CN219852780U - Lamination electric capacity automatic weld machine - Google Patents

Abstract

The utility model provides an automatic welding machine for laminated capacitors, which belongs to the technical field of laminated capacitor production equipment, and comprises the following components: a cabinet provided with a feed inlet and a discharge outlet; the tunnel furnace is arranged in the cabinet, and one end of the tunnel furnace extends out of the feeding hole; one end of the conveying belt extends out of the discharge port; the buffer table is arranged in the cabinet and is positioned at the other end of the tunnel furnace; the ultrasonic cleaning mechanism is arranged in the cabinet and is positioned at the other end of the conveyor belt; the first manipulator is arranged in the cabinet and is positioned above the tunnel furnace and the cache table; the second manipulator is arranged in the cabinet and is positioned above the conveyor belt and the ultrasonic cleaning mechanism; the display panel is arranged on the front surface of the cabinet; the control panel is arranged on the front surface of the cabinet; and the PLC is connected with the tunnel furnace, the conveyor belt, the ultrasonic cleaning mechanism, the first manipulator, the second manipulator, the display panel and the control panel. The utility model has the advantages that: and the welding efficiency of the lamination capacitor is greatly improved.

Description

Lamination electric capacity automatic weld machine

Technical Field

The utility model relates to the technical field of laminated capacitor production equipment, in particular to an automatic welding machine for laminated capacitors.

Background

In the production process of the laminated capacitor, each laminated capacitor is required to be welded, namely welding flux carrying soldering flux is smeared between the laminated capacitors, the laminated capacitors are placed in a high-temperature area to enable the welding flux to be melted, then the laminated capacitors are placed in a normal-temperature area, welding is completed after the welding flux is solidified, and finally the soldering flux on the laminated capacitors is cleaned. For welding of the lamination capacitor, a manual operation method is conventionally adopted, namely, the lamination capacitor is manually subjected to circulation welding, the lamination capacitor is manually cleaned, and the defect of low welding efficiency exists.

Therefore, how to provide an automatic welding machine for laminated capacitors, so as to improve the welding efficiency of the laminated capacitors, is a technical problem to be solved urgently.

Disclosure of Invention

The utility model aims to solve the technical problem of providing an automatic welding machine for laminated capacitors, which can improve the welding efficiency of the laminated capacitors.

The utility model is realized in the following way: an automatic welding machine for laminated capacitors, comprising:

a feeding port and a discharging port are arranged on the left side of the cabinet;

the tunnel furnace is arranged in the cabinet, and one end of the tunnel furnace extends out of the feeding hole;

one end of the conveying belt extends out of the discharge port;

the buffer table is arranged in the cabinet and is positioned at the other end of the tunnel furnace;

the ultrasonic cleaning mechanism is arranged in the cabinet and is positioned at the other end of the conveyor belt;

the first manipulator is arranged in the cabinet and is positioned above the tunnel furnace and the cache table;

the second manipulator is arranged in the cabinet and is positioned above the conveyor belt and the ultrasonic cleaning mechanism;

the display panel is arranged on the front surface of the cabinet;

the control panel is arranged on the front surface of the cabinet;

the PLC is arranged in the cabinet and is respectively connected with the tunnel furnace, the conveyor belt, the ultrasonic cleaning mechanism, the first manipulator, the second manipulator, the display panel and the control panel;

and a plurality of welding tools are arranged in the tunnel furnace.

Further, the method further comprises the following steps:

the three-color lamp is arranged at the top end of the cabinet and is connected with the PLC;

the at least one smoke extractor is arranged at the top end of the cabinet and is connected with the PLC;

the fans are arranged on the side face of the cabinet and connected with the PLC;

and the at least two temperature sensors are arranged at the inlet end and the outlet end of the tunnel furnace and are connected with the PLC.

Further, the tunnel furnace is provided with a plurality of temperature areas.

Further, the ultrasonic cleaning mechanism includes:

the three ultrasonic cleaning units are arranged in the cabinet side by side and connected with the PLC;

three covers which are respectively connected with the top end of the ultrasonic cleaning unit in a sliding way;

and the three electric push rods are arranged in the cabinet, the power output ends are respectively connected with one cover, and the control ends are connected with the PLC.

Further, the display panel is provided with:

the display screen is connected with the PLC;

a start button connected with the PLC;

a stop button connected to the PLC;

and a first scram button connected with the PLC.

