CN222421665U - A plug-in electrolytic capacitor production coiling and foil cutting machine - Google Patents

Abstract

The utility model discloses a rolling foil cutting machine for plug-in electrolytic capacitor production, which relates to the technical field of electrolytic capacitors, in particular to a rolling foil cutting machine for plug-in electrolytic capacitor production, comprising a chassis and foil paper, wherein a secondary cleaning mechanism is arranged on the chassis and used for leveling and secondary cleaning of the foil paper, a primary cleaning mechanism is arranged on the secondary cleaning mechanism and used for primary cleaning of the foil paper, the secondary cleaning mechanism comprises a main body assembly, a main frame and a rolling foil cutting machine, the main frame is fixed at the top of the chassis, and front plates and rear plates are respectively fixed at the front end and the rear end of the inside of the main frame; the flattening component comprises front sliding blocks and rear sliding blocks which are longitudinally and respectively arranged on the two sides of the front end and the two sides of the rear end of the main frame, and the problems that the follow-up dust is difficult to clean due to the fact that the foil paper is flattened firstly and then dust is removed from the surface of the foil paper, and the dust is compacted on the surface of the foil paper in the flattening process are solved.

Description

Plug-in electrolytic capacitor production rolling foil cutting machine

Technical Field

The utility model relates to the technical field of electrolytic capacitors, in particular to a winding foil cutting machine for production of plug-in electrolytic capacitors.

Background

The foil cutting machine is suitable for the large-finished product rolling diameter requirement of the modern aluminum processing industry, has two shearing modes, has wide application range and high unit speed, can ideally meet the process requirement of longitudinal shearing of metal strips, can perform accurate, stable and reliable speed control and tension control, can form ideal tension gradient, has moderate tightness of sheared finished products, has regular end faces, accords with relevant national and enterprise standards and regulations, integrates unit auxiliary equipment and a host machine, is controlled by a PLC program, is fully automatic in operation, has high production efficiency, short auxiliary time, high unit comprehensive performance, strong practicability, reasonable unit design parameters, compact structure, high automation degree, convenient operation and simple maintenance;

According to the technical scheme of CN217516346U, a leveling mechanism is arranged, the foil paper can be rolled by the rolling foil carrier machine through mutual coordination among all structures in the leveling mechanism, and the foil paper to be rolled can be flattened at the same time, so that the rolling foil carrier machine has the advantages of ensuring that the rolled foil paper cannot be wrinkled, ensuring that the appearance is more attractive and tidier, facilitating the later preservation of the foil paper by staff, and providing convenient technical effects for the production of the subsequent electrolytic capacitor;

The scheme is that the foil paper is flattened firstly and then dust is removed from the surface of the foil paper, so that the dust is compacted on the surface of the foil paper in the flattening process, and the problem that the follow-up dust is difficult to clean is caused.

Disclosure of utility model

Aiming at the defects of the prior art, the utility model provides a rolling foil cutting machine for producing plug-in electrolytic capacitors, which has the characteristics that the surfaces of two ends of foil paper can be cleaned for the first time through a primary cleaning mechanism, and the foil paper can be flattened through a secondary cleaning mechanism and simultaneously cleaned for the second time.

The utility model aims at realizing the purposes by adopting the following technical scheme that the rolling foil cutting machine for producing plug-in electrolytic capacitors comprises a chassis and foil paper, wherein a secondary cleaning mechanism is arranged on the chassis and used for leveling and secondary cleaning of the foil paper, a primary cleaning mechanism is arranged on the secondary cleaning mechanism and used for primary cleaning of the foil paper, and the secondary cleaning mechanism comprises:

The main body assembly comprises a main frame fixed at the top of the underframe, and a front plate and a rear plate are respectively fixed at the front end and the rear end of the inside of the main frame;

The flattening assembly comprises front sliding blocks and rear sliding blocks which are longitudinally and slidably arranged at the two sides of the front end and the two sides of the rear end of the main frame respectively, a front bonding roller is arranged between the front sliding blocks at the two sides, and a rear bonding roller is arranged between the rear sliding blocks at the two sides;

The driving assembly comprises a connecting rod rotatably arranged at two ends of the main frame, and kidney-shaped holes are formed in the two ends of the connecting rod.

Preferably, the driving assembly further comprises a mounting frame fixed at two ends of the main frame, the mounting frame is provided with a first motor and used for driving the connecting rod to rotate, and the connecting rod is respectively in sliding connection with the front sliding block and the rear sliding block through kidney-shaped holes at two sides.

Preferably, the main body assembly further includes rollers rotatably mounted at both front and rear ends of the front plate and both front and rear ends of the rear plate.

