CN112103099A

CN112103099A - Electrolytic capacitor sealing machine

Info

Publication number: CN112103099A
Application number: CN202011208759.0A
Authority: CN
Inventors: 张悦
Original assignee: Nanjing Xiangwei Logistics Equipment Manufacturing Co ltd
Current assignee: ANHUI SHUNBANG FINE CHEMICAL Co.,Ltd.
Priority date: 2020-11-03
Filing date: 2020-11-03
Publication date: 2020-12-18
Anticipated expiration: 2040-11-03
Also published as: CN112103099B

Abstract

The invention discloses an electrolytic capacitor sealing machine, which relates to the field of capacitor processing and comprises a turntable mechanism, wherein the bottom end of the turntable mechanism is connected with a power mechanism, one end of the turntable mechanism is provided with a feeding mechanism, a plurality of groups of capacitor shells are filled in the feeding mechanism, and one end of the turntable mechanism, which is far away from the feeding mechanism, is provided with a sliding groove. According to the invention, through the arranged power mechanism and the chute, when the capacitor shell enters the chute, the capacitor shell is tightly attached in the chute, the sucked gas is sent into the gas injection pipe through the output end of the gas pump and is sent into the gas outlet plate through the gas injection pipe, and after the turntable mechanism drives a group of capacitor shells to move to one side of the gas outlet plate, the sprayed gas is sprayed out through the gas holes, so that positive pressure is formed in the chute, the capacitor shells are sprayed out of the chute and enter the chute, and the capacitor shells are discharged into external collection equipment through the chute, so that the problem of low conveying efficiency of the conveying belt is effectively solved.

Description

Electrolytic capacitor sealing machine

Technical Field

The invention relates to the field of capacitor processing, in particular to an electrolytic capacitor sealing machine.

Background

The capacitor is formed by clamping a layer of non-conductive insulating medium between two mutually close conductors, when voltage is applied between two polar plates of the capacitor, the capacitor can store charges, the capacitance of the capacitor is numerically equal to the ratio of the charge quantity on one conductive polar plate to the voltage between the two polar plates, the capacitor plays an important role in circuits such as tuning, bypassing, coupling, filtering and the like, after electrolyte is added into the capacitor, a rubber body is required to seal the capacitor, and a sealing machine is usually adopted to carry out pipeline processing on the capacitor.

When generally sealing the condenser, in can inserting the opening in the condenser with the seal usually, and extrude beam waist to the condenser outer wall through extrusion mechanism, thereby it is fixed to extrude the seal, thereby accomplish the sealing to the condenser, but present beam waist process generally adopts beam waist wheel to extrude condenser outer wall, generally can adopt multiunit electrical apparatus such as motor to drive, the structure is complicated, the availability factor is low, and when filling out the rubber body, injection mechanism can not be fine pours into the rubber body into the condenser, influence production efficiency, and when transporting the condenser, can adopt the conveyer belt transportation usually, inefficiency.

Disclosure of Invention

The invention aims to: in order to solve the problems that a girdling mechanism is too complex, a rubber body cannot be well injected into a capacitor, and conveying efficiency of a conveying belt is low, the sealing machine for the electrolytic capacitor is provided.

In order to achieve the purpose, the invention provides the following technical scheme: an electrolytic capacitor sealing machine comprises a rotary table mechanism, wherein the bottom end of the rotary table mechanism is connected with a power mechanism, one end of the rotary table mechanism is provided with a feeding mechanism, a plurality of groups of capacitor shells are filled in the feeding mechanism, one end of the rotary table mechanism, which is far away from the feeding mechanism, is provided with a chute, one side of the rotary table mechanism is provided with a girdling mechanism, and a capping mechanism is arranged between the feeding mechanism and the girdling mechanism;

the outer wall of the turntable mechanism is provided with a plurality of groups of clamping grooves, the inner wall of each group of clamping grooves is provided with an air hole, the air hole penetrates through the inner wall of the turntable mechanism and extends to the inner side of the turntable mechanism, reflectors are arranged below each group of clamping grooves on the outer wall of the turntable mechanism, and a first motor is arranged at the bottom end of the turntable mechanism;

