CN108962634B

CN108962634B - Clamp for packaging capacitor shell

Info

Publication number: CN108962634B
Application number: CN201810582841.6A
Authority: CN
Inventors: 李海涛; 钱叶球; 邢武装
Original assignee: Wuhu Yilun Electronics Co ltd
Current assignee: Binzhou High Tech High End Equipment Manufacturing Industrial Park Co ltd
Priority date: 2018-06-07
Filing date: 2018-06-07
Publication date: 2020-05-22
Anticipated expiration: 2038-06-07
Also published as: CN108962634A

Abstract

The invention discloses a clamp for packaging a capacitor shell, which comprises an operation rack, wherein a displacement adjusting cylinder is arranged on the operation rack, the displacement adjusting cylinder is connected with a shell inner wall clamping mechanism, a lifting adjusting linear motor is also arranged on the operation rack, the lifting adjusting linear motor is also connected with a shell outer clamping mechanism, the shell inner wall clamping mechanism comprises an L-shaped moving force arm and a power installation section, the tail end of the L-shaped moving force arm is provided with a first position finding probe, the inside of the power installation section is provided with a cross placing plate, the cross placing plate is provided with a linear motor, the linear motor is connected with a clamping telescopic rod, the tail ends of the two clamping telescopic rods are respectively provided with an arc-shaped air suction plate, the arc-shaped air suction plates are provided with air suction holes, the inside air suction through pipes; can fix a position the centre gripping to capacitor case to stability when improving the encapsulation, effectual improvement encapsulation efficiency, and the centre gripping mode is safe, can effectively reduce the damage to capacitor case, improves production quality.

Description

Clamp for packaging capacitor shell

Technical Field

The invention relates to the technical field of capacitor production, in particular to a clamp for packaging a capacitor shell.

Background

With the change of electronic information technology, the update speed of digital electronic products is faster and faster, and the production and sales volume of consumer electronic products such as flat panel televisions (LCDs and PDPs), notebook computers, and digital cameras is continuously increasing, which drives the growth of capacitor industry.

Among various parts of the capacitor, the quality of the housing part directly determines the quality of the capacitor. At present, most of capacitor shells use ABS resin, which is one of five synthetic resins, and the ABS resin has the characteristics of excellent impact resistance, heat resistance, low temperature resistance, chemical resistance and electrical performance, easy processing, stable product size, good surface gloss and the like, is easy to coat and color, and can be subjected to secondary processing such as surface metal spraying, electroplating, welding, hot pressing, bonding and the like.

The alternating current capacitors adopting cylindrical aluminum shells such as CBB60 type and CBB65 type need to finish the rolling groove sealing procedure of the cylindrical aluminum shells in the production process. The method comprises a first rolling groove process for fixing the core assembly, a second rolling groove process for fixing the cover plate, a first groove compression process and a second groove compression process which have explosion-proof requirements, wherein the formed semi-finished product is manually assembled with the core assembly and the cover plate, and then the sealing process is completed to form a finished product.

The clamping tool who uses at present mostly, its centre gripping dynamics is inhomogeneous to unable regulation and control, if the too big cylindrical aluminium matter shell that leads to the condenser takes place to warp, influences the gas tightness of encapsulation, reduces production quality, if the centre gripping dynamics undersize then leads to the cylindrical aluminium matter shell of condenser to take place the displacement when the encapsulation, influences encapsulation efficiency, extension production cycle.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a clamp for packaging a capacitor shell, which can position and clamp the capacitor shell, thereby improving the stability during packaging, effectively improving the packaging efficiency, ensuring safe clamping mode, effectively reducing the damage to the capacitor shell, improving the production quality and effectively solving the problems in the background art.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a clamp for packaging a capacitor shell comprises an operation rack, wherein a displacement adjusting cylinder is arranged on the operation rack and connected with a shell inner wall clamping mechanism, a lifting adjusting linear motor is further arranged on the operation rack and further connected with a shell outer clamping mechanism;