Preferably, the primary cleaning mechanism comprises:

The cleaning assembly comprises vertical frames fixed at two sides of the rear end of the secondary cleaning mechanism, a lower brush roller is rotatably arranged between the vertical frames at two sides, a lower transmission bevel gear is fixed at one end of the lower brush roller, a sliding frame is longitudinally and slidably arranged at the upper end of the inside of the vertical frame, an upper brush roller is rotatably arranged between the sliding frames at two sides, and an upper transmission bevel gear is fixed at one end of the upper brush roller;

The transmission assembly comprises a shaft lever rotatably arranged between the upper end and the lower end of the vertical frame.

Preferably, the transmission assembly further comprises a second motor arranged on the stand and used for driving the shaft rod to rotate, a lower driving bevel gear fixed at the lower end of the shaft rod, an upper driving bevel gear rotatably arranged on the sliding frame, a key bar fixed on the outer wall of the upper end of the shaft rod and used for realizing sliding connection of the shaft rod and the upper driving bevel gear, a threaded rod is arranged at the upper end of the stand in a penetrating thread way, and the lower end of the threaded rod is rotationally connected with the sliding frame.

Preferably, the front end of the underframe is provided with a receiving mechanism, and the rear end of the underframe is provided with a discharging mechanism.

Advantageous effects

The utility model provides a winding foil cutting machine for production of plug-in electrolytic capacitors. Compared with the prior art, the method has the following beneficial effects:

(1) The lower drive bevel gear is driven by the output end driving shaft lever of the second motor to rotate, the lower drive bevel gear drives the lower brush roll to rotate through the lower drive bevel gear, meanwhile, the shaft lever also drives the upper brush roll to rotate through the upper drive bevel gear matched with the upper drive bevel gear, the upper brush roll can synchronously reversely rotate through the lower brush roll, and further, the surfaces of the upper end and the lower end of foil passing through the shaft lever can be cleaned and dedusted, so that primary cleaning is realized.

(2) The output end of the first motor drives the connecting rod to rotate, the connecting rod drives the front sliding block and the rear sliding block through waist-shaped holes at two ends respectively, the front sliding block drives the front adhesive roller to move downwards to flatten the foil paper on the front plate, the rear sliding block drives the rear adhesive roller to move upwards to flatten the foil paper on the rear plate, and the rolled foil paper is integrally flattened, so that the production of subsequent procedures is facilitated;

(3) Because the front adhesive roller surface and the rear adhesive roller surface are provided with a layer of adhesive material, the front adhesive roller and the rear adhesive roller can adhere dust remained on the surfaces of the upper end and the lower end of the foil paper, and can realize secondary cleaning in the process of flattening the foil paper.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of a secondary cleaning mechanism according to the present utility model;

FIG. 3 is a schematic view of a primary cleaning mechanism according to the present utility model;

FIG. 4 is a schematic cross-sectional view of a portion of a primary cleaning mechanism according to the present utility model.

In the figure, 1, a chassis; 2, a secondary cleaning mechanism, 21, a main body assembly, 211, a main frame, 212, a front plate, 213, a rear plate, 214, a roller, 22, a flattening assembly, 221, a front sliding block, 222, a front bonding roller, 223, a rear sliding block, 224, a rear bonding roller, 23, a driving assembly, 231, a mounting frame, 232, a connecting rod, 233, a kidney-shaped hole, 234, a first motor, 3, a primary cleaning mechanism, 31, a cleaning assembly, 311, a vertical frame, 312, a lower brush roller, 313, a lower transmission bevel gear, 314, a carriage, 315, an upper brush roller, 316, an upper transmission bevel gear, 32, a transmission assembly, 321, a shaft lever, 322, a second motor, 323, a lower transmission bevel gear, 324, an upper transmission bevel gear, 325, a key bar, 326, a threaded rod, 4, a discharging mechanism, 5, a collecting mechanism, 6 and foil paper.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the utility model provides a plug-in type electrolytic capacitor production winding foil cutting machine, which comprises a chassis 1 and foil paper 6, wherein a secondary cleaning mechanism 2 is arranged on the chassis 1 and is used for leveling and secondary cleaning the foil paper 6, a primary cleaning mechanism 3 is arranged on the secondary cleaning mechanism 2 and is used for primary cleaning of the foil paper 6, and the secondary cleaning mechanism 2 comprises:

the main body assembly 21 comprises a main frame 211 fixed at the top of the underframe 1, and a front plate 212 and a rear plate 213 are respectively fixed at the front end and the rear end of the inside of the main frame 211;

The flattening component 22 comprises a front sliding block 221 and a rear sliding block 223 which are longitudinally and slidably arranged at the front end and the rear end of the main frame 211 respectively, a front bonding roller 222 is arranged between the front sliding blocks 221 at the two sides, and a rear bonding roller 224 is arranged between the rear sliding blocks 223 at the two sides;

The driving assembly 23 comprises a connecting rod 232 rotatably installed at two ends of the main frame 211, kidney-shaped holes 233 are formed in two ends of the connecting rod 232, a mounting frame 231 fixed at two ends of the main frame 211 is fixed on the mounting frame 231, a first motor 234 is installed on the mounting frame 231 and used for driving the connecting rod 232 to rotate, and the connecting rod 232 is respectively in sliding connection with the front sliding block 221 and the rear sliding block 223 through the kidney-shaped holes 233 at two sides.

