CN114156096A

CN114156096A - Condenser automatic winding device

Info

Publication number: CN114156096A
Application number: CN202111394111.1A
Authority: CN
Inventors: 张中喜
Original assignee: Dongguan Chuanghui Electronics Co ltd
Current assignee: Dongguan Chuanghui Electronics Co ltd
Priority date: 2021-11-23
Filing date: 2021-11-23
Publication date: 2022-03-08
Anticipated expiration: 2041-11-23
Also published as: CN114156096B

Abstract

The invention provides an automatic winding device of a capacitor, which comprises a panel, wherein a winding module is arranged on the panel, a cathode foil conveying module and an anode foil conveying module are respectively arranged on the left side and the right side of the winding module, a cathode pin conveying module and a first electrolytic paper conveying module are respectively arranged on the upper side and the lower side of the cathode foil conveying module, an anode pin conveying module is arranged on the upper side of the anode foil conveying module, a second electrolytic paper conveying module is arranged on the upper side of the cathode pin conveying module, a material pressing and cutting module is arranged on the upper side of the anode pin conveying module, a blanking module and a paper pulling module are respectively arranged on the upper side and the lower side of the winding module, a material collecting box is further arranged on the panel, and the material collecting box is positioned under the blanking module. The automatic winding device for the capacitor can realize automatic feeding and automatic winding of the inner core of the capacitor, does not need manual operation, and has high processing efficiency.

Description

Condenser automatic winding device

Technical Field

The invention relates to the technical field of capacitor processing, in particular to an automatic winding device for a capacitor.

Background

The capacitor winding device is a device for processing a capacitor. In the conventional capacitor winding device, the cathode foil 201, the anode foil 202, the first electrolytic paper 203, the second electrolytic paper 204, the cathode pin 205 and the anode pin 206 shown in fig. 8 are usually manually placed, and then wound and formed by the winding device, so that the processing efficiency is low.

Disclosure of Invention

Aiming at the problems, the invention provides the automatic winding device for the capacitor, which can realize automatic feeding and automatic winding of the inner core of the capacitor, does not need manual operation and has high processing efficiency.

In order to achieve the purpose, the invention is solved by the following technical scheme:

an automatic winding device of a capacitor comprises a panel, wherein a winding module is arranged on the panel, a cathode foil conveying module and an anode foil conveying module are respectively arranged on the left side and the right side of the winding module, a cathode pin conveying module and a first electrolytic paper conveying module are respectively arranged on the upper side and the lower side of the cathode foil conveying module, an anode pin conveying module is arranged on the upper side of the anode foil conveying module, a second electrolytic paper conveying module is arranged on the upper side of the cathode pin conveying module, a material pressing and cutting module is arranged on the upper side of the anode pin conveying module, a blanking module and a paper pulling module are respectively arranged on the upper side and the lower side of the winding module, a material collecting box is further arranged on the panel and is positioned under the blanking module;

a cathode foil feeding module, a first electrolytic paper feeding module and a second electrolytic paper feeding module are sequentially arranged on the left side of the panel, and an anode foil feeding module is arranged on the right side of the panel;

the cathode foil feeding module, the first electrolytic paper feeding module, the second electrolytic paper feeding module and the anode foil feeding module respectively comprise a rack, a material tray, an upper roller, a lower roller and a lifting and pressing belt assembly, the lifting and pressing belt assembly is positioned between the upper roller and the lower roller, and the lifting and pressing belt assembly comprises a guide rail, a sliding block connected with the guide rail in a sliding manner and an auxiliary roller fixed on the sliding block;

the winding module comprises a support fixed on the panel, a motor fixed on the support, a cushion block connected to the output end of the motor, and a contact pin fixed on the cushion block.

Specifically, the cathode foil conveying module is fixed on a first driving device on the panel and a first carrier plate connected to the output end of the first driving device, a first sliding groove is formed in the first carrier plate, and first supports are arranged at two ends of the first carrier plate.