the clamping mechanism for the inner wall of the shell comprises L-shaped moving force arms and a power mounting section arranged between the L-shaped moving force arms, the tail end of the L-shaped power moving arm is provided with a first position measuring probe, the inside of the power mounting section is provided with a cross placing plate through a plurality of mounting threaded holes which are distributed at equal intervals, the cross parts of the cross placing plates are provided with linear motors which are connected with clamping telescopic rods penetrating through the power mounting sections, the adjacent clamping telescopic rods are mutually vertical, the tail ends of the clamping telescopic rods are respectively provided with an arc-shaped air suction plate, the surfaces of the arc-shaped air suction plates, which are contacted with the power installation section, are also provided with a plurality of air suction holes which are uniformly distributed, a communicating cavity is arranged inside the clamping telescopic rod, an air suction through pipe is arranged in the communicating cavity, the air suction through pipe is connected with an air suction pump, and the air suction pumps are all fixedly installed in the L-shaped power moving arm.

As a preferred technical solution of the present invention, the power installation section is also connected to the L-shaped moving arm through a plurality of mounting threaded holes distributed at equal intervals, and an elastic sealing rubber pad is disposed between the L-shaped moving arm and the power installation section.

As a preferred technical solution of the present invention, a moving track is provided on the operating rack, a sliding block is provided in the moving track, the L-shaped moving force arm is fixedly connected to the sliding block, the displacement adjusting cylinder is installed at one end of the moving track, and a telescopic rod of the displacement adjusting cylinder is fixedly connected to the L-shaped moving force arm.

As a preferable technical scheme of the invention, the air suction through pipe is provided with a flared pipe in the arc-shaped air suction plate.

As a preferable technical solution of the present invention, the housing outer clamping mechanism includes a clamping outer cover and a pushing cylinder disposed in the clamping outer cover, a displacement channel is disposed inside the clamping outer cover, a telescopic rod of the pushing cylinder penetrates the displacement channel to be connected to a pushing plate, a clamping jaw assembly is further disposed at a terminal of the clamping outer cover, and a second position measuring probe is also disposed at a terminal of the clamping outer cover.

As a preferable technical scheme of the invention, the clamping jaw assembly comprises two bent clamping pieces, the tail end of the clamping outer cover is further provided with a rotating hinge rod, the two bent clamping pieces are respectively provided with a through hole groove, the bent clamping pieces are arranged on the outer sides of the rotating hinge rods through the through hole grooves, and the bent clamping pieces are respectively arranged together with the pushing plate through the mounting threaded holes.

As a preferred technical scheme, the two bent clamping pieces are internally provided with a buffering protection mechanism, the buffering protection mechanism comprises a plurality of buffering positioning rods which are arranged in the bent clamping pieces at equal intervals, the buffering positioning rods are arranged on the bent clamping pieces through mounting holes, compression springs are further arranged between the buffering positioning rods and the mounting holes, the buffering positioning rods on the same bent clamping piece are connected with clamping arc-shaped plates, and the inner sides of the clamping arc-shaped plates are provided with concave-convex friction pads.

According to a preferable technical scheme of the invention, two ends of the rotary hinge rod are respectively provided with a limit ring plate and an inner hole groove, the inner hole groove is provided with a positioning pin, and the clamping outer cover is provided with a special-shaped inner groove matched with the positioning pin.

As a preferred technical scheme of the invention, the operation rack is provided with a limiting and stabilizing mechanism at the position of the lifting adjusting linear motor, the limiting and stabilizing mechanism comprises two vertical limiting plates, the two vertical limiting plates are both provided with a long limiting groove, the clamping outer cover is directly connected with the lifting adjusting linear motor, and the clamping outer cover is provided with a limiting convex block matched with the long limiting groove.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the clamping mechanism is used for respectively carrying out the encapsulation action on the side surface and two end surfaces of the capacitor shell, and the capacitor shell can be positioned and clamped, so that the stability during encapsulation is improved, the encapsulation efficiency is effectively improved, the clamping mode is safe, the damage to the capacitor shell can be effectively reduced, and the production quality is improved.