In this embodiment, the foil 6 in the conveying process is attached to the lower end of the rear plate 213, attached to the upper end of the front plate 212, and the output end of the first motor 234 drives the connecting rod 232 to rotate, and the connecting rod 232 drives the front slider 221 and the rear slider 223 through the kidney-shaped holes 233 at two ends, so that the front slider 221 drives the front adhesive roller 222 to move downward to flatten the foil 6 on the front plate 212, the rear slider 223 drives the rear adhesive roller 224 to move upward to flatten the foil 6 on the rear plate 213, and the front adhesive roller 222 and the rear adhesive roller 224 can adhere the dust remained on the upper and lower end surfaces of the foil 6 due to the fact that the front adhesive roller 222 and the rear adhesive roller 224 are provided with a layer of adhesive material.

Specifically, the body assembly 21 further includes rollers 214 rotatably mounted at both front and rear ends of the front plate 212 and front and rear ends of the rear plate 213.

In this embodiment, the positions of the foil 6 near the end of the front plate 212 and the end of the rear plate 213 may be attached to the roller 214, and the roller 214 is driven to roll during the conveying process of the foil 6, so that the conveying process of the foil 6 is smoother, and interference between the front plate 212 and the rear plate 213 on the foil 6 during the conveying process is avoided.

Specifically, the primary cleaning mechanism 3 includes:

The cleaning assembly 31 comprises vertical frames 311 fixed at two sides of the rear end of the secondary cleaning mechanism 2, a lower brush roller 312 is rotatably arranged between the vertical frames 311 at two sides, a lower transmission bevel gear 313 is fixed at one end of the lower brush roller 312, a sliding frame 314 is longitudinally and slidably arranged at the upper end of the inside of the vertical frame 311, an upper brush roller 315 is rotatably arranged between the sliding frames 314 at two sides, and an upper transmission bevel gear 316 is fixed at one end of the upper brush roller 315;

The transmission assembly 32 comprises a shaft 321 rotatably mounted between the upper and lower ends of the stand 311.

In this embodiment, the lower drive bevel gear 323 is driven to rotate by the output end of the second motor 322, the lower drive bevel gear 323 drives the lower brush roller 312 to rotate by the lower drive bevel gear 313, meanwhile, the shaft 321 drives the upper brush roller 315 to rotate by the upper drive bevel gear 324 in cooperation with the upper drive bevel gear 316, and the upper brush roller 315 can synchronously rotate reversely by the lower brush roller 312, so that the upper and lower end surfaces of the foil paper 6 passing through the shaft can be cleaned and dedusted.

Specifically, the transmission assembly 32 further includes a second motor 322 mounted on the stand 311 and configured to drive the shaft 321 to rotate, a lower drive bevel gear 323 fixed to a lower end of the shaft 321, an upper drive bevel gear 324 rotatably mounted on the carriage 314, and a spline 325 fixed to an outer wall of an upper end of the shaft 321 and configured to slidably connect the shaft 321 with the upper drive bevel gear 324.

In this embodiment, the upper brush roller 315 on the carriage 314 is driven to lift by rotating the threaded rod 326, so that the distance between the upper brush roller 315 and the front plate 212 can be adjusted according to the thickness of the foil 6.

Specifically, the front end of the chassis 1 is provided with a receiving mechanism 5, and the rear end of the chassis 1 is provided with a discharging mechanism 4.

In this embodiment, the foil 6 may be wound around the discharging mechanism 4, and one end of the foil 6 is wound around the receiving mechanism 5, and the foil 6 is wound around the receiving mechanism 5, so as to control the foil 6 to be conveyed.

