CN219610516U - Auxiliary heating film installation equipment for battery cell module - Google Patents

Abstract

The utility model discloses heating film auxiliary installation equipment of a battery cell module, which is used for assisting in manually installing a heating film on the battery cell module and comprises at least one operation station, wherein each operation station is provided with a bearing mechanism, a clamping mechanism, a lifting mechanism and a turnover mechanism, and the bearing mechanism is at least configured to bear the battery cell module; the clamping mechanism is configured to clamp the battery cell module on the bearing mechanism; the driving end of the lifting mechanism is connected with the clamping mechanism and is configured to drive the clamping mechanism to lift; the driving end of the turnover mechanism is connected with the lifting mechanism and is configured to drive the clamping mechanism to turn over a preset angle when the lifting mechanism drives the clamping mechanism clamping the battery cell module to rise to a preset height, so that the film pasting surface of the battery cell module faces the operation side of the equipment. Above-mentioned battery core module's heating membrane auxiliary installation equipment can realize the automatic upset of battery core module, and the manual work of being convenient for installs the heating membrane, has reduced workman's intensity of labour, has improved work efficiency.

Description

Auxiliary heating film installation equipment for battery cell module

Technical Field

The utility model belongs to the technical field of lithium battery production, and particularly relates to heating film auxiliary installation equipment of an electric core module.

Background

The battery pack for the electric automobile is formed by connecting a plurality of battery cells together through a serial-parallel structure, and outputs voltage, current and electric quantity required by a system. The battery cell stores or releases electric quantity through chemical reaction. It is well known that temperature has a very pronounced effect on chemical reactions, especially when the battery is in a low temperature environment below 0 ℃, and the battery is not allowed to charge. To meet the requirements of reliable and safe operation of the battery at low temperatures, it is necessary to install a heating film on the surface of the battery to raise the temperature of the battery.

In the prior art, the heating film is generally installed on the lower surface of the battery cell module, and the heating film is installed manually at present because the heating film has a complex structure and fragile texture. But the weight of electric core module is big, installs the heating film after the manual work upset electric core module, leads to workman's work load strong, and production efficiency is difficult to guarantee.

Disclosure of Invention

The utility model aims to provide heating film auxiliary installation equipment for a battery cell module, which solves the problems of high labor intensity and low production efficiency of the battery cell module by adopting manual overturning when the battery cell module is used for installing a heating film in the prior art.

To achieve the purpose, the utility model adopts the following technical scheme:

the auxiliary heating film installing equipment for the battery cell module comprises at least one operation station, wherein each operation station is provided with a bearing mechanism, a clamping mechanism, a lifting mechanism and a turnover mechanism,

the bearing mechanism is at least configured to bear the battery cell module;

the clamping mechanism is configured to clamp the battery cell module on the bearing mechanism;

the driving end of the lifting mechanism is connected with the clamping mechanism, and the lifting mechanism is configured to drive the clamping mechanism to lift;

the driving end of the turnover mechanism is connected with the lifting mechanism, and the turnover mechanism is configured to drive the clamping mechanism to turn over a preset angle when the lifting mechanism drives the clamping mechanism clamping the battery core module to rise to a preset height so that the film pasting surface of the battery core module faces the operation side of the equipment.

Through fixture, elevating system and tilting mechanism's cooperation, can be with the pad pasting face of electric mandrel group automatic upset to the operating side towards equipment, realized the automatic upset of electric mandrel group, be convenient for the manual work and install the heating film, reduced workman's intensity of labour, improved work efficiency.

Optionally, the fixture includes mounting panel, two clamping parts, clamping driving piece and transmission subassembly, and two clamping parts can install in the opposite side of mounting panel with sliding, and clamping driving piece passes through transmission subassembly drive two clamping parts and is close to or keep away from each other to centre gripping or unclamp electric core module.

Through the cooperation of two clamping parts, clamping driving piece and drive assembly, realized the automatic centre gripping of the electric core module on the mechanism that will bear, provided a simple structure, centre gripping reliable and stable's fixture.

Optionally, the fixture further includes a detection mechanism for detecting whether two clamping components descend to the clamping position, the detection mechanism includes a lifting component and an induction component, the lifting component can be assembled on the mounting plate in a lifting manner, the induction component is installed at a preset position of a lifting path of the lifting component and is configured to induce whether the lifting component ascends to the preset position, and when the clamping mechanism descends to clamp the battery cell module, the lifting component is abutted to the battery cell module first.

