CN216597670U

CN216597670U - Electricity core transfer device

Info

Publication number: CN216597670U
Application number: CN202123149875.2U
Authority: CN
Inventors: 万凤成
Original assignee: Suzhou Industrial Park Sunell Electronics Co ltd
Current assignee: Suzhou Industrial Park Sunell Electronics Co ltd
Priority date: 2021-12-15
Filing date: 2021-12-15
Publication date: 2022-05-24
Anticipated expiration: 2031-12-15

Abstract

The utility model discloses a battery cell transfer device which comprises a transfer box, a transfer unit and a transfer force unit; the left end and the right end in the transfer box are both rotationally connected with a transfer transverse shaft; transfer unit contains the transfer gear, drive chain, the rack links the board, electric core boxboard, push away rack and reverse pivot under the core, the transfer gear is all installed at both ends around two transfer cross axles, two transfer gears of both sides all connect through the drive chain transmission around, two drive chain pass through the rack and link the board and connect, electric core boxboard is installed to the upper end that the rack links the board, both ends sliding connection is at electric core boxboard lower extreme middle part around pushing away the rack under the core, this electric core transfer device, not only can carry out fine transfer to every electric core, electric core is in the level always when the transfer, and is more stable, and work efficiency is higher, more can satisfy the demand of production.

Description

Electricity core transfer device

Technical Field

The utility model relates to the technical field of battery cell transfer devices, in particular to a battery cell transfer device.

Background

In the production process to battery electricity core, need progressively to carry out the transfer to each board to electric core, make its gradual processing, current transfer device gets when the transfer and gets and causes dropping etc. of electric core easily, and the result of use is relatively poor.

A battery cell transfer device disclosed in a patent with a publication number of CN213438115U in the prior art includes a battery cell carrying mechanism; the battery cell bearing mechanism comprises a battery cell bearing assembly and an upper jacking assembly movably arranged below the battery cell bearing assembly; the battery cell bearing assembly comprises a battery cell bearing frame for supporting and fixing and a battery cell bearing plate arranged on the battery cell bearing frame, and an avoidance groove is formed in the battery cell bearing plate; the upper jacking component is used for filling the gap of the avoidance groove.

Although it can be very big degree avoid electric core to drop when the transfer, but it is at the during operation, and efficiency is lower, can not be better satisfy the user demand.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the existing defects and provides a cell transfer device which can transfer each cell well, enables the cell to be horizontal all the time during transfer, is more stable and higher in working efficiency, can meet the production requirements, and can effectively solve the problems in the background art.

In order to achieve the purpose, the utility model provides the following technical scheme: a cell transfer device comprises a transfer box, a transfer unit and a transfer rotating force unit;

a transfer box: the left end and the right end of the inner part are both rotationally connected with a transfer cross shaft;

a transfer unit: the electric core box plate comprises transfer gears, transmission chains, a rack connecting plate, an electric core box plate, a core pushing lower rack and a reverse rotating shaft, wherein the transfer gears are arranged at the front end and the rear end of two transfer transverse shafts, the two transfer gears at the front side and the rear side are connected in a transmission manner through the transmission chains, the two transmission chains are connected through the rack connecting plate, the electric core box plate is arranged at the upper end of the rack connecting plate, the front end and the rear end of the core pushing lower rack are connected to the middle part of the lower end of the electric core box plate in a sliding manner, the reverse rotating shaft is rotatably connected inside the electric core box plate, the reverse gear is arranged in the middle of the reverse rotating shaft, and the reverse gear is meshed with the core pushing lower rack; through the transmission of drive chain, the rack even board can carry out stable oval orbit motion, and electric core boxboard above that can be stable when the level drives electric core and removes, and the rack can be fine under the left shift pushing away the core release with electric core.

A transfer power unit: is arranged at the left side of the front end of the transfer box.

Further, the transfer unit further comprises a core pushing upper rack and a core pushing plate, the front end and the rear end of the core pushing upper rack are connected to the middle of the upper end of the electric core box plate in a sliding mode, the core pushing upper rack is connected with the reverse gear in a meshed mode, the core pushing plate is connected to the upper end of the electric core box plate in a sliding mode, and the lower end of the core pushing plate is connected with the left end of the core pushing upper rack. Through moving the lower rack of the push core leftwards, the upper rack of the push core can move rightwards by utilizing the transmission of the reverse gear, so that the upper rack of the push core drives the push core plate to push out the electric core on the electric core box plate rightwards.

