the magnetic beads are small in size, eyes are easy to fatigue during long-time assembly, assembly errors or assembly failure are easy to occur under the condition of fatigue, the assembly efficiency is reduced, the production capacity is reduced, and the processing efficiency is reduced.

In order to solve the technical problems, the technical scheme of the utility model is as follows: an automatic device for assembling a capacitor and magnetic beads comprises an assembling mechanism and a moving mechanism positioned at one side of the assembling mechanism;

the assembly mechanism comprises a mounting device for wearing magnetic beads on capacitor pins, a cutting device positioned at one side of the mounting device and used for cutting the capacitor pins, a dispensing device positioned at the other side of the mounting device and used for dispensing the capacitors and the pins, and a curing device positioned at one side of the dispensing device far away from the mounting device and used for curing the glue;

the moving mechanism comprises a mounting frame, a first moving assembly connected to the mounting frame, and a second moving assembly and a third moving assembly which are respectively positioned at two sides of the first moving assembly, wherein the second moving assembly is used for moving a capacitor on the cutting device to the mounting device, the first moving assembly is used for moving the capacitor on the mounting device to the dispensing device, and the third moving assembly is used for moving the capacitor on the dispensing device to the curing device;

the curing device comprises a mounting frame, a plurality of UV lamps arranged on one side of the mounting frame, a chain arranged in the mounting frame, a gear assembly used for mounting the chain, a plurality of clamping jaws connected to the chain and used for clamping capacitors, and a rotating assembly which is arranged on one side of the mounting frame away from the UV lamps and used for driving the gear assembly to rotate.

In the utility model, the gear assembly comprises a first gear, a second gear, a third gear, a fourth gear and a fifth gear, wherein the first gear and the second gear are positioned below the mounting frame, the third gear is positioned above the first gear, the fourth gear is positioned above the second gear, the fifth gear is positioned between the first gear and the third gear, and the chain is connected to the gear assembly in a concave shape.

In the utility model, the clamping jaw comprises a lower clamping plate connected to the chain, an upper clamping plate rotating on the lower clamping plate, a clamping plate connected to the lower clamping plate and used for clamping or limiting the upper clamping plate, a first torsion spring connected to the upper clamping plate and used for enabling the upper clamping plate to be attached to the lower clamping plate, and a second torsion spring connected to the clamping plate and used for clamping or limiting the upper clamping plate.

In the utility model, the clamping plate is provided with a clamping groove for clamping the upper clamping plate.

In the utility model, the curing device further comprises a closing component for driving the upper clamping plate to clamp the capacitor, and the closing component is positioned at one side of the second gear;

the closing component comprises a support connected to the mounting frame, a push plate connected to the support and one end of which extends to one side of the clamping plate, and a first cylinder connected to the support and used for pushing the push plate to move.

In the utility model, the solidifying device further comprises an unlocking component which is positioned at one side of the first gear and used for driving the upper clamping plate to loosen the capacitor;

the unlocking component comprises a mounting seat connected in the mounting frame, a swing arm connected to the mounting seat and taking the mounting seat as a rotation center, and a second cylinder positioned outside the mounting frame and used for driving the swing arm to swing, and one end of the swing arm extends to the lower part of the upper clamping plate.

In the utility model, one end of the swing arm is provided with a bulge, and the bulge is positioned below the upper clamping plate.

In the utility model, a conveyor belt is arranged below the curing device, and the conveyor belt is positioned below the unlocking component.

In the utility model, the moving mechanism is further provided with a plurality of connecting plates, and the connecting plates are respectively connected to the first moving assembly and the second moving assembly, and the first moving assembly and the third moving assembly.

In the utility model, the dispensing device and the mounting device are both provided with clamping arms.

