CN216638042U

CN216638042U - Feeding and discharging mechanism for horizontal cell pressing equipment

Info

Publication number: CN216638042U
Application number: CN202123239764.0U
Authority: CN
Inventors: 汪正红; 牟京涛
Original assignee: Guangdong Yishengda Technology Co ltd
Current assignee: Guangdong Yishengda Technology Co ltd
Priority date: 2021-12-20
Filing date: 2021-12-20
Publication date: 2022-05-31
Anticipated expiration: 2031-12-20

Abstract

The utility model discloses a feeding and discharging mechanism for a horizontal cell pressure formation device, which comprises: the battery cell comprises a first thimble batten, a second thimble batten parallel to the first thimble batten, a first plurality of thimbles arranged on the first thimble batten, a second plurality of thimbles arranged on the second thimble batten, a limiting adjusting plate arranged above the first thimble batten and the second thimble batten, a first push rod arranged on the side of the first thimble and a second push rod arranged on the side of the second thimble, a first plurality of thimbles are arranged on the first thimble batten, a second plurality of thimbles are arranged on the second thimble batten, a battery cell is arranged in a gap between the first adjacent thimble and the second adjacent thimble, the bottom end of the battery cell is arranged on the limiting adjusting plate, and the first push rod and the second push rod are used for regulating the battery cell. Through this mechanism, only need artifical place electric core in the clearance of thimble can, need not to carry out the clamping to electric core, put full electric core after, push rod one is unified with push rod two and is put in order electric core on an online, has improved the efficiency of last unloading, uses manpower sparingly moreover.

Description

Feeding and discharging mechanism for horizontal cell pressing equipment

Technical Field

The utility model relates to the field of battery processing, in particular to a feeding and discharging mechanism for horizontal cell pressure formation equipment.

Background

The lithium ion battery needs to be formed in the production process, and the battery needs to be placed in forming equipment for formation. The tray is gone into to the artifical one by one clamping of electric core to the past generally, then artifical manual tray with the full electric core of clamping send into the equipment, also takes out the tray through the manual work in the unloading, takes off electric core on the tray one by one again, and efficiency is very low like this.

Accordingly, the prior art is deficient and needs improvement.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provides a feeding and discharging mechanism for horizontal cell pressure formation equipment.

The technical scheme of the utility model is as follows: the utility model provides a go up unloading mechanism that is used for horizontal pressfitting of electricity core to become equipment, includes: the thimble structure comprises a base frame, a first thimble plate, a second thimble plate, a first push rod, a second push rod, a first drive component, a second push rod and a second drive component, wherein the first thimble plate, the second limit adjustment plate, the first push rod and the second thimble plate are arranged on the first thimble plate and the second thimble plate in parallel, the first push rod is arranged beside the first thimble plate, the first drive component drives the first push rod to move, the second push rod is arranged beside the second thimble plate, the first thimble and the second thimble are arranged on the first thimble plate at intervals, the second thimble plate is arranged on the second thimble plate at intervals, the first thimble corresponds to the second thimble, the first thimble and the second thimble are provided with a clearance hole, and the first thimble and the second thimble pass through the clearance hole, the battery cell is placed in a gap between the first adjacent ejector pin and the second adjacent ejector pin, the bottom end of the battery cell is placed on the limiting adjusting plate, and the first push rod and the second push rod are located above the limiting adjusting plate.

Furthermore, the ejector pin plate driving device further comprises a driving assembly III for driving the ejector pin plate I to move, and the driving assembly III drives the ejector pin plate I to move towards or away from the ejector pin plate II.

Furthermore, a graduated scale is arranged on the driving assembly III.

Furthermore, the utility model also comprises a driving component IV for driving the limit adjusting plate to move up and down.

Furthermore, two groups of ejector pin strip plates I, ejector pins I, ejector pin strip plates II and ejector pins II are arranged on the base frame.

Further, the first driving assembly comprises: the screw rod I, the screw rod upper end block which is arranged on the limit adjusting plate and connected with one end of the screw rod I, the screw rod middle fixing block which is arranged on the limit adjusting plate and connected with the other end of the screw rod I, and the screw rod sleeve which is sleeved in the middle of the screw rod I are connected.