the power mechanism comprises an air suction plate positioned outside the first motor, an air outlet plate is arranged on one side, close to the sliding groove, of the interior of the air suction plate, an air pump is arranged on one side of the first motor, the input end of the air pump is connected with an air collection box, a plurality of groups of air suction pipes are arranged on the outer wall of the air collection box, each group of air suction pipes penetrate through the inner wall of the air suction plate, the air suction pipes are attached to the inner wall of the turntable mechanism, the output end of the air pump is connected with air jet pipes, the air jet pipes penetrate through the inner wall of the air plate, and the air suction pipes are also attached;

the capping mechanism is characterized in that a second motor is installed at the bottom end of the capping mechanism, a support frame is arranged above the output end of the second motor, the output end of the second motor is located below the support frame and provided with a connecting disc, the outer wall of the connecting disc is connected with a moving disc, a multi-component separation bin is arranged on the outer wall of the moving disc, a feeding port is arranged right above the separation bin inside the support frame and is filled with multiple groups of rubber bodies, a fixing frame is installed on the outer wall of the second motor and located right below the separation bin, and a groove is formed in the inner wall of the fixing frame located right below a pressing cylinder.

Preferably, the outer wall of the turntable mechanism is provided with a plurality of groups of rollers, the turntable mechanism is connected with the bottom end of the capacitor shell in a sliding manner through the rollers, and the turntable mechanism is connected with the capacitor shell in a clamping manner through the clamping groove.

Preferably, a slide rail is arranged inside the feeding mechanism, the capacitor shells move to the upper part of the turntable mechanism through the slide rail, and each group of capacitor shells are sequentially arranged in the feeding mechanism from top to bottom.

Preferably, the joint of the air suction pipe and the inner wall of the rotary table mechanism is provided with an air groove, the air suction pipe is communicated with a plurality of groups of air holes through the air groove, the joint of the air injection pipe and the inner wall of the rotary table mechanism is also provided with an air groove, and the air injection pipe is also communicated with the air holes through the air groove.

Preferably, the second motor drives the connecting disc to rotate through an output end, and the rubber body is connected with the moving disc in a clamping mode through the separation bin.

Preferably, the cylinder is installed to the top that beam waist mechanism's top is located carousel mechanism, the output of cylinder is connected with solid fixed ring, gu fixed ring's outer wall has seted up the inserted bar, the outer wall of inserted bar has seted up the multiunit electrode slice, gu fixed ring's inner wall has seted up the multiunit stator, every group the outer wall of stator has all cup jointed the copper circle, gu fixed ring's internally mounted has the rotation lantern ring, the outer wall that rotates the lantern ring is located the inboard of stator and has all seted up multiunit magnet rotor, the outer wall that rotates the lantern ring has seted up the conduction circle, the inner wall that rotates the lantern ring has seted up the multiunit screwed pipe, and every group the inside of screwed pipe all installs the tucking, beam waist mechanism's outer wall has seted up the slot, the conducting strip has been seted up to.

Preferably, the magnet rotor is communicated with a group of electrode plates through a lead, the transmission ring is communicated with the electrode plates through a group of lead, and the rotating lantern ring is rotatably connected with the fixing ring through the transmission ring.

Preferably, the outer wall of the pressing needle is sleeved with a tree adhesive tape, and the pressing needle is fixedly connected with the inner wall of the fixing ring through the tree adhesive tape.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention moves a capacitor shell added with a rubber body to a position below a waist binding mechanism through the arranged waist binding mechanism and the turntable mechanism, at the moment, the turntable mechanism drives a reflector to reach one side of an infrared inductor, the infrared inductor receives a signal and transmits the signal to an external electric control device, the electric control device controls a power supply of an air cylinder, an output end of the air cylinder drives a fixing ring to move downwards, an inserting rod is inserted into an inserting groove, an electrode plate is communicated with an external power supply to supply power to the fixing ring, current is transmitted into a conducting ring through a group of connecting wires and transmits electric energy into a threaded pipe through the conducting ring, the threaded pipe generates magnetic force to push a pressing pin, the pressing pin extrudes the outer wall of the capacitor shell, the current is transmitted into a copper turn through another group of connecting wires, the copper turn generates variable magnetism, and the magnet rotor is pushed to drive a rotating lantern ring to rotate, the lantern ring is rotated to drive the plurality of groups of pressing pins to rotate, so that the pressing pins are used for extruding the outer wall of the capacitor shell to form a waist bundling ring, the capacitor shell is processed, excessive motors are not needed for driving, the use efficiency is improved, and the problem that a waist bundling mechanism is too complex is effectively solved;

