CN210220555U - Automatic drying line of lithium cell - Google Patents

Abstract

The utility model relates to the technical field of lithium battery drying, and provides an automatic drying line for lithium batteries, which comprises at least one independent drying line, wherein the independent drying line comprises a material level, a clamp circulating conveying line, a dispatching unit, a drying unit, a discharging level and a controller, and the material level, the clamp circulating conveying line, the dispatching unit, the drying unit and the discharging level are all connected with the controller; the clamp circulating conveying line is provided with a clamp, and the clamp can run on the clamp circulating conveying line; the feeding position is arranged at one end of the clamp circulating conveying line, and the discharging position is arranged at the other end of the clamp circulating conveying line; a dispatching unit is also arranged between the incoming material level and the discharging level; the dispatching unit is arranged on one side of the clamp circulating conveying line and used for dispatching the clamps; at least one side of the dispatching unit is provided with a drying unit; the drying unit is arranged independently of the clamp circulating conveying line. The running state of each part can be monitored in real time, the running stability and safety of the system are ensured, and the automation level of the lithium battery in the processing industry is improved.

Description

Automatic drying line of lithium cell

Technical Field

The utility model relates to a dry technical field of lithium cell, more specifically say, relate to an automatic drying line of lithium cell.

Background

At present, the lithium ion battery industry at home and abroad has a good development prospect, and the lithium ion battery is generally applied to portable electrical appliances such as a portable computer, a camera and mobile communication due to the unique performance advantages of the lithium ion battery. The high-capacity lithium ion battery developed at present is tried out in electric automobiles, is expected to become one of main power sources of the electric automobiles in the 21 st century, and is applied to artificial satellites, aerospace and energy storage. With the shortage of energy and the environmental pressure of the world. Lithium batteries are widely applied to the electric vehicle industry at present, and particularly, the development and application of the lithium battery industry are promoted due to the appearance of lithium iron phosphate material batteries. In order to ensure high quality of the lithium battery, the production environment of each process in the production process of the lithium battery needs to be strictly controlled.

Most procedures for drying the lithium battery in the prior art still depend on manual operation, so that the working efficiency and the quality of the dried lithium battery are low, and the productivity is low.

The above disadvantages need to be improved.

SUMMERY OF THE UTILITY MODEL

In order to overcome the not enough of current technique, the utility model provides an automatic drying line of lithium cell.

The utility model discloses technical scheme as follows:

the automatic drying line for the lithium battery comprises at least one independent drying line, wherein the independent drying line comprises a material coming position, a clamp circulating conveying line, a scheduling unit, a drying unit, a discharging position and a controller, and the material coming position, the clamp circulating conveying line, the scheduling unit, the drying unit and the discharging position are all connected with the controller;

the clamp circulating conveying line is provided with a clamp, and the clamp can run on the clamp circulating conveying line;

the material inlet position is arranged at one end of the clamp circulating conveying line, and the material outlet position is arranged at the other end of the clamp circulating conveying line;

the dispatching unit is also arranged between the material incoming position and the material outgoing position;

the dispatching unit is arranged on one side of the clamp circulating conveying line and used for dispatching the clamps;

the drying unit is arranged on at least one side of the dispatching unit; the drying unit is arranged independently of the clamp circulating conveying line.

Further, the incoming material level comprises at least one incoming material conveying line, lithium battery units to be dried are arranged on the incoming material conveying line, a material combining unit is arranged at the tail end of the incoming material conveying line, the lithium battery units to be dried are conveyed to the material combining unit through the incoming material conveying line, and the material combining unit is used for arranging the lithium battery units to be dried side by side to form the lithium battery unit units to be dried.

Further, come the material level still including sweeping yard unit and rejecting NG lithium cell set, sweep yard unit with it locates in proper order on the supplied materials conveyer line to reject NG lithium cell set.

Furthermore, the independent drying line further comprises a false battery compensation position, and the false battery compensation position is arranged at the feeding position of the clamp circulating conveying line;

the false battery compensation position comprises a false battery unit and a compensation battery unit, the feeding manipulator grabs the lithium battery unit group to be dried to the compensation battery unit, and the feeding manipulator grabs the false battery in the false battery unit and places the false battery in the vacancy of the lithium battery unit group to be dried.

