CN115376841A - Automatic capacitor stacking equipment and stacking method thereof - Google Patents

Abstract

An automatic capacitor stacking device and a stacking method thereof comprise a turnover jig, a first capacitor chip feeding mechanism, a glue dispensing mechanism, a second capacitor chip feeding mechanism, a conveying mechanism and a control mechanism. The turnover jig comprises a jig body, a stacking groove which extends downwards from the top of the jig body and is used for stacking the capacitor chip, and a fixing mechanism which is arranged in the jig body and is used for fixing the capacitor chip. The control mechanism comprises a display mechanism and a power distribution control cabinet. During the use, the turnover tool will remove along with conveying mechanism, pass through first capacitor chip feed mechanism, point gum machine structure, second capacitor chip feed mechanism in proper order, then through control mechanism, at the automatic in-process that piles up of electric capacity, adjust the parameter of each mechanism, guarantee the automatic smooth going on that piles up work flow, convenient operation realizes that the automation of electric capacity piles up, and this process need not artifical the participation, has reduced the cost of labor of enterprise, improves the efficiency that piles up.

Description

Automatic capacitor stacking equipment and stacking method thereof

Technical Field

The invention belongs to the field of capacitors and mainly relates to automatic capacitor stacking equipment and a turnover jig thereof.

Background

Along with the quick continuous development of scientific and technological, fields such as power, industry, car, war industry and space flight and aviation are to small-size, the large capacity, high-power capacitor's demand is increasing day by day, and traditional single chip ceramic capacitor is to accomplish the large capacity, a bottleneck has been reached on design and the equipment, be difficult to realize the breakthrough of technique in the short term, can not satisfy the demand of current stage market to the large capacity, consequently, need through the mode of many ceramic capacitor parallel assembly, in order to realize the demand of condenser large capacity, at present, only rely on the manual mode of piling up of manpower, there are many drawbacks: firstly, the positioning precision is low, and the stacked products are often skewed; secondly, the consistency of the product is poor, and different workers, technical levels and techniques are different, so that the consistency of the product is difficult to maintain; thirdly, the efficiency is low, the labor cost is high, the market demand for large-capacity ceramic capacitors is multiplied, more labor must be invested by enterprises, the labor cost is inevitably increased, and the manual stacking efficiency is low.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides automatic capacitor stacking equipment and a stacking method thereof, wherein the automatic capacitor stacking equipment has high production efficiency, high product precision and convenience in operation.

The invention adopts the following technical scheme:

an automatic capacitor stacking device is characterized in that a capacitor comprises a first capacitor chip and a second capacitor chip which are stacked up and down, and an adhesive arranged between the first capacitor chip and the second capacitor chip, and comprises a turnover jig, a first capacitor chip feeding mechanism, an adhesive dispensing mechanism, a second capacitor chip feeding mechanism, a conveying mechanism and a control mechanism;

the turnover jig is used for stacking the first capacitor chip and the second capacitor chip and comprises a jig body, a stacking groove which extends downwards from the top of the jig body and is used for stacking the capacitor chips and a fixing mechanism which is arranged in the jig body and is used for fixing the capacitor chips;

the first capacitor chip feeding mechanism is used for stacking the first capacitor chip on the turnover jig;

the glue dispensing mechanism is used for coating glue on the top of the first capacitor chip;

the second capacitor chip feeding mechanism is used for stacking the second capacitor chip on the first capacitor chip;

the conveying mechanism is used for conveying the turnover jig to pass through the first capacitor chip feeding mechanism, the glue dispensing mechanism and the second capacitor chip feeding mechanism in sequence;

and the control system is respectively connected with the first capacitor chip feeding mechanism, the glue dispensing mechanism, the second capacitor chip feeding mechanism and the conveying mechanism so as to respectively control the mechanisms to work.

Furthermore, the fixing mechanism comprises a first magnet and a second magnet which are arranged in the jig body and positioned on two adjacent contact surfaces of the stacking groove.

Further, the jig body is formed with a first mounting hole for mounting the first magnet and a second mounting hole for mounting the second magnet.

Further, the first magnet is located at the bottom of the stacking groove, and the second magnet is located on the side wall of the stacking groove.