Furthermore, the transfer power unit comprises power driven wheels, a transfer motor and a transmission belt, the left transfer transverse shaft penetrates through the front end of the transfer box and is provided with the power driven wheels, the transfer motor is arranged on the left side of the lower end of the transfer box, an output shaft of the transfer motor is connected with a power main wheel, and the power main wheel is in transmission connection with the power driven wheels through the transmission belt. The power driven wheel can rotate by the rotation of the transfer motor and the transmission of the transmission belt, so that a basis for providing power for the rotation of the transfer transverse shaft is provided.

Further, still include the feeding unit, the feeding unit contains feeding motor, fixed board of screw rod and oblique screw rod, feeding motor is installed to the front end of transfer case, the fixed board of screw rod is installed to the front end upper side of transfer case, the output shaft of feeding motor is connected to the lower extreme of oblique screw rod, the upper end of oblique screw rod is rotated and is connected the lower extreme that the board was decided at the screw rod. The rotation of the feeding motor can lead the inclined screw rod to stably rotate under the fixation of the screw rod fixed plate, thereby providing power for the ascending and descending of the feeding plate.

Furthermore, the feeding unit further comprises a feeding plate and a strip pushing rod, the rear end of the feeding plate is connected to the rear end of the interior of the transfer box in a sliding mode, the front end of the feeding plate penetrates through the front end of the transfer box and is in threaded connection with the inclined screw rod, and the strip pushing rod is installed at the left end of the feeding plate. After the feeding plate descends, the push rod can push the lower core pushing rack when the cell box plate moves, so that the cell can move conveniently.

Further, the feeding unit further comprises a guide inclined plate, and the guide inclined plate is arranged in the transfer box. Utilize the direction swash plate can make the reciprocating of delivery sheet more stable.

Compared with the prior art, the utility model has the beneficial effects that: this electric core transfer device has following benefit:

1. this electric core transfer device is equipped with the transfer unit, and through drive chain's transmission, the rack even board can carry out stable oval orbit motion, and electric core boxboard above that can be stable drive electric core when the level removes, and the left side is moved and is pushed away under the core rack can be fine and release electric core.

2. The transfer unit that this electric core transfer device was equipped with pushes away rack under the core through moving to the left, utilizes the transmission of reverse gear, can make to push away the rack and move to the right on the core, makes it drive and pushes away the core on with electric core boxboard and release to the right.

3. This electricity core transfer device is equipped with the transfer power unit, through the rotation of transfer motor, utilizes the transmission of drive belt, can make power from the round rotation of taking turns, and then provides the basis of power for the rotation of transfer cross axle.

Drawings

FIG. 1 is a schematic view of the structure of the present invention;

FIG. 2 is a schematic front cross-sectional view of the present invention;

fig. 3 is a schematic view of the enlarged structure of a portion a in fig. 2 according to the present invention.

In the figure: the device comprises a transfer box 1, a transfer transverse shaft 2, a transfer unit 3, a transfer gear 31, a transmission chain 32, a rack connecting plate 33, a cell box plate 34, a core pushing lower rack 35, a reverse rotating shaft 36, a core pushing upper rack 37, a core pushing plate 38, a transfer power unit 4, a power driven wheel 41, a transfer motor 42, a transmission belt 43, a feed unit 5, a feed motor 51, a screw fixed plate 52, an inclined screw 53, a feed plate 54, a strip pushing rod 55 and a guide inclined plate 56.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, the present embodiment provides a technical solution: a cell transfer device comprises a transfer box 1, a transfer unit 3 and a transfer force unit 4;

transfer case 1: the left end and the right end of the inner part are both rotationally connected with a transfer cross shaft 2;