Specifically, the cathode pin conveying module comprises a first pressing plate rotatably connected to the first support, one end of the first pressing plate is connected with a first baffle, a second driving device is further arranged at one end of the first support plate, the first driving device is located on the lower side of the first baffle, a first pin groove inclined downwards is further formed in one end of the first pressing plate, a first pin conveying interface is arranged on one side of the upper end of the first pin groove, and a first automatic valve is arranged on one side of the lower end of the first pin groove.

Specifically, the first electrolytic paper conveying module comprises a plurality of first conveying rollers, a second sliding groove is formed in the lower side of the first carrier plate, and the first conveying rollers are located on the lower side of the second sliding groove.

Specifically, the anode foil conveying module is fixed on a third driving device on the panel, and a second carrier plate connected to an output end of the third driving device, a third sliding groove is formed on the second carrier plate, and second supports are arranged at two ends of the second carrier plate;

and a cutting device is also arranged on the upper side of the third sliding groove.

Specifically, the anode pin conveying module comprises a second pressing plate rotatably connected to the second support, one end of the second pressing plate is connected with a second baffle, a fourth driving device is further arranged at one end of the second support plate and located on the lower side of the second baffle, a second pin groove inclining downwards is further formed in one end of the second pressing plate, a second pin conveying interface is arranged on one side of the upper end of the second pin groove, and a second automatic valve is arranged on one side of the lower end of the second pin groove.

Specifically, second electrolytic paper transport module is including fixing on the panel and be the slope third support plate that sets up downwards, be located the pressure regulating subassembly of third support plate one side, fix a plurality of second conveying rollers on the panel, the pressure regulating subassembly include with the panel rotate first briquetting, second briquetting, the connection of connecting first briquetting with spring between the second briquetting, being located the bolt adjusting part of first briquetting one side, connecting the compression roller of second briquetting lower extreme, be formed with the fourth spout on the support plate, the compression roller is located fourth spout upside.

Specifically, the unloading module is including fixing mount pad on the panel, with the extension rod that the mount pad rotated to be connected, fix the first automatic clamp of extension rod lower extreme, be located extension rod one side and be used for pushing the fifth drive arrangement of extension rod.

Specifically, the paper pulling module comprises a sixth driving device and a second automatic clamp, wherein the sixth driving device is fixed on the panel and is arranged close to one side of the winding module in an inclined mode, the second automatic clamp is connected to the output end of the sixth driving device, and the second automatic clamp can extend to the upper side of the winding module.

Specifically, the pressing and cutting module comprises a seventh driving device which is fixed on the panel and is inclined towards one side of the winding module, a base plate which is connected to the output end of the seventh driving device, an arc-shaped pressing sheet which is fixed on the base plate, and a cutter, wherein the arc-shaped pressing sheet is arranged towards one side of the winding module, and the cutter is arranged towards one side of the bottom of the second electrolytic paper conveying module.

The invention has the beneficial effects that:

1. the automatic winding device for the capacitor is provided with the cathode foil conveying module, the anode foil conveying module, the cathode pin conveying module, the first electrolytic paper conveying module, the anode pin conveying module, the second electrolytic paper conveying module and the paper pulling module, can realize automatic feeding and automatic paper pulling functions, does not need manual feeding, and improves the processing efficiency;

2. the winding module is arranged, so that the automatic winding function of the capacitor inner core can be realized; the material pressing and cutting module is additionally arranged, so that materials can be automatically pressed in the winding process, the inner core of the capacitor has good tightness, the product quality is ensured, the materials can be automatically cut after winding is finished, and manual cutting is not needed; the blanking module and the material collecting box are added, the capacitor inner core inserted on the contact pin is clamped out by the blanking module after the winding is completed and is transferred to the material collecting box, and the automatic blanking function is realized.

