CN216188997U - Discharging device of lithium battery thickness detector - Google Patents

Abstract

The utility model provides a discharging device of a lithium battery thickness detection machine, relates to the field of auxiliary devices for lithium battery thickness detection, and aims to solve the problems that the existing thickness detection machine is not provided with a discharging device, after the lithium battery thickness detection is finished, workers manually discharge materials one by one, the discharging efficiency is low, and the overall detection efficiency of a lithium battery is influenced. Including work rack, slide rail, battery year thing board and lithium cell, the slide rail symmetry sets up on the work rack, the battery carries thing board slidable and sets up in the top of slide rail, and through limit baffle's setting, guarantee that the lithium cell is stable orderly in the transmission course of unloading, avoids the lithium cell to drop from the stock guide, through discharge apparatus's setting, stable orderly collects the lithium cell to the collection frame one by one, by the liftout cylinder with the lithium cell jacking, then by pushing away the material cylinder with the lithium cell propulsion collection frame one by one again.

Description

Discharging device of lithium battery thickness detector

Technical Field

The utility model relates to the field of auxiliary devices for lithium battery thickness detection, in particular to a discharging device of a lithium battery thickness detection machine.

Background

The lithium battery refers to a battery containing lithium in an electrochemical system, and the lithium battery can be roughly divided into two types, namely a lithium metal battery and a lithium ion battery, wherein the lithium metal battery is usually non-rechargeable and contains metallic lithium, the lithium ion battery does not contain metallic lithium and can be charged, and the chemical property of lithium metal is very active, so that the lithium metal has very high requirements on the environment for processing, storage and use, and therefore, the lithium battery is not applied for a long time.

To the problem of manual detection lithium cell thickness inefficiency, designed a device that is used for lithium cell thickness to detect, solved the problem that detection efficiency is low, still have functional defect in the thickness detection machine, do not set up discharge apparatus in the thickness detection machine, lithium cell thickness detects the completion back, unloads one by the staff is manual, the inefficiency of unloading, influence the problem of the whole detection efficiency of lithium cell, consequently design a section and be used for the discharge apparatus of lithium cell thickness detection machine, seem especially important.

SUMMERY OF THE UTILITY MODEL

The utility model provides a discharging device of a lithium battery thickness detector, and aims to solve the problems that in the prior art, the discharging device is not arranged in the thickness detector, after the thickness detection of a lithium battery is finished, workers manually discharge the lithium battery one by one, the discharging efficiency is low, and the overall detection efficiency of the lithium battery is influenced.

In order to solve the technical problems, the utility model provides a discharging device of a lithium battery thickness detector, which comprises a working cabinet, slide rails, a battery carrying plate and a lithium battery, wherein the slide rails are symmetrically arranged on the working cabinet, the battery carrying plate is slidably arranged above the slide rails, the lithium battery is arranged on the battery carrying plate, the discharging device is arranged on the right side of the slide rails, the discharging device comprises material ejecting cylinders, the material ejecting cylinders are symmetrically distributed below the battery carrying plate, material pushing cylinders are arranged on the right side of the slide rails, material pushing rods are arranged in the material pushing cylinders, the material pushing rods and the material pushing cylinders are slidably arranged, push plates are arranged on the left sides of the material pushing rods, material collecting frames are arranged on the left sides of the slide rails, and the material collecting frames are detachably connected to the working cabinet.

Preferably, the collecting frame is connected with the battery carrying plate through a material guide plate, limit baffles are arranged on two sides of the material guide plate, the material guide plate is fixedly connected to the collecting frame through a fastener, and the limit baffles are detachably connected with the collecting frame.

Preferably, the material collecting frame is provided with a fixed block, the limiting baffle is provided with a clamping plate, the limiting baffle and the clamping plate are slidably arranged, and the material collecting frame is connected with the working cabinet through a reinforcing rib.

Preferably, a piston rod is arranged in the material ejecting cylinder, and the piston rod and the battery loading plate can slide.

Preferably, the cross section of the push plate is in a concave design, and the right end of the push plate is fixedly connected to the material pushing rod.

Preferably, a cylinder fixing plate is arranged on the working cabinet, a cushion block is arranged on the cylinder fixing plate, and the pushing cylinder is fixedly connected to the cushion block through a fastener.

