CN213147293U - Automatic drying device of lithium cell - Google Patents

Abstract

The utility model discloses an automatic drying device for lithium batteries, which comprises a frame and a drying mechanism, wherein a conveying mechanism is arranged on the frame; the conveying mechanism is sequentially provided with a feeding station, a buffering station, a drying station and a discharging station from right to left; the feeding station is sequentially provided with a lithium battery feeding guide rail and a lithium battery receiving plate from top to bottom; the lithium battery receiving plate is provided with a driving plate which can move left and right relative to the lithium battery receiving plate. The utility model discloses a through with the setting of stoving mechanism on conveying mechanism, set up lithium cell feeding guide rail and set up the drive plate of through-hole and the lithium cell of seting up the lithium cell standing groove at the pan feeding station and accept the board cooperation, under drive arrangement and conveying mechanism's combined action, realized that lithium cell material loading, row's material, stoving are automatic to be accomplished, need not artificial intervention, improved production efficiency greatly, reduce the processing cost, promote the quality of product.

Description

Automatic drying device of lithium cell

Technical Field

The utility model relates to a lithium cell technical field especially relates to an automatic drying device of lithium cell.

Background

The lithium battery is a battery which takes lithium metal or lithium alloy as a negative electrode material and uses a non-aqueous electrolyte solution, and has the outstanding advantages of high energy density, long cycle life, environmental protection and the like, so that the lithium battery becomes the mainstream of battery technology development, and is widely applied in various fields.

The stoving of lithium cell among the prior art is put the lithium cell one by one in the lithium cell standing groove of stoving gyro wheel through the manual work basically, and the in-process still need take out and put into the stoving gyro wheel from drying device, and the process is loaded down with trivial details complicated, and the cost of labor is high, and production efficiency is low, can't satisfy the requirement of current production.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide an automatic drying device for lithium batteries, which aims to solve the problems of low automation degree and complex process of the automatic drying device for lithium batteries in the prior art.

The utility model discloses the technical scheme who adopts as follows:

an automatic drying device for a lithium battery comprises a rack and a drying mechanism, and is characterized in that a conveying mechanism is arranged on the rack; the conveying mechanism is sequentially provided with a feeding station, a buffering station, a drying station and a discharging station from right to left; the feeding station is sequentially provided with a lithium battery feeding guide rail and a lithium battery receiving plate from top to bottom; a driving plate which can move back and forth, left and right relative to the lithium battery bearing plate is arranged between the lithium battery bearing plate and the feeding guide rail; the conveying mechanism is used for conveying the lithium battery carrying plate from the feeding station to the buffering station, the drying station and the discharging station in sequence; the drying station is provided with a drying mechanism;

a plurality of lithium battery placing grooves which are uniformly distributed are formed in the lithium battery bearing plate from right to left; a through hole is formed in the position, corresponding to the lithium battery placing groove, of the driving plate; the lithium battery feeding guide rails are arranged at intervals with the lithium battery placing grooves from right to left; the part of the lithium battery feeding guide rail above the driving plate is of a hollow structure; one side of the driving plate, which is far away from the lithium battery feeding guide rail, is connected with a driving device;

the feeding station, the buffering station, the drying station and the discharging station are all provided with a lithium battery bearing plate supporting mechanism and a blocking mechanism below the lithium battery bearing plate; the lithium battery bearing plate supporting mechanism is used for jacking up the lithium battery bearing plate so as to separate the lithium battery bearing plate from the conveying mechanism; the blocking mechanism is used for inducing the lithium battery receiving plate to reach a corresponding station under the driving of the conveying mechanism, so that the lithium battery receiving plate supporting mechanism is driven.

Preferably, a drying air duct is arranged inside the drying mechanism, and a discharge port and a feed port are respectively arranged on the right side and the left side of the drying mechanism; the conveying mechanism sequentially penetrates through the drying air duct and the discharge hole from the feed port; two or more first dehumidifying fans are arranged below the drying mechanism and the conveying mechanism; and two or more second dehumidifying fans are arranged at the top of the drying mechanism.

