CN204632851U - Battery zinc cylinder or carbon core loading device - Google Patents

Abstract

The utility model discloses a battery zinc cylinder or carbon core loading device, which comprises a frame, wherein the frame comprises a preassembling mechanism, a pressing-in mechanism and a battery fixing seat positioned below the pressing-in mechanism, the preassembling mechanism comprises a material plate provided with a plurality of discharge ports, a plurality of guide grooves connected with the discharge ports one by one through the guide grooves, a material pushing mechanism pushing the zinc cylinder or the carbon core into the guide grooves from the material plate, and a preassembling seat positioned below the guide grooves, and the preassembling seat is provided with fixing holes in one-to-one correspondence with the guide grooves; the transverse driving mechanism drives the pre-mounting seat to move to and from the lower part of the lead-in groove and between the press-in mechanism and the battery fixing seat; the press-in mechanism comprises a press-in seat, press-in rods and a press-in seat lifting driving structure, wherein the press-in rods are arranged on the press-in seat and correspond to the fixing holes in the pre-installation seat one by one. The utility model discloses a horizontal formula can batch production simultaneously, and production efficiency is high. Additionally, the utility model discloses equipment operation is simple, can operate alone, can save a large amount of manpowers, reduces the recruitment cost of product.

Description

Battery zinc cylinder or carbon core loading device

Technical Field

The utility model relates to a zinc-manganese battery technical field, concretely relates to battery zinc section of thick bamboo or carbon core device of packing into.

Background

Zinc manganese paperboard battery production generally involves the following steps: 1. pre-assembling a zinc cylinder; 2. putting the zinc cylinder into a paper cylinder; 3. putting a zinc cylinder into the base paper; 4. adding carbon powder; 5. pressing an air rubber plug; 6. pressing the carbon core; 7. gluing and sealing; 8. pressing the positive end cover; 9. and (4) spinning. The zinc cylinder and the carbon core are generally arranged in the traditional zinc-manganese paperboard battery production by adopting the determinant production, and the efficiency is low. Therefore, the prior art is in need of improvement.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to the problem that above-mentioned exists, a battery zinc section of thick bamboo or carbon core device of packing into is provided, adopts the juxtapose, can batch production, and production efficiency is high.

The utility model discloses a realize above-mentioned purpose, take following technical scheme to realize:

a battery zinc cylinder or carbon core loading device comprises a rack, wherein the rack comprises a pre-assembly mechanism, a press-in mechanism and a battery fixing seat positioned below the press-in mechanism, the pre-assembly mechanism comprises a material tray provided with a plurality of discharge ports, a plurality of guide grooves connected with the discharge ports one by one through the guide grooves, a material pushing mechanism pushing a zinc cylinder or a carbon core into the guide grooves from the material tray, and a pre-assembly seat positioned below the guide grooves, and the pre-assembly seat is provided with fixing holes corresponding to the guide grooves one by one; the transverse driving mechanism drives the pre-mounting seat to move to and from the lower part of the lead-in groove and between the press-in mechanism and the battery fixing seat; the press-in mechanism comprises a press-in seat, press-in rods and a press-in seat lifting driving structure, wherein the press-in rods are arranged on the press-in seat and correspond to the fixing holes in the pre-installation seat one by one.

Preferably, the upper part of the guide chute is of a convex arc structure, and the lower part of the guide chute is vertical.

Preferably, the material pushing mechanism comprises a thimble aligned with the discharge hole and a cylinder for driving the thimble. The discharging port is provided with a material pushing stop block to prevent the zinc cylinder or the carbon core from flying out.

Preferably, the pressing mechanism comprises a pressing strip, a plurality of pressing rods arranged on the pressing strip and aligned with the material guide groove, and an air cylinder for driving the pressing strip to press/release.

Preferably, the transverse driving mechanism comprises a guide rod, a sliding rod sleeved outside the guide rod and a transverse cylinder driving the sliding rod to transversely slide on the guide rod; the sliding rod is fixedly connected with the pre-mounting seat.

Preferably, the bottom of the fixing hole is provided with a spring plate.

Preferably, the number of the preassembly mechanisms is two, and the two preassembly mechanisms are respectively arranged on two sides of the press-in mechanism; the two pre-mounting seats are driven by the transverse driving mechanism to move back and forth between the two pre-mounting mechanisms and the pressing mechanism. The two pre-installation mechanisms are arranged, so that the production efficiency can be improved, when the left pre-installation seat is well installed and moved to the position below the press-in mechanism to be pressed in, the right pre-installation seat can complete pre-installation on the right pre-installation mechanism, and the pre-installation time is saved.