Furthermore, the independent drying line further comprises a false battery extraction unit, the false battery extraction unit is arranged at the discharging position of the clamp circulating conveying line, and the discharging manipulator grabs the false batteries after drying to the false battery extraction unit and outputs the false batteries.

Further, the automatic drying line of lithium cell still includes the test unit, the test unit is used for testing the false battery of drying the completion.

Further, the discharging position further comprises a lithium battery distribution unit and at least one discharging conveying line, the clamp circulating conveying line is connected with the lithium battery distribution unit, and the lithium battery distribution unit is connected with the discharging conveying line.

Further, anchor clamps circulation transfer chain includes material loading level, full material anchor clamps transfer chain, unloading level and empty material anchor clamps transfer chain, the material loading level full material anchor clamps transfer chain down the material level and empty material anchor clamps transfer chain sets gradually and forms circulation circuit.

Furthermore, the dispatching unit comprises a dispatching robot and a track assembly, wherein the dispatching robot is arranged on the track assembly and can slide on the track assembly.

Furthermore, the automatic drying line for the lithium battery comprises at least one independent sub-drying line, and the sub-drying lines are not affected with each other.

According to the above scheme the utility model discloses, its beneficial effect lies in:

(1) the utility model provides an automatic drying line of lithium battery, which adopts an integrated intelligent control system, can monitor the running state of each part in real time, and ensure the stability and safety of the system running;

(2) the automatic drying line of lithium cell has realized full automatic operation, has not only improved work efficiency, the effectual drying quality who ensures the lithium cell, has still further improved the automation level of lithium cell in the processing trade.

(3) The anchor clamps circulation transfer chain can recycle, need not the manual work and carries out special fixture, greatly promotes work efficiency.

(4) The number of the drying units can be increased according to the demand, so that the productivity is increased, and high yield is realized.

(5) The independent drying lines can be increased according to requirements, each independent drying line runs independently and is not interfered with each other, and the stability of the automatic drying line of the lithium battery is ensured.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

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

fig. 2 is a schematic plan view of the present invention;

FIG. 3 is a schematic structural view of the circular conveying line of the clamp of the present invention;

fig. 4 is a schematic diagram of the dispatching unit structure of the present invention.

Wherein, in the figures, the respective reference numerals:

100-independent drying line;

101-incoming level;

1011-incoming material conveying line; 10111-lithium battery cell to be dried;

1012-material combination unit; 10121-lithium battery cell group to be dried;

1013-code scanning unit;

1014-removing NG lithium battery units;

102-a clamp circulation conveying line;

1021-material loading level;

1022-full clip transfer line;

1023-a discharge level;

1024-conveying line for empty material clamps;

103-dispatching the unit;

1031-dispatching robots; 10311-fork clamp holder;

1032-a track assembly;

104-a dryer group;

105-a discharge position;

1051-lithium battery separator set;

1052-discharge conveying line;

106-a controller;

107-a clamp;

108-testing the unit;

109-dummy cell supply bit;

1091-dummy battery set; 10911-dummy battery;

1092-a compensation battery set;

110-a loading manipulator;

111-dummy battery extraction unit;

112-a blanking manipulator;

113-dummy cell delivery line;

114-vacuum pump assembly.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly or indirectly secured to the other element. When an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element. The terms "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positions based on the orientations or positions shown in the drawings, and are for convenience of description only and not to be construed as limiting the technical solution. The terms "first", "second" and "first" are used merely for descriptive purposes and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features. The meaning of "plurality" is two or more unless specifically limited otherwise.

Referring to fig. 1 to 2, an automatic drying line for lithium batteries includes at least one independent drying line 100, where the independent drying line 100 includes a material incoming level 101, a clamp circulating conveying line 102, a dispatching unit 103, a drying unit 104, a material discharging level 105 and a controller 106, and the material incoming level 101, the clamp circulating conveying line 102, the dispatching unit 103, the drying unit 104 and the material discharging level 105 are all connected to the controller 106;

the clamp 107 is arranged on the clamp circulating conveying line 102, and the clamp 107 can run on the clamp circulating conveying line 102;

the material inlet position 101 is arranged at one end of the clamp circulating conveying line 102, and the material outlet position 105 is arranged at the other end of the clamp circulating conveying line 102;

a dispatching unit 103 is also arranged between the material incoming position 101 and the material discharging position 105;

the dispatching unit 103 is arranged on one side of the clamp circulating conveying line 102 and used for dispatching the clamps;

at least one side of the dispatching unit 103 is provided with a drying unit 104; the drying unit 104 is provided independently of the jig circulation line 102.