2. through the arranged capping mechanism, the feeding mechanism and the turntable, firstly, a plurality of groups of capacitor shells are added into the feeding mechanism, the first motor is started, the output end of the first motor drives the turntable mechanism to rotate, the turntable mechanism drives a group of clamping grooves to move to the lower part of the feeding mechanism, a group of capacitor shells enter the clamping grooves, the turntable mechanism rotates to drive the capacitor shells to leave the feeding mechanism and move to the lower part of the capping mechanism, at the moment, a plurality of groups of rubber bodies are added into the feeding port, the second motor is started, the output end of the second motor drives the movable plate to rotate, the movable plate drives the separation bin at the outer side to rotate, the feeding port is positioned above the separation bin, the rubber bodies sequentially fall into the separation bin, the separation bin drives the rubber bodies to rotate in the fixed frame until the rubber bodies move to the upper part of the groove, at the moment, the pressing cylinder is started, and the rubber bodies are pressed, then, the turntable mechanism continues to drive the capacitor shells added with the rubber bodies to move to a position below the waist binding mechanism, so that a group of capacitor shells are assembled, and then a plurality of groups of capacitor shells are sequentially assembled and processed, so that the capacitor shells can be effectively processed, and the problem that the rubber bodies cannot be well injected into the capacitor is effectively solved;

3. through the power unit that sets up, carousel mechanism and spout, when the electric capacity shell enters into the draw-in groove, start the air pump, the input of air pump takes out the gas in the breathing pipe, breathing pipe and suction plate are fixed, and suction plate aligns with the gas pocket that carousel mechanism inner wall was seted up, thereby take out the air from the gas pocket, make the draw-in groove form the negative pressure, adsorb the electric capacity shell, make the electric capacity shell closely laminate in the draw-in groove, and the inspiratory gas sends into the jet-propelled pipe through the output of air pump in, and send into the air outlet plate through the jet-propelled pipe in, after carousel mechanism drives a set of electric capacity shell and removes to air outlet plate one side, spun gas spouts through the gas pocket, thereby make the draw-in groove form the malleation, thereby in the electric capacity shell blowout draw-in groove and entering the spout, discharge the electric capacity shell to the external collection equipment through the spout, accomplish the transportation, effectively solve the problem that conveyer belt conveying efficiency is low.

Drawings

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

FIG. 2 is a schematic view of a slide rail structure according to the present invention;

FIG. 3 is a schematic view of the roller mounting structure of the present invention;

FIG. 4 is a schematic cross-sectional view of the capping mechanism of the present invention;

FIG. 5 is a schematic view of a movable plate according to the present invention;

FIG. 6 is a schematic view of the installation structure of the corset mechanism of the present invention;

FIG. 7 is a schematic view of the internal structure of the retaining ring of the present invention;

FIG. 8 is a schematic view of the installation structure of the insert rod of the present invention;

FIG. 9 is a schematic view of a mounting structure of the presser pin of the present invention;

FIG. 10 is a schematic view of the internal structure of the power mechanism according to the present invention;

FIG. 11 is a schematic view of the air pump mounting structure of the present invention;

fig. 12 is a schematic view of the supporting frame of the present invention.