Further, the control panel is provided with:

a power button connected with the PLC;

a plurality of wind-carrying buttons connected with the PLC;

a plurality of heating buttons connected with the PLC;

a second emergency stop button connected to the PLC;

and the plurality of indicator lamps are connected with the PLC.

Further, the welding fixture includes:

a display rack, which comprises a rectangular rack, four supporting legs, two adapter pieces and a straight plate; the supporting legs are symmetrically arranged at four corners of the bottom end of the rectangular frame; each adapter is symmetrically arranged at the left side and the right side of the rectangular frame; the straight plate is arranged at the top end of the adapter, is positioned above the rectangular frame and is vertical to the rectangular frame; a plurality of symmetrical limiting grooves are arranged on the left side and the right side of the rectangular frame side by side;

the capacitor clamping pieces are erected on the display rack through the limiting grooves.

Further, the capacitive clamping member includes:

a clamping plate, wherein the left side and the right side of the clamping plate outwards extend to form a limiting part, and the middle part of the clamping plate is provided with a clamping groove; the middle part of the top end of the clamping groove extends to the upper part and the lower part to form a clamping arm;

one end of the spring piece is embedded into the top end of the clamping plate, and the other end of the spring piece is abutted with the clamping arm.

Further, a handle is arranged at the bottom end of the clamping arm.

Further, a plurality of teeth are arranged on one side of the clamping arm opposite to the clamping groove.

The utility model has the advantages that:

1. through setting up tunnel furnace, the conveyer belt, the buffer memory platform, ultrasonic cleaning mechanism, first manipulator, the second manipulator, control panel, PLC and welding frock, paint the lamination electric capacity of solder and install on welding frock, and place in the entry end of tunnel furnace, PLC carries out the circulation heating to welding frock based on control panel's trigger signal control tunnel furnace, after the heating is accomplished, by first manipulator centre gripping welding frock to buffer memory platform cooling, again by the second manipulator centre gripping welding frock to ultrasonic cleaning mechanism in wash, and place the ejection of compact on the conveyer belt after wasing and accomplish, with the automatic weld and the washing that realize lamination electric capacity, need not manual operation, and then very big promotion lamination electric capacity welding efficiency, and still can weld lamination electric capacity and support through the welding machine.

2. The tunnel furnace is provided with a plurality of temperature areas, so that the laminated capacitor is gradually heated, and the laminated capacitor is prevented from being damaged by being heated in place in one step.

3. Through setting up ultrasonic cleaning mechanism and including three ultrasonic cleaning unit, three lid and three electric putter, through electric putter automatic open lid when needs wash to reduce the volatilization of washing liquid, and carry out the cubic to lamination electric capacity through three ultrasonic cleaning unit and wash, can effectively get rid of the residual scaling powder of lamination electric capacity.

4. Through setting up the display stand that welding frock includes rectangle frame, stabilizer blade, adaptor and straight board, the top of rectangle frame is located through the adaptor to the straight board, the left and right sides on rectangle frame top is equipped with the spacing groove of a plurality of symmetry side by side, the electric capacity holder is erect side by side on the rectangle frame of display stand through spacing portion and spacing groove, and the lamination electric capacity is through the lateral wall of centre gripping in the centre gripping groove of centre gripping arm, and compress tightly the lamination electric capacity through the spring leaf for the elasticity that the centre gripping arm applyed, even the lamination electric capacity is compressed tightly and unsettled, avoid the lamination dislocation, avoid being heated unevenly, and then very big promotion lamination electric capacity welding quality.

5. Through setting up the welding frock of being convenient for take of straight board, the left and right sides on rectangle frame top is equipped with the spacing groove of a plurality of symmetry side by side, once can carry out batch welding to a plurality of lamination electric capacity, sets up the handle in the bottom of centre gripping arm, the dismouting of the lamination electric capacity of being convenient for, and then very big promotion lamination electric capacity welding efficiency.

Drawings

The utility model will be further described with reference to examples of embodiments with reference to the accompanying drawings.

Fig. 1 is a schematic structural view of an automatic welding machine for laminated capacitors according to the present utility model.

Fig. 2 is a side view of an automatic welder for laminated capacitors according to the present utility model.

Fig. 3 is a schematic structural view of the welding tool of the present utility model.

