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CN-117800008-B - Feed line is used in aluminium electrolytic capacitor production

CN117800008BCN 117800008 BCN117800008 BCN 117800008BCN-117800008-B

Abstract

The invention belongs to the technical field of capacitor production, in particular to a feed line for aluminum electrolytic capacitor production, which comprises a feed bin, wherein two inclined tables are fixedly connected to the left side position inside the feed bin, a driving mechanism is arranged between the two inclined tables, two sides of the driving mechanism are provided with adjusting mechanisms on the inclined tables, the driving mechanism comprises two driving shafts, one driving shaft penetrates through the tops of the two inclined tables, the other driving shaft penetrates through two brackets, rotating rollers are fixedly connected to the two driving shafts, a conveyor belt is connected to the two rotating rollers in a common rotation mode, semicircular grooves which are uniformly arranged are formed in the conveyor belt and used for conveying capacitors, the problem that after the capacitors are led into the storage bin by utilizing a blanking pipe, the positions of the capacitors cannot be adjusted, the same orientation of the capacitors cannot be guaranteed, and when the capacitors are assembled, the positions of the capacitors still need to be adjusted for assembly is solved.

Inventors

  • FU YUNJIAO
  • CHEN YU
  • LIU MIN
  • LUO CHUNWEN
  • LI JIE

Assignees

  • 益阳市鹏程科技发展有限公司

Dates

Publication Date
20260505
Application Date
20240201

Claims (8)

  1. 1. The feed line for producing the aluminum electrolytic capacitor is characterized by comprising a feed bin (1), wherein the feed bin (1) is used for placing a capacitor (11) to be assembled, the capacitor (11) comprises a capacitor core and a lead wire (12), and a bracket (13) is arranged at the bottom of the feed bin (1); The feeding bin (1) is internally provided with two inclined tables (14) at the left side, and a distance is reserved between the two inclined tables (14); a driving mechanism is arranged between the two inclined tables (14), and an adjusting mechanism is arranged on the inclined tables (14) at two sides of the driving mechanism, wherein the driving mechanism comprises two driving shafts (2); One driving shaft (2) passes through the tops of the two inclined tables (14) and is driven by a motor (21), the other driving shaft (2) passes through the two brackets (13), the two driving shafts (2) are fixedly connected with rotating rollers (22), and the two rotating rollers (22) are connected with a conveying belt (3) in a common rotation mode; the conveying belt (3) is positioned between the two inclined tables (14), and part of the conveying belt extends to the lower part of the feed bin (1) and penetrates through the feed bin (1), semicircular grooves (31) which are uniformly arranged are formed in the conveying belt (3), and the semicircular grooves (31) are used for conveying the capacitor (11); The adjusting mechanism comprises a first limiting plate (4) and a second limiting plate (41), and the first limiting plate (4) and the second limiting plate (41) are respectively arranged on the two inclined tables (14) and positioned at two sides of the conveyor belt (3); the first limiting plate (4) and the second limiting plate (41) are bent towards the opposite side at one side close to the bottom of the inclined table (14), the first limiting plate (4) and the second limiting plate (41) are attached to the inclined table (14) close to each other, and the heights of the first limiting plate (4) and the second limiting plate (41) are lower than the lowest point of a lead (12) on the capacitor (11); the upper surface of the second limiting plate (41) is fixedly connected with an arc-shaped guide plate (42) which extends upwards, a material blocking plate (5) is arranged between the two inclined tables (14) at the upper left side of the arc-shaped guide plate (42), mounting plates (51) are fixedly connected to the end faces of two sides of the material blocking plate (5), connecting rods (52) are mounted on the two mounting plates (51), the other sides of the connecting rods (52) are fixedly connected to the inclined tables (14), and a material pushing plate (53) is mounted on one side, facing the arc-shaped guide plate (42), of the material blocking plate (5).
  2. 2. The feed line for producing aluminum electrolytic capacitors according to claim 1, wherein an auxiliary assembly is arranged between every two adjacent semicircular grooves (31), the auxiliary assembly comprises a sliding groove (32), and the sliding groove (32) is arranged between the two adjacent semicircular grooves (31); A supporting plate (33) is arranged in each sliding groove (32) in a sliding way, the cross sections of the top and the bottom of the supporting plate (33) are semicircular, the top and the bottom of the supporting plate (33) are partially extended out of a conveying belt (3), a guide block (34) is arranged in an oblong groove formed by the conveying belt (3), the top of the guide block (34) protrudes upwards, and the guide block (34) is fixedly connected with a sloping table (14); Two mounting blocks (35) are fixedly connected to one side, facing the guide blocks (34), of the supporting plate (33), springs are fixedly connected to the mounting blocks (35), the other ends of the springs are fixedly connected to the conveyor belt (3), annular grooves (23) are formed in the two rotating rollers (22), and the width of the annular grooves (23) is the same as that of the supporting plate (33).
  3. 3. The feed line for producing aluminum electrolytic capacitors according to claim 2, wherein each supporting plate (33) is provided with an arc-shaped groove (36) at one side close to the semicircular grooves (31) at two sides, and arc-shaped plates (37) are rotatably connected in the arc-shaped grooves (36) through torsion springs; the arc-shaped groove (36) is positioned in the chute (32) in an initial state, and the arc-shaped groove (36) positioned on the supporting plate (33) at the protruding position of the top of the guide block (34) is positioned above the chute (32).
  4. 4. A feed line for producing an aluminum electrolytic capacitor as set forth in claim 3, wherein the top of the support plate (33) is a smooth surface.
  5. 5. A feed line for producing an aluminum electrolytic capacitor as claimed in claim 4, wherein the maximum distance by which the first limiting plate (4) and the second limiting plate (41) are bent toward the opposite side is smaller than the sum of the lengths of the cores of the two capacitors (11).
  6. 6. The feed line for producing aluminum electrolytic capacitors as recited in claim 5, wherein the end surfaces of the first limiting plate (4) and the second limiting plate (41) opposite to each other are rotatably connected with uniformly arranged rollers.
  7. 7. The feed line for producing aluminum electrolytic capacitors according to claim 6, wherein the first limiting plate (4) and the second limiting plate (41) are rotatably connected with threaded rods (43) on opposite sides, rectangular blocks (44) are fixedly connected to the inclined table (14) on opposite sides of the two threaded rods (43), threaded grooves are formed in the rectangular blocks (44), and the threaded rods (43) are meshed with the threaded grooves.
  8. 8. The feed line for producing aluminum electrolytic capacitors according to claim 7, wherein the mounting plate (51) is slidably connected with the connecting rod (52), threads are formed on the connecting rod (52), and nuts (54) are engaged with the connecting rod (52) through the threads below the mounting plate (51).