Drawings

Fig. 1 is a first schematic structural diagram of an automatic winding device for capacitors according to the present invention.

Fig. 2 is a schematic structural diagram of the cathode foil feeding module, the first electrolytic paper feeding module, the second electrolytic paper feeding module, or the anode foil feeding module.

Fig. 3 is a schematic structural diagram of an automatic winding device for capacitors according to the present invention.

Fig. 4 is an enlarged view of a portion a in fig. 3.

Fig. 5 is a front view of an automatic winding device for capacitors of the present invention.

Fig. 6 is a cross-sectional view taken along plane B-B of fig. 5.

Fig. 7 is a working state diagram of the capacitor automatic winding device.

Fig. 8 is a schematic structural diagram of the cathode foil, the anode foil, the first electrolytic paper, the second electrolytic paper, the cathode pin and the anode pin before being rolled.

The reference signs are: panel 1, rolling module 2, support 21, motor 22, cushion block 23, contact pin 24, cathode foil conveying module 3, first driving device 31, first carrier plate 32, first sliding groove 321, first support 322, second sliding groove 323, second driving device 33, anode foil conveying module 4, third driving device 41, second carrier plate 42, third sliding groove 421, second support 422, fourth driving device 423, cathode pin conveying module 5, first pressing plate 51, first baffle 511, first pin groove 512, first pin conveying interface 513, first automatic valve 514, first electrolytic paper conveying module 6, first conveying roller 61, anode pin conveying module 7, second pressing plate 71, second baffle 711, second pin groove 712, second pin conveying interface 713, second automatic valve 714, second electrolytic paper conveying module 8, third carrier plate 81, fourth sliding groove 811, pressure regulating component 82, The second conveying roller 83, the first pressing block 821, the second pressing block 822, the spring 823, the bolt adjusting member 824, the pressing roller 825, the pressing and cutting module 9, the seventh driving device 91, the backing plate 92, the arc-shaped pressing sheet 93, the cutter 94, the blanking module 10, the mounting seat 101, the extension rod 102, the first automatic clamp 103, the fifth driving device 104, the paper pulling module 11, the sixth driving device 111, the second automatic clamp 112, the collecting box 12, the cathode foil feeding module 13, the frame 131, the material tray 132, the upper roller 133, the lower roller 134, the lifting and pressing belt assembly 135, the guide rail 1351, the slider 1352, the auxiliary roller 1353, the first electrolytic paper feeding module 14, the second electrolytic paper feeding module 15, the anode foil feeding module 16, the cutting device 17, the first support rod 18, the first photoelectric sensor 181, the second support rod 19, the first photoelectric sensor 191, the cathode foil 201, the anode 202, the first electrolytic paper 203, the second electrolytic paper 204, A cathode lead 205, an anode lead 206.

Detailed Description

The present invention will be described in further detail with reference to examples and drawings, but the embodiments of the present invention are not limited thereto.

Referring to FIGS. 1-8:

an automatic winding device of a capacitor comprises a panel 1, wherein a winding module 2 is arranged on the panel 1, a cathode foil conveying module 3 and an anode foil conveying module 4 are respectively arranged on the left side and the right side of the winding module 2, a cathode pin conveying module 5 and a first electrolytic paper conveying module 6 are respectively arranged on the upper side and the lower side of the cathode foil conveying module 3, an anode pin conveying module 7 is arranged on the upper side of the anode foil conveying module 4, a second electrolytic paper conveying module 8 is arranged on the upper side of the cathode pin conveying module 5, a material pressing and cutting module 9 is arranged on the upper side of the anode pin conveying module 7, a blanking module 10 and a paper pulling module 11 are respectively arranged on the upper side and the lower side of the winding module 2, a material collecting box 12 is further arranged on the panel 1, and the material collecting box 12 is positioned under the blanking module 10;