Fig. 4 is a schematic view of the structure of the display stand of the present utility model.

Fig. 5 is a schematic structural view of a capacitive clamping member according to the present utility model.

Fig. 6 is a schematic block diagram of an automatic welder for laminated capacitors according to the present utility model.

Marking:

100-a laminated capacitor automatic welding machine, 1-a cabinet, 2-a tunnel furnace, 3-a conveyor belt, 4-a buffer table, 5-an ultrasonic cleaning mechanism, 6-a first manipulator, 7-a second manipulator, 8-a display panel, 9-a control panel, 10-PLC, 20-a welding fixture, 30-a tri-color lamp, 40-a smoke exhauster, 50-a fan, 60-a temperature sensor, 70-a laminated capacitor, 11-a feeding port, 12-a discharging port, 51-an ultrasonic cleaning unit, 52-a cover, 53-an electric push rod, 81-a display screen, 82-a start button, 83-a stop button, 84-a first emergency stop button, 91-a power button, 92-a wind conveying button, 93-a heating button, 94-a second emergency stop button, 95-an indicator lamp, 201-a display rack, 202-a capacitor clamping piece, 2011-a rectangular rack, 2012-legs, 2013-a adapter piece, 20114-a straight plate, 20111-a limiting groove, 1-clamping plate, 2022-20211-a 20212-a 20212-spring leaf, a spring leaf, 35-spring leaf clamping device, and 353713-a tooth clamping device.

Detailed Description

According to the embodiment of the utility model, by providing the automatic welding machine 100 for the laminated capacitor, the technical problems that the welding efficiency is low due to the fact that manual circulation welding is adopted to the laminated capacitor and manual cleaning is carried out to the laminated capacitor in the prior art are solved, and the technical effect of greatly improving the welding efficiency of the laminated capacitor is achieved.

The technical scheme in the embodiment of the utility model aims to solve the problems, and the overall thought is as follows: the lamination capacitor 70 coated with solder is arranged on the welding tool 20 and is placed at the inlet end of the tunnel furnace 2, the PLC10 controls the tunnel furnace 2 to heat the welding tool 20 in a circulating way based on a trigger signal of the control panel 9, the welding tool 20 is clamped by the first manipulator 6 to the buffer table 4 for cooling after the heating is finished, the welding tool 20 is clamped by the second manipulator 7 to the ultrasonic cleaning mechanism 5 for cleaning, and the welding tool is placed on the conveyor belt 3 for discharging after the cleaning is finished, so that automatic welding and cleaning of the lamination capacitor 70 are realized, and the welding efficiency of the lamination capacitor 70 is further improved.

In order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 6, a preferred embodiment of an automatic welding machine 100 for laminated capacitors according to the present utility model comprises:

a cabinet 1, a left side of which is provided with a feed inlet 11 and a discharge outlet 12; the cabinet 1 is used for carrying a welding machine 100;

a tunnel furnace 2, which is arranged in the cabinet 1, and one end of which extends out of the feed inlet 11 and is used for heating and welding the lamination capacitor 70;

a conveyor belt 3, which is arranged in the cabinet 1, one end of which extends out of the discharge hole 12 and is used for conveying the welded lamination capacitor 70;

the buffer table 4 is arranged in the cabinet 1 and is positioned at the other end of the tunnel furnace 2 and used for cooling the lamination capacitor 70 which is just welded;

an ultrasonic cleaning mechanism 5, which is arranged in the cabinet 1 and is positioned at the other end of the conveyor belt 3, and is used for cleaning the residual soldering flux of the lamination capacitor 70;

the first manipulator 6 is arranged in the cabinet 1 and is positioned above the tunnel furnace 2 and the cache table 4, and is used for clamping the welding machine tool 20 transmitted by the tunnel furnace 2 to the cache table 4;

a second manipulator 7, disposed in the cabinet 1 and above the conveyor belt 3 and the ultrasonic cleaning mechanism 5, for clamping the welding tool 20 placed on the buffer table 4 to the ultrasonic cleaning mechanism 5 to clean the lamination capacitor 70, and after cleaning, clamping the welding tool 20 to the conveyor belt 3 for discharging;

a display panel 8, disposed on the front surface of the cabinet 1, for displaying operation data of the welder 100;

a control panel 9 provided on the front surface of the cabinet 1 for operating the welder 100;