In the figure: 1. a turntable mechanism; 101. a card slot; 102. a roller; 103. air holes; 104. a reflector; 105. a first motor; 2. a power mechanism; 201. a gas suction plate; 202. an air outlet plate; 203. an air intake duct; 204. a gas ejector tube; 205. a gas collection box; 206. an air pump; 3. a feeding mechanism; 301. a slide rail; 4. a capping mechanism; 401. a support frame; 402. a second motor; 403. a connecting disc; 404. a movable tray; 405. separating the bins; 406. a fixed mount; 407. grooving; 408. a feed port; 409. pressing a cylinder; 5. a waist-binding mechanism; 501. a cylinder; 502. a fixing ring; 503. inserting a rod; 504. a slot; 505. rotating the lantern ring; 506. an electrode sheet; 507. copper turns; 508. a magnet rotor; 509. a stator; 510. a threaded pipe; 511. pressing the needle; 512. a conductive ring; 513. an infrared sensor; 6. a chute; 7. a capacitor case; 8. a rubber body.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-12, an electrolytic capacitor sealing machine includes a turntable mechanism 1, a power mechanism 2 is connected to the bottom end of the turntable mechanism 1, a feeding mechanism 3 is installed at one end of the turntable mechanism 1, a plurality of groups of capacitor cases 7 are filled in the feeding mechanism 3, a chute 6 is opened at one end of the turntable mechanism 1 far from the feeding mechanism 3, a waist restraining mechanism 5 is installed at one side of the turntable mechanism 1, and a capping mechanism 4 is installed between the feeding mechanism 3 and the waist restraining mechanism 5;

the outer wall of the turntable mechanism 1 is provided with a plurality of groups of clamping grooves 101, the inner wall of each group of clamping grooves 101 is provided with an air hole 103, the air hole 103 penetrates through the inner wall of the turntable mechanism 1 and extends to the inner side of the turntable mechanism 1, the outer wall of the turntable mechanism 1 is positioned below each group of clamping grooves 101 and is provided with a reflector 104, and the bottom end of the turntable mechanism 1 is provided with a first motor 105;

the power mechanism 2 comprises an air suction plate 201 positioned outside the first motor 105, an air outlet plate 202 is arranged on one side, close to the sliding chute 6, inside the air suction plate 201, an air pump 206 is arranged on one side of the first motor 105, the input end of the air pump 206 is connected with an air collection box 205, a plurality of groups of air suction pipes 203 are arranged on the outer wall of the air collection box 205, each group of air suction pipes 203 all penetrate through the inner wall of the air suction plate 201, the air suction pipes 203 are attached to the inner wall of the turntable mechanism 1, the output end of the air pump 206 is connected with an air jet pipe 204, the air jet pipe 204 penetrates through the inner wall of the air outlet plate;

the second motor 402 is installed to the bottom of capping mechanism 4, the output top of second motor 402 is provided with support frame 401, connection pad 403 has been seted up to the output of second motor 402 below that is located support frame 401, the outer wall of connection pad 403 is connected with removes dish 404, multicomponent compartment 405 has been seted up to the outer wall of removing dish 404, feeding port 408 has been seted up to the inside of support frame 401 directly over being located compartment 405, feeding port 408 is inside to be filled with multiunit rubber body 8, mount 406 is installed to the outer wall of second motor 402, and mount 406 is located under the compartment 405, the inner wall of mount 406 is located and has seted up fluting 407 under the pressure jar 409.

Please refer to fig. 1 and fig. 3, the outer wall of the turntable mechanism 1 is provided with a plurality of sets of rollers 102, the turntable mechanism 1 is slidably connected to the bottom end of the capacitor case 7 through the rollers 102, the turntable mechanism 1 is connected to the capacitor case 7 through the card slot 101 in a clamping manner, and the rollers 102 can effectively reduce friction generated by the turntable mechanism 1 to the capacitor case 7 which does not enter the card slot 101 during rotation, thereby prolonging the service life of the capacitor case 7.

Please refer to fig. 2, the inside of the feeding mechanism 3 is provided with a slide rail 301, the capacitor cases 7 move to the upper side of the turntable mechanism 1 through the slide rail 301, and each group of capacitor cases 7 are sequentially arranged from top to bottom in the feeding mechanism 3.

Please refer to fig. 10, an air groove is formed at the joint of the air suction pipe 203 and the inner wall of the turntable mechanism 1, the air suction pipe 203 is communicated with the plurality of air holes 103 through the air groove, an air groove is also formed at the joint of the air jet pipe 204 and the inner wall of the turntable mechanism 1, the air jet pipe 204 is also communicated with the air holes 103 through the air groove, and the outer wall of each air groove is provided with a rubber sleeve, which can seal the air suction plate 201 and the air outlet plate 202, thereby improving the air suction and exhaust efficiency.

