CN-224198714-U - Button cell feeder

Abstract

The utility model discloses a button cell feeder, which relates to the field of button cell transplanting equipment and comprises L-shaped plates, wherein the two L-shaped plates are symmetrically arranged, a transplanting structure is arranged between the L-shaped plates, a feeding structure is arranged on the transplanting structure, the feeding structure comprises a displacement plate and a transplanting pipe, a plurality of transplanting pipes distributed in a matrix are fixedly connected to the lower surface of the displacement plate, a magnet column is embedded into the bottom end of the transplanting pipe, a limiting plate is arranged below the displacement plate, limiting holes matched with the transplanting pipes are formed in the limiting plate, the transplanting structure is connected with the L-shaped plates through a lifting adjusting structure, absorbs and takes materials from the button cells through the magnet column at the bottom end of the transplanting pipe, and falling and discharging are realized by utilizing the limiting holes in the limiting plate.

Inventors

• HUANG LIBO

Assignees

• 东莞市天球实业有限公司

Dates

Publication Date

20260505

Application Date

20250509

Claims (6)

1. 1. A button cell feeder comprises L-shaped plates (1), and is characterized in that two L-shaped plates (1) are symmetrically arranged, a transplanting structure (3) is arranged between the L-shaped plates, a feeding structure (4) is arranged on the transplanting structure (3), the feeding structure (4) comprises a displacement plate (401) and a transplanting pipe (402), a plurality of transplanting pipes (402) which are distributed in a matrix mode are fixedly connected to the lower surface of the displacement plate (401), magnet columns (405) are embedded in the bottom ends of the transplanting pipes (402), limiting plates (403) are arranged below the displacement plate (401), limiting holes (404) which are matched with the transplanting pipes (402) are formed in the limiting plates (403), and the transplanting structure (3) is connected with the L-shaped plates (1) through a lifting adjusting structure (2).
2. 2. The button cell feeder of claim 1, wherein the lifting adjusting structure (2) comprises sliding plates (203), two L-shaped plates (1) are provided with long sliding grooves (202) on adjacent vertical side surfaces, the sliding plates (203) are connected in a sliding manner, a plurality of integrally formed protruding ribs (207) are arranged on the side surfaces, close to the long sliding grooves (202), of the sliding plates (203), special-shaped sliding grooves (204) are formed on the other side surfaces, bolts (205) are connected in a sliding manner, threaded sleeves (206) are connected on the bolts (205), and a plurality of clamping teeth (201) which are uniformly arranged are fixedly connected with the embedded surfaces in the long sliding grooves (202).
3. 3. The button cell feeder of claim 2, wherein the transplanting structure (3) comprises a U-shaped beam (301) and a transplanting plate (302), the U-shaped beam (301) is reversely buckled, two side faces are fixedly connected with adjacent ends of screws (205) respectively, a motor (305) is installed on one side face inside the U-shaped beam (301), a screw rod (304) is connected to the output end of the motor (305), the other end of the screw rod (304) is rotatably connected with the other side face of the U-shaped beam (301), threaded holes matched with the screw rod (304) are formed in the transplanting plate (302), two horizontal guide rails (303) symmetrically arranged relative to the screw rod (304) are installed in the U-shaped beam (301), and the other end of the horizontal guide rail (303) penetrates through the transplanting plate (302) in a sliding mode.
4. 4. The button cell feeder of claim 3, wherein the transplanting plate (302) is located right above the displacement plate (401), an air cylinder (407) is installed at the center of the bottom of the transplanting plate (302), the output end of the air cylinder (407) is fixedly connected with the top of the displacement plate (401), four rectangular vertical guide rails (406) are fixedly connected with the bottom of the transplanting plate (302), the bottom ends of the vertical guide rails (406) are fixedly connected with the limiting plate (403), and the vertical guide rails (406) slide through the displacement plate (401) at the middle position.
5. 5. The button cell feeder of claim 1, wherein the horizontal side surface of the L-shaped plate (1) is fixedly connected with a plurality of reinforcing rib plates (101), the side wall of the reinforcing rib plates (101) is fixedly connected with the vertical side surface of the L-shaped plate (1), and a plurality of mounting holes (102) are formed in the horizontal side surface of the L-shaped plate (1).
6. 6. The button cell feeder of claim 4, wherein the magnet post (405) is made of neodymium magnet material.

