CN209820089U

CN209820089U - High-speed automatic baking line

Info

Publication number: CN209820089U
Application number: CN201920519900.5U
Authority: CN
Inventors: 陈磊; 曹德军; 魏伟; 蒋长飞; 唐林光; 任国旗; 叶平宇
Original assignee: Zhengzhou Dingneng Industrial Co Ltd
Current assignee: Zhengzhou Dingneng Industrial Co Ltd
Priority date: 2019-04-17
Filing date: 2019-04-17
Publication date: 2019-12-20
Anticipated expiration: 2029-04-17

Abstract

The utility model discloses a high-speed automatic baking line, which comprises a vacuum drying box, a clamp, a conveying line, a clamp transfer mechanism, a full-load clamp feeding level, a full-load clamp discharging level, a battery feeding module and a battery discharging module; the two conveying lines comprise a feeding conveying line and a double-layer conveying line, wherein the double-layer conveying line comprises an upper conveying line for conveying the clamp with the full-load clamp discharging position to the battery discharging module and a lower conveying line for realizing no-load clamp backflow; the clamp transferring mechanism comprises a loading transferring mechanism and a discharging transferring mechanism, and the loading transferring mechanism transfers the clamp from the loading position of the full-load clamp into the vacuum drying box; the blanking transfer mechanism transfers the clamps in the vacuum drying box to the blanking position of the full-load clamps. This automatic toast oven and battery anchor clamps of line core portion adopt standardized, modularized design, have greatly promoted the scalability of toasting the line, have also improved the maintainability of toasting the line simultaneously.

Description

High-speed automatic baking line

Technical Field

The utility model relates to a lithium cell drying technology field, concretely relates to high-speed automatic line that toasts.

Background

At present, the lithium battery drying in the industry is mostly adopted for placing the battery into a battery clamp, and then the clamp is conveyed into a single furnace through a conveying system for drying and baking, so that the overall efficiency is low, the manufacturing difficulty is increased along with the increase of the volume of a vacuum cavity, and the cost is increased; and the drying is carried out in a tunnel furnace mode by using a gear chain conveying mode and through non-contact heating, but the drying efficiency of the battery is low and the maintenance is inconvenient.

Therefore, the prior art is in need of further improvement.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the application provides a high-speed automatic baking line, and an oven and a battery clamp which are used as the core part of the baking line adopt standardized and modular design, so that the expandability of the baking line is greatly improved, and the maintainability of the baking line is also improved; the running water type feeding and discharging mode enables each working device to independently operate without complex scheduling logic, so that the complexity and the coupling degree of the whole baking line are obviously reduced, and the reliability and the stability of the baking line are improved.

In order to achieve the purpose, the following technical scheme is adopted:

the high-speed automatic baking line comprises a vacuum drying box for baking the battery, a clamp for transferring the battery, a conveying line for moving the clamp, a clamp transferring mechanism, a full-load clamp feeding level, a full-load clamp discharging level, a battery feeding module and a battery discharging module; the conveying lines comprise two conveying lines, wherein one conveying line is a feeding conveying line used for conveying full-load clamps from the battery feeding module to a full-load clamp feeding position, and the other conveying line is a double-layer conveying line which comprises an upper conveying line used for conveying clamps with full-load clamp discharging positions to the battery discharging module and a lower conveying line used for realizing no-load clamp backflow; the clamp transferring mechanism comprises a loading transferring mechanism and a discharging transferring mechanism, and the loading transferring mechanism transfers the clamp from the loading position of the full-load clamp into the vacuum drying box; and the blanking transfer mechanism transfers the clamp in the vacuum drying box to the blanking position of the full-load clamp.

Wherein, vacuum drying cabinet is provided with one row, and vacuum drying cabinet is located between material loading transfer chain and the double-deck transfer chain.

The feeding transfer mechanism comprises a feeding robot and a feeding robot track, the discharging transfer mechanism comprises a discharging robot and a discharging robot track, and the feeding robot track and the discharging robot track are parallel to the conveying line.

The vacuum drying box comprises a vacuum drying cavity, a first automatic sealing door and a second automatic sealing door, wherein the first automatic sealing door faces one side of the double-layer conveying line, and the second automatic sealing door faces one side of the feeding conveying line; the clamp transferring mechanism transfers the clamp from the loading position of the full-load clamp to the vacuum drying cavity.

The battery loading module comprises a battery incoming line, a loading manipulator, a false battery buffer position and a first lifting platform for realizing transition of a no-load clamp from a lower-layer conveying line to an upper-layer conveying line.

The battery blanking module comprises a battery output line, a blanking manipulator and a second lifting platform for realizing transition of the no-load clamp from the upper-layer conveying line to the lower-layer conveying line.

The feeding conveying line is provided with a hot air circulating device used for achieving temperature rise, and the hot air circulating device comprises an electric heater and a hot air fan.