Preferably, the bottom of the lithium battery placing groove is provided with a grid penetrating through the lithium battery bearing plate.

Preferably, temperature sensors are arranged on two sides of the drying air duct of the drying mechanism, which are close to the conveying mechanism.

Preferably, the outer sides of the feed inlet and the discharge outlet of the drying mechanism are both provided with filter screens.

Preferably, a control module electrically connected with the temperature sensor is arranged on the outer side of the drying mechanism.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the utility model discloses a through with the setting of stoving mechanism on conveying mechanism, set up lithium cell feeding guide rail and set up the drive plate of through-hole and the lithium cell of seting up the lithium cell standing groove at the pan feeding station and accept the board cooperation, under drive arrangement and conveying mechanism's combined action, realized that lithium cell material loading, row's material, stoving are automatic to be accomplished, need not artificial intervention, improved production efficiency greatly, reduce the processing cost, promote the quality of product.

Drawings

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

fig. 2 is a top view of the present invention;

fig. 3 is a bottom view of the present invention;

FIG. 4 is a schematic view of the cross-sectional structure A-A of FIG. 2;

FIG. 5 is an enlarged partial schematic view at B in FIG. 4;

wherein: the lithium battery drying machine comprises a frame 1, a drying mechanism 2, a feeding station 3, a buffering station 4, a drying station 5, a discharging station 6, a lithium battery receiving plate 7, a lithium battery receiving plate supporting mechanism 8, a blocking mechanism 9, a lithium battery 10, a conveying mechanism 11, a first dehumidifying fan 21, a second dehumidifying fan 22, a feeding hole 23, a drying air duct 24, a discharging hole 25, a temperature sensor 26, a control module 27, a lithium battery feeding guide rail 31, a driving plate 32, a driving device 33, a lithium battery placing groove 71, a grid 72 and a through hole 321.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "front," "back," "left," "right," "up," "down," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The invention will be further described with reference to the accompanying drawings and specific embodiments:

as shown in fig. 1-5, an automatic drying device for lithium batteries comprises a frame 1 and a drying mechanism 2, and is characterized in that a conveying mechanism 11 is arranged on the frame 1; the conveying mechanism 11 is sequentially provided with a feeding station 3, a buffering station 4, a drying station 5 and a discharging station 6 from right to left; the feeding station 3 is sequentially provided with a lithium battery feeding guide rail 31 and a lithium battery bearing plate 7 from top to bottom; a driving plate 32 which can move back and forth, left and right relative to the lithium battery bearing plate 7 is arranged between the lithium battery bearing plate 7 and the feeding guide rail 31; the conveying mechanism 11 is used for conveying the lithium battery carrying plates 7 from the feeding station 3 to the buffering station 4, the drying station 5 and the discharging station 6 in sequence; and the drying station 5 is provided with a drying mechanism 2.

As shown in fig. 1, a plurality of lithium battery placing grooves 71 are uniformly distributed on the lithium battery receiving plate 7 from right to left; a through hole 321 is arranged at the position of the driving plate 32 corresponding to the lithium battery placing groove 71; the lithium battery feeding guide rails 31 are arranged at intervals with the lithium battery placing grooves 71 from right to left; the part of the lithium battery feeding guide rail 31 above the driving plate 32 is of a hollow structure; the side of the driving plate 32 away from the lithium battery feeding rail 31 is connected with a driving device 33.

The feeding station 3, the buffering station 4, the drying station 5 and the discharging station 6 are all provided with a lithium battery receiving plate supporting mechanism 8 and a blocking mechanism 9 below the lithium battery receiving plate 7; the lithium battery receiving plate supporting mechanism 8 is used for jacking the lithium battery receiving plate 7 to separate the lithium battery receiving plate 7 from the conveying mechanism 11; the blocking mechanism 9 is provided with a sensor, when the sensor detects that the lithium battery receives the plate 7, the blocking mechanism 9 stretches out to sense that the lithium battery receives the plate 7 and arrives at a corresponding station under the driving of the conveying mechanism 11, so that the lithium battery is driven to receive the plate supporting mechanism 8 to jack up the lithium battery and receive the plate 7, and the line body is effectively operated.

