CN108448173A

CN108448173A - Lithium battery enters shell systems

Info

Publication number: CN108448173A
Application number: CN201810406335.1A
Authority: CN
Inventors: 项罗毅; 樊彦良; 赵博; 杨柳佳; 张正淳
Original assignee: China Aviation Lithium Battery Jiangsu Co Ltd
Current assignee: China Aviation Lithium Battery Jiangsu Co Ltd
Priority date: 2018-04-30
Filing date: 2018-04-30
Publication date: 2018-08-24
Anticipated expiration: 2038-04-30
Also published as: CN108448173B

Abstract

Enter shell systems the present invention relates to a kind of lithium battery, including pawl is embedding and aluminum hull；The aluminum hull is clamped with chela and is connected, the chela is connected with Rotation Controllers control, aluminum hull is pushed at dust suction station by the chela, aluminum hull is pushed into at shell station by the chela again, it is described enter shell station pass through align set with aluminum hull fitting, aluminum hull fitting front end is equipped with push plate, and the push plate is connect by retainer with battery core ejection, and the battery core passes through Mylar films and aluminum hull fitting.The lithium battery that the multistation technology of integrated molding of the present invention is capable of quick batch is effectively produced.In process of production, part station quickly and effectively can make detection to the quality of lithium battery, while inferior and good lithium battery is done runner division in an efficient manner.

Description

Lithium battery enters shell systems

Technical field

The present invention relates to lithium battery production system, especially a kind of lithium battery enters shell systems.

Background technology

Lithium battery needs during production and assembling by rigorous detection and encapsulation process.Lithium battery enters shell system System is then a kind of integrated molding system that lithium battery enters shell detection and encapsulates.

State Intellectual Property Office of the People's Republic of China discloses an invention for entering shell about lithium battery, which awards Weighing public platform is：CN 107093762 A.Including lifting gear, cross bar, battery clamp, cushion course, fixed plate, pressure sensing Device, actuating unit, fixed plate are flexibly connected with cushion course, and cushion course is located at the upper surface of fixed plate, and fixed plate passes through pressure sensing Device is connect with actuating unit, and pressure sensor is set to the centre of fixed plate and actuating unit, the top of fixed plate and lifting gear It being fixedly connected, lifting gear is flexibly connected with fixed plate, and lifting gear is connected to cross bar, and cross bar is mutually perpendicular to lifting gear, Cross bar is mutually parallel with cushion course, and cross bar is equipped with battery clamp, and battery clamp is located at cross bar bottom.

Invention content

The technical problem to be solved in the invention be to provide it is a kind of integration production and the high lithium battery of production efficiency enter Shell systems.

In order to solve the above technical problems, enter shell systems the present invention provides a kind of lithium battery, including pawl is embedding and aluminum hull；Institute It states aluminum hull and clamps connection with chela, the chela is connected with Rotation Controllers control, and aluminum hull is pushed into dust suction station by the chela Aluminum hull is pushed into at shell station by place, the chela again, it is described enter shell station pass through and align set and aluminum hull fitting, the aluminum hull set That closes front end is equipped with push plate, and the push plate is connect by retainer with battery core ejection, and the battery core passes through Mylar films and aluminum hull set It closes.

Further, the dust suction station includes dust suction square tube, and dust suction square tube is in sealing contact by rubber interface and aluminum hull, institute It states dust suction square tube bottom and turbofan is housed, the turbofan outer end is cased with air draft shell.

Further, aluminum hull is pushed at energization detection station by the chela again, and the energization detection station includes movement Plate is equipped with mobile electric meter case on the sliding rail of the maneuvering board, in the detection probe and retainer on the mobile electric meter case just Cathode detection contact.

Further, aluminum hull is pushed at the weld port of laser soldering device by the chela again.

Further, aluminum hull is pushed at shell outside dimension detection station by the chela again, the shell outside dimension detection station Display platform is detected including CCD, the CCD detection display platforms are connected with aluminum hull limit, the CCD on CCD detection display platforms top Detection probe is corresponding with the weld of aluminum hull through registration holes.