The utility model has the following beneficial effects:

(1) according to the lithium battery discharging device, the arrangement of the limiting baffle plate ensures that the lithium batteries are stable and orderly in the discharging and transferring process, the lithium batteries are prevented from falling off the material guide plate, the lithium batteries are stably and orderly collected into the material collecting frame one by one through the arrangement of the discharging device, the lithium batteries are jacked up by the jacking air cylinder, and then the lithium batteries are pushed into the material collecting frame one by the material pushing air cylinder;

(2) the material pushing and collecting device is integrally completed by the material pushing cylinder and the material pushing cylinder in a mutual cooperation mode, compared with a conventional mode of manually collecting lithium batteries, the collecting efficiency is greatly improved, the lithium batteries are collected by the mutual cooperation of the cylinders with different functions in multiple stations, semi-automatic production and processing are realized, the discharging device is simple in integral structure and compact in design, can be detachably arranged on a working cabinet, is convenient for workers to install and maintain, optimizes the existing working space, and reduces the manufacturing cost of enterprises.

Drawings

Fig. 1 is an overall view of a discharging device of a lithium battery thickness detecting machine according to the present invention;

FIG. 2 is a top view of a discharging device of a lithium battery thickness detecting machine according to the present invention;

wherein, 1, a working cabinet; 2. a slide rail; 3. a battery loading plate; 301. a material guide plate; 302. a limit baffle; 303. a fixed block; 304. clamping a plate; 4. a lithium battery; 5. a discharge device; 501. a material ejection cylinder; 502. a material pushing cylinder; 503. a material pushing rod; 504. pushing the plate; 505. a material collecting frame; 506. reinforcing ribs; 507. a piston rod; 6. a cylinder fixing plate; 601. and a cushion block.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments.

As shown in fig. 1-2, the utility model provides a discharging device of a lithium battery thickness detector, which comprises a working cabinet 1, a sliding rail 2, a battery carrying plate 3 and a lithium battery 4, wherein the sliding rail 2 is symmetrically arranged on the working cabinet 1, the battery carrying plate 3 is slidably arranged above the sliding rail 2, the lithium battery 4 is arranged on the battery carrying plate 3, a discharging device 5 is arranged on the right side of the sliding rail 2, the discharging device 5 comprises a material ejecting cylinder 501, the material ejecting cylinder 501 is symmetrically distributed below the battery carrying plate 3, the right side of the sliding rail 2 is provided with a material pushing cylinder 502, the material pushing cylinder 502 is provided with a material pushing rod 503, the material pushing rod 503 and the material pushing cylinder 502 are slidably arranged, the left side of the material pushing rod 503 is provided with a push plate 504, the left side of the sliding rail 2 is provided with a material collecting frame 505, the collecting frame 505 is detachably connected to the working cabinet 1.

Further, the collecting frame 505 is connected with the battery loading plate 3 through a material guide plate 301, two sides of the material guide plate 301 are provided with a limit baffle 302, the material guide plate 301 is fixedly connected to the collecting frame 505 through a fastener, and the limit baffle 302 is detachably connected with the collecting frame 505.

Further, a fixed block 303 is arranged on the collecting frame 505, a clamping plate 304 is arranged on the limiting baffle 302, the limiting baffle 302 and the clamping plate 304 are slidably arranged, and the collecting frame 505 is connected with the working cabinet 1 through a reinforcing rib 506.

Further, a piston rod 507 is disposed in the material ejecting cylinder 501, and the piston rod 507 and the battery loading plate 3 are slidable.

Further, the cross section of the push plate 504 is designed to be concave, and the right end of the push plate 504 is fixedly connected to the push rod 503.

Further, an air cylinder fixing plate 6 is arranged on the work cabinet 1, a cushion block 601 is arranged on the air cylinder fixing plate 6, and the pushing air cylinder 502 is fixedly connected to the cushion block 601 through a fastener.

The working principle of the discharging device of the lithium battery thickness detector is as follows: after the lithium battery 4 to be tested finishes thickness detection, firstly, the material fixing cylinder starts to work, the material ejecting cylinder 501 drives the piston rod 507 to move upwards, the piston rod 507 and the battery carrying plate 3 can be arranged in a sliding mode, the piston rod 507 slides out of the battery carrying plate 3 to integrally eject the lithium battery 4 until the lithium battery 4 is higher than the material guide plate 301, the material ejecting cylinder 501 stops operating, the driving control of the material ejecting cylinder 501 is manually controlled by workers, the real-time operating height of the lithium battery 4 is controlled through visual observation of the workers, then the workers manually control the material ejecting cylinder 502 to start working, the material ejecting cylinder 502 pushes the material pushing rod 503 to operate, the material pushing rod 503 drives the pushing plate 504 to move towards the direction of the material collecting frame 505, the lithium battery 4 is driven by the pushing plate 504 to slide into the material collecting frame 505 to finish unloading and collecting work of the lithium battery 4, and the limit baffle 302 is detachably connected to the material collecting frame 505, the lithium battery collecting device is beneficial to installation and maintenance of workers, the lithium batteries 4 are stably and orderly arranged in the discharging and transferring process through the arrangement of the limiting baffle 302, the lithium batteries 4 are prevented from falling off the guide plate 301, the lithium batteries 4 are stably and orderly collected into the material collecting frame 505 one by one through the arrangement of the discharging device 5, the lithium batteries 4 are lifted up by the material ejecting cylinder 501, then the lithium batteries 4 are pushed into the material collecting frame 505 one by one through the material pushing cylinder 502, the whole material pushing and collecting work is completed through the mutual cooperation of the material ejecting cylinder 501 and the material pushing cylinder 502, compared with the conventional mode of manually collecting the lithium batteries 4, the collecting efficiency is greatly improved, the collection work of the lithium batteries 4 is completed through the mutual cooperation of the cylinders with different functions in multiple stations, the semi-automatic production and processing are realized, the discharging device 5 is simple in whole structure and compact in design, can be detachably arranged on the working cabinet 1, and is convenient for installation and maintenance of the workers, the existing working space is optimized, and the manufacturing cost of enterprises is reduced.