Drawings

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

FIG. 2 is a schematic view of the power mounting section mounting structure of the present invention;

FIG. 3 is a schematic view of the internal structure of the power mounting section of the present invention;

FIG. 4 is a schematic view of the air pump mounting structure of the present invention;

FIG. 5 is a schematic structural view of the external clamping mechanism of the housing of the present invention;

FIG. 6 is a schematic view of a gripper assembly according to the present invention;

FIG. 7 is a schematic structural diagram of a buffer protection mechanism according to the present invention;

FIG. 8 is a schematic structural view of a position-limiting stabilizing mechanism of the present invention;

reference numbers in the figures:

1-operating the frame; 2-displacement adjusting cylinder; 3-a shell inner wall clamping mechanism; 4-lifting adjustment linear motor; 5-a housing external clamping mechanism; 6-moving the track; 7-a sliding block; 8-a flare tube; 9-a buffer protection mechanism; 10-a limit ring plate; 11-inner hole groove; 12-a locating pin; 13-a special-shaped inner groove; 14-a limit stabilizing mechanism;

301-L shaped power arm; 302-a power mount section; 303-a first position finding probe; 304-mounting threaded holes; 305-a cross placing plate; 306-a linear motor; 307-clamping the telescopic rod; 308-arc-shaped air suction plate; 309-air exhaust holes; 310-conducting cavities; 311-suction through pipe; 312-a suction pump; 313-elastic sealing rubber pad;

501-clamping the outer cover; 502-push cylinder; 503-shift channels; 504-a push plate; 505-a gripper jaw assembly; 506-a second position-finding probe;

5051-bent clip; 5052-rotating the hinge rod; 5053-passing through the hole slot; .

901-buffering a positioning rod; 902-mounting holes; 903-a compression spring; 904-clamping the arc; 905-concave-convex friction pad;

1401-vertical limiting plate; 1402-a long limiting groove; 1403-limit bump.

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.

As shown in fig. 1, the invention provides a clamp for packaging a capacitor shell, which comprises an operation rack 1, wherein a displacement adjusting cylinder 2 is arranged on the operation rack 1, the displacement adjusting cylinder 2 is connected with a shell inner wall clamping mechanism 3, and the displacement adjusting cylinder 2 controls the shell inner wall clamping mechanism 3 to move in an inner cavity of the capacitor shell to clamp the inside of the capacitor, so that the packaging operation on the side surface of the capacitor shell is realized.

Still be equipped with lift adjustment linear electric motor 4 on the operation frame 1, lift adjustment linear electric motor 4 still is connected with the outer clamping mechanism 5 of casing, and lift adjustment linear electric motor 4 controls the outer clamping mechanism 5 of casing, and the outer clamping mechanism 5 of casing is fixed the outside of casing to the realization is to the encapsulation operation of condenser shell both ends face.

As shown in fig. 2 to 4, the inner wall clamping mechanism 3 includes L-shaped moving force arms 301, and a power installation section 302 disposed between the L-shaped moving force arms 301, a first position measurement probe 303 is disposed at an end of the L-shaped moving force arm 301, the L-shaped moving force arm 301 can be inserted into the capacitor case, the first position measurement probe 303 positions the capacitor case, and under the action of an external power mechanism, the L-shaped moving force arm 301 is kept to enter the capacitor case along a horizontal line of a center of the capacitor case and then is fixed at a vertical center of the capacitor case, so that stability of a side surface of the capacitor case during a packaging operation can be ensured.

Because the texture of capacitor case is lighter and thinner, if the border position of centre gripping capacitor case, lead to the outside operation dynamics uneven easily, arouse the damage of capacitor case, and through the location work of first position finding probe 303, can ensure that L shape removal power arm 301 presss from both sides the central point of capacitor case and puts, improves the homogeneity of the external force of encapsulating to the capacitor case, reduces the damage of capacitor case.

The power installation section 302 is also connected with the L-shaped movable arm 301 through a plurality of mounting threaded holes which are distributed at equal intervals, an elastic sealing rubber pad 313 is arranged between the L-shaped movable arm 301 and the power installation section 302, and the power installation section 302 can be detached, so that the later maintenance and replacement of a power source in the power installation section 302 are guaranteed.