By adopting the scheme, the utility model has the following beneficial effects:

1. through the mechanism, the battery cell is placed in the gap of the thimble manually without clamping the battery cell, and after the battery cell is filled, the first push rod and the second push rod are unified to arrange the battery cell on a line, so that the charging and discharging efficiency is improved, and the labor is saved;

2. the mechanism can adjust the distance between the first thimble and the second thimble, so that the mechanism can adapt to electric cores with various length sizes;

3. the height of spacing adjusting plate can be adjusted to this mechanism to can adapt to the electric core of multiple height dimension.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the present invention.

Fig. 3 is a front view of the present invention.

Fig. 4 is a side view of the present invention.

Detailed Description

The utility model is described in detail below with reference to the figures and the specific embodiments.

Referring to fig. 1 to 4, the present invention provides a feeding and discharging mechanism for a horizontal cell pressure formation apparatus, including: base frame 1, locate thimble slat one 2 on the base frame 1, with 2 parallel arrangement's of thimble slat two 3, locate a plurality of thimbles one 4 on the thimble slat one 2, locate two 3 on the thimble slat a plurality of thimbles two 5, locate the spacing adjusting plate 6 of two 3 tops of thimble slat one 2 and thimble slat, locate the push rod 7, the drive of 4 sides of thimble one 7 the drive assembly one 8 that the push rod 7 removed, locate the push rod two 9 and the drive of two 5 sides of thimble the drive assembly two 10 that the push rod two 9 removed.

The battery cell is characterized in that the plurality of first thimbles 4 are arranged on the first thimble strip plate 2 at equal intervals, the plurality of second thimbles 5 are arranged on the second thimble strip plate 3 at equal intervals, a certain distance is reserved between each two adjacent first thimbles 4 and each two adjacent second thimbles 5 for placing the battery cell 100, the positions of each first thimble 4 and each second thimble 5 are corresponding, one end of the battery cell 100 is placed between the first thimble 4, and the other end of the battery cell 100 is placed between the second thimble 5. And the limiting adjusting plate 6 is provided with clearance holes corresponding to the first ejector pins 4 and the second ejector pins 5, and the top ends of the first ejector pins 4 and the second ejector pins 5 penetrate through the clearance holes. The mechanism is suitable for square battery cores, two side face plates of the battery core 100 are positioned in a gap between the adjacent first ejector pin 4 and the adjacent second ejector pin 5, and the bottom end of the battery core 100 is placed on the limiting adjusting plate 6. In this embodiment, two sets of the first thimble plate 2, the first thimble 4, the second thimble plate 3, and the second thimble 5 are provided, so that more battery cells 100 can be placed on the limiting adjustment plate 6 manually.

When the battery cell 100 is manually placed, the position of the battery cell 100 is irregular, so that the first push rod 7 and the second push rod 9 are arranged to arrange the battery cells regularly, and the battery cells are arranged in a straight line. The first push rod 7 and the second push rod 9 are located above the limiting adjusting plate 6, the first push rod 7 is driven to move through the first driving assembly 8, and the second push rod 9 is driven to move through the second driving assembly 10. After the battery cell 100 is placed, the first driving assembly 8 and the second driving assembly 10 respectively drive the first push rod 7 and the second push rod 9 to move, and the battery cell 100 is arranged into a straight line.

The first driving assembly 8 comprises: the screw rod I81, the screw rod upper end block 82 which is arranged on the limit adjusting plate 6 and connected with one end of the screw rod I81, the screw rod middle fixing block 83 which is arranged on the limit adjusting plate 6 and connected with the other end of the screw rod I81, and the screw rod sleeve 84 which is sleeved in the middle of the screw rod I81, wherein the push rod I7 is connected with the screw rod sleeve 84. Because the two groups of the first ejector pins 4 and the second ejector pins 5 are arranged in the embodiment, the two groups of the first ejector pins 4 are arranged close to each other, the first push rods 7 are arranged beside the first ejector pins 4 of each group, and the first push rods 7 of each group are positioned between the first ejector pins 4 of each group. Therefore, two sets of screws one 81 are provided, the two sets of screws one 81 are connected through the coupler, and the screw directions of the threads of the two sets of screws one 81 are opposite. When one of the screws 81 is rotated, the two sets of push rods 81 move simultaneously.