In this embodiment, the working principle is as follows:

the method comprises the following steps: starting the automatic drying device, wherein at first, through holes on a driving plate 32 and a lithium battery feeding guide rail 31 are arranged alternately, and a lithium battery bearing plate supporting mechanism 8 positioned at a feeding station jacks up a lithium battery bearing plate 7; the driving device is in a static state; the lithium batteries 10 flow into the hollow portion of the lithium battery feeding rail through the lithium battery feeding rail 31 (i.e., the lithium batteries 10 are arranged one by one on the driving board 32 without the through holes 321.

Step two: when the number of lithium batteries 10 flowing into the hollow part of the lithium battery feeding guide rail 31 reaches the set requirement (according to the set time or through a monitoring device), the driving device 33 is started, the driving board 32 moves leftwards or rightwards relative to the lithium battery feeding guide rail 31 until the through hole of the driving board 32 corresponds to the lithium battery placing groove 71 on the lithium battery receiving plate 7, at the moment, the lithium batteries 10 gradually enter the lithium battery placing groove 71 of the lithium battery receiving plate 7 from the lithium battery feeding guide rail 31 under the action of the driving board 31, the automatic feeding of the lithium battery drying process is realized, and the manual intervention is not needed.

Step three: the lithium battery receiving plate supporting mechanism 8 moves away from the lithium battery receiving plate 7 until the lithium battery receiving plate 7 is contacted with a conveying belt of the conveying mechanism, and then the blocking mechanism 9 is driven to release the lithium battery receiving plate 7; at the moment, the lithium battery bearing plate 7 enters a buffering station from the feeding station 3; and then manually putting a new lithium battery receiving plate 7 into the feeding station 3, and repeating the action of the second step.

Step three: the lithium battery receiving plate 7 provided with the lithium battery 10 is driven by the conveying mechanism 11 to enter the drying station 5 from the buffer station 4; a blocking mechanism 9 positioned at the drying station 5 blocks the lithium battery receiving plate 7 from flowing to the next station after sensing the lithium battery receiving plate; then, the lithium battery receiving plate 7 provided with the lithium battery 10 is dried and dehumidified under the combined action of the double-flow-guide first dehumidifying fan 21 and the second dehumidifying fan 22 of the drying mechanism 2; when the temperature sensor 26 monitors that the temperature of the lithium battery 10 reaches a set requirement, the blocking mechanism 9 is driven to release the lithium battery receiving plate 7, and the lithium battery receiving plate enters the discharging station 6 from the drying station 5 under the drive of the conveying mechanism 11; and the feeding station 3 and the buffering station 4 repeat the actions of the second step and the third step.

Step four: blocking mechanism 9 that is located ejection of compact station 6 senses and blocks its flow direction next station behind the lithium cell accept board 7, then arranges in order, packs lithium cell 10 after will drying through artifical or lithium cell collection device.

The lithium battery 10 feeding, discharging and drying are automatically completed without manual intervention, the production efficiency is greatly improved, the processing cost is reduced, and the product quality is improved.

Further, as shown in fig. 4, a drying air duct 24 is disposed inside the drying mechanism 2, and a discharge port 25 and a feed port 23 are respectively disposed on the right side and the left side; the conveying mechanism 11 sequentially penetrates through a drying air duct 24 and a discharge hole 25 from a feed port 23; two or more first dehumidifying fans 21 are arranged below the conveying mechanism 11 of the drying mechanism 2; two or more second dehumidifying fans 22 are arranged on the top of the drying mechanism 2.

In this embodiment, the first dehumidifying fan 21 exhausts air upwards, and discharges the air to the upside in stoving wind channel from the bottom in stoving wind channel 24, and the outside of stoving mechanism 2 is discharged through the second dehumidifying fan 22 again for drying equipment is in the course of the work, and the air flow in the box can obtain the reinforcing, and the moisture in the lithium cell stoving process can be outside by effectual discharge device, has promoted the stoving effect of device.