a transfer unit 3: the cell box plate comprises transfer gears 31, transmission chains 32, a rack connecting plate 33, a cell box plate 34, a core pushing lower rack 35 and a reverse rotating shaft 36, wherein the transfer gears 31 are installed at the front and rear ends of two transfer transverse shafts 2, the two transfer gears 31 at the front and rear sides are in transmission connection through the transmission chains 32, the two transmission chains 32 are connected through the rack connecting plate 33, the cell box plate 34 is installed at the upper end of the rack connecting plate 33, the front and rear ends of the core pushing lower rack 35 are in sliding connection with the middle of the lower end of the cell box plate 34, the inside of the cell box plate 34 is rotatably connected with the reverse rotating shaft 36, the reverse gear is installed in the middle of the reverse rotating shaft 36, and the reverse gear is in meshing connection with the core pushing lower rack 35; through drive chain 32's transmission, rack even board 33 can carry out stable oval orbit motion, and electric core boxboard 34 on it can be when the level stable drive electric core remove, and the left side is moved and is pushed away under the core rack 35 can be fine and release electric core.

The transfer unit 3 further comprises a core pushing upper rack 37 and a core pushing plate 38, the front end and the rear end of the core pushing upper rack 37 are slidably connected to the middle of the upper end of the electric core box plate 34, the core pushing upper rack 37 is meshed with the reverse gear, the core pushing plate 38 is slidably connected to the upper end of the electric core box plate 34, and the lower end of the core pushing plate 38 is connected to the left end of the core pushing upper rack 37. By moving the core pushing lower rack 35 to the left, the core pushing upper rack 37 can be moved to the right by the transmission of the reverse gear, so that the core pushing upper rack drives the core pushing plate 38 to push out the battery core on the battery core box plate 34 to the right.

The intermediate power unit 4: is arranged at the left side of the front end of the transfer case 1.

The transfer power unit 4 comprises a power driven wheel 41, a transfer motor 42 and a transmission belt 43, the left transfer transverse shaft 2 penetrates through the front end of the transfer box 1 to be provided with the power driven wheel 41, the transfer motor 42 is arranged on the left side of the lower end of the transfer box 1, an output shaft of the transfer motor 42 is connected with a power main wheel, and the power main wheel is in transmission connection with the power driven wheel 41 through the transmission belt 43. The rotation of the relay motor 42 can rotate the power driven wheel 41 by the transmission of the transmission belt 43, and further provides a basis for relaying the rotation of the transverse shaft 2.

The automatic feeding device is characterized by further comprising a feeding unit 5, wherein the feeding unit 5 comprises a feeding motor 51, a screw fixing plate 52 and an inclined screw 53, the feeding motor 51 is installed at the front end of the transfer box 1, the screw fixing plate 52 is installed on the upper side of the front end of the transfer box 1, the lower end of the inclined screw 53 is connected with an output shaft of the feeding motor 51, and the upper end of the inclined screw 53 is rotatably connected with the lower end of the screw fixing plate 52. The rotation of the feeding motor 51 can make the inclined screw 53 stably rotate under the fixation of the screw fixing plate 52, and provide power for the ascending and descending of the feeding plate 54.

The feeding unit 5 further comprises a feeding plate 54 and a bar pushing rod 55, the rear end of the feeding plate 54 is slidably connected to the rear end of the interior of the transfer box 1, the front end of the feeding plate 54 penetrates through the front end of the transfer box 1 to be in threaded connection with the inclined screw 53, and the bar pushing rod 55 is mounted at the left end of the feeding plate 54. After the feeding plate 54 descends, the core pushing lower rack 35 can be pushed by the pushing rod 55 when the cell box plate 34 moves, so that the movement of the cells is facilitated.

The feeding unit 5 further comprises a guide inclined plate 56, and the guide inclined plate 56 is installed inside the transfer box 1. The up and down movement of the feed plate 54 can be stabilized more by the guide slope plate 56.

The working principle of the battery cell transfer device provided by the utility model is as follows: during the transfer, through outside mobile device, place electric core on electric core boxboard 34, then rotation through transfer motor 42, make the electric core boxboard 34 that has electric core move to the right side, when removing to suitable position, feeding motor 51 works, make feeding plate 54 descend to with electric core boxboard 34 collineation, then transfer motor 42 rotates once more, utilize and push away strip pole 55 to promote and push away core lower rack 35, make and push away core upper rack 37 and move to the right side, drive and push away core board 38 with electric core on electric core boxboard 34 release to feeding plate 54 on the right side after, feeding motor 51 works, make feeding plate 54 move up to treating the material level, other equipment can be on feeding plate 54 this moment, can to it processing, it is more convenient.