a PLC10 disposed in the cabinet 1 and connected to the tunnel furnace 2, the conveyor belt 3, the ultrasonic cleaning mechanism 5, the first manipulator 6, the second manipulator 7, the display panel 8, and the control panel 9, respectively; the PLC10 is used to control the operation of the welder 100, and in practice, only needs to select a PLC capable of achieving the function from the prior art, and is not limited to any model, and the control program is well known to those skilled in the art, and can be obtained by those skilled in the art without performing any creative effort;

and a plurality of welding tools 20 are arranged in the tunnel furnace 2 and are used for carrying the lamination capacitors 70 in batches for welding.

Further comprises:

a tri-color lamp 30, which is disposed at the top of the cabinet 1 and connected to the PLC10, for indicating the working state of the welder 100;

at least one fume extractor 40, locate at the top of the said cabinet 1, and connect with said PLC10, is used for discharging the volatile scaling powder (rosin) to the outside;

a plurality of fans 50 disposed at the side of the cabinet 1 and connected to the PLC10 for heat dissipation of the welder 100;

at least two temperature sensors 60 are provided at the inlet and outlet ends of the tunnel furnace 2 and connected to the PLC10 for temperature monitoring.

The tunnel furnace 2 is provided with a plurality of temperature areas (not shown), namely, the temperature is gradually increased to improve the welding quality.

The ultrasonic cleaning mechanism 5 includes:

three ultrasonic cleaning units 51, which are arranged in the cabinet 1 side by side and connected with the PLC10, for cleaning the lamination capacitor 70 three times;

three covers 52 slidably connected to the top ends of the ultrasonic cleaning units 51, respectively, for reducing volatilization of the cleaning liquid in the ultrasonic cleaning units 51;

and three electric push rods 53 are arranged in the cabinet 1, the power output ends of the three electric push rods are respectively connected with one cover 52, and the control ends of the three electric push rods are connected with the PLC10 and are used for automatically opening and closing the covers 52.

The display panel 8 is provided with:

a display screen 81 connected to the PLC10 for displaying operation data of the welder 100;

a start button 82 connected to the PLC10 for starting the operation of the welder 100;

a stop button 83 connected to the PLC10 for stopping the operation of the welder 100;

a first scram button 84 is coupled to the PLC10 for scram of the welder 100.

The control panel 9 is provided with:

a power button 91 connected to the PLC10 for turning on/off the power of the welder 100;

a plurality of wind-carrying buttons 92 connected to the PLC10 for controlling the operation of the fan 50;

a plurality of heating buttons 93 connected to the PLC10 for controlling the operation of the tunnel furnace 2;

a second emergency stop button 94, connected to the PLC10, for emergency stopping the welder 100, and for performing a double safety function in cooperation with the first emergency stop button 84;

and a plurality of indicator lamps 95 connected with the PLC10 for alarming indication.

The welding fixture 20 includes:

a display rack 201 comprising a rectangular rack 2011, four feet 2012, two adapters 2013, a straight plate 2014; each support 2012 is symmetrically arranged at four corners of the bottom end of the rectangular frame 2011; each adapter 2013 is symmetrically arranged at the left and right sides of the rectangular frame 2011; the straight plate 2014 is disposed at the top end of the adapter 2013, above the rectangular frame 2011, and perpendicular to the rectangular frame 2011; a plurality of symmetrical limiting grooves 20111 are arranged on the left side and the right side of the rectangular frame 2011 in parallel; the rectangular frame 2011 is used for erecting the capacitor clamping piece 202; the legs 2012 are used for supporting a rectangular frame 2011; the adaptor 2013 is used for connecting the rectangular frame 2011 and the straight plate 2014; the straight plate 2014 is used for facilitating the transplanting of the welding fixture 20; the limiting groove 20111 is used for clamping the capacitor clamping piece 202;

the capacitor clamping pieces 202 are erected on the display rack 201 through the limiting grooves 20111 and are used for clamping the laminated capacitors 70 for welding.