Compared with the prior art, the utility model has the beneficial effects that: according to the automatic equipment for assembling the capacitor and the magnetic beads, the capacitor on the cutting device is moved to the mounting device to mount the magnetic beads through the second moving component, the capacitor on the mounting device is moved to the dispensing device by the first moving component to dispense glue, the capacitor on the dispensing device is moved to the curing device by the third moving component to solidify the glue, so that a plurality of manual procedures are omitted, only feeding is needed, the situation that manual assembly is wrong or the assembly is not in place is avoided, meanwhile, the assembly efficiency can be effectively accelerated, the processing productivity is increased, and the processing efficiency is higher.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the embodiments are briefly described below, and the drawings in the following description are only drawings corresponding to some embodiments of the present utility model.

Fig. 1 is a perspective view of an automated apparatus for assembling capacitors and magnetic beads of the present utility model.

Fig. 2 is a perspective view of a cutting device of an automated apparatus for assembling capacitors and magnetic beads according to the present utility model.

Fig. 3 is a perspective view of a mounting device of an automated apparatus for assembling capacitors and magnetic beads according to the present utility model.

Fig. 4 is a perspective view of a foot pad device of an automated apparatus for assembling capacitors and magnetic beads according to the present utility model.

Fig. 5 is a perspective view of a mobile device of an automated apparatus for capacitor and magnetic bead assembly of the present utility model.

Fig. 6 is a perspective view of a curing device of an automated apparatus for assembling capacitors and magnetic beads according to the present utility model.

Fig. 7 is a perspective view of a chain of an automated device for capacitor and magnetic bead assembly of the present utility model.

Fig. 8 is a perspective view of the jaws of the automated apparatus for capacitor and magnetic bead assembly of the present utility model.

Fig. 9 is an exploded view of the jaws of the automated apparatus for capacitor and magnetic bead assembly of the present utility model.

Fig. 10 is a perspective view of a closure assembly of an automated device for capacitor and magnetic bead assembly of the present utility model.

Fig. 11 is a perspective view of an unlocking component of an automated device of the present utility model assembled with capacitors and magnetic beads.

Mounting device 11

Cutting device 12

Adhesive dispensing device 13

Curing device 14

Moving mechanism 15

Conveyor 16

Clamping arm 111

First moving assembly 151

Second movement assembly 152

Third moving assembly 153

Connecting plate 154

Mounting rack 155

Mounting frame 141UV lamp 142

Chain 143

Jaw 144 unlocking assembly 145 gear assembly 146 closing assembly 147 rotation assembly 148 first gear 1461 second gear 1462 third gear 1463 fourth gear 1464 fifth gear 1465 lower clamping plate 1441 upper clamping plate 1442 clamping plate 1443

First torsion spring 1444

Second torsion spring 1445 card slot 14431

Support 1471

First cylinder 1472 push plate 1473 mount 1451 swing arm 1452

Second cylinder 1453 protrusion 14521

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, the technical solutions of the embodiments of the present disclosure will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present disclosure. It will be apparent that the described embodiments are some, but not all, of the embodiments of the present disclosure. All other embodiments, which can be made by one of ordinary skill in the art without the need for inventive faculty, are within the scope of the present disclosure, based on the described embodiments of the present disclosure.

Unless defined otherwise, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this disclosure belongs.

The terms "first," "second," and the like in the description and in the claims, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The word "comprising" or "comprises", and the like, is intended to mean that elements or items that are present in front of "comprising" or "comprising" are included in the word "comprising" or "comprising", and equivalents thereof, without excluding other elements or items. The terms "connected" or "connected," and the like, are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", etc. are used merely to indicate relative positional relationships, which may also be changed when the absolute position of the object to be described is changed.

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the prior art, when the capacitor and the magnetic beads are assembled, the pins of the capacitor are required to be manually cut, the magnetic beads are worn on the capacitor to be dispensed, and the capacitor and the magnetic beads after being dispensed are placed and cooled, so that the capacitor and the magnetic beads are required to be manually processed through a plurality of working procedures, the capacitor and the magnetic beads are small in size, eyes are easy to fatigue during long-time manual assembly, assembly errors or assembly failure conditions are easy under the condition of fatigue, the assembly efficiency is reduced, the production capacity is reduced, and the processing efficiency is reduced.

The following is a preferred embodiment of an automated capacitor and magnetic bead assembly device that solves the above-mentioned problems.