The working principle of the automatic drying line for the lithium battery provided by the embodiment is as follows:

the controller is used for controlling the whole independent drying line:

coming material level 101 and being used for transporting the lithium cell that waits to dry, come material level 101 will wait to dry the lithium cell and carry to anchor clamps 17 of anchor clamps circulation transfer chain 102, form full material anchor clamps, full material anchor clamps can be in anchor clamps circulation transfer chain 102 operation, when full material anchor clamps move to suitable position, dispatch unit 103 dispatches full material anchor clamps to drying unit 104 in, drying unit 104 carries out drying operation to the lithium cell, wait that the lithium cell is dry to the time of predetermineeing, dispatch unit 103 takes out full material anchor clamps from drying unit 104 and places on anchor clamps circulation transfer chain 102, the lithium cell that the drying was accomplished is exported from ejection of compact position 105, anchor clamps 17 move to coming material level 101 through anchor clamps circulation transfer chain 102, and cyclic utilization carries out.

The automatic drying line of lithium cell that this embodiment provided's beneficial effect does:

(1) the utility model provides an automatic drying line of lithium battery, which adopts an integrated intelligent control system, can monitor the running state of each part in real time, and ensure the stability and safety of the system running;

(2) the automatic drying line of lithium cell has realized full automatic operation, has not only improved work efficiency, the effectual drying quality who ensures the lithium cell, has still further improved the automation level of lithium cell in the processing trade.

(3) The clamp circulation conveying line 102 can be recycled, special clamp carrying is not required to be carried out manually, and the working efficiency is greatly improved.

(4) The dryer groups 104 can be increased as needed to increase capacity and achieve high throughput.

(5) The independent drying lines 100 can be increased according to requirements, each independent drying line runs independently and is not interfered with each other, and the stability of the automatic drying line of the lithium battery is ensured.

In one embodiment, the incoming material level 101 includes at least one incoming material conveying line 1011, the lithium battery cells 10111 to be dried are arranged on the incoming material conveying line 1011, a material combining unit 1012 is arranged at the tail end of the incoming material conveying line 1011, the lithium battery cells 10111 to be dried are conveyed to the material combining unit 1012 through the incoming material conveying line 1011, and the material combining unit 1012 arranges a plurality of lithium battery cells 10111 to be dried side by side to form the lithium battery cell unit 10121 to be dried. The setting of the material combining unit 1012 improves the working efficiency of the automatic drying line of the lithium battery, and further improves the productivity.

In one embodiment, the lithium battery cells to be dried 10111 include 10 lithium batteries to be dried, and the lithium battery cell group to be dried 10121 includes 3 lithium battery cells to be dried 10111, for 30 lithium batteries to be dried.

It should be understood that each lithium battery cell to be dried 10111 includes lithium batteries to be dried, which are not limited to the above 10 lithium batteries, but may include other lithium batteries; the number of the groups of the lithium battery cells to be dried included in the lithium battery cell group to be dried 10121 is not limited to the above 3 groups, and may be other groups, and is not limited herein.

In one embodiment, incoming feed line 1011 is 2. The number of the incoming material conveying lines 1011 is not limited to the 2, but may be other values, and is not limited herein.

In one embodiment, the incoming level 101 is a frame incoming.

It should be understood that the incoming material level 101 is not limited to the incoming material conveying line 1011 or the incoming material frame, but may be in other forms, and is not limited herein.

In one embodiment, the incoming material level 101 further comprises a code scanning unit 1013 and an NG lithium battery eliminating unit 1014, and the code scanning unit 1013 and the NG lithium battery eliminating unit 1014 are sequentially arranged on the incoming material conveying line 1011;

the code scanning unit 1013 is used for reading a battery bar code by the code scanning unit, judging whether an incoming material battery belongs to the station, and tracing the battery state in baking;

and the NG lithium battery removing unit 1014 is used for removing the NG lithium batteries judged after the codes are scanned.