Please refer to fig. 5, the second motor 402 drives the connection disc 403 to rotate through the output end, and the rubber body 8 is connected with the moving disc 404 through the separation chamber 405 in a clamping manner, so as to move the rubber body 8, and the rubber body 8 is sequentially installed.

Referring to fig. 4-8, the top end of the waist-binding mechanism 5 is disposed above the turntable mechanism 1 and is provided with an air cylinder 501, the output end of the air cylinder 501 is connected with a fixing ring 502, the outer wall of the fixing ring 502 is provided with an insertion rod 503, the outer wall of the insertion rod 503 is provided with a plurality of sets of electrode plates 506, the inner wall of the fixing ring 502 is provided with a plurality of sets of stators 509, the outer wall of each set of stators 509 is sleeved with a copper turn 507, the fixing ring 502 is internally provided with a rotating lantern ring 505, the outer wall of the rotating lantern ring 505 is disposed at the inner side of the stators 509 and is provided with a plurality of sets of magnet rotors 508, the outer wall of, and the inside of each group of threaded pipes 510 is provided with a pressing pin 511, the outer wall of the girdling mechanism 5 is provided with a slot 504, the inner wall of the slot 504 is provided with a conducting strip which is communicated with an external power supply, and an infrared inductor 513 is arranged below the slot 504.

Referring to fig. 6 and 8, the magnet rotor 508 is connected to a set of electrode plates 506 through a lead, the conductive ring 512 is connected to the electrode plates 506 through a set of lead, and the rotating collar 505 is rotatably connected to the fixing ring 502 through the conductive ring 512.

Please refer to fig. 6 and 8, the outer wall of the needle pressing 511 is sleeved with a tree tape, and the needle pressing 511 is fixedly connected to the inner wall of the fixing ring 502 through the tree tape, so as to prevent the needle pressing 511 from being separated from the rotating collar 505 when the needle pressing 511 is not in use.

The working principle is as follows: when sealing is carried out, firstly, a plurality of groups of capacitor shells 7 are added into the feeding mechanism 3, the first motor 105 is started, the output end of the first motor 105 drives the turntable mechanism 1 to rotate, the turntable mechanism 1 drives a group of clamping grooves 101 to move to the position below the feeding mechanism 3, under the action of gravity, a group of capacitor shells 7 enter the clamping grooves 101, the turntable mechanism 1 rotates to drive the capacitor shells 7 to leave the feeding mechanism 3 and move to the position below the capping mechanism 4, the bottom ends of a second group of capacitor shells 7 fall on the outer wall of the turntable mechanism 1, the second group of capacitor shells 7 slide on the turntable mechanism 1 through the rollers 102 until the second group of clamping grooves 101 reach the position below the capacitor shells 7, so that the capacitor shells 7 can be effectively prevented from being worn, then, a plurality of groups of rubber bodies 8 are added into the material feeding port 408, the second motor 402 is started, the output end of the second motor 402 drives the movable disc 404 to rotate, the movable disc 404 drives the outer separation, the feeding port 408 is located above the separating bin 405, the rubber body 8 sequentially falls into the separating bin 405, the separating bin 405 drives the rubber body 8 to rotate in the fixing frame 406 until the rubber body 8 moves above the slot 407, at this time, the pressing cylinder 409 is started, the output end of the pressing cylinder 409 presses the rubber body 8 into the capacitor shell 7 to complete sealing of the capacitor shell 7, the pressing cylinder 409 returns to the original position, the turntable mechanism 1 is started to continuously drive the capacitor shell 7 with the rubber body 8 added to move to a position below the girdling mechanism 5 to complete assembly of a group of capacitor shells 7, and then, multiple groups of capacitor shells 7 are sequentially assembled and processed, so that the capacitor shells 7 can be effectively processed;

when the capacitor shell 7 enters the clamping groove 101, starting the air pump 206, pumping air in the air suction pipe 203 out by the input end of the air pump 206, fixing the air suction pipe 203 with the air suction plate 201, aligning the air suction plate 201 with the air hole 103 formed in the inner wall of the turntable mechanism 1, pumping air out of the air hole 103, forming negative pressure in the clamping groove 101, adsorbing the capacitor shell 7, enabling the capacitor shell 7 to be tightly attached to the clamping groove 101, and enabling the capacitor shell 7 not to be separated from the clamping groove 101 when moving;