a cathode foil feeding module 13, a first electrolytic paper feeding module 14 and a second electrolytic paper feeding module 15 are sequentially arranged on the left side of the panel 1, and an anode foil feeding module 16 is arranged on the right side of the panel 1;

the cathode foil feeding module 13, the first electrolytic paper feeding module 14, the second electrolytic paper feeding module 15 and the anode foil feeding module 16 all comprise a frame 131, a material tray 132, an upper roller 133, a lower roller 134 and an elevating and pressing belt assembly 135, the elevating and pressing belt assembly 135 is used for preventing the cathode foil 201, the anode foil 202, the first electrolytic paper 203, the second electrolytic paper 204 and other material belts from loosening in the feeding process, the elevating and pressing belt assembly 135 is positioned between the upper roller 133 and the lower roller 134, and the elevating and pressing belt assembly 135 comprises a guide rail 1351, a slide block 1352 connected with the guide rail 1351 in a sliding manner and an auxiliary roller 1353 fixed on the slide block 1352;

the winding module 2 comprises a support 21 fixed on the panel 1, a motor 22 fixed on the support 21, a cushion block 23 connected to the output end of the motor 22, and a pin 24 fixed on the cushion block 23.

Preferably, the cathode foil conveying module 3 is fixed to a first driving device 31 on the panel 1, and a first carrier plate 32 connected to an output end of the first driving device 31, a first sliding groove 321 is formed on the first carrier plate 32, and first brackets 322 are disposed at two ends of the first carrier plate 32.

Preferably, the cathode pin delivery module 5 includes a first pressing plate 51 rotatably connected to the first support 322, one end of the first pressing plate 51 is connected to a first baffle 511, one end of the first carrier plate 32 is further provided with a second driving device 33, the first driving device 31 is located at the lower side of the first baffle 511, one end of the first pressing plate 51 is further formed with a first pin slot 512 inclined downward, one side of the upper end of the first pin slot 512 is provided with a first pin delivery interface 513, and one side of the lower end of the first pin slot 512 is provided with a first automatic valve 514.

Preferably, the first electrolytic paper delivery module 6 includes a plurality of first delivery rollers 61, a second chute 323 is formed at the lower side of the first carrier plate 32, and the first delivery rollers 61 are located at the lower side of the second chute 323.

Preferably, the anode foil conveying module 4 is fixed on a third driving device 41 on the panel 1, and a second carrier plate 42 connected to an output end of the third driving device 41, a third sliding groove 421 is formed on the second carrier plate 42, and second supports 422 are arranged at two ends of the second carrier plate 42;

the upper side of the third chute 421 is further provided with a cutting device 17.

Preferably, the anode lead conveying module 7 includes a second pressing plate 71 rotatably connected to the second support 422, one end of the second pressing plate 71 is connected to a second baffle 711, one end of the second carrier plate 42 is further provided with a fourth driving device 423, the fourth driving device 423 is located at the lower side of the second baffle 711, one end of the second pressing plate 71 is further formed with a second lead groove 712 inclining downward, one side of the upper end of the second lead groove 712 is provided with a second lead conveying interface 713, and one side of the lower end of the second lead groove 712 is provided with a second automatic valve 714.

Preferably, the second electrolytic paper delivery module 8 includes a third carrier plate 81 fixed on the panel 1 and disposed obliquely downward, a pressure regulating assembly 82 located on one side of the third carrier plate 81, and a plurality of second delivery rollers 83 fixed on the panel 1, the pressure regulating assembly 82 includes a first pressing block 821 rotatably connected to the panel 1, a second pressing block 822, a spring 823 connected between the first pressing block 821 and the second pressing block 822, a bolt adjusting member 824 located on one side of the first pressing block 821, and a pressing roller 825 connected to a lower end of the second pressing block 822, a fourth sliding groove 811 is formed on the carrier plate, the pressing roller 825 is located on an upper side of the fourth sliding groove 811, and the pressure regulating assembly 82 is used for adjusting a pressure of the second electrolytic paper 204, and can be specifically realized by adjusting a rotation depth of the bolt adjusting member 824.