The working principle of the arrangement is as follows: when waiting dry lithium cell 10111 when the supplied materials transfer chain 1011 operation, through sweeping a yard unit 1013, sweep yard unit 1013 and scan the bar code on waiting dry lithium cell, when scanning to wait to have NG lithium cell in the dry lithium cell 10111, wait dry lithium cell 10111 and move to rejecting NG lithium cell 1014 department, reject NG lithium cell 1014 and reject NG lithium cell in waiting dry lithium cell 10111.

The beneficial effect who so sets up does: the code scanning unit 1013 and the NG lithium battery rejecting unit 1014 can be used for rejecting NG lithium batteries in the lithium battery unit 10111 to be dried, so that the qualification rate of the lithium batteries to be dried is improved.

It should be understood that NG is a complete shorthand for No Good meaning: and (7) defective products are obtained.

In one embodiment, the independent drying line 100 further comprises a dummy cell compensation position 109, the dummy cell compensation position 109 is arranged at the loading position 1021 of the clamp circulation conveying line 102;

the dummy battery compensation position 109 comprises a dummy battery unit 1091 and a compensation battery unit 1092, the feeding manipulator 110 grabs the lithium battery unit group 10121 to be dried to the compensation battery unit 1092, and the feeding manipulator 110 grabs the dummy battery 10911 from the dummy battery unit 1091 and places the dummy battery 10911 in the empty position of the lithium battery unit group 10121 to be dried.

The working principle of the arrangement is as follows: after the NG lithium battery is rejected by the NG lithium battery rejection unit 1014, the lithium battery cell unit 10111 to be dried appears in a vacancy, so that the lithium battery cell unit 10121 to be dried appears in a vacancy, the lithium battery cell unit 10121 to be dried is conveyed to the compensation battery unit 1092, and the feeding manipulator 110 takes out the dummy battery 10911 from the dummy battery unit 1091 and places the dummy battery 10911 in the compensation battery unit 1092 for dummy battery replenishment.

The beneficial effect who so sets up does: through the cooperation of the dummy battery unit 1091 and the compensation battery unit 1092, the dummy battery 10911 can be rapidly replenished, thereby improving the working efficiency of replenishing the dummy battery.

Preferably, the feeding robot 110 is provided with a first sensor. The arrangement of the first sensor can monitor the state of the product in the grabbing and moving processes in real time.

In one embodiment, the independent drying line 100 further includes a dummy battery extractor 111, the dummy battery extractor 111 is disposed at the discharging position 1023 of the jig circulation conveying line 102, and the discharging manipulator 112 picks up the dried dummy batteries to the dummy battery extractor 111 and outputs the dummy batteries 10911.

The working principle of the arrangement is as follows: after the lithium battery is dried, the scheduling unit 103 schedules the full-charge clamp from the drying unit 104 to the clamp circulating conveying line 102, the full-charge clamp is conveyed to the dummy battery extracting unit 111 through the clamp circulating conveying line 102, the dummy battery extracting unit 111 extracts the dummy battery 10911, and the extracted dummy battery 10911 is output through the dummy battery conveying line 113.

The beneficial effect who so sets up does: the false battery 10911 can be extracted quickly by the false battery extracting set 111, so that the working efficiency of extracting the false battery 10911 is improved.

Preferably, the blanking manipulator 112 is provided with a second sensor. The second sensor can monitor the state of the product in the grabbing and moving processes in real time.

In one embodiment, the automatic drying line for lithium batteries further comprises a testing unit 108, wherein the testing unit 108 is used for testing the dried false batteries.

The working principle of the arrangement is as follows: after the lithium battery is dried for a preset time, the dispatching unit 103 takes the full charge clamp out of the drying unit 104 to the clamp circulating conveying line 102, the dried lithium battery is conveyed to the testing unit 108 through the clamp circulating conveying line 102, and the moisture content of the dried false battery is tested.

When the water content of the false battery reaches the standard, the lithium battery is output from the discharging position 105, and the clamp runs to the feeding position 101 through the clamp circulating conveying line 102 and is recycled;

and when the water content of the dummy battery is not up to the standard, the dispatching unit 103 dispatches the full-material clamp to the drying unit 104 again to carry out drying operation again.