The power installation section 302 is provided with a cross placing plate 305 through a plurality of mounting threaded holes which are distributed at equal intervals, the intersections of the cross placing plate 305 are provided with linear motors 306, the linear motors 306 are connected with clamping telescopic rods 307 which penetrate through the power installation section 302, the adjacent clamping telescopic rods 307 are in mutually perpendicular states, the tail ends of the clamping telescopic rods 307 are provided with arc-shaped air suction plates 308, the linear motors 306 are arranged at the intersections of the cross placing plate 305, the distribution uniformity of the clamping telescopic rods 307 can be ensured, the clamping telescopic rods 307 penetrate through the power installation section 302 under the action of the linear motors 306 to perform telescopic motion, and the clamping telescopic rods 307 are fixed or released with a capacitor shell through the arc-shaped air suction plates 308, so that the operation is simple.

The surface that arc suction plate 308 and power installation section 302 contacted still is equipped with a plurality of evenly distributed's aspirating hole 309, the inside of centre gripping telescopic link 307 is equipped with switches on cavity 310, it inhales siphunculus 311 to be equipped with in cavity 310 to switch on, it is equipped with flared tube 8 in arc suction plate 308 to inhale siphunculus 311, it is connected with aspiration pump 312 to inhale siphunculus 311, equal fixed mounting of aspiration pump 312 is in L shape shifting power arm 301.

When the clamping mechanism 3 for the inner wall of the housing performs clamping operation, the linear motor 306 pushes the arc-shaped air suction plate 308 to contact with the inner wall of the capacitor case through the clamping telescopic rod 307, meanwhile, the air suction pump 312 performs air suction processing on the arc-shaped air suction plate 308 through the air suction through pipe 311, the capacitor case and the arc-shaped air suction plate 308 are completely fixed by external air pressure, and then the side face of the capacitor case can be encapsulated.

It is further described that the air suction through pipe 311 completely sucks air between the capacitor case and the arc-shaped air suction plate 308 through the air suction holes 309, and the capacitor case and the arc-shaped air suction plate 308 can be completely fixed according to the action of atmospheric pressure, so that the positioning action is stable, and the capacitor case can be effectively prevented from shifting during packaging, thereby improving the packaging quality.

And the efficiency of air extraction can be controlled by adjusting the power of the air extraction pump 312, so that the air pressure between the capacitor shell and the arc-shaped air absorption plate 308 is controlled, and the clamping force is adjusted.

As shown in fig. 1 and 2, a moving rail 6 is provided on the operating frame 1, a sliding block 7 is provided in the moving rail 6, the L-shaped moving arm 301 is fixedly connected to the sliding block 7, the displacement adjusting cylinder 2 is installed at one end of the moving rail 6, and the telescopic rod of the displacement adjusting cylinder 2 is fixedly connected to the L-shaped moving arm 301, the displacement adjusting cylinder 2 only adjusts the insertion and extraction operations of the L-shaped moving arm 301 in the capacitor case, when the L-shaped moving arm 301 is inserted into the capacitor case, the telescopic rod of the displacement adjusting cylinder 2 acts on the L-shaped moving arm 301 to propel the L-shaped moving arm 301, and when the L-shaped moving arm 301 is extracted from the capacitor case, the telescopic rod of the displacement adjusting cylinder 2 acts on the L-shaped moving arm 301 to pull the L-shaped moving arm 301 outward.

After the side surface of the capacitor case is sealed, the L-shaped moving arm 301 is moved out of the capacitor case, and the case outer clamping mechanism 5 seals both ends of the capacitor case.

As shown in fig. 5 and 6, the housing outer clamping mechanism 5 includes a clamping housing 501 and a pushing cylinder 502 disposed in the clamping housing 501, a displacement passage 503 is provided inside the clamping housing 501, a telescopic rod of the pushing cylinder 502 is connected with a pushing plate 504 through the displacement passage 503, a clamping jaw assembly 505 is further provided at a distal end of the clamping housing 501, and a second position finding probe 506 is also provided at a distal end of the clamping housing 501, and the second position finding probe 506 can be used in combination with an external power source to move the clamping jaw assembly 505 to a central position of the capacitor case.

The clamping mechanism 3 on the inner wall of the shell and the clamping mechanism 5 on the outer wall of the shell are matched for use, when the L-shaped moving force arm 301 is moved out of the capacitor shell, the clamping claw assembly 505 moves downwards to clamp the side face of the capacitor shell, the packaging time can be effectively shortened, and the packaging efficiency is improved.