The foil paper 6 passes through the primary cleaning mechanism 31, the lower drive bevel gear 323 is driven to rotate by the output end driving shaft lever 321 of the second motor 322, the lower drive bevel gear 323 drives the lower brush roller 312 to rotate by the lower drive bevel gear 313, the shaft lever 321 drives the upper brush roller 315 to rotate by the cooperation of the upper drive bevel gear 324 and the upper drive bevel gear 316, the upper brush roller 315 can synchronously and reversely rotate by the lower brush roller 312, and then the surfaces of the upper and lower ends of the foil paper 6 passing through the foil paper 6 can be cleaned and dedusted to realize primary cleaning;

Then, the foil 6 in the conveying process is attached to the lower end of the rear plate 213 and attached to the upper end of the front plate 212, the output end of the first motor 234 drives the connecting rod 232 to rotate, the connecting rod 232 drives the front slider 221 and the rear slider 223 through the kidney-shaped holes 233 at the two ends respectively, the front slider 221 drives the front adhesive roller 222 to move downwards to flatten the foil 6 on the front plate 212, the rear slider 223 drives the rear adhesive roller 224 to move upwards to flatten the foil 6 on the rear plate 213, and the front adhesive roller 222 and the rear adhesive roller 224 are provided with a layer of adhesive material on the surfaces of the front adhesive roller 222 and the rear adhesive roller 224, so that dust remained on the surfaces of the upper end and the lower end of the foil 6 can be adhered by the front adhesive roller 222 and the rear adhesive roller 224, and secondary cleaning is realized.

The motor is EDSMT-2T110-020A, which is a product adopting the prior art, and is not described in detail herein, and the electrical components are all connected with an external main controller and 220V mains supply.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A plug-in electrolytic capacitor production winding and cutting machine, comprising a base frame (1) and foil (6), characterized in that: a secondary cleaning mechanism (2) is arranged on the base frame (1) and is used to flatten and perform secondary cleaning on the foil (6); a primary cleaning mechanism (3) is arranged on the secondary cleaning mechanism (2) and is used to perform primary cleaning on the foil (6); the secondary cleaning mechanism (2) comprises: The main body component (21) comprises a main frame (211) fixed on the top of the base frame (1), and a front plate (212) and a rear plate (213) are respectively fixed at the front and rear ends of the main frame (211); The flattening assembly (22) comprises a front slider (221) and a rear slider (223) respectively mounted longitudinally and slidably on both sides of the front end and the rear end of the main frame (211), a front adhesive roller (222) being mounted between the front sliders (221) on both sides, and a rear adhesive roller (224) being mounted between the rear sliders (223) on both sides; The driving assembly (23) comprises connecting rods (232) rotatably mounted on both ends of the main frame (211), and waist-shaped holes (233) are provided inside both ends of the connecting rod (232). 2. A plug-in electrolytic capacitor production winding and foil cutting machine according to claim 1, characterized in that: the driving component (23) also includes a mounting frame (231) fixed at both ends of the main frame (211), and a first motor (234) is installed on the mounting frame (231) and is used to drive the connecting rod (232) to rotate, and the connecting rod (232) is slidably connected to the front slider (221) and the rear slider (223) through the waist-shaped holes (233) on both sides. 3. The plug-in electrolytic capacitor production winding and foil cutting machine according to claim 1 is characterized in that: the main body component (21) also includes rollers (214) rotatably mounted on the front and rear ends of the front plate (212) and the front and rear ends of the rear plate (213). 4. The plug-in electrolytic capacitor production coiling and foil cutting machine according to claim 1, characterized in that: the primary cleaning mechanism (3) comprises: The cleaning assembly (31) comprises a stand (311) fixed on both sides of the rear end of the secondary cleaning mechanism (2); a lower brush roller (312) is rotatably mounted between the two side stands (311); a lower transmission bevel gear (313) is fixed to one end of the lower brush roller (312); a slide (314) is longitudinally slidably mounted on the inner upper end of the stand (311); an upper brush roller (315) is rotatably mounted between the two side slides (314); an upper transmission bevel gear (316) is fixed to one end of the upper brush roller (315); The transmission assembly (32) includes a shaft (321) rotatably mounted between the upper and lower ends of the stand (311). 5. A plug-in electrolytic capacitor production winding and foil cutting machine according to claim 4, characterized in that: the transmission assembly (32) also includes a second motor (322) installed on the stand (311) and used to drive the shaft (321) to rotate, a lower active bevel gear (323) fixed to the lower end of the shaft (321), and an upper active bevel gear (324) rotatably installed on the slide (314), a key strip (325) is fixed to the outer wall of the upper end of the shaft (321) and used to achieve sliding connection between the shaft (321) and the upper active bevel gear (324), a threaded rod (326) is threadedly installed on the upper end of the stand (311), and the lower end of the threaded rod (326) is rotatably connected to the slide (314). 6. A plug-in electrolytic capacitor production coiling and foil cutting machine according to claim 1, characterized in that: a material receiving mechanism (5) is provided at the front end of the base frame (1), and a material discharging mechanism (4) is provided at the rear end of the base frame (1).