With the above structure, lithium battery of the present invention enters shell systems compared with prior art, from structure, this hair The lithium battery that the multistation technology of bright integrated molding is capable of quick batch is effectively produced.In process of production, portion Sub-station quickly and effectively can make detection to the quality of lithium battery, while in an efficient manner by inferior and good lithium Battery does runner division.

Description of the drawings

The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is the structural schematic diagram of present invention gripping station.

Fig. 2 is the structural schematic diagram of dust suction station of the present invention.

Fig. 3 is the structural schematic diagram that the present invention enters shell station.

Fig. 4 is the structural schematic diagram of energization detection station of the present invention.

Fig. 5 is the structural schematic diagram of shell outside dimension detection station of the present invention.

Fig. 6 is the structural schematic diagram of laser soldering device of the present invention.

Fig. 7 is the structural schematic diagram that lithium battery of the present invention enters shell systems.

In figure：1-1 is Rotation Controllers, 1-2 is chela, 1-3 is turbofan, 3 be dust suction station, 3-1 is that rubber connects Mouthful, 3-2 be dust suction square tube, 3-3 is turbofan, 3-4 is air draft shell, 4 be into shell station, 4-1 be push plate, 4-2 be retainer, 4-3 is contraposition set, 4-4 is battery core, 4-5 is Mylar films, 5 be energization detection station, 5-1 is maneuvering board, 5-2 be detection probe, 5-3 is sliding rail, 5-4 is mobile electric meter case, 6 be shell outside dimension detection station, 6-1 is CCD detection probes, 6-2 is registration holes, 6- 3 detect display platform for CCD.

Specific implementation mode

As shown in Fig. 1, Fig. 3 and Fig. 7, a kind of lithium battery enters shell systems, including pawl is embedding and aluminum hull；The aluminum hull 1-3 and pincers Pawl 1-2 clamps connection, and the chela 1-2 is connected with Rotation Controllers 1-1 controls, and aluminum hull 1-3 is pushed into dust suction by the chela 1-2 At station 3, aluminum hull 1-3 is pushed into at shell station 4 by the chela 1-2 again, it is described enter shell station 4 pass through contraposition and cover 4-3 and aluminium Shell 1-3 fittings, the aluminum hull 1-3 fittings front end pass through retainer 4-2 and battery core 4-4 equipped with push plate 4-1, the push plate 4-1 Ejection connects, and the battery core 4-4 passes through Mylar films 4-5 and aluminum hull 1-3 fittings.Wherein, the present invention is first by ready aluminum hull 1-3 is transported by chela 1-2 and is done dust removal process at dust suction station 3.Ensure that lithium battery not will receive dust during the installation process Pollution and that causes lithium battery scrap processing.After the completion of dust-removing process, empty aluminum hull 1-3 is transported at shell station 4.Enter Battery core 4-1 equipped with retainer 4-2 is pushed by push plate 4-1 in aluminum hull 1-3 by shell station 4.In order to anti-during ejection Only battery core 4-1 is scratched by metal aluminum hull 1-3, in one layer of Mylar films 4-5 of surface hot weld of the battery core.It finally will be electric Core 4-4 is installed to aluminum hull 1-3.

As shown in Fig. 2, the dust suction station includes dust suction square tube 3-2, dust suction square tube 3-2 passes through rubber interface 3-1 and aluminium Shell 1-3 is in sealing contact, and the bottoms dust suction square tube 3-2 are cased with air draft equipped with the outer ends turbofan 3-3, the turbofan 3-3 Shell 3-4.Wherein, during dust suction, can will quickly and effectively be remained on aluminum hull 1-3 inner walls using turbofan 3-3 Impurity and metal fragment are sucked out and are stored in dustbin, prevent secondary pollution.

As shown in figure 4, aluminum hull 1-3 is pushed at energization detection station 5 by the chela 1-2 again, the energization detection station 5 Including maneuvering board 5-1, equipped on mobile electric meter case 5-4, the mobile electric meter case 5-4 on the sliding rail 5-3 of the maneuvering board 5-1 Detection probe 5-2 is contacted with the positive and negative anodes detection on retainer 4-2.Wherein, in order to detect the lithium battery for installing battery core 4-1, Positive and negative anodes on the retainer 4-2 are subjected to circuit detection by detection probe 5-2.It, can be by if abnormal detection It is sent into NG runners.