After the displacement is completed, the clamping jaw assembly 505 completes the periodic clamping release operation under the action of the pushing cylinder 502.

The clamping jaw assembly 505 comprises two bent clamping pieces 5051, a rotating hinge rod 5052 is further arranged at the tail end of the clamping outer cover 501, through-hole slots 5053 are formed in the two bent clamping pieces 5051, the bent clamping pieces 5051 are installed on the outer side of the rotating hinge rod 5052 through the through-hole slots 5053, the bent clamping pieces 5051 are installed with the pushing plate 504 through installation threaded holes, and when the clamping jaw assembly 505 clamps or releases a capacitor shell, the bent clamping pieces 5051 rotate around the rotating hinge rod 5052, so that the structure is stable, and the working performance is good.

As shown in fig. 7, a buffer protection mechanism 9 is disposed in each of the two bent clamps 5051, the buffer protection mechanism 9 includes a plurality of buffer positioning rods 901 disposed in the bent clamps 5051 at equal intervals, the buffer positioning rods 901 are disposed on the bent clamps 5051 through mounting holes 902, a compression spring 903 is further disposed between the buffer positioning rods 901 and the mounting holes 902, the buffer positioning rods 901 on the same bent clamp 5051 are connected with clamping arc-shaped plates 904, concave-convex friction pads 905 are disposed on the inner sides of the clamping arc-shaped plates 904, and the buffer protection mechanism 9 can play a role in buffering a clamping force when clamping, so as to prevent that the capacitor case is damaged due to too large force being applied to the capacitor case at one time.

When the side to capacitor case carries out the centre gripping, buffering locating lever 901 passes through compression spring 903 effect, can take place certain displacement in mounting hole 902 to play the effect of buffering protection, the frictional force between the increase of unsmooth friction pad 905 and the capacitor case prevents to take place to slide when encapsulating the both ends of capacitor case, thereby stability when improving the encapsulation.

By controlling the flexibility of the push cylinder 502, the clamping force of the bent clamp 5051 can be effectively adjusted, and meanwhile, under the reaction force of the compression spring 903, the concave-convex friction pad 905 has elasticity under the condition of stable clamping, so that the clamping damage to the capacitor shell can be reduced.

The two ends of the rotary hinged rod 5052 are respectively provided with a limiting ring plate 10 and an inner hole groove 11, the inner hole groove 11 is provided with a positioning pin 12, the clamping outer cover 501 is provided with a special-shaped inner groove 13 matched with the positioning pin 12, and the rotary hinged rod 5052 can be detached, so that the bent clamping piece 5051 can be detached, and later-stage processing operation is facilitated.

As shown in fig. 8, the operation frame 1 is provided with a limiting and stabilizing mechanism 14 at the position of the lifting adjusting linear motor 4, the limiting and stabilizing mechanism 14 includes two vertical limiting plates 1401, the two vertical limiting plates 1401 are both provided with a long limiting groove 1402, the clamping outer cover 501 is directly connected with the lifting adjusting linear motor 4, the clamping outer cover 501 is provided with a limiting protruding block 1403 matched with the long limiting groove 1402, and the limiting protruding block 1403 moves up and down in the long limiting groove 1402, so that the stability of the movement can be effectively improved.

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. A clamp for packaging a capacitor shell comprises an operation frame (1), and is characterized in that: a displacement adjusting cylinder (2) is arranged on the operating rack (1), the displacement adjusting cylinder (2) is connected with a shell inner wall clamping mechanism (3), a lifting adjusting linear motor (4) is further arranged on the operating rack (1), and the lifting adjusting linear motor (4) is further connected with a shell outer clamping mechanism (5);

the clamping mechanism (3) for the inner wall of the shell comprises L-shaped movable power arms (301) and power mounting sections (302) arranged between the L-shaped movable power arms (301), wherein the tail ends of the L-shaped movable power arms (301) are provided with first position measuring probes (303), cross placing plates (305) are arranged in the power mounting sections (302) through a plurality of mounting threaded holes distributed at equal intervals, linear motors (306) are arranged at the intersections of the cross placing plates (305), the linear motors (306) are connected with clamping telescopic rods (307) penetrating through the power mounting sections (302), the adjacent clamping telescopic rods (307) are in a mutually perpendicular state, arc-shaped air suction plates (308) are arranged at the tail ends of the clamping telescopic rods (307), and a plurality of air suction holes (309) distributed uniformly are further formed in the surfaces, in contact with the power mounting sections (302), of the arc-shaped air suction plates (308), the inside of centre gripping telescopic link (307) is equipped with switches on cavity (310), be equipped with in switching on cavity (310) and inhale siphunculus (311), it is connected with aspiration pump (312) to inhale siphunculus (311), equal fixed mounting of aspiration pump (312) is in L shape power arm (301) that moves.