The second driving assembly 10 includes: the air cylinder 101 is arranged on the bottom surface of the limiting adjusting plate 6, the air cylinder push plate 102 is connected with the air cylinder 101, the linear guide rail is arranged on the top surface of the limiting adjusting plate 6, the sliding block is arranged on the guide rail, the second push rod 9 is fixed on the sliding block, and the air cylinder push plate 102 is positioned on the outer side of the second push rod 9. The cylinder 101 contracts to drive the cylinder push plate 102 to contract, so that the second push rod 9 is driven to approach the second ejector pin 5. The battery cell 100 is regulated under the action of the first push rod 7 and the second push rod 9.

The utility model also comprises a driving component III 11 for driving the ejector pin plate I2 to move, and the driving component III 11 drives the ejector pin plate I2 to approach or depart from the ejector pin plate II 3. The third driving assembly 11 includes: locate two 111 of screw rods on the base frame 1, the cover is located nut on two 111 of screw rods and locating movable block on the nut, first 2 and movable block fixed connection of ejector pin slat, be equipped with the handle on two 111 of screw rods, the rotation handle drives two 111 of screw rods and rotates to drive movable block and ejector pin slat one 2 and be close to or keep away from to two 3 of ejector pin slats, with this electric core 100 that adapts to different length size.

And a graduated scale 112 is arranged beside the second screw rod 111, so that the size can be observed conveniently and clearly.

The utility model also comprises a driving component IV 12 for driving the limit adjusting plate 6 to move up and down. The driving assembly four 12 comprises: locate riser 121, the top on the base frame 1 is located the last bottom of riser 121 is located screw rod three 122 on the base frame 1 and the lift adjusting nut 123 of cover locating on screw rod three 122, lift adjusting nut 123 is connected with spacing adjusting plate 6, and the top of screw rod three 122 is equipped with the handle, and through the handle of rotating screw rod three 122, drives screw rod three 122 and rotates to drive lift adjusting nut 123 and spacing adjusting plate 6 and reciprocate. The battery cores with different height sizes are adapted by adjusting the height of the limiting adjusting plate 6.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a go up unloading mechanism that is used for horizontal pressfitting of electricity core to become equipment which characterized in that includes: the thimble structure comprises a base frame, a first thimble plate, a second thimble plate, a first push rod, a second push rod, a first drive component, a second push rod and a second drive component, wherein the first thimble plate, the second limit adjustment plate, the first push rod and the second thimble plate are arranged on the first thimble plate and the second thimble plate in parallel, the first push rod is arranged beside the first thimble plate, the first drive component drives the first push rod to move, the second push rod is arranged beside the second thimble plate, the first thimble and the second thimble are arranged on the first thimble plate at intervals, the second thimble plate is arranged on the second thimble plate at intervals, the first thimble corresponds to the second thimble, the first thimble and the second thimble are provided with a clearance hole, and the first thimble and the second thimble pass through the clearance hole, the battery cell is placed in a gap between the adjacent ejector pin I and the adjacent ejector pin II, the bottom end of the battery cell is placed on the limiting adjusting plate, and the push rod I and the push rod II are located above the limiting adjusting plate.

2. The feeding and discharging mechanism for the horizontal cell-type compression molding equipment according to claim 1, further comprising a third driving assembly for driving the first ejector tie plate to move, wherein the third driving assembly drives the ejector tie plate to move towards or away from the second ejector tie plate.

3. The feeding and discharging mechanism for the horizontal cell-type pressurized equipment according to claim 2, wherein a third driving assembly is provided with a graduated scale.

4. The feeding and discharging mechanism for the horizontal cell pressing equipment according to claim 2, further comprising a fourth driving assembly for driving the limiting adjustment plate to move up and down.

5. The feeding and discharging mechanism for the horizontal battery cell compression molding equipment according to claim 2, wherein two groups of first ejector pin strip plates, first ejector pins, second ejector pin strip plates and second ejector pins are arranged on the base frame.

6. The feeding and discharging mechanism for the horizontal cell pressing equipment according to claim 5, wherein the first driving assembly comprises: the screw rod I, the screw rod upper end block which is arranged on the limit adjusting plate and connected with one end of the screw rod I, the screw rod middle fixing block which is arranged on the limit adjusting plate and connected with the other end of the screw rod I, and the screw rod sleeve which is sleeved in the middle of the screw rod I are connected.