Preferably, the blanking module 10 includes a mounting seat 101 fixed on the panel 1, an extension rod 102 rotatably connected to the mounting seat 101, a first automatic clamp 103 fixed at a lower end of the extension rod 102, and a fifth driving device 104 located at one side of the extension rod 102 and used for pushing the extension rod 102.

Preferably, the paper pulling module 11 includes a sixth driving device 111 fixed on the panel 1 and disposed to lean against one side of the winding module 2, and a second automatic clamp 112 connected to an output end of the sixth driving device 111, and the second automatic clamp 112 may extend to an upper side of the winding module 2.

Preferably, the pressing and cutting module 9 includes a seventh driving device 91 fixed on the panel 1 and disposed close to one side of the winding module 2 in an inclined manner, a backing plate 92 connected to an output end of the seventh driving device 91, an arc-shaped pressing sheet 93 fixed on the backing plate 92, and a cutter 94, wherein the arc-shaped pressing sheet 93 is disposed close to one side of the winding module 2, and the cutter 94 is disposed close to one side of the bottom of the second electrolytic paper conveying module 8.

Preferably, in order to automatically sense whether the end of the first sliding chute 321 has the cathode pin 205 and whether the end of the third sliding chute 421 has the anode pin 206, a first supporting rod 18 is further fixed to one end of the first pressing plate 51, a first photoelectric sensor 181 is fixed to one end of the first supporting rod 18, the first photoelectric sensor 181 is located on one side of the end of the first sliding chute 321, when the anode pin 206 slides to the first sliding chute 321 along the first pin groove 512, the first photoelectric sensor 181 can sense the anode pin 206, a second supporting rod 19 is fixed to one end of the second pressing plate 71, a second photoelectric sensor 191 is fixed to one end of the second supporting rod 19, and the function of the second photoelectric sensor 191 is similar to that of the first photoelectric sensor 181, which is not described herein again.

The processing process of the capacitor inner core is as follows:

preparing materials: the cathode foil 201 is conveyed to the inner side of the first chute 321 through the cathode foil feeding module 13, the first electrolytic paper 203 is conveyed to the inner side of the second chute 323 through the first electrolytic paper feeding module 14, the cathode pins 205 slide to the bottom of the first pin slot 512 through the first pin slot 512, and finally the cathode foil 201 and the first electrolytic paper 203 are overlapped at the tail end of the first carrier plate 32; the anode foil 202 is conveyed into the third chute 421 by the anode foil feeding module 16, and is cut by the cutting device 17, and the anode pin 206 slides to the bottom of the second pin groove 712 through the second pin groove 712; the second electrolytic paper 204 is conveyed into the fourth chute 811 by the second electrolytic paper feeding module 15;