when the capacitor shell 7 needs to be sealed, the capacitor shell 7 added with the rubber body 8 is moved to a position below the waist-binding mechanism 5 through the turntable mechanism 1, at the moment, the turntable mechanism 1 drives the reflector 104 to reach one side of the infrared inductor 513, the infrared inductor 513 is arranged on the reflector 104 and is reflected by the reflector 104 to be on the infrared inductor 513, the infrared inductor 513 sensing signals transmits the signals to external electric control equipment, the electric control equipment controls the power supply of the air cylinder 501, the output end of the air cylinder 501 drives the fixing ring 502 to move downwards, the fixing ring 502 drives the insertion rod 503 to be inserted into the insertion slot 504, the electrode sheet 506 is connected with a live sheet on the insertion slot 504, the electrode sheet 506 is connected with the external power supply to supply power to the fixing ring 502, current is transmitted into the conduction ring 512 through a group of connecting wires and is transmitted into the threaded pipe 510 through the conduction ring 512, the threaded pipe 510 generates magnetic force to push the press pin 511, the pressing pins 511 are used for extruding the outer wall of the capacitor shell 7, current is transmitted into the copper turns 507 through another group of connecting wires, the copper turns 507 generate variable magnetism, the magnet rotor 508 is pushed, the magnet rotor 508 drives the rotating lantern ring 505 to rotate, the rotating lantern ring 505 drives the plurality of groups of pressing pins 511 to rotate, the pressing pins 511 are used for extruding the outer wall of the capacitor shell 7 to form a beam waist ring, the capacitor shell 7 is machined, then power supply to the electrode plates 506 is cut off, the rotating lantern ring 505 stops rotating, the air cylinder 501 is started, the rotating lantern ring 505 is separated from the capacitor shell 7, excessive motors are not needed for driving, and the use efficiency is improved;

after the waist is ended to electric capacity shell 7, carousel mechanism 1 continues to drive draw-in groove 101 and electric capacity shell 7 and rotates and remove to 6 one sides of spout, gas pocket 103 in the draw-in groove 101 removes to giving vent to anger in the board 202 from the board 201 of breathing in, the inspiratory gas of air pump 206 is sent into in the jet-propelled pipe 204 through the output, and send into through jet-propelled pipe 204 in giving vent to anger the board 202, the spun gas passes through gas pocket 103 blowout, thereby make the interior malleation that forms of draw-in groove 101, thereby electric capacity shell 7 blowout draw-in groove 101 that will finish processing and enter into spout 6 in, discharge electric capacity shell 7 through spout 6 in the collection equipment in the external world, accomplish the transportation to electric capacity shell 7, and improve the transport.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides an electrolytic capacitor capper, includes carousel mechanism (1), its characterized in that: the bottom end of the rotary table mechanism (1) is connected with a power mechanism (2), one end of the rotary table mechanism (1) is provided with a feeding mechanism (3), a plurality of groups of capacitor shells (7) are filled in the feeding mechanism (3), one end of the rotary table mechanism (1) far away from the feeding mechanism (3) is provided with a chute (6), one side of the rotary table mechanism (1) is provided with a girdling mechanism (5), and a covering mechanism (4) is arranged between the feeding mechanism (3) and the girdling mechanism (5);

the outer wall of the turntable mechanism (1) is provided with a plurality of groups of clamping grooves (101), the inner wall of each group of clamping grooves (101) is provided with an air hole (103), the air hole (103) penetrates through the inner wall of the turntable mechanism (1) and extends to the inner side of the turntable mechanism (1), the outer wall of the turntable mechanism (1) is positioned below each group of clamping grooves (101) and is provided with a reflector (104), and the bottom end of the turntable mechanism (1) is provided with a first motor (105);

the power mechanism (2) comprises an air suction plate (201) located on the outer side of a first motor (105), the air outlet plate (202) is installed on one side, close to a sliding groove (6), of the interior of the air suction plate (201), an air pump (206) is installed on one side of the first motor (105), the input end of the air pump (206) is connected with an air collection box (205), a plurality of groups of air suction pipes (203) are arranged on the outer wall of the air collection box (205), each group of air suction pipes (203) penetrate through the inner wall of the air suction plate (201), the air suction pipes (203) are attached to the inner wall of the turntable mechanism (1), the output end of the air pump (206) is connected with an air injection pipe (204), the air injection pipes (204) penetrate through the inner wall of the air suction plate (202), and the air suction pipes (203) are also attached to the;