Furthermore, first electric capacity chip feed mechanism is including being used for placing first electric capacity chip's first feed dish, being located the first picker that is used for pressing from both sides the first electric capacity chip of transport mechanism top, connecting and controlling first picker and moving about first motor and connecting and controlling the second motor that first picker reciprocated.

Furthermore, the dispensing mechanism comprises a dispensing cylinder positioned above the conveying mechanism and used for gluing, a vacuum dispenser used for controlling the glue outlet amount, an air pipe connected between the dispensing cylinder and the vacuum dispenser, a third motor connected with and controlling the dispensing cylinder to move left and right, and a fourth motor connected with and controlling the dispensing cylinder to move up and down.

Furthermore, the second capacitor chip feeding mechanism comprises a second feeding disc for placing a second capacitor chip, a second picking device located above the conveying mechanism and used for clamping the second capacitor chip, a fifth motor connected with and controlling the second picking device to move left and right, and a sixth motor connected with and controlling the second picking device to move up and down.

Furthermore, control mechanism includes display mechanism and distribution control cabinet, display mechanism includes liquid crystal display.

Further, still including setting up the tool feed mechanism in first electric capacity chip feed mechanism the place ahead, tool feed mechanism is including the tool feed dish that is used for depositing a plurality of turnover tools.

Further, still including setting up being used for retrieving at second electric capacity chip feed mechanism rear the recovery dish of turnover tool.

A capacitor stacking method of the automatic capacitor stacking device comprises the following steps:

placing the turnover jig into a conveying mechanism, after the turnover jig is started, conveying the turnover jig forwards to the position below a first capacitor chip feeding mechanism by the conveying mechanism, and placing the first capacitor chip in a stacking groove by the first capacitor chip feeding mechanism;

then, the conveying mechanism continues to work, the turnover jig and the first capacitor chip on the turnover jig are conveyed to the position below the glue dispensing mechanism, and the glue dispensing mechanism is used for coating glue on the top of the first capacitor chip;

then, the conveying mechanism continues to convey forwards, the turnover jig is conveyed to the position below the second capacitor chip feeding mechanism, and the second capacitor chip feeding mechanism stacks the second capacitor chip on the top of the first capacitor chip;

and finally, carrying out adhesive curing on the stacked finished product through reflow soldering at the temperature of 150 ℃, and curing to obtain the finished capacitor product.

As can be seen from the above description of the present invention, compared with the prior art, the beneficial effects of the present invention are: through the technical scheme, when the turnover jig is used, the turnover jig moves along with the conveying mechanism, sequentially passes through the first capacitor chip feeding mechanism, the glue dispensing mechanism, the second capacitor chip feeding mechanism and the recovery disc, and realizes automatic stacking of capacitors through the control system, so that manual participation is not needed in the process, the labor cost of enterprises is reduced, and the stacking efficiency is improved;

the stacking groove with the fixing mechanism arranged on the turnover jig can fix the position of the capacitor chip in the automatic capacitor stacking process, so that the stacked product is prevented from being skewed, and the product precision is improved;

through the control mechanism, the parameters of each mechanism can be adjusted in the automatic stacking process of the capacitors, so that the smooth operation of the automatic stacking working process is ensured, and the operation is convenient;

by utilizing the technical scheme of the invention, the stacking efficiency can be improved to a great extent, the labor cost is reduced, and the defects of the traditional capacitor stacking are overcome; the stacked capacitor finished products cannot be skewed by arranging the stacking grooves of the fixing mechanism on the turnover jig, so that the precision of the products is ensured; the parameters of each mechanism can be adjusted through the control mechanism, the automatic stacking working process is guaranteed to be smoothly carried out, and the operation is convenient.

Drawings

FIG. 1 is a schematic structural diagram of an automatic stacking apparatus for capacitors;

fig. 2 is a schematic structural diagram of a turnover jig of an automatic capacitor stacking device;

in the figure: 1-turnover jig, 11-first capacitor chip, 12-second capacitor chip, 13-jig body, 14-stacking groove, 15-fixing mechanism, 16-first magnet, 17-second magnet, 18-first mounting hole, 19-second mounting hole, 2-first capacitor chip feeding mechanism, 21-first feeding tray, 22-first picker, 23-first motor, 24-second motor, 3-glue dispensing mechanism, 31-glue dispensing cylinder, 32-vacuum glue dispenser, 33-air pipe, 34-third motor, 35-fourth motor, 4-second capacitor chip feeding mechanism, 41-second feeding tray, 42-second picker, 43-fifth motor, 44-sixth motor, 5-conveying mechanism, 51-conveying belt, 52-driving motor, 6-control mechanism, power distribution 61-display mechanism, 62-liquid crystal display screen, 63-liquid crystal display screen, 7-jig feeding mechanism, 71-jig feeding tray, 8-recovery tray.