The capacitive clamping member 202 includes:

a clamping plate 2021, a limiting portion 20211 extends outwards from the left and right sides, and a clamping groove 20212 is formed in the middle; a clamping arm 20213 extends from the middle of the top end of the clamping groove 20212 upwards and downwards; the limiting part 20211 is used for clamping the capacitor clamping piece 202 on the display stand 201; the clamping arms 20213 are used for abutting the lamination capacitor 70 against the inner wall of the clamping groove 20212;

one end of a spring piece 2022 is embedded into the top end of the clamping plate 2021, and the other end is abutted against the clamping arm 20213, so as to provide clamping force to the clamping arm 20213.

The bottom end of the clamping arm 20213 is provided with a handle 202131, so that the clamping arm 20213 is bent towards the spring piece 2022 to install the lamination capacitor 70.

The opposite sides of the clamping arms 20213 and the clamping grooves 20212 are respectively provided with a plurality of teeth 202132 to prevent the lamination capacitor 70 from sliding down.

The working principle of the utility model is as follows:

after the clamp arm 20213 is bent towards the spring piece 2022 by the handle 202131 and the lamination capacitor 70 is placed between the clamp groove 20212 and the clamp arm 20213, the handle 202131 is loosened, the clamp arm 20213 compresses the lamination capacitor 70 under the action of the elastic force of the spring piece 2022, then the capacitor clamping piece 202 with the lamination capacitor 70 is erected on the rectangular frame 2011, and the welding tool 20 is placed at the inlet end of the tunnel furnace 2 by the straight plate 2014.

The PLC10 controls the tunnel furnace 2 to heat the welding tool 20 in a circulating manner based on a trigger signal of the control panel 9, controls the first manipulator 6 to clamp the welding tool 20 to the buffer table 4 to cool after heating is completed, controls the electric push rod 53 to open the cover 52, controls the second manipulator 7 to clamp the welding tool 20 from the buffer table 4 to each ultrasonic cleaning unit 51 in sequence to clean the lamination capacitor 70, and places the lamination capacitor on the conveyor belt 3 to discharge after cleaning is completed.

In summary, the utility model has the advantages that:

1. through setting up tunnel furnace, the conveyer belt, the buffer memory platform, ultrasonic cleaning mechanism, first manipulator, the second manipulator, control panel, PLC and welding frock, paint the lamination electric capacity of solder and install on welding frock, and place in the entry end of tunnel furnace, PLC carries out the circulation heating to welding frock based on control panel's trigger signal control tunnel furnace, after the heating is accomplished, by first manipulator centre gripping welding frock to buffer memory platform cooling, again by the second manipulator centre gripping welding frock to ultrasonic cleaning mechanism in wash, and place the ejection of compact on the conveyer belt after wasing and accomplish, with the automatic weld and the washing that realize lamination electric capacity, need not manual operation, and then very big promotion lamination electric capacity welding efficiency, and still can weld lamination electric capacity and support through the welding machine.

2. The tunnel furnace is provided with a plurality of temperature areas, so that the laminated capacitor is gradually heated, and the laminated capacitor is prevented from being damaged by being heated in place in one step.

3. Through setting up ultrasonic cleaning mechanism and including three ultrasonic cleaning unit, three lid and three electric putter, through electric putter automatic open lid when needs wash to reduce the volatilization of washing liquid, and carry out the cubic to lamination electric capacity through three ultrasonic cleaning unit and wash, can effectively get rid of the residual scaling powder of lamination electric capacity.

4. Through setting up the display stand that welding frock includes rectangle frame, stabilizer blade, adaptor and straight board, the top of rectangle frame is located through the adaptor to the straight board, the left and right sides on rectangle frame top is equipped with the spacing groove of a plurality of symmetry side by side, the electric capacity holder is erect side by side on the rectangle frame of display stand through spacing portion and spacing groove, and the lamination electric capacity is through the lateral wall of centre gripping in the centre gripping groove of centre gripping arm, and compress tightly the lamination electric capacity through the spring leaf for the elasticity that the centre gripping arm applyed, even the lamination electric capacity is compressed tightly and unsettled, avoid the lamination dislocation, avoid being heated unevenly, and then very big promotion lamination electric capacity welding quality.

5. Through setting up the welding frock of being convenient for take of straight board, the left and right sides on rectangle frame top is equipped with the spacing groove of a plurality of symmetry side by side, once can carry out batch welding to a plurality of lamination electric capacity, sets up the handle in the bottom of centre gripping arm, the dismouting of the lamination electric capacity of being convenient for, and then very big promotion lamination electric capacity welding efficiency.