a second motor (402) is arranged at the bottom end of the capping mechanism (4), a support frame (401) is arranged above the output end of the second motor (402), the end part of the supporting frame (401) is connected with a pressing cylinder (409), the output end of the second motor (402) is positioned below the supporting frame (401) and is provided with a connecting disc (403), the outer wall of the connecting disc (403) is connected with a movable disc (404), the outer wall of the movable disc (404) is provided with a multi-component compartment (405), a feeding port (408) is arranged in the support frame (401) and is positioned right above the separation bin (405), a plurality of groups of rubber bodies (8) are filled in the feeding port (408), a fixing frame (406) is arranged on the outer wall of the second motor (402), and the fixed frame (406) is positioned under the separation bin (405), and the inner wall of the fixed frame (406) is positioned under the pressing cylinder (409) and is provided with a slot (407).

2. The electrolytic capacitor capper of claim 1 further comprising: the outer wall of the turntable mechanism (1) is provided with a plurality of groups of rollers (102), the turntable mechanism (1) is connected with the bottom end of the capacitor shell (7) in a sliding mode through the rollers (102), and the turntable mechanism (1) is connected with the capacitor shell (7) in a clamping mode through a clamping groove (101).

3. The electrolytic capacitor capper of claim 1 further comprising: slide rail (301) have been seted up to the inside of feed mechanism (3), electric capacity shell (7) are passed through slide rail (301) and are removed to the top of carousel mechanism (1), and every group electric capacity shell (7) are arranged according to the order from the top down in feed mechanism (3).

4. The electrolytic capacitor capper of claim 1 further comprising: the air suction pipe is characterized in that an air groove is formed in the joint of the air suction pipe (203) and the inner wall of the rotary table mechanism (1), the air suction pipe (203) is communicated with a plurality of groups of air holes (103) through the air groove, an air groove is also formed in the joint of the air injection pipe (204) and the inner wall of the rotary table mechanism (1), and the air injection pipe (204) is also communicated with the air holes (103) through the air groove.

5. The electrolytic capacitor capper of claim 1 further comprising: the second motor (402) drives the connecting disc (403) to rotate through an output end, and the rubber body (8) is connected with the moving disc (404) in a clamping mode through the separation bin (405).

6. The electrolytic capacitor capper of claim 1 further comprising: the top end of the waist binding mechanism (5) is positioned above the turntable mechanism (1) and is provided with an air cylinder (501), the output end of the air cylinder (501) is connected with a fixing ring (502), the outer wall of the fixing ring (502) is provided with an inserting rod (503), the outer wall of the inserting rod (503) is provided with a plurality of groups of electrode plates (506), the inner wall of the fixing ring (502) is provided with a plurality of groups of stators (509), the outer wall of each group of stators (509) is sleeved with a copper turn (507), a rotating lantern ring (505) is arranged inside the fixing ring (502), the outer wall of the rotating lantern ring (505) is positioned on the inner side of the stators (509) and is provided with a plurality of groups of magnet rotors (508), the outer wall of the rotating lantern ring (505) is provided with a conducting ring (512), the inner wall of the rotating lantern ring (505) is provided with a plurality of groups of, the outer wall of the girdling mechanism (5) is provided with a slot (504), the inner wall of the slot (504) is provided with a conducting strip which is communicated with an external power supply, and an infrared inductor (513) is arranged below the slot (504).

7. The electrolytic capacitor capper of claim 1 further comprising: the magnet rotor (508) is communicated with a group of electrode plates (506) through a lead, the transmission ring (512) is communicated with the electrode plates (506) through a group of lead, and the rotating lantern ring (505) is rotationally connected with the fixed ring (502) through the transmission ring (512).

8. The electrolytic capacitor capper of claim 1 further comprising: the outer wall of the pressing needle (511) is sleeved with a tree adhesive tape, and the pressing needle (511) is fixedly connected with the inner wall of the fixing ring (502) through the tree adhesive tape.