Detailed Description

The invention is further described below by means of specific embodiments.

This embodiment provides an automatic equipment that piles up of electric capacity, including turnover tool 1, first electric capacity chip feed mechanism 2, point gum machine construct 3, second electric capacity chip feed mechanism 4, conveying mechanism 5, control mechanism 6, tool feed mechanism 7 to and retrieve the dish.

The turnover jig 1 is made of a metal material and used for stacking a first capacitor chip 11 and a second capacitor chip 12, and comprises a jig body 13, a stacking groove 14 which extends downwards from the top of the jig body 13 and is used for stacking the capacitor chips, and a fixing mechanism 15 which is arranged in the jig body 13 and is used for fixing the capacitor chips; specifically, the fixing mechanism 15 includes a first magnet 16 and a second magnet 17 disposed on two adjacent contact surfaces of the stacking groove 14 in the jig body 13, and further, the jig body 13 is formed with a first mounting hole 18 for mounting the first magnet 16 and a second mounting hole 19 for mounting the second magnet; further, the first magnet 16 is positioned at the bottom of the stacking groove 14, and the second magnet 17 is positioned on the side wall of the stacking groove 14; during the use, when first capacitor chip 11 piles up when turnover tool 1, through first magnet 16 and second magnet 17, can fix first capacitor chip 11 at turnover tool 1, avoid first capacitor chip 11 skew to appear in the operation process, guarantee that the finished product after the pile does not have crooked condition to take place.

The first capacitor chip feeding mechanism 2 is used for stacking the first capacitor chip 11 on the turnover jig 1 and comprises a first feeding disc 21 for placing the first capacitor chip 11, a first picker 22 located above the conveying mechanism 5 and used for clamping the first capacitor chip 11, a first motor 23 connected with and controlling the first picker to move left and right, and a second motor 24 connected with and controlling the first picker 22 to move up and down; specifically, the first motor 23 and the second motor 24 can both drive the first pickup 22 to move left and right or up and down through the screw-nut pair, and the structure that the motor and the screw-nut pair are matched to drive the component to move is a structure commonly used in the mechanical field, and the connection mode and the working principle are not further described.

The dispensing mechanism 3 is used for coating the top of the first capacitor chip 11 with glue, and comprises a dispensing cylinder 31 which is positioned above the conveying mechanism 5 and used for coating glue, a vacuum glue dispenser 32 used for controlling glue discharging amount, an air pipe 33 connected between the dispensing cylinder 31 and the vacuum glue dispenser 32, a third motor 34 which is connected with and used for controlling the dispensing cylinder 31 to move left and right, and a fourth motor 35 which is connected with and used for controlling the dispensing cylinder 31 to move up and down; specifically, the third motor 34 and the fourth motor 35 can both drive the dispensing cylinder 31 to move left and right or up and down through the screw-nut pair, and the structure that the motor and the screw-nut pair are matched to drive the component to move is a mechanism commonly used in the mechanical field, and the connection mode and the working principle are not further described.

The second capacitor chip feeding mechanism 4 comprises a second feeding disc 41 for placing the second capacitor chip 12, a second picker 42 positioned above the conveying mechanism 5 for clamping the second capacitor chip 12, a fifth motor 43 connected with and controlling the second picker 42 to move left and right, and a sixth motor 44 connected with and controlling the second picker 42 to move up and down; specifically, the fifth motor 43 and the sixth motor 44 can both drive the second pickup device to move left and right or up and down through the screw-nut pair, and the structure that the motor and the screw-nut pair are matched to drive the component to move is a structure commonly used in the mechanical field, and the specific connection mode and the working principle are not further described here.

And the conveying mechanism 5 is used for conveying the turnover jig 1 to sequentially pass through the first capacitor chip feeding mechanism 2, the glue dispensing mechanism 3 and the second capacitor chip feeding mechanism 4 and comprises a conveying belt 51 and a driving motor 52 for driving the conveying belt to run.