It should be noted that, the relay motor 42 and the feeding motor 51 disclosed in the above embodiments both use servo motors, the input end of the relay motor 42 is electrically connected to the output end of the external control switch set, the input end of the feeding motor 51 is electrically connected to the output end of the external control switch set, the input end of the external control switch set is electrically connected to the output end of the external power supply, and the method commonly used in the prior art is adopted for the external control switch set to control the relay motor 42 and the feeding motor 51 to work.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides a battery core transfer device which characterized in that: comprises a transfer box (1), a transfer unit (3) and a transfer power unit (4);

transfer case (1): the left end and the right end of the inner part are both rotationally connected with a transfer transverse shaft (2);

relay unit (3): the electric core pushing device comprises a transfer gear (31), a transmission chain (32), a rack connecting plate (33), an electric core box plate (34), a core pushing lower rack (35) and a reverse rotating shaft (36), wherein the transfer gear (31) is installed at the front end and the rear end of each of two transfer transverse shafts (2), the two transfer gears (31) on the front side and the rear side are in transmission connection through the transmission chain (32), the two transmission chains (32) are connected through the rack connecting plate (33), the electric core box plate (34) is installed at the upper end of the rack connecting plate (33), the front end and the rear end of the core pushing lower rack (35) are in sliding connection with the middle of the lower end of the electric core box plate (34), the inside of the electric core box plate (34) is rotatably connected with the reverse rotating shaft (36), the reverse gear is installed in the middle of the reverse rotating shaft (36), and the reverse gear is in meshing connection with the core pushing lower rack (35);

transfer power unit (4): is arranged at the left side of the front end of the transfer box (1).

2. The cell transfer device of claim 1, wherein: the transfer unit (3) further comprises a core pushing upper rack (37) and a core pushing plate (38), the front end and the rear end of the core pushing upper rack (37) are connected to the middle of the upper end of the electric core box plate (34) in a sliding mode, the core pushing upper rack (37) is connected with the reverse gear in a meshing mode, the core pushing plate (38) is connected to the upper end of the electric core box plate (34) in a sliding mode, and the lower end of the core pushing plate (38) is connected with the left end of the core pushing upper rack (37).

3. The cell transfer device of claim 1, wherein: the transfer power unit (4) comprises a power driven wheel (41), a transfer motor (42) and a transmission belt (43), the power driven wheel (41) is installed at the front end of the left transfer transverse shaft (2) penetrating through the transfer box (1), the transfer motor (42) is installed at the left side of the lower end of the transfer box (1), an output shaft of the transfer motor (42) is connected with a power main wheel, and the power main wheel is in transmission connection with the power driven wheel (41) through the transmission belt (43).

4. The cell transfer device of claim 1, wherein: still include feeding unit (5), feeding unit (5) contain feeding motor (51), screw rod and decide board (52) and oblique screw rod (53), feeding motor (51) are installed to the front end of transfer case (1), screw rod is installed to the front end upper side of transfer case (1) and is decided board (52), the output shaft of feeding motor (51) is connected to the lower extreme of oblique screw rod (53), the upper end of oblique screw rod (53) is rotated and is connected the lower extreme at screw rod and decide board (52).

5. The battery cell transfer device of claim 4, wherein: the feeding unit (5) further comprises a feeding plate (54) and a strip pushing rod (55), the rear end of the feeding plate (54) is connected to the rear end of the interior of the transfer box (1) in a sliding mode, the front end of the feeding plate (54) penetrates through the front end of the transfer box (1) to be in threaded connection with the inclined screw rod (53), and the strip pushing rod (55) is installed at the left end of the feeding plate (54).

6. The battery cell transfer device of claim 4, wherein: the feeding unit (5) further comprises a guide inclined plate (56), and the guide inclined plate (56) is arranged in the transfer box (1).