Referring to fig. 1, 2, 3, 4, 5 and 6, fig. 1 is a perspective view of an automation device for assembling a capacitor and a magnetic bead according to the present utility model, fig. 2 is a perspective view of a cutting device of the automation device for assembling a capacitor and a magnetic bead according to the present utility model, fig. 3 is a perspective view of a mounting device of the automation device for assembling a capacitor and a magnetic bead according to the present utility model, fig. 4 is a perspective view of a foot pad device of the automation device for assembling a capacitor and a magnetic bead according to the present utility model, fig. 5 is a perspective view of a moving device of the automation device for assembling a capacitor and a magnetic bead according to the present utility model, and fig. 6 is a perspective view of a curing device of the automation device for assembling a capacitor and a magnetic bead according to the present utility model.

In the drawings, like structural elements are denoted by like reference numerals.

The words "first," "second," and the like in the terminology of the present utility model are used for descriptive purposes only and are not to be construed as indicating or implying relative importance and not as limiting the order of precedence.

The utility model provides an automatic device for assembling a capacitor and magnetic beads, which comprises an assembling mechanism and a moving mechanism 15 positioned at one side of the assembling mechanism, wherein the assembling mechanism comprises a mounting device 11 for wearing the magnetic beads on capacitor pins, a cutting device 12 positioned at one side of the mounting device 11 and used for cutting the capacitor pins, a dispensing device 13 positioned at the other side of the mounting device 11 and used for dispensing the capacitor and the pins, and a curing device 14 positioned at one side of the dispensing device 13 away from the mounting device 11 and used for curing glue, the moving mechanism 15 comprises a mounting frame 155, a first moving component 151 connected to the mounting frame 155, a second moving component 152 and a third moving component 153 respectively positioned at two sides of the first moving component 151, the second moving component 152 is used for moving the capacitor on the cutting device 12 to the mounting device 11, the first moving component 151 is used for moving the capacitor on the mounting device 11 to the dispensing device 13, the third moving component 153 is used for moving the capacitor on the dispensing device 13 to the curing device 14, the curing device 14 comprises a mounting frame 141, a plurality of UV lamps 142 positioned at one side of the mounting frame 141, a plurality of gears 142 positioned in the mounting frame 141, a plurality of gears 146 and a plurality of chains 146 positioned at one side of the mounting frame 146 and a plurality of chains 148 positioned at the other side of the chains 148 and used for driving the chains and the chains 148 positioned away from the chains 144.

When assembling electric capacity and magnetic bead, at first, install electric capacity on cutting device 12, cutting device 12 cuts the unnecessary pin of electric capacity, the electric capacity pin cuts the back, second movable component 152 centre gripping electric capacity and remove electric capacity to installation device 11 and reset, installation device 11 wears the magnetic bead on the pin of electric capacity, further, the back is worn on the pin of electric capacity to the magnetic bead, first movable component 151 centre gripping dresses the electric capacity of back magnetic bead and remove to the dispensing device 13 after and reset, dispensing device 13 carries out the point to electric capacity and magnetic bead, after the point is glued and is accomplished, the electric capacity after the third movable component 153 centre gripping point is glued is removed to the clamping jaw 144 on the solidification device 14, clamping jaw 144 centre gripping fixed electric capacity, further, rotating assembly 148 rotates and drives gear assembly 146 and rotate, because chain 143 is connected on gear assembly 146, when rotating assembly 148 drives gear assembly 146 and rotates, further, gear assembly 146 drives chain 143 and rotates on gear assembly 146, when chain 143 rotates, because a plurality of UV lamp 142 installs on one side of installing at the lamp 142 and can not assemble the efficiency when the Ultraviolet (UV) lamp 141, can not assemble the condition that the manual work is high-efficient, can be avoided simultaneously, the manual work and the assembly efficiency can be improved, the assembly efficiency can be improved.