The beneficial effect who so sets up does: the setting of the testing unit 108 can be used for testing the moisture content of the dried lithium battery, so that the drying qualification rate of the lithium battery is further improved, and the quality of the lithium battery is effectively guaranteed.

Preferably, the automatic drying line for the lithium battery comprises at least one independent sub-drying line, and the sub-drying lines are not affected with each other.

In one embodiment, the automatic drying line for lithium batteries includes two independent drying lines 100, and the two independent drying lines 100 perform an alternate operation. When the controller in the first independent drying line controls the first independent drying line to carry out feeding operation, the controller in the second independent drying line controls the second independent drying line to carry out discharging operation, so that the two independent drying lines 100 can carry out alternate operation, the single-line productivity is greatly improved, the increase of several times or even more than ten times is realized, and the equipment investment cost and the operation cost are greatly saved.

Preferably, the two independent drying lines 100 are arranged axisymmetrically.

Preferably, two independent drying lines 100 share a single test train 108. This arrangement increases the utilization of the test rig 108, thereby saving cost.

In one embodiment, both sides of the scheduling unit 103 are provided with a drying unit 104.

Preferably, 7 dryer groups are included in one independent drying line 100. It should be understood that the number of the dryer groups 104 included in one independent drying line 100 may be increased or decreased according to the capacity requirement, and is not limited to the above 7, and may be other values, and is not limited herein.

In one embodiment, the discharging level 105 further includes a lithium battery separating unit 1051 and at least one discharging line 1052, the clamp circulating line 102 is connected to the lithium battery separating unit 1051, and the lithium battery separating unit 1051 is connected to the discharging line 1052. The setting of lithium cell feed divider can satisfy the unloading beat.

Preferably, the discharge conveying line 1052 is 12. It should be understood that the number of the discharging conveyor lines 1052 is not limited to 12, and other numbers are possible, and are not limited herein.

In one embodiment, the outfeed level 105 discharges a bin.

It should be understood that the discharge position 105 is not limited to the discharge conveyor line 1052 or frame discharge, but may be in other forms, and is not limited thereto.

Referring to fig. 3, in an embodiment, the clamp circulation conveying line 102 includes a material loading level 1021, a full clamp conveying line 1022, a material discharging level 1023, and an empty clamp conveying line 1024, and the material loading level 1021, the full clamp conveying line 1022, the material discharging level 1023, and the empty clamp conveying line 1024 are sequentially arranged to form a circulation loop.

The working principle of the arrangement is as follows: anchor clamps are packed into and are waited dry lithium cell unit group 10121 at material loading position 1021, fill with the full material anchor clamps that wait to dry the lithium cell and move on full material anchor clamps transfer chain 1022, when full material anchor clamps move to corresponding drying unit 104, dispatch unit 103 dispatches full material anchor clamps to dry unit 104 and carries out the drying, treat the lithium cell drying and accomplish the back, dispatch unit 103 takes out full material anchor clamps from drying unit 104 and places on full material anchor clamps transfer chain 1022, full material anchor clamps are carried to unloading position 1023 through full material anchor clamps transfer chain 1022, the lithium cell that the drying was accomplished is after unloading position 1023 is taken off, unloading position 1023 carries anchor clamps to empty material anchor clamps transfer chain 1024, anchor clamps carry to material loading position 1021 through empty material anchor clamps transfer chain 1024 and carry out the material loading, above-mentioned process forms circulation circuit.

The beneficial effect who so sets up does: the clamp circulation conveying line 102 can be recycled, and special clamp carrying is not needed for feeding and discharging, so that the working efficiency is greatly improved.

Referring to fig. 4, the dispatching unit 103 dispatches the unbaked jigs from the jig circulation conveying line to be placed in the drying unit, or takes the baked jigs from the drying unit to be placed in the jig circulation conveying line, or takes the baked jigs from the drying unit to be placed in the dummy battery extracting unit.

In one embodiment, the dispatch group 103 includes a dispatch robot 1031 and a track assembly 1032, the dispatch robot 131 being disposed on the track assembly 1032 and being slidable on the track assembly 1032. The dispatching robot 1031 included in the dispatching unit 103 is used for dispatching the full jigs, and the dispatching robot 1031 may slide on the rail assembly 1032 according to the positions of the full jigs and adjust to the proper positions. The arrangement makes the dispatching robot 1031 adjust position more flexibly and operate stably.