As shown in fig. 6, aluminum hull 1-3 is pushed at the weld port of laser soldering device 7 by the chela 1-2 again.Wherein, lead to The lithium battery of oversampling circuit detection needs to complete to encapsulate and can be further processed, so by the aluminum hull 1-3 with battery core 4-1 It is sent into laser soldering device 7 and carries out laser welding.When laser welding, periphery is welded first, and then welding is intermediate There is the phenomenon that shell gas leakage during can effectively prevent welding in this way in part.

As shown in figure 5, aluminum hull 1-3 is pushed at shell outside dimension detection station 6 by the chela 1-2 again, the shell outside dimension Detection station 6 includes CCD detection display platforms 6-3, and the CCD detection display platform 6-3 are connected with aluminum hull 1-3 limits, the CCD inspections The CCD detection probes 6-1 for surveying the tops display platform 6-3 is corresponding with the weld of aluminum hull 1-3 through registration holes 6-2.Wherein, finally Welding also needs to be aluminum hull 1-3 the detection of apparent size after completing, at aluminum hull 1-3 push-in shell outside dimensions detection station 6, And the detection for carrying out corner size finally separates quality, and completes the collection of finished product.

After the completion of CCD is detected, it is also necessary to circuit detection is carried out to aluminum hull 1-3, to prevent aluminum hull 1-3 and retainer 4-2 Connection it is unstable.

To sum up, the multistation technology of integrated molding of the present invention is capable of the lithium battery of quick batch and is effectively given birth to Production.In process of production, part station quickly and effectively can make detection to the quality of lithium battery, while with efficient side Inferior and good lithium battery is done runner division by formula.

Claims

1. a kind of lithium battery enters shell systems, including pawl is embedding and aluminum hull；It is characterized in that：The aluminum hull (1-3) clamps with chela (1-2) Connection, the chela (1-2) connect with Rotation Controllers (1-1) control, and aluminum hull (1-3) is pushed into dust suction by the chela (1-2) At station (3), aluminum hull (1-3) is pushed into at shell station (4) by the chela (1-2) again, it is described enter shell station (4) pass through contraposition (4-3) and aluminum hull (1-3) fitting are covered, aluminum hull (1-3) fitting front end is equipped with push plate (4-1), and the push plate (4-1) passes through Retainer (4-2) is connect with battery core (4-4) ejection, and the battery core (4-4) passes through Mylar films (4-5) and aluminum hull (1-3) fitting.

2. lithium battery according to claim 1 enters shell systems, it is characterized in that：The dust suction station includes dust suction square tube (3- 2), dust suction square tube (3-2) is in sealing contact by rubber interface (3-1) and aluminum hull (1-3), dust suction square tube (3-2) the bottom dress There are turbofan (3-3), turbofan (3-3) outer end to be cased with air draft shell (3-4).

3. lithium battery according to claim 1 enters shell systems, it is characterized in that：The chela (1-2) again pushes away aluminum hull (1-3) Enter at the detection station that is powered (5), the energization detection station (5) includes maneuvering board (5-1), the sliding rail of the maneuvering board (5-1) Mobile electric meter case (5-4) is housed, the detection probe (5-2) on the mobile electric meter case (5-4) and retainer (4-2) on (5-3) On positive and negative anodes detection contact.

4. lithium battery according to claim 3 enters shell systems, it is characterized in that：The chela (1-2) again pushes away aluminum hull (1-3) At the weld port for entering laser soldering device (7).

5. lithium battery according to claim 4 enters shell systems, it is characterized in that：The chela (1-2) again pushes away aluminum hull (1-3) Enter at shell outside dimension detection station (6), the shell outside dimension detection station (6) includes CCD detection display platforms (6-3), the CCD It detects display platform (6-3) to connect with aluminum hull (1-3) limit, the CCD detection probes (6- on CCD detections top display platform (6-3) 1) it is corresponding with the weld of aluminum hull (1-3) that registration holes (6-2) are penetrated.