Referring to fig. 7, fig. 7 is a perspective view of a chain of an automatic device for assembling capacitors and magnetic beads according to the present utility model, the gear assembly 146 includes a first gear 1461, a second gear 1462, a third gear 1463, a fourth gear 1464, and a fifth gear 1465, the first gear 1461 and the second gear 1462 are located below the mounting frame 141, the third gear 1463 is located above the first gear 1461, the fourth gear 1464 is located above the second gear 1462, the fifth gear 1465 is located between the first gear 1461 and the third gear 1463, the chain 143 is concavely connected to the gear assembly 146, the length of the chain 143 is prolonged, the irradiation time of the UV lamp 142 to the capacitor is longer, and the glue on the capacitor is solidified more firmly.

Referring to fig. 8 and 9, fig. 8 is a perspective view of a clamping jaw of an automation device for assembling a capacitor and a magnetic bead according to the present utility model, fig. 9 is an exploded view of a clamping jaw of an automation device for assembling a capacitor and a magnetic bead according to the present utility model, wherein the clamping jaw 144 includes a lower clamping plate 1441 connected to a chain 143, an upper clamping plate 1442 pivoted on the lower clamping plate 1441, a clamping plate 1443 connected to the lower clamping plate 1441 for clamping or limiting the upper clamping plate 1442, a first torsion spring 1444 connected to the upper clamping plate 1442 and used for the upper clamping plate 1442 to engage with the lower clamping plate 1441, and a second torsion spring 1445 connected to the clamping plate 1443 for clamping or limiting the upper clamping plate 1442, wherein the upper clamping plate 1442 and the lower clamping plate 1441 are used for clamping the capacitor, and the first torsion spring is used for pressing the upper clamping plate 1442 so as to enable the upper clamping plate 1442 and the lower clamping plate 1441 to clamp the capacitor, when the capacitor is clamped, the clamping plate 1443 is used for limiting the upper clamping plate 1442, and preventing the upper clamping plate 1442 from being tilted upward, and preventing the upper clamping plate 1442 from engaging with the lower clamping plate 1442.

The clamping plate 1443 is provided with a clamping groove 14431 for clamping the upper clamping plate 1442, and the clamping groove 14431 is used for clamping the upper clamping plate 1442, so that the upper clamping plate 1442 is prevented from being separated from the clamping plate 1443 when the clamping plate 1442 is clamped.

Referring to fig. 10, fig. 10 is a perspective view of a closing assembly of an automation device for assembling a capacitor and magnetic beads according to the present utility model, the curing apparatus 14 further includes a closing assembly 147 for driving an upper clamping plate 1442 to clamp the capacitor, the closing assembly 147 is located at one side of a second gear 1462, the closing assembly 147 includes a bracket 1471 connected to the mounting frame 141, a pushing plate 1473 connected to the bracket 1471 and having one end extending to one side of the clamping plate 1443, and a first cylinder 1472 connected to the bracket 1471 for pushing the pushing plate 1473 to move, the bracket 1471 is used for mounting the first cylinder 1472 and the pushing plate 1473, the first cylinder 1472 is used for pushing the pushing plate 1473 to move in a direction of the clamping plate 1443, so that a clamping groove 14431 of the clamping plate 1443 is far away from the upper clamping plate 1442, and the upper clamping plate 1442 is attached to the upper clamping plate 1442 and the lower clamping plate 1441 by an elastic force of a first torsion spring 1444, so as to clamp the capacitor.

Referring to fig. 11, fig. 11 is a perspective view of an unlocking assembly of an automation device for assembling a capacitor and magnetic beads according to the present utility model, the curing apparatus 14 further includes an unlocking assembly 145 located at one side of a first gear 1461 for driving an upper clamping plate 1442 to release the capacitor, the unlocking assembly 145 includes a mounting seat 1451 connected in the mounting frame 141, a swing arm 1452 connected to the mounting seat 1451 and having the mounting seat 1451 as a rotation center, and a second cylinder 1453 located outside the mounting frame 155 for driving the swing arm 1452 to swing, one end of the swing arm 1452 extends below the upper clamping plate 1442, the mounting seat 1451 is used for mounting the swing arm 1452, the second cylinder 1453 is used for driving a section of the swing arm 1452 to squeeze the upper clamping plate 1442, and the upper clamping plate 1442 is squeezed into a clamping groove 14431 of the clamping jaw 1443, so that the capacitor is released by the swing arm 144.