While specific embodiments of the utility model have been described above, it will be appreciated by those skilled in the art that the specific embodiments described are illustrative only and not intended to limit the scope of the utility model, and that equivalent modifications and variations of the utility model in light of the spirit of the utility model will be covered by the claims of the present utility model.

Claims (10)

1. An automatic welding machine for laminated capacitors is characterized in that: comprising the following steps:

a feeding port and a discharging port are arranged on the left side of the cabinet;

the tunnel furnace is arranged in the cabinet, and one end of the tunnel furnace extends out of the feeding hole;

one end of the conveying belt extends out of the discharge port;

the buffer table is arranged in the cabinet and is positioned at the other end of the tunnel furnace;

the ultrasonic cleaning mechanism is arranged in the cabinet and is positioned at the other end of the conveyor belt;

the first manipulator is arranged in the cabinet and is positioned above the tunnel furnace and the cache table;

the second manipulator is arranged in the cabinet and is positioned above the conveyor belt and the ultrasonic cleaning mechanism;

the display panel is arranged on the front surface of the cabinet;

the control panel is arranged on the front surface of the cabinet;

the PLC is arranged in the cabinet and is respectively connected with the tunnel furnace, the conveyor belt, the ultrasonic cleaning mechanism, the first manipulator, the second manipulator, the display panel and the control panel;

and a plurality of welding tools are arranged in the tunnel furnace.

2. The automatic welder for laminated capacitors as set forth in claim 1, wherein: further comprises:

the three-color lamp is arranged at the top end of the cabinet and is connected with the PLC;

the at least one smoke extractor is arranged at the top end of the cabinet and is connected with the PLC;

the fans are arranged on the side face of the cabinet and connected with the PLC;

and the at least two temperature sensors are arranged at the inlet end and the outlet end of the tunnel furnace and are connected with the PLC.

3. The automatic welder for laminated capacitors as set forth in claim 1, wherein: the tunnel furnace is provided with a plurality of temperature areas.

4. The automatic welder for laminated capacitors as set forth in claim 1, wherein: the ultrasonic cleaning mechanism includes:

the three ultrasonic cleaning units are arranged in the cabinet side by side and connected with the PLC;

three covers which are respectively connected with the top end of the ultrasonic cleaning unit in a sliding way;

and the three electric push rods are arranged in the cabinet, the power output ends are respectively connected with one cover, and the control ends are connected with the PLC.

5. The automatic welder for laminated capacitors as set forth in claim 1, wherein: the display panel is provided with:

the display screen is connected with the PLC;

a start button connected with the PLC;

a stop button connected to the PLC;

and a first scram button connected with the PLC.

6. The automatic welder for laminated capacitors as set forth in claim 1, wherein: the control panel is provided with:

a power button connected with the PLC;

a plurality of wind-carrying buttons connected with the PLC;

a plurality of heating buttons connected with the PLC;

a second emergency stop button connected to the PLC;

and the plurality of indicator lamps are connected with the PLC.

7. The automatic welder for laminated capacitors as set forth in claim 1, wherein: the welding fixture comprises:

a display rack, which comprises a rectangular rack, four supporting legs, two adapter pieces and a straight plate; the supporting legs are symmetrically arranged at four corners of the bottom end of the rectangular frame; each adapter is symmetrically arranged at the left side and the right side of the rectangular frame; the straight plate is arranged at the top end of the adapter, is positioned above the rectangular frame and is vertical to the rectangular frame; a plurality of symmetrical limiting grooves are arranged on the left side and the right side of the rectangular frame side by side;

the capacitor clamping pieces are erected on the display rack through the limiting grooves.

8. The automatic welder for laminated capacitors as set forth in claim 7, wherein: the capacitive clamping member includes:

a clamping plate, wherein the left side and the right side of the clamping plate outwards extend to form a limiting part, and the middle part of the clamping plate is provided with a clamping groove; the middle part of the top end of the clamping groove extends to the upper part and the lower part to form a clamping arm;

one end of the spring piece is embedded into the top end of the clamping plate, and the other end of the spring piece is abutted with the clamping arm.

9. The automatic welder for laminated capacitors of claim 8, wherein: the bottom of the clamping arm is provided with a handle.

10. The automatic welder for laminated capacitors of claim 8, wherein: and a plurality of teeth are arranged on one side of the clamping arm opposite to the clamping groove.