winding: the first driving device 31 is started, the first carrier plate 32 is pushed along the direction of the winding module 2, so that the cathode foil 201 and the first electrolytic paper 203 are pushed to the lower end of the contact pin 24, the cathode foil 201 and the first electrolytic paper 203 are wound by the rotating contact pin 24, the sixth driving device 111 is started to extend out, the second automatic clamp 112 is moved to the bottom of the fourth sliding groove 811, the bottom of the second electrolytic paper 204 is clamped by the second automatic clamp 112, the sixth driving device 111 is started to contract, the second automatic clamp 112 clamps and moves the second electrolytic paper 204 to the upper end of the contact pin 24, the second electrolytic paper 204 is wound by the rotating contact pin 24 after the second automatic clamp 112 is loosened, and the sixth driving device 111 controls the second automatic clamp 112 to reset; the third driving device 41 is started, the second carrier plate 42 is pushed along the direction of the rolling module 2, so that the anode foil 202 is pushed to the upper end of the contact pin 24, the anode foil 202 is rolled by the rotating contact pin 24, after rolling for a certain length, the first automatic valve 514 and the second automatic valve 714 are opened, so that one end of the cathode pin 205 falls and is attached to the cathode foil 201, one end of the anode pin 206 falls and is attached to the anode foil 202, and after rolling, the cathode pin 205 and the anode pin 206 are inserted into the inner side of the capacitor core and are respectively abutted against one end faces of the cathode foil 201 and the anode foil 202; after the winding is completed, the seventh driving device 91 can also control the arc-shaped pressing sheet 93 and the cutter 94 to move to one side of the contact pin 24, the cathode foil 201, the first electrolytic paper 203 and the second electrolytic paper 204 are cut by the cutter 94, and the end part is closed, because one end of the arc-shaped pressing sheet 93 is of an arc-shaped structure, the cathode foil 201, the anode foil 202, the first electrolytic paper 203 and the second electrolytic paper 204 can be wound along the arc surface of the arc-shaped pressing sheet 93 during the winding so as to improve the tightness of the inner core of the capacitor, so that the shape of the inner core of the capacitor tends to be more cylindrical;

blanking: the fifth driving device 104 is started to contract, the extension rod 102 swings along one side of the contact pin 24, the capacitor inner core wound and formed on the contact pin 24 is clamped by the first automatic clamp 103, the fifth driving device 104 is started to extend, the extension rod 102 swings towards the outer side, and after the first automatic clamp 103 is loosened, the capacitor inner core falls into the material collecting box 12 to be collected.

The above examples only show 1 embodiment of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. An automatic winding device of a capacitor is characterized by comprising a panel (1), wherein a winding module (2) is arranged on the panel (1), a cathode foil conveying module (3) and an anode foil conveying module (4) are respectively arranged on the left side and the right side of the winding module (2), a cathode pin conveying module (5) and a first electrolytic paper conveying module (6) are respectively arranged on the upper side and the lower side of the cathode foil conveying module (3), an anode pin conveying module (7) is arranged on the upper side of the anode foil conveying module (4), a second electrolytic paper conveying module (8) is arranged on the upper side of the cathode pin conveying module (5), a material pressing and cutting module (9) is arranged on the upper side of the anode pin conveying module (7), a blanking module (10) and a paper pulling module (11) are respectively arranged on the upper side and the lower side of the winding module (2), a material collecting box (12) is further arranged on the panel (1), the material collecting box (12) is positioned right below the blanking module (10);

a cathode foil feeding module (13), a first electrolytic paper feeding module (14) and a second electrolytic paper feeding module (15) are sequentially arranged on the left side of the panel (1), and an anode foil feeding module (16) is arranged on the right side of the panel (1);

the cathode foil feeding module (13), the first electrolytic paper feeding module (14), the second electrolytic paper feeding module (15) and the anode foil feeding module (16) respectively comprise a rack (131), a material tray (132), an upper roller (133), a lower roller (134) and a lifting and pressing belt assembly (135), the lifting and pressing belt assembly (135) is located between the upper roller (133) and the lower roller (134), and the lifting and pressing belt assembly (135) comprises a guide rail (1351), a sliding block (1352) connected with the guide rail (1351) in a sliding manner and an auxiliary roller (1353) fixed on the sliding block (1352);

the winding module (2) comprises a support (21) fixed on the panel (1), a motor (22) fixed on the support (21), a cushion block (23) connected to the output end of the motor (22), and a contact pin (24) fixed on the cushion block (23).

2. An automatic capacitor winding device according to claim 1, wherein the cathode foil conveying module (3) is fixed on a first driving device (31) on the panel (1), a first carrier plate (32) is connected to an output end of the first driving device (31), a first sliding slot (321) is formed on the first carrier plate (32), and first brackets (322) are arranged at two ends of the first carrier plate (32).