One end of the swing arm 1452 is provided with a protrusion 14521, the protrusion 14521 is located below the upper clamping plate 1442, and the protrusion 14521 is used for extending the height of the swing arm 1452, so as to facilitate the pressing of the upper clamping plate 1442 into the clamping groove 14431 of the clamping plate 1443.

The conveyer belt 16 is further arranged below the curing device 14, the conveyer belt 16 is arranged below the unlocking component 145, the conveyer belt 16 is used for receiving the capacitor falling from the clamping jaw 144, and the conveyer belt 16 is conveyed to a set position, so that collection is facilitated.

The moving mechanism 15 is further provided with a plurality of connection plates 154, the connection plates 154 are respectively connected to the first moving assembly 151 and the second moving assembly 152, and the first moving assembly 151 and the third moving assembly 153, and the connection plates 154 are used for synchronously moving the first moving assembly 151, the second moving assembly 152, and the third moving assembly 153, so that the cutting device 12, the mounting device 11, the dispensing device 13, and the curing device 14 synchronously operate.

The adhesive dispensing device 13 and the mounting device 11 are respectively provided with a clamping arm 111, and the clamping arms 111 are used for clamping the capacitor, so that the capacitor can be conveniently machined.

Working principle:

the automatic equipment for assembling the capacitor and the magnetic bead comprises an assembling mechanism and a moving mechanism 15 positioned at one side of the assembling mechanism, wherein the assembling mechanism comprises a cutting device 12 for cutting a capacitor pin, a mounting device 11 positioned at one side of the cutting device 12 and used for wearing the magnetic bead on the capacitor, a dispensing assembly 13 positioned at one side of the mounting device 11 and used for dispensing the capacitor and the magnetic bead, a curing device 14 positioned at one side of the dispensing device 13 and used for curing the glue, and a conveyor belt 16 positioned below the curing device 14, the moving mechanism 15 comprises a mounting frame 155, a first moving assembly 151, a second moving assembly 152, a third moving assembly 153 and a plurality of connecting plates 154 positioned on the mounting frame 155, the first moving assembly 151 is positioned between the second moving assembly 152 and the third moving assembly 153, the second moving assembly 152 is used for moving the capacitor on the mounting device 11 to the dispensing device 13, the third moving assembly 153 is used for moving the capacitor on the dispensing device 13 to the curing device 14, and the connecting plates 154 are used for the first moving assembly, the second moving assembly 152, the third moving assembly 152 and the third moving assembly 153 are used for synchronously moving the capacitor on the dispensing device 13, and the moving assemblies 153 and the synchronous mechanism are synchronously assembled.

The adhesive dispensing device 13 and the mounting device 11 are both provided with clamping arms 111, the curing device 14 comprises a mounting frame 141, a plurality of UV lamps 142 positioned on one side of the mounting frame 141, a moving assembly positioned on the other side of the mounting frame 141, a gear assembly 146 positioned in the mounting frame 141, a chain 143 positioned on the gear assembly 146, a plurality of clamping jaws 144 connected on the chain 143, and a closing assembly 147 and an unlocking assembly 145 respectively positioned on two ends below the inside of the mounting frame 141, the gear assembly 146 comprises a first gear 1461 and a second gear 1462 positioned on two ends of the lower part of the mounting frame 141, a third gear 1463 positioned above the first gear 1461, a fourth gear 1464 positioned above the second gear 1462, and a fifth gear 1465 positioned between the first gear 1461 and the third gear 1463, the chain 143 is concavely connected on the gear assembly 146, the chain 144 comprises a lower clamping plate 1441 connected on the chain 143, an upper clamping plate 1442 rotated on the lower clamping plate 1441, a first connecting plate 1443 connected on one side of the lower clamping plate 1441 and a second connecting plate 1443 rotated on the lower clamping plate 1443, and a first connecting plate 1443 connected on the upper clamping plate 1443 is provided with a torsion spring 1443, and a connecting plate 1443 is arranged in the torsion plate 1443.