The control mechanism 6 is respectively connected with the first capacitor chip feeding mechanism 2, the glue dispensing mechanism 3, the second capacitor chip feeding mechanism 4 and the conveying mechanism 5 so as to respectively control the work of each mechanism, and comprises a display mechanism 61 and a power distribution control cabinet 62; specifically, the display mechanism 61 includes a liquid crystal display screen 63 for adjusting parameters of each mechanism, so that the working process of automatic stacking of the capacitors is smoothly performed, and the operation is convenient.

Tool feed mechanism 7 sets up in first electric capacity chip feed mechanism 2 the place ahead, and is specific, tool feed mechanism 7 is including being used for depositing a plurality of tool feed trays 71 of turnover tool 1.

And the recycling disc 8 is arranged behind the second capacitor chip feeding mechanism 4 and used for recycling the turnover jig 1.

A stacking method of an automatic capacitor stacking device is provided, which comprises the following steps:

placing the turnover jig 1 into the conveying mechanism 5, after the turnover jig 1 is started, conveying the turnover jig 1 forward by the conveying mechanism 6 to the position below the first capacitor chip feeding mechanism 2, controlling a first picker 22 to pick up the first capacitor chip 11 from a first feeding disc 21 by matching of a first motor 23 and a second motor 24, placing the first capacitor chip 11 in the stacking groove 14, and fixing the first capacitor chip 11 in the stacking groove 14 under the action of a first magnet 16 and a second magnet 17;

then, the conveying mechanism 5 continues to work, the turnover jig 1 and the first capacitor chip 11 on the turnover jig 1 are conveyed to the lower part of the dispensing mechanism 3, and the third motor 34 and the fourth motor 35 are matched to control the dispensing cylinder 31 to coat the adhesive on the top of the first capacitor chip 11;

subsequently, the conveying mechanism 5 continues to convey forwards, the turnover jig 1 is conveyed to the position below the second capacitor chip feeding mechanism 3, the fifth motor 43 and the sixth motor 44 cooperate to control the second picker 42 to pick up the second capacitor chip 12 from the second feeding disc 41, the second capacitor chip 12 is stacked on the top of the first capacitor chip 11, and the second capacitor chip 11 is fixed in the stacking groove 14 under the action of the adhesive, the first magnet 16 and the second magnet 17;

and finally, continuously conveying the conveying mechanism 5 to the recycling tray 8 forwards, taking out the stacked finished product, conveying the turnover jig 1 into the recycling tray 8, performing adhesive curing on the stacked finished product through reflow soldering at the temperature of 150 ℃, and curing to obtain the finished capacitor.

In summary, with the adoption of the technical scheme, a complete production line for automatically stacking capacitors can be realized through the turnover jig 1, the first capacitor chip feeding mechanism 2, the glue dispensing mechanism 3, the second capacitor chip feeding mechanism 4, the conveying mechanism 5, the control mechanism 6 and the recovery disc 8, and the production line does not need manual participation, so that the labor cost of an enterprise is reduced, and the stacking efficiency is improved; in addition, the stacking groove 14 provided with the fixing mechanism 15 on the turnover jig 1 can fix the position of the first capacitor chip 11 in the automatic capacitor stacking process, so that the stacked product is prevented from being inclined, and the product precision is improved; in addition, in the stacking process, parameters of all mechanisms can be controlled through the control mechanism 6, when the production line has problems, the production line can be manually adjusted, the production line is ensured to be smoothly carried out, and the operation is convenient.

The above description is only a preferred embodiment of the present invention, and therefore should not be taken as limiting the scope of the invention, and the equivalent variations and modifications made in the claims and the description of the present invention should be included in the scope of the present invention.