In conclusion, the utility model ensures the stability and the order of the lithium batteries in the unloading and transferring process through the arrangement of the limit baffle plate, avoids the lithium batteries from falling off the material guide plate, through the arrangement of the discharging device, the lithium batteries are stably and orderly collected into the collecting frame one by one, the lithium batteries are jacked up by the jacking cylinder, then the lithium batteries are pushed into the collecting frame one by the material pushing cylinder, the whole material pushing and collecting work is completed by the mutual cooperation of the material pushing cylinder and the material pushing cylinder, compared with the conventional mode of manually collecting the lithium batteries, the collecting efficiency is greatly improved, the collection work of the lithium batteries is completed through the mutual matching of the air cylinders with different functions at multiple stations, the semi-automatic production and processing are realized, the whole structure of the discharging device is simple, the design is compact, can dismantle the setting on the work rack, the staff installation of being convenient for is maintained, optimizes current working space, reduces the cost of enterprises.

It should be noted that various standard components used in the present invention are commercially available, non-standard components are specially customized, and the connection manner adopted in the present invention, such as bolting, welding, etc., is also a very common means in the mechanical field, and the inventor does not need to describe herein any further.

The above description is only an example of the present invention, and is not intended to limit the present invention, and it is obvious to those skilled in the art that various modifications and variations can be made in the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (6)

1. A discharging device of a lithium battery thickness detector comprises a working cabinet (1), a sliding rail (2), a battery carrying plate (3) and a lithium battery (4), and is characterized in that the sliding rail (2) is symmetrically arranged on the working cabinet (1), the battery carrying plate (3) is slidably arranged above the sliding rail (2), the lithium battery (4) is arranged on the battery carrying plate (3), a discharging device (5) is arranged on the right side of the sliding rail (2), the discharging device (5) comprises a material ejecting cylinder (501), the material ejecting cylinder (501) is symmetrically distributed below the battery carrying plate (3), a material pushing cylinder (502) is arranged on the right side of the sliding rail (2), a material pushing rod (503) is arranged in the material pushing cylinder (502), and the material pushing rod (503) and the material pushing cylinder (502) are slidably arranged, the left side of material pushing rod (503) is provided with push pedal (504), the left side of slide rail (2) is provided with material collecting frame (505), material collecting frame (505) can be dismantled and connect on work rack (1).

2. The discharging device of the lithium battery thickness detector as claimed in claim 1, wherein the material collecting frame (505) is connected to the battery loading plate (3) through a material guiding plate (301), two sides of the material guiding plate (301) are provided with limit baffles (302), the material guiding plate (301) is fixedly connected to the material collecting frame (505) through fasteners, and the limit baffles (302) are detachably connected to the material collecting frame (505).

3. The discharging device of the lithium battery thickness detector as claimed in claim 2, wherein a fixed block (303) is arranged on the collecting frame (505), a clamping plate (304) is arranged on the limiting baffle (302), the limiting baffle (302) and the clamping plate (304) are slidably arranged, and the collecting frame (505) is connected with the working cabinet (1) through a reinforcing rib (506).

4. The discharging device of the lithium battery thickness detecting machine according to claim 1, wherein a piston rod (507) is disposed in the ejecting cylinder (501), and the piston rod (507) is slidable with respect to the battery loading plate (3).

5. The discharging device of the lithium battery thickness detection machine according to claim 1, wherein the cross section of the pushing plate (504) is of a concave design, and the right end of the pushing plate (504) is fixedly connected to the pushing rod (503).

6. The discharging device of the lithium battery thickness detection machine according to claim 1, wherein a cylinder fixing plate (6) is disposed on the working cabinet (1), a cushion block (601) is disposed on the cylinder fixing plate (6), and the pushing cylinder (502) is fixedly connected to the cushion block (601) through a fastener.

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