Further, the grid that runs through the lithium cell and accept the board is seted up to the bottom of lithium cell standing groove, further increases the contact of air current and lithium cell 10, better the moisture with the lithium cell is detached.

Furthermore, temperature sensors are arranged on two sides, close to the conveying mechanism, in a drying air duct of the drying mechanism; the lithium battery drying device is used for sensing the drying condition of the lithium battery 10, so that the blocking mechanism 9 and the conveying mechanism 11 are controlled to convey the lithium battery 10 from the drying station 5 to the discharging station.

Furthermore, filter screens are arranged on the outer sides of the feeding hole and the discharging hole of the drying mechanism; the filter screen is used for placing dust outside the drying mechanism 2 and entering the drying air duct 24, and the performance and the drying effect of the lithium battery are affected.

Further, the outside of stoving mechanism is provided with the control module with temperature sensor electric connection, last display, the device operation parameter button of being provided with of control module for directly perceivedly see the real-time temperature of lithium cell 10 in stoving wind channel 24 and effectively adjust and controlling means's normal, effective operation.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes are intended to fall within the scope of the present invention.

Claims (6)

1. An automatic drying device for a lithium battery comprises a rack and a drying mechanism, and is characterized in that a conveying mechanism is arranged on the rack; the conveying mechanism is sequentially provided with a feeding station, a buffering station, a drying station and a discharging station from right to left; the feeding station is sequentially provided with a lithium battery feeding guide rail and a lithium battery receiving plate from top to bottom; a driving plate which can move back and forth, left and right relative to the lithium battery bearing plate is arranged between the lithium battery bearing plate and the feeding guide rail; the conveying mechanism is used for conveying the lithium battery carrying plate from the feeding station to the buffering station, the drying station and the discharging station in sequence; the drying station is provided with a drying mechanism;

a plurality of lithium battery placing grooves which are uniformly distributed are formed in the lithium battery bearing plate from right to left; a through hole is formed in the position, corresponding to the lithium battery placing groove, of the driving plate; the lithium battery feeding guide rails are arranged at intervals with the lithium battery placing grooves from right to left; the part of the lithium battery feeding guide rail above the driving plate is of a hollow structure; one side of the driving plate, which is far away from the lithium battery feeding guide rail, is connected with a driving device;

the feeding station, the buffering station, the drying station and the discharging station are all provided with a lithium battery bearing plate supporting mechanism and a blocking mechanism below the lithium battery bearing plate; the lithium battery bearing plate supporting mechanism is used for jacking up the lithium battery bearing plate so as to separate the lithium battery bearing plate from the conveying mechanism; the blocking mechanism is used for inducing the lithium battery receiving plate to reach a corresponding station under the driving of the conveying mechanism, so that the lithium battery receiving plate supporting mechanism is driven.

2. The automatic drying device for the lithium battery as claimed in claim 1, wherein a drying air duct is arranged inside the drying mechanism, and a discharge port and a feed port are respectively arranged on the right side and the left side of the drying mechanism; the conveying mechanism sequentially penetrates through the drying air duct and the discharge hole from the feed port; two or more first dehumidifying fans are arranged below the drying mechanism and the conveying mechanism; and two or more second dehumidifying fans are arranged at the top of the drying mechanism.

3. The automatic drying device for the lithium battery as claimed in claim 1, wherein the bottom of the lithium battery placing groove is provided with a grid penetrating through the lithium battery receiving plate.

4. The automatic drying device for the lithium battery as claimed in claim 1, wherein temperature sensors are arranged in the drying air duct of the drying mechanism and close to two sides of the conveying mechanism.

5. The automatic drying device for the lithium battery as claimed in claim 1, wherein the outside of the feeding port and the discharging port of the drying mechanism is provided with a filter screen.

6. The automatic drying device for the lithium battery as claimed in claim 1, wherein a control module electrically connected with the temperature sensor is arranged outside the drying mechanism.

Images