Claims (10)

1. The utility model provides an automatic equipment that piles up of electric capacity, electric capacity is including the first piece of electric capacity chip and the second piece electric capacity chip that pile up from top to bottom and set up the viscose between first piece of electric capacity chip and second piece electric capacity chip, its characterized in that: the device comprises a turnover jig, a first capacitor chip feeding mechanism, a glue dispensing mechanism, a second capacitor chip feeding mechanism, a conveying mechanism and a control mechanism;

the turnover jig is used for stacking the first capacitor chip and the second capacitor chip and comprises a jig body, a stacking groove which extends downwards from the top of the jig body and is used for stacking the capacitor chips, and a fixing mechanism which is arranged in the jig body and is used for fixing the capacitor chips;

the first capacitor chip feeding mechanism is used for stacking the first capacitor chip on the turnover jig;

the glue dispensing mechanism is used for coating glue on the top of the first capacitor chip;

the second capacitor chip feeding mechanism is used for stacking the second capacitor chip on the first capacitor chip;

the conveying mechanism is used for conveying the turnover jig to pass through the first capacitor chip feeding mechanism, the glue dispensing mechanism and the second capacitor chip feeding mechanism in sequence;

and the control mechanism is respectively connected with the first capacitor chip feeding mechanism, the glue dispensing mechanism, the second capacitor chip feeding mechanism and the conveying mechanism so as to respectively control all parts to work.

2. The automatic stacking device of capacitors as claimed in claim 1, wherein: the fixing mechanism comprises a first magnet and a second magnet which are arranged in the jig body and are positioned on two adjacent contact surfaces of the stacking groove.

3. The automatic stacking device for capacitors as claimed in claim 2, wherein: the jig body is provided with a first mounting hole for mounting a first magnet and a second mounting hole for mounting a second magnet.

4. The automatic stacking device of capacitors as claimed in claim 2, wherein: the first magnet is located at the bottom of the stacking groove, and the second magnet is located on the side wall of the stacking groove.

5. The automatic stacking device for capacitors as claimed in claim 1, wherein: the first capacitor chip feeding mechanism comprises a first feeding disc for placing a first capacitor chip, a first picking device, a first motor and a second motor, wherein the first picking device is located above the conveying mechanism and used for clamping the first capacitor chip, the first motor is connected with and controls the first picking device to move left and right, and the second motor is connected with and controls the first picking device to move up and down.

6. The automatic stacking device for capacitors as claimed in claim 1, wherein: the glue dispensing mechanism comprises a glue dispensing cylinder, a vacuum glue dispenser, an air pipe, a third motor and a fourth motor, wherein the glue dispensing cylinder is located above the conveying mechanism and used for gluing, the vacuum glue dispenser is used for controlling glue discharging amount, the air pipe is connected between the glue dispensing cylinder and the vacuum glue dispenser, the third motor is connected with and controls the glue dispensing cylinder to move left and right, and the fourth motor is connected with and controls the glue dispensing cylinder to move up and down.

7. The automatic stacking device for capacitors as claimed in claim 1, wherein: the second capacitor chip feeding mechanism comprises a second feeding disc for placing a second capacitor chip, a second picking device, a fifth motor and a sixth motor, wherein the second picking device is located above the conveying mechanism and used for clamping the second capacitor chip, the fifth motor is connected with and controls the second picking device to move left and right, and the sixth motor is connected with and controls the second picking device to move up and down.

8. The automatic stacking device of capacitors as claimed in claim 1, wherein: control mechanism includes display mechanism and distribution control cabinet, display mechanism includes liquid crystal display.

9. The automatic stacking device for capacitors as claimed in claim 1, wherein: still including setting up the tool feed mechanism in first electric capacity chip feed mechanism the place ahead, tool feed mechanism is including the tool feed dish that is used for depositing a plurality of turnover tools.

10. A stacking method of the capacitor automatic stacking apparatus according to any one of claims 1 to 9, characterized in that: comprises the following steps:

placing the turnover jig into a conveying mechanism, after the turnover jig is started, conveying the turnover jig forwards to the position below a first capacitor chip feeding mechanism by the conveying mechanism, and placing the first capacitor chip in a stacking groove by the first capacitor chip feeding mechanism;

then, the conveying mechanism continues to work, the turnover jig and the first capacitor chip on the turnover jig are conveyed to the position below the glue dispensing mechanism, and the glue dispensing mechanism is used for coating glue on the top of the first capacitor chip;

then, the conveying mechanism continues to convey forwards, the turnover jig is conveyed to the position below the second capacitor chip feeding mechanism, and the second capacitor chip feeding mechanism stacks the second capacitor chip on the top of the first capacitor chip;

and finally, performing adhesive curing on the stacked finished product through reflow soldering at the temperature of 150 ℃, and curing to obtain the finished capacitor product.

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