Preferably, the number of the discharge holes is 25.

Preferably, the battery fixing seat is provided with 25 zinc cylinder positions.

Preferably, the pressing seat lifting driving structure is an air cylinder.

After the zinc cylinder or the carbon core is pushed into the guide groove by the pushing mechanism, the zinc cylinder or the carbon core slides down to the lead-in groove along the guide groove and is installed into the fixing hole of the pre-mounting seat along the lead-in groove. The transverse driving mechanism transversely moves the installed pre-mounting seat to a position between the press-in mechanism and the battery fixing seat, the press-in seat lifting driving structure drives the press-in seat to descend, and the press-in rod descends along with the press-in seat to press a zinc cylinder or a carbon core in a fixing hole of the pre-mounting seat into the battery fixing seat.

The utility model has the advantages as follows:

(1) The utility model discloses a horizontal formula can batch production simultaneously, and production efficiency is high.

(2) The utility model discloses equipment operation is simple, can operate alone, can save a large amount of manpowers, reduces the recruitment cost of product.

Drawings

Fig. 1 is a schematic structural view of a battery zinc cylinder or carbon core loading device of the present invention;

fig. 2 is a side view of a battery zinc can or carbon core loading device of the present invention;

fig. 3 is a top view of the battery zinc can or carbon core loading device of the present invention.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Referring to FIGS. 1-3: a battery zinc cylinder or carbon core loading device comprises a rack 1, wherein the rack 1 comprises a preassembly mechanism 2, a press-in mechanism 3, a battery fixing seat 4 positioned below the press-in mechanism 3 and a transverse driving mechanism 5. The pre-mounting mechanism 2 comprises a material tray 22 provided with a plurality of discharge ports 21, a plurality of lead-in grooves 24 connected with the discharge ports 21 one by one through the material guide grooves 23, a material pushing mechanism 6 for pushing the zinc cylinder or the carbon core into the material guide grooves 23 from the material tray 22, and pre-mounting seats 25 positioned below the lead-in grooves 24, wherein the pre-mounting seats 25 are provided with fixing holes 26 corresponding to the lead-in grooves 24 one by one. The transverse driving mechanism 5 is used for driving the pre-mounting seat 25 to move to and from the lower part of the lead-in groove 24 and between the press-in mechanism 3 and the battery fixing seat 4, so that the press-in mechanism 3 can press the zinc cylinder or the carbon core pre-mounted on the pre-mounting seat 25 into the battery fixing seat 4 conveniently.

The press-in mechanism 3 comprises a press-in seat 31, press-in rods 32 arranged on the press-in seat 31 and corresponding to the fixing holes 26 on the pre-installed seat one by one, and a press-in seat lifting driving structure 33. The driving mechanism 33 for elevating the press-in seat is an air cylinder.

The upper part of the material guide groove 23 is of an outward convex arc structure, and the lower part of the material guide groove 23 is vertical, so that a zinc cylinder or a carbon core can conveniently slide into the guide groove 24 from the material guide groove 23.

The pushing mechanism 6 includes a thimble 61 aligned with the discharge port 21 and a cylinder 62 driving the thimble 61. The discharge port 21 is provided with a material pushing stop block 63 to prevent the zinc cylinder or the carbon core from flying out.

The utility model discloses still be equipped with hold-down mechanism 7. The pressing mechanism 7 comprises a pressing bar 71, a plurality of pressing rods 72 arranged on the pressing bar 71 and aligned with the material guide chute 23, and an air cylinder 73 for driving the pressing bar 71 to press/release.

The transverse driving mechanism 5 comprises a guide rod 51, a sliding rod 52 sleeved outside the guide rod 51 and a transverse air cylinder 53 driving the sliding rod 52 to transversely slide on the guide rod 51. The slide rod 52 is fixedly connected to the pre-mount 25.

The bottom of the fixing hole 26 is provided with a spring plate 27, so that the zinc cylinder or the carbon core can not fall out during preassembly.

As the preferred scheme of the utility model: the two pre-installation mechanisms 2 are respectively arranged at two sides of the press-in mechanism 3; the number of the pre-assembly seats 25 is two, and the transverse driving mechanism 5 drives the pre-assembly seats 25 to move back and forth between the two pre-assembly mechanisms 2 and the pressing-in mechanism 3. The two pre-installation mechanisms 2 are arranged, so that the production efficiency can be improved, when the left pre-installation seat is well assembled and moved to the position below the press-in mechanism to be pressed in, the right pre-installation seat can be pre-installed on the right pre-installation mechanism, and the pre-installation time is saved.