2. The jig for capacitor case encapsulation according to claim 1, characterized in that: the power mounting section (302) is also connected with the L-shaped power moving arm (301) through a plurality of mounting threaded holes distributed at equal intervals, and an elastic sealing rubber pad (313) is arranged between the L-shaped power moving arm (301) and the power mounting section (302).

3. The jig for capacitor case encapsulation according to claim 1, characterized in that: be equipped with on operation frame (1) and remove track (6), be equipped with sliding block (7) in removing track (6), L shape moves power arm (301) and sliding block (7) fixed connection, and displacement adjusting cylinder (2) are installed in the one end that removes track (6), and the telescopic link and the L shape of displacement adjusting cylinder (2) move power arm (301) fixed connection.

4. The jig for capacitor case encapsulation according to claim 1, characterized in that: the air suction through pipe (311) is provided with a horn pipe (8) in the arc air suction plate (308).

5. The jig for capacitor case encapsulation according to claim 1, characterized in that: the outer clamping mechanism (5) of the shell comprises a clamping outer cover (501) and a pushing cylinder (502) arranged in the clamping outer cover (501), a shifting channel (503) is arranged inside the clamping outer cover (501), a telescopic rod of the pushing cylinder (502) penetrates through the shifting channel (503) to be connected with a pushing plate (504), a clamping jaw assembly (505) is further arranged at the tail end of the clamping outer cover (501), and a second position measuring probe (506) is further arranged at the tail end of the clamping outer cover (501).

6. The jig for capacitor case encapsulation according to claim 5, characterized in that: the clamping jaw assembly (505) comprises two bent clamping pieces (5051), a rotary hinge rod (5052) is further arranged at the tail end of the clamping outer cover (501), through hole grooves (5053) are formed in the two bent clamping pieces (5051), the bent clamping pieces (5051) are installed on the outer side of the rotary hinge rod (5052) through the through hole grooves (5053), and the bent clamping pieces (5051) are installed together with the pushing plate (504) through installation threaded holes.

7. The jig for capacitor case encapsulation according to claim 6, characterized in that: the buffer protection mechanism (9) is arranged in each of the two bent clamping pieces (5051), each buffer protection mechanism (9) comprises a plurality of buffer positioning rods (901) which are arranged in the bent clamping pieces (5051) at equal intervals, each buffer positioning rod (901) is arranged on the corresponding bent clamping piece (5051) through a mounting hole (902), compression springs (903) are further arranged between the corresponding buffer positioning rods (901) and the corresponding mounting holes (902), the buffer positioning rods (901) on the same bent clamping piece (5051) are connected with clamping arc-shaped plates (904), and concave-convex friction pads (905) are arranged on the inner sides of the clamping arc-shaped plates (904).

8. The jig for capacitor case encapsulation according to claim 6, characterized in that: two ends of the rotary hinge rod (5052) are respectively provided with a limiting ring plate (10) and an inner hole groove (11), the inner hole groove (11) is provided with a positioning pin (12), and the clamping outer cover (501) is provided with a special-shaped inner groove (13) matched with the positioning pin (12).

9. The jig for capacitor case encapsulation according to claim 8, characterized in that: the operation frame (1) is provided with a limiting and stabilizing mechanism (14) at the position of the lifting adjusting linear motor (4), the limiting and stabilizing mechanism (14) comprises two vertical limiting plates (1401), the two vertical limiting plates (1401) are provided with long limiting grooves (1402), the clamping and fixing outer cover (501) is directly connected with the lifting adjusting linear motor (4), and the clamping and fixing outer cover (501) is provided with limiting protruding blocks (1403) matched with the long limiting grooves (1402).