Description

Button cell feeder Technical Field The utility model relates to the field of button cell transplanting equipment, in particular to a button cell feeder. Background Button cells are small batteries shaped like buttons, also known as button cells. The battery is an ideal power supply for portable and small electronic equipment due to small size, light weight and high energy density, and is widely applied to various electronic products such as watches, calculators, remote controllers, electronic dictionaries, electronic scales, computer mainboards, electric toys, medical equipment (such as cardiac pacemakers, electronic hearing aids and the like). The traditional button cell discharger relies on a clamping jaw grabbing mechanism, and the process involves an opening and closing grabbing action, so that certain time loss is caused, the working efficiency of the button cell discharger is affected, in addition, an electromagnet transplanting mode is also used, excessive electric quantity is consumed when the button cell discharger is electrified, and cost expenditure is increased. Disclosure of utility model The utility model aims to provide a button cell feeder which reduces time loss in the grabbing or putting grabbing process, thereby improving working efficiency and solving the problems in the prior art. The utility model provides a button cell feeder which comprises L-shaped plates, wherein the two L-shaped plates are symmetrically arranged, a transplanting structure is arranged between the L-shaped plates, the transplanting structure is provided with a feeding structure, the feeding structure comprises a displacement plate and transplanting pipes, the lower surface of the displacement plate is fixedly connected with a plurality of transplanting pipes distributed in a matrix manner, magnet columns are embedded into the bottom ends of the transplanting pipes, a limiting plate is arranged below the displacement plate, limiting holes matched with the transplanting pipes are formed in the limiting plate, and the transplanting structure is connected with the L-shaped plates through a lifting adjusting structure. Preferably, the lifting adjusting structure comprises a sliding plate, two L-shaped plates are provided with long-strip sliding grooves on adjacent vertical side surfaces, the sliding plate is connected with the sliding plate in a sliding manner, a plurality of integrally formed convex edges are arranged on the side surfaces, close to the long-strip sliding grooves, of the sliding plate, a special-shaped sliding groove is provided with a bolt in a sliding manner, a threaded sleeve is connected to the bolt in a threaded manner, and a plurality of clamping teeth which are uniformly arranged are fixedly connected to the embedded surfaces in the long-strip sliding grooves. Preferably, the transplanting structure comprises a U-shaped beam and a transplanting plate, wherein the U-shaped beam is reversely buckled, two side surfaces are fixedly connected with adjacent ends of screws respectively, a motor is arranged on one side surface of the inside of the U-shaped beam, a screw rod is connected to the output end of the motor, the other end of the screw rod is rotationally connected with the other side surface of the U-shaped beam, a threaded hole matched with the screw rod is formed in the transplanting plate, two horizontal guide rails symmetrically arranged relative to the screw rod are arranged in the inside of the U-shaped beam, and the other end of each horizontal guide rail penetrates through the transplanting plate in a sliding mode. Preferably, the transplanting plate is located right above the displacement plate, a cylinder is installed at the center of the bottom of the transplanting plate, the output end of the cylinder is fixedly connected with the top of the displacement plate, four rectangular vertical guide rails are fixedly connected with the bottom of the transplanting plate, the bottom ends of the vertical guide rails are fixedly connected with the limiting plates, and the vertical guide rails slide through the displacement plate at the middle position. Preferably, the horizontal side surface of the L-shaped plate is fixedly connected with a plurality of reinforcing rib plates, the side wall of the reinforcing rib plate is fixedly connected with the vertical side surface of the L-shaped plate, and a plurality of mounting holes are formed in the horizontal side surface of the L-shaped plate. Preferably, the magnet post is made of neodymium magnet material. Compared with the prior art, the utility model has the beneficial effects that: Firstly, the magnet column at the bottom end of the transplanting pipe is used for absorbing and taking materials, falling and discharging are realized by utilizing the limiting holes on the limiting plates, clamping jaws are not used for clamping in the process, the time loss in the grabbing or releasing and grabbing process is reduced, the working efficiency is im