Preferably, the dispatching robot 1031 is provided with a fork clamp holder 10311. The fork clamp holder 10311 facilitates the picking and placing of the full clamp in the drying unit 104, thereby improving the working efficiency.

In one embodiment, the independent drying line 100 further comprises a vacuum pump unit 114, the vacuum pump unit 114 being connected to the dryer unit 104. The vacuum pump unit 114 is used for vacuumizing the drying unit 104, so as to ensure that the drying unit 104 performs the drying operation on the lithium battery in a vacuum environment.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides an automatic drying line of lithium cell which characterized in that: the automatic drying system comprises at least one independent drying line, wherein the independent drying line comprises a material coming position, a clamp circulating conveying line, a scheduling unit, a drying unit, a discharging position and a controller, and the material coming position, the clamp circulating conveying line, the scheduling unit, the drying unit and the discharging position are all connected with the controller;

the clamp circulating conveying line is provided with a clamp, and the clamp can run on the clamp circulating conveying line;

the material inlet position is arranged at one end of the clamp circulating conveying line, and the material outlet position is arranged at the other end of the clamp circulating conveying line;

the dispatching unit is also arranged between the material incoming position and the material outgoing position;

the dispatching unit is arranged on one side of the clamp circulating conveying line and used for dispatching the clamps;

the drying unit is arranged on at least one side of the dispatching unit; the drying unit is arranged independently of the clamp circulating conveying line.

2. The automatic drying line for lithium batteries according to claim 1, wherein: come the material level and include an at least supplied materials transfer chain, be equipped with on the supplied materials transfer chain and treat dry lithium battery unit, the end of supplied materials transfer chain is equipped with the material combination unit, treat dry lithium battery unit and pass through the supplied materials transfer chain carry extremely the material combination unit, the material combination unit will be a plurality of treat that dry lithium battery unit sets up side by side and forms and treat dry lithium battery unit group.

3. The automatic drying line for lithium batteries according to claim 2, wherein: come the material level still including sweeping yard unit and rejecting NG lithium cell set, sweep yard unit with it locates in proper order on the supplied materials conveying line to reject NG lithium cell set.

4. The automatic drying line for lithium batteries according to claim 3, wherein: the independent drying line further comprises a false battery compensation position, and the false battery compensation position is arranged at the feeding position of the clamp circulating conveying line;

the false battery compensation position comprises a false battery unit and a compensation battery unit, the feeding manipulator grabs the lithium battery unit group to be dried to the compensation battery unit, and the feeding manipulator grabs the false battery in the false battery unit and places the false battery in the vacancy of the lithium battery unit group to be dried.

5. The automatic drying line for lithium batteries according to claim 4, wherein: the independent drying line further comprises a fake battery extraction unit, the fake battery extraction unit is arranged at the discharging position of the clamp circulating conveying line, and the discharging manipulator grabs the dried fake batteries to the fake battery extraction unit and outputs the fake batteries.

6. The automatic drying line for lithium batteries according to claim 5, wherein: the automatic drying line of lithium cell still includes the test unit, the test unit is used for testing the false battery of drying the completion.

7. The automatic drying line for lithium batteries according to claim 1, wherein: the discharging position further comprises a lithium battery distribution unit and at least one discharging conveying line, the clamp circulating conveying line is connected with the lithium battery distribution unit, and the lithium battery distribution unit is connected with the discharging conveying line.

8. The automatic drying line for lithium batteries according to claim 1, wherein: the anchor clamps circulation transfer chain includes material loading level, full material anchor clamps transfer chain, unloading level and empty material anchor clamps transfer chain, the material loading level full material anchor clamps transfer chain down the material level and empty material anchor clamps transfer chain sets gradually and forms circulation circuit.

9. The automatic drying line for lithium batteries according to claim 1, wherein: the dispatching unit comprises a dispatching robot and a track assembly, wherein the dispatching robot is arranged on the track assembly and can slide on the track assembly.

10. The automatic drying line for lithium batteries according to claim 1, wherein: the automatic drying line of lithium cell includes at least one independent sub-drying line, and the sub-drying line does not have the influence each other.

Images