The closing assembly 147 is located at one side of the second gear 1462, the closing assembly 147 comprises a bracket 1471 connected to the mounting frame 141, a first cylinder 1472 connected to the bracket 1471, and a push plate 1473 connected to the first cylinder 1472, the push plate 1473 is located at one side of the clamping plate 1443, the unlocking assembly 145 is located at one side of the first gear 1461, the unlocking assembly 145 comprises a mounting seat 1451 connected to the mounting frame 141, a swing arm 1452 swinging on the mounting seat 1451, and a second cylinder 1453 for driving the swing arm 1452 to swing, a protrusion 14521 is arranged on the swing arm 1452, and the protrusion 14521 is located below the upper clamping plate 1442.

When the capacitor and the magnetic bead are to be assembled, firstly, the magnetic bead is placed in the mounting device 11, the capacitor is placed in the cutting device 12, the cutting device 12 cuts the pins of the capacitor, after the pins of the capacitor are cut, the second moving component 152 clamps the capacitor on the cutting device 12 and moves to the mounting device 11, the mounting device 11 wears the magnetic bead on the pins of the capacitor, further, the first moving component 151 moves the capacitor with the magnetic bead worn into the dispensing device 13, meanwhile, due to the effect of the connecting plate 154, the second moving component 152 moves the capacitor with the cut pin into the mounting device 11, further, the dispensing device 13 dispenses the capacitor and the magnetic bead, after the dispensing of the capacitor and the magnetic bead is completed, the third moving component 153 moves the capacitor into the clamping jaw 144, and meanwhile, the first moving component 141 moves the magnetic bead worn into the dispensing device 13.

When a capacitor is positioned in a clamping jaw 144, a first air cylinder 1472 drives a push plate 1473 to move towards a clamping plate 1443, the push plate 1473 extrudes the clamping plate 1443, the clamping plate 1443 rotates below the clamping plate 1441 as a center, a clamping groove 14431 of the clamping plate 1443 is far away from an upper clamping plate 1442, the upper clamping plate 1442 moves towards the lower clamping plate 1441 through a first torsion spring 1444, the upper clamping plate 1442 is not easy to separate from the lower clamping plate 1441 through the elasticity of the first torsion spring 1444, so that the capacitor is fixed in the clamping jaw 144, a rotating assembly 148 drives a gear assembly 146 to rotate, a chain 143 is driven to move in a concave shape, glue on the capacitor is solidified through a plurality of UV lamps 142, magnetic beads are not easy to separate from the capacitor, further, when the capacitor is positioned on an unlocking assembly 145, a second air cylinder 1453 drives a swing arm 1452, a bulge 14521 extrudes the upper clamping plate 1442, the upper clamping plate 1442 is clamped in the clamping groove 31 of the clamping plate 1443, the clamping plate 1443 is easy to separate from the clamping plate 1445 through the elasticity of the second torsion spring 1443, the clamping plate 1445 is not easy to separate from the clamping plate 1442, the capacitor is not easy to separate from the capacitor through the upper clamping plate 1442, the capacitor is not easy to separate from the capacitor is easy to separate from the capacitor, and the capacitor is not easy to be separated from the capacitor through the capacitor, the capacitor is easy to separate from the capacitor, and the capacitor is easy to be separated from the capacitor, the capacitor is easy to be manufactured.

The automatic equipment of electric capacity and magnetic bead equipment of this preferred embodiment removes the electric capacity on the cutting device through the second movable assembly and installs the magnetic bead on to installation device, and first movable assembly removes the electric capacity on the installation device to the point on gluing the device and carries out the point and glue, and the third movable assembly removes the electric capacity on the point gluing the device and carries out glue solidification on the solidification equipment, has saved artificial multichannel process, only need the material loading can, avoided artifical equipment mistake or the condition of equipment not putting in place, can effectually accelerate the efficiency of equipment simultaneously, the productivity of increase processing, the efficiency of processing is higher.