Description

Feed line is used in aluminium electrolytic capacitor production Technical Field The invention belongs to the technical field of capacitor production, and particularly relates to a feed line for aluminum electrolytic capacitor production. Background The aluminum electrolytic capacitor is made by taking an aluminum cylinder as a negative electrode, filling liquid electrolyte in the aluminum cylinder, and inserting a bent aluminum belt as a positive electrode. And a layer of oxide film is formed on the positive plate as a medium after direct-current voltage treatment. Its advantages are high capacity, high leakage current, poor stability, positive and negative polarities, and suitable for power supply filter or low-frequency circuit. A feeding device is often required in the assembly and production process of the aluminum electrolytic capacitor. When a stack of capacitors with the same specification are mixed, the existing feeding device cannot perform feeding treatment, so that certain limitation exists; Therefore, our research and development personnel put forward the patent with publication number CN210635240U to above-mentioned problem, and the theme name is a feedway for aluminum electrolytic capacitor production, through the rotating electrical machines that set up can rotate through driving the runner, cooperation connecting rod, T shape transfer line and spring, drive vibrations feed cylinder and make a round trip vibrations in the horizontal direction, make the condenser drop into in proper order in the spacing unloading pipe and make the condenser in the spacing unloading pipe accurately drop into the standing groove, make the condenser neatly feed to solve above-mentioned problem. However, in the subsequent use process, we find that after the capacitor is led into the placing bin by using the discharging pipe, the position of the capacitor cannot be adjusted, the uniform orientation of the capacitor cannot be ensured, and the capacitor still needs to be adjusted to be assembled when being assembled. Disclosure of Invention In order to make up the defects of the prior art, the feed line for producing the aluminum electrolytic capacitor comprises a feed bin, wherein the feed bin is used for placing a capacitor to be assembled, and the capacitor comprises a capacitor core and a lead wire; the feeding bin is characterized in that two inclined tables are fixedly connected at the left side position inside the feeding bin, and a distance is reserved between the two inclined tables; A driving mechanism is arranged between the two inclined tables, and two sides of the driving mechanism are provided with adjusting mechanisms on the inclined tables; One driving shaft passes through the tops of the two inclined tables and is driven by a motor, the other driving shaft passes through the two brackets, and the two driving shafts are fixedly connected with rotating rollers; The conveying belt is positioned between the two inclined tables, and part of the conveying belt extends to the lower part of the feed bin and penetrates through the feed bin; the adjusting mechanism comprises a first limiting plate and a second limiting plate, and the first limiting plate and the second limiting plate are respectively arranged on the two inclined tables and are positioned at two sides of the conveyor belt; The first limiting plate and the second limiting plate are attached to the adjacent inclined table, and the heights of the first limiting plate and the second limiting plate are lower than the lowest point of the upper lead of the capacitor; the upper surface of the second limiting plate is fixedly connected with an arc-shaped guide plate extending upwards at the middle position of the second limiting plate, a material blocking plate is arranged between two inclined tables at the upper left side of the arc-shaped guide plate, mounting plates are fixedly connected to the end faces of two sides of the material blocking plate, connecting rods are mounted on the two mounting plates, the other side of each connecting rod is fixedly connected to each inclined table, and a material pushing plate is mounted on one side, facing the arc-shaped guide plate, of each material blocking plate. Preferably, an auxiliary component is arranged between every two adjacent semicircular grooves, and the auxiliary component comprises a sliding groove which is arranged between the two adjacent semicircular grooves; The sliding chute is internally provided with a supporting plate in a sliding way, the sections of the top and the bottom of the supporting plate are semicircular, the top and the bottom of the supporting plate are partially extended out of a conveying belt, a guide block is arranged in a long circular groove formed by the conveying belt, the top of the guide block is upwards protruded, and the guide block is fixedly connected with an inclined table; Two mounting blocks are fixedly connected to one side of the supporting plate, facing the