The upper conveying line is provided with a cold air circulating device used for achieving cooling, and the cold air circulating device comprises a cold air fan. Wherein, the transfer chain is drum-type transfer chain.

By adopting the technical scheme, the method at least has the following technical effects:

1. the utility model discloses a high-speed automatic line that toasts adopts standardization, modularized design as core portion's oven and battery anchor clamps, has greatly promoted the automatic scalability of toasting the line, has also improved the automatic maintainability of toasting the line simultaneously.

2. The utility model discloses an automatic line that toasts with traditional lithium cell toasts the automatic line and compares, and this scheme has adopted more succinct efficient structural style around toasting the core function, is showing the structural cost who has reduced the automatic line that toasts, has also improved holistic reliability, stability and economic nature simultaneously.

3. The utility model discloses an automatic toast the line, around toasting the core function, simplified peripheral corollary equipment by a wide margin to control whole automatic length, width and the height of toasting the line more effectively, and then showing and practiced thrift the place space, reduce the volume in required dry space, can realize more economical production demand.

4. The utility model discloses an automatic toast the line adopts the feed and the ejection of compact mode of continuous-flow type, and each working equipment can independently operate, need not complicated dispatch logic to showing complexity and the coupling degree that has reduced whole automatic line of toasting, having improved the automatic reliability and the stability of toasting the line.

Drawings

FIG. 1 is a schematic structural view of the high-speed automatic baking line of the present invention;

FIG. 2 is a schematic structural view of the high-speed automatic baking line of the present invention at another angle;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2;

in the figure: vacuum drying oven-10; a vacuum drying chamber-11; clamp-20; a feeding transfer mechanism-31; a feeder robot-311; a feeder robot track-312; a blanking transfer mechanism-32; a blanking robot-321; a blanking robot track-322; a battery charging module-40; a battery blanking module-50; a feeding conveyor line-61; loading level of a full-load clamp-611; an upper conveyor line-62; the full-load clamp is discharged at a material level of-621; a lower layer conveying line-63.

Detailed Description

The technical solution provided by the present invention will be explained in more detail with reference to the accompanying drawings.

With reference to fig. 1-3, the present invention provides a high-speed automatic baking line, which includes a vacuum drying oven 10 for baking batteries, a clamp 20 for transferring batteries, a conveying line for transferring clamps, a clamp transferring mechanism, a full-load clamp loading level 611, a full-load clamp unloading level 621, a battery loading module 40, and a battery unloading module 50; the conveying lines are drum-type conveying lines, one conveying line is a feeding conveying line 61 used for conveying full-load clamps from the battery feeding module to the feeding positions of the full-load clamps, and the other conveying line is a double-layer conveying line, and the double-layer conveying line comprises an upper-layer conveying line 62 used for conveying the clamps with the full-load clamps to the discharging positions of the battery and a lower-layer conveying line 63 used for realizing the backflow of no-load clamps; the clamp transferring mechanism comprises a loading transferring mechanism 31 and a discharging transferring mechanism 32, wherein the loading transferring mechanism 31 transfers the clamp 20 from a full-load clamp loading position 611 into the vacuum drying box 10; the unloading transfer mechanism 32 transfers the jigs in the vacuum drying oven to the full-load jig unloading position 621.

The utility model discloses a high-speed automatic baking line, the oven and the battery clamp as the core part adopt standardized, modular design, greatly improve the expandability of the automatic baking line, and simultaneously also improve the maintainability of the automatic baking line; compared with the traditional automatic baking line for baking the lithium battery, the scheme has the advantages that the baking core function is surrounded, a simpler and more efficient structural mode is adopted, the structural cost of the automatic baking line is obviously reduced, and the overall reliability, stability and economy are improved; the baking core function is surrounded, peripheral matched equipment is greatly simplified, so that the length, the width and the height of the whole automatic baking line are more effectively controlled, the field space is obviously saved, the volume of the required drying space is reduced, and more economical production requirements can be realized; by adopting a flowing-water type feeding and discharging mode, each working device can independently and independently operate without complex scheduling logic, so that the complexity and the coupling degree of the whole automatic baking line are obviously reduced, and the reliability and the stability of the automatic baking line are improved.

In this embodiment, as shown in fig. 1 to 3, a row of vacuum drying boxes 10 is provided, the vacuum drying boxes 10 are located between the feeding conveyor line 61 and the double-layer conveyor line, each vacuum drying box 10 includes a vacuum drying chamber 11, a first automatic sealing door and a second automatic sealing door, the first automatic sealing door faces one side of the double-layer conveyor line, and the second automatic sealing door faces one side of the feeding conveyor line 61; the loading transfer mechanism transfers the jig from the full-jig loading position 611 into the vacuum drying chamber 11. This vacuum drying oven adopts the vacuum battery oven, and the vacuum drying intracavity can evacuation, take a breath to satisfy the environmental requirement of battery baking in-process, realize the baking of battery in the whole dish battery anchor clamps, satisfy product technological requirements, automatic sealing door configuration automatic switch door mechanism satisfies automated production needs.