In summary, although the present utility model has been described in terms of the preferred embodiments, the preferred embodiments are not limited to the above embodiments, and various modifications and changes can be made by one skilled in the art without departing from the spirit and scope of the utility model, and the scope of the utility model is defined by the appended claims.

Claims (10)

1. An automatic device for assembling a capacitor and magnetic beads is characterized by comprising an assembling mechanism and a moving mechanism positioned at one side of the assembling mechanism;

the assembly mechanism comprises a mounting device for wearing magnetic beads on capacitor pins, a cutting device positioned at one side of the mounting device and used for cutting the capacitor pins, a dispensing device positioned at the other side of the mounting device and used for dispensing the capacitors and the pins, and a curing device positioned at one side of the dispensing device far away from the mounting device and used for curing the glue;

the moving mechanism comprises a mounting frame, a first moving assembly connected to the mounting frame, and a second moving assembly and a third moving assembly which are respectively positioned at two sides of the first moving assembly, wherein the second moving assembly is used for moving a capacitor on the cutting device to the mounting device, the first moving assembly is used for moving the capacitor on the mounting device to the dispensing device, and the third moving assembly is used for moving the capacitor on the dispensing device to the curing device;

the curing device comprises a mounting frame, a plurality of UV lamps arranged on one side of the mounting frame, a chain arranged in the mounting frame, a gear assembly used for mounting the chain, a plurality of clamping jaws connected to the chain and used for clamping capacitors, and a rotating assembly which is arranged on one side of the mounting frame away from the UV lamps and used for driving the gear assembly to rotate.

2. The automated capacitor and magnetic bead assembly device of claim 1, wherein the gear assembly comprises a first gear, a second gear, a third gear, a fourth gear, and a fifth gear, the first gear and the second gear being positioned below the mounting frame, the third gear being positioned above the first gear, the fourth gear being positioned above the second gear, the fifth gear being positioned between the first gear and the third gear, the chain being concavely coupled to the gear assembly.

3. The automated capacitor and bead assembly device of claim 2, wherein the clamping jaw comprises a lower clamping plate connected to the chain, an upper clamping plate rotated on the lower clamping plate, a clamping plate connected to the lower clamping plate for clamping or limiting the upper clamping plate, a first torsion spring connected to the upper clamping plate and used for the upper clamping plate to fit the lower clamping plate, and a second torsion spring connected to the clamping plate and used for the clamping plate to clamp or limit the upper clamping plate.

4. The automated capacitor and magnetic bead assembly device of claim 3, wherein the clamping plate is provided with a clamping groove for clamping the upper clamping plate.

5. The automated capacitor and bead assembly apparatus of claim 4, wherein the curing device further comprises a closure assembly for driving the upper clamping plate to clamp the capacitor, the closure assembly being located on one side of the second gear;

the closing component comprises a support connected to the mounting frame, a push plate connected to the support and one end of which extends to one side of the clamping plate, and a first cylinder connected to the support and used for pushing the push plate to move.

6. The automated capacitor and bead assembly apparatus of claim 3, wherein the curing device further comprises an unlocking assembly on one side of the first gear for driving the upper clamping plate to loosen the capacitor;

the unlocking component comprises a mounting seat connected in the mounting frame, a swing arm connected to the mounting seat and taking the mounting seat as a rotation center, and a second cylinder positioned outside the mounting frame and used for driving the swing arm to swing, and one end of the swing arm extends to the lower part of the upper clamping plate.

7. The automated capacitor and bead assembly device of claim 6, wherein one end of the swing arm is provided with a protrusion, the protrusion being located below the upper clamping plate.

8. The automated capacitive and magnetic bead assembly apparatus of claim 6, wherein a conveyor belt is further provided below the curing device, the conveyor belt being located below the unlocking assembly.

9. The automated capacitive and magnetic bead assembly apparatus of claim 1, wherein the movement mechanism is further provided with a plurality of connection plates connected to the first and second movement assemblies, the first and third movement assemblies, respectively.

10. The automated capacitor and bead assembly apparatus of claim 1, wherein the dispensing device and the mounting device are each provided with a clamping arm.