3. The automatic winding device for the capacitor as claimed in claim 2, wherein the cathode pin conveying module (5) comprises a first pressing plate (51) rotatably connected to the first support (322), one end of the first pressing plate (51) is connected to a first baffle (511), one end of the first carrier plate (32) is further provided with a second driving device (33), the first driving device (31) is located on the lower side of the first baffle (511), one end of the first pressing plate (51) is further formed with a first pin slot (512) which is inclined downwards, one side of the upper end of the first pin slot (512) is provided with a first pin conveying interface (513), and one side of the lower end of the first pin slot (512) is provided with a first automatic valve (514).

4. The automatic winding device for capacitors as claimed in claim 2, wherein the first electrolytic paper delivery module (6) comprises a plurality of first delivery rollers (61), a second chute (323) is formed on the lower side of the first carrier plate (32), and the first delivery rollers (61) are located on the lower side of the second chute (323).

5. The automatic winding device for capacitors as claimed in claim 1, wherein the anode foil transport module (4) is fixed on a third driving device (41) on the panel (1), a second carrier plate (42) connected to the output end of the third driving device (41), a third chute (421) is formed on the second carrier plate (42), and second brackets (422) are provided at two ends of the second carrier plate (42);

and a cutting device (17) is also arranged on the upper side of the third sliding groove (421).

6. The automatic winding device for the capacitor as claimed in claim 5, wherein the anode pin conveying module (7) comprises a second pressing plate (71) rotatably connected to the second support (422), one end of the second pressing plate (71) is connected to a second baffle (711), one end of the second carrier plate (42) is further provided with a fourth driving device (423), the fourth driving device (423) is located at the lower side of the second baffle (711), one end of the second pressing plate (71) is further formed with a second pin groove (712) inclining downwards, one side of the upper end of the second pin groove (712) is provided with a second pin conveying interface (713), and one side of the lower end of the second pin groove (712) is provided with a second automatic valve (714).

7. The automatic winding device of capacitor as claimed in claim 1, wherein the second electrolytic paper delivery module (8) comprises a third carrier plate (81) fixed on the panel (1) and disposed obliquely downward, a voltage regulating assembly (82) located at one side of the third carrier plate (81), a plurality of second delivery rollers (83) fixed on the panel (1), the pressure regulating assembly (82) comprises a first pressing block (821) rotatably connected with the panel (1), a second pressing block (822), a spring (823) connected between the first pressing block (821) and the second pressing block (822), a bolt adjusting piece (824) positioned on one side of the first pressing block (821), and a pressing roller (825) connected to the lower end of the second pressing block (822), the carrier plate is provided with a fourth sliding groove (811), and the compression roller (825) is positioned on the upper side of the fourth sliding groove (811).

8. The automatic winding device for the capacitor as claimed in claim 1, wherein the blanking module (10) comprises a mounting seat (101) fixed on the panel (1), an extension rod (102) rotatably connected with the mounting seat (101), a first automatic clamp (103) fixed at the lower end of the extension rod (102), and a fifth driving device (104) located at one side of the extension rod (102) and used for pushing the extension rod (102).

9. An automatic condenser winding-up device according to claim 1, characterized in that the paper pulling module (11) comprises a sixth driving device (111) fixed on the panel (1) and disposed by inclining to the winding-up module (2) side, a second automatic clamp (112) connected to the output end of the sixth driving device (111), and the second automatic clamp (112) can extend to the upper side of the winding-up module (2).

10. The automatic winding device for the capacitor as claimed in claim 1, wherein the pressing and cutting module (9) comprises a seventh driving device (91) fixed on the panel (1) and inclined towards one side of the winding module (2), a backing plate (92) connected to the output end of the seventh driving device (91), an arc-shaped pressing sheet (93) fixed on the backing plate (92), and a cutter (94), wherein the arc-shaped pressing sheet (93) is arranged towards one side of the winding module (2), and the cutter (94) is arranged towards one side of the bottom of the second electrolytic paper conveying module (8).