As the preferred scheme of the utility model: the battery fixing seat 4 is provided with 25 zinc cylinder positions. Therefore, the preassembly seat is also provided with 25 fixing holes, and the discharge hole is also 25. 25 zinc cans or carbon cores can be preloaded at a time and 25 zinc cans or carbon cores can be pressed at a time.

After the pushing mechanism 6 pushes the zinc cylinder or the carbon core into the guide chute 23, the zinc cylinder or the carbon core slides down to the guide chute 24 along the guide chute 23, and is loaded into the fixing hole 26 of the pre-mount 25 along the guide chute 24. The transverse driving mechanism 5 transversely moves the assembled pre-mount 25 to a position between the press-in mechanism 3 and the battery fixing seat 4, the press-in seat lifting driving mechanism 33 drives the press-in seat 31 to descend, and the press-in rod 32 descends along with the descending of the press-in seat lifting driving mechanism to press the zinc cylinder or the carbon core in the fixing hole 26 of the pre-mount 25 into the battery fixing seat 4.

The utility model has the advantages as follows:

(1) The utility model discloses a horizontal formula can batch production simultaneously, and production efficiency is high.

(2) The utility model discloses equipment operation is simple, can operate alone, can save a large amount of manpowers, reduces the recruitment cost of product.

However, the above description is only a preferred embodiment of the present invention, and the scope of the present invention should not be limited thereby, and all the simple equivalent changes and modifications described in the claims and the specification of the present invention are included in the scope of the present invention. In addition, the abstract and the title are provided to assist the searching of patent documents and are not intended to limit the scope of the present invention.

Claims (10)

1. A battery zinc cylinder or carbon core loading device is characterized by comprising a rack, wherein the rack comprises a pre-assembly mechanism, a press-in mechanism and a battery fixing seat positioned below the press-in mechanism, the pre-assembly mechanism comprises a material tray provided with a plurality of discharge ports, a plurality of guide grooves connected with the discharge ports one by one through the guide grooves, a material pushing mechanism pushing a zinc cylinder or a carbon core into the guide grooves from the material tray, and a pre-assembly seat positioned below the guide grooves, and the pre-assembly seat is provided with fixing holes in one-to-one correspondence with the guide grooves; the transverse driving mechanism drives the pre-mounting seat to move to and from the lower part of the lead-in groove and between the press-in mechanism and the battery fixing seat; the pressing-in mechanism comprises a pressing-in seat, pressing-in rods and a pressing-in seat lifting driving structure, wherein the pressing-in rods are arranged on the pressing-in seat and correspond to the fixing holes in the preassembly seat one by one.

2. The battery zinc can or carbon core loading device as claimed in claim 1, wherein the guiding chute has an upper part of an arc-shaped structure protruding outwards and a lower part of a vertical shape.

3. The battery zinc cylinder or carbon core loading device according to claim 1, wherein the pushing mechanism comprises a thimble aligned with the discharge hole and a cylinder for driving the thimble.

4. The battery zinc cylinder or carbon core loading device according to claim 1, further comprising a pressing mechanism, wherein the pressing mechanism comprises a pressing strip, a plurality of pressing rods arranged on the pressing strip and aligned with the material guide grooves, and a cylinder for driving the pressing strip to press/release.

5. The apparatus as claimed in claim 1, wherein the lateral driving mechanism comprises a guide bar, a sliding bar sleeved outside the guide bar, and a lateral cylinder for driving the sliding bar to slide laterally on the guide bar; the sliding rod is fixedly connected with the pre-mounting seat.

6. The battery zinc can or carbon core loading device according to claim 1, wherein the bottom of the fixing hole is provided with a spring sheet.

7. The battery zinc can or carbon core loading device according to claim 1, wherein the number of the preassembly mechanisms is two, and the two preassembly mechanisms are respectively arranged at two sides of the pressing mechanism; the number of the preassembly seats is two, and the transverse driving mechanism drives the preassembly seats to move back and forth between the two preassembly mechanisms and the press-in mechanism.

8. The battery zinc can or carbon core loading device of claim 1, wherein the number of the discharge holes is 25.

9. The battery zinc can or carbon core loading device as claimed in claim 1, wherein the battery holder is provided with 25 zinc can positions.

10. The battery zinc cylinder or carbon core loading device according to claim 1, wherein the pressing seat lifting driving structure is a cylinder.