In this embodiment, as shown in fig. 2, the loading and transferring mechanism 31 includes a loading robot 311 and a loading robot rail 312, the unloading and transferring mechanism 32 includes an unloading robot 321 and an unloading robot rail 322, and both the loading robot rail 312 and the unloading robot rail 322 are parallel to the conveying line. The loading and transferring mechanism and the unloading and transferring mechanism can also adopt a stacker to realize the transferring of the clamp without limitation.

In this embodiment, the battery loading module 40 includes a battery incoming line, a loading manipulator, a dummy battery buffer position, and a first lifting platform for realizing transition of the no-load fixture from the lower-layer conveying line to the upper-layer conveying line, the loading manipulator places the battery on the battery incoming line and the dummy battery in the dummy battery buffer position into the no-load fixture, and the fixture is sent to the loading conveying line by the first lifting platform after being fully loaded, so as to complete battery loading; the battery blanking module 50 comprises a battery output line, a blanking manipulator and a second lifting platform for realizing transition of a no-load clamp from an upper-layer conveying line to a lower-layer conveying line, wherein the blanking manipulator grabs a battery from a roasted clamp and puts the battery into the battery output line or a false battery output line to finish battery blanking.

In this embodiment, the feeding conveyor line 61 is provided with a hot air circulation device for realizing temperature rise, the hot air circulation device comprises an electric heater and a hot air blower, and the hot air circulation device preheats the battery clamp to be placed in the vacuum drying cavity in the process of conveying the battery clamp to a full-load clamp feeding position, so that the overall baking efficiency of the battery is improved; the upper conveying line 62 is provided with a cold air circulating device for realizing cooling, the cold air circulating device comprises a cold air fan, and the cold air circulating device cools the battery clamp for baking in the process of conveying the battery clamp to the blanking module.

The above embodiments are only used for illustrating the technical solution of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: it is to be understood that modifications may be made to the above-described arrangements in the embodiments or equivalents may be substituted for some of the features of the embodiments, but such modifications or substitutions do not depart from the spirit and scope of the embodiments of the present invention.

Claims

1. The high-speed automatic baking line is characterized by comprising a vacuum drying box for baking the batteries, a clamp for transferring the batteries, a conveying line for moving the clamp, a clamp transferring mechanism, a full-load clamp feeding position, a full-load clamp discharging position, a battery feeding module and a battery discharging module; the conveying lines comprise two conveying lines, wherein one conveying line is a feeding conveying line used for conveying full-load clamps from the battery feeding module to a full-load clamp feeding position, and the other conveying line is a double-layer conveying line which comprises an upper conveying line used for conveying clamps with full-load clamp discharging positions to the battery discharging module and a lower conveying line used for realizing no-load clamp backflow; the clamp transferring mechanism comprises a loading transferring mechanism and a discharging transferring mechanism, and the loading transferring mechanism transfers the clamp from the loading position of the full-load clamp into the vacuum drying box; and the blanking transfer mechanism transfers the clamp in the vacuum drying box to the blanking position of the full-load clamp.

2. The high-speed automatic baking line according to claim 1, wherein the vacuum drying boxes are arranged in a row, and the vacuum drying boxes are positioned between the feeding conveyor line and the double-layer conveyor line.

3. The high-speed automatic baking line according to claim 1, wherein the loading transfer mechanism comprises a loading robot and a loading robot track, and the unloading transfer mechanism comprises an unloading robot and an unloading robot track, both of which are parallel to the conveying line.

4. The high-speed automatic baking line according to claim 2, wherein the vacuum drying oven comprises a vacuum drying chamber, a first automatic sealing door and a second automatic sealing door, the first automatic sealing door faces one side of the double-layer conveying line, and the second automatic sealing door faces one side of the feeding conveying line; the clamp transferring mechanism transfers the clamp from the loading position of the full-load clamp to the vacuum drying cavity.

5. The high-speed automatic baking line according to claim 1, wherein the battery loading module comprises a battery incoming line, a loading manipulator, a dummy battery buffer position and a first lifting platform for realizing the transition of the empty clamp from the lower conveyor line to the upper conveyor line.

6. The high-speed automatic baking line according to claim 1, wherein the battery blanking module comprises a battery output line, a blanking manipulator and a second lifting platform for realizing transition of an unloaded clamp from an upper conveyor line to a lower conveyor line.

7. The high-speed automatic baking line according to claim 1, wherein the feeding conveyor line is provided with a hot air circulating device for realizing temperature rise, and the hot air circulating device comprises an electric heater and a hot air fan.

8. The high-speed automatic baking line according to claim 1, wherein the upper conveyor line is provided with a cold air circulating device for cooling, and the cold air circulating device comprises a cold air fan.

9. The high speed automatic toasting line according to claim 1, wherein said conveyor line is a roller conveyor line.