Through the cooperation of lifting unit and response part, realized that two clamping parts descend to the automatic control of clamping position, detection mechanism overall structure is simple, easily realizes, can guarantee the accuracy of centre gripping electric core module simultaneously.

Optionally, the two clamping members are L-shaped, and when the two clamping members clamp the cell module, the protruding portions on two sides of the cell module are lapped on the clamping members.

Through designing two clamping parts to L type, can make the protruding part of electric core module both sides take on the clamping part of both sides, and then realize the centre gripping and the support to electric core module, improved one kind and easily realized, with low costs and the clamping part of being convenient for fixed electric core module.

Optionally, the turnover mechanism includes a turnover driving member and a turnover frame rotatably mounted on a driving end of the lifting mechanism, the turnover driving member is configured to drive the turnover frame to rotate, and the clamping mechanism is mounted on the turnover frame.

Through the cooperation of upset driving piece and roll-over stand, realized the automatic upset of roll-over stand, and then drive the fixture that the clamp held the electric core module and overturn automatically to face the pad pasting of electric core module to the operation side, provided a simple structure, job stabilization reliable tilting mechanism.

Optionally, the elevating system includes base, lift driving piece and lifting piece, the stiff end of lift driving piece is installed on the base, lift driving piece is connected to the drive end of lift driving piece, lifting piece can install on the base with lifting, the roll-over stand can rotationally install on lifting, install the anticreep subassembly that is used for preventing the unexpected whereabouts of lifting after lifting between base and the lifting, the anticreep subassembly includes anticreep driving piece and anticreep piece, the stiff end of anticreep driving piece is installed on the base, the loose end of anticreep driving piece is connected anticreep piece, anticreep driving piece drive anticreep piece is connected or is separated with lifting.

Through the cooperation of lift driving piece and lifting piece, realized the lift of roll-over stand, and then drive the electric mandrel group of fixture centre gripping and go up and down, through the cooperation of anticreep driving piece and anticreep piece, can realize the connection and the separation of lifting piece and base to avoid unexpected whereabouts after the lifting piece risees, improved the fail safe nature of equipment.

Optionally, the carrier mechanism includes a tooling drive assembly and a carrier table, the tooling drive assembly configured to drive the tooling to move to a designated position of the carrier table, and the cell module is placed on the tooling.

The tool driving assembly is used for moving the tool to the appointed position of the bearing table, and the bearing mechanism with bearing and conveying functions is provided.

Optionally, a limiting component for limiting the position of the battery cell module on the bearing table is arranged on the bearing table.

The position of the battery cell module on the bearing table can be determined through the limiting component, so that the battery cell module can be conveniently and accurately clamped.

Optionally, the heating film auxiliary installation device of the cell module further comprises a sliding component, and the sliding component is configured to drive the cell module to be close to the operation side of the device after the clamping mechanism is turned to a preset angle, or drive the cell module to be far away from the operation side of the device after the heating film is installed on the cell module.

Through setting up the subassembly that slides, after tilting mechanism upset electric core module, the subassembly that slides moves electric core module to the position that is close to the operation side to make things convenient for the workman to install the heating film.

Optionally, the heating film auxiliary installation device of the battery cell module further comprises a detection component and a detection driving piece, the detection component is configured to detect whether the heating film of the battery cell module is installed in place, the heating film auxiliary installation device of the battery cell module comprises two operation stations, and the detection driving piece is configured to drive the detection component to switch between the two operation stations.

Through setting up detection component, realized after the installation of heating film, whether the heating film on the automated inspection electricity core module is installed in place, can drive detection component through detecting the driving piece and switch between two operation stations, realized that two stations share a detection component, simplified the structure, save the cost.

Drawings

Fig. 1 is a schematic diagram of an overall structure of a heating film auxiliary mounting device of a battery cell module according to an embodiment of the present utility model;

fig. 2 is a schematic diagram of a specific structure of a single station of a heating film auxiliary installation device of a battery cell module according to an embodiment of the present utility model;

fig. 3 is a schematic perspective view of a clamping mechanism of a heating film auxiliary mounting device of a battery cell module according to an embodiment of the present utility model;

fig. 4 is a schematic diagram of another perspective structure of a clamping mechanism of a heating film auxiliary mounting device of a battery cell module according to an embodiment of the present utility model;

fig. 5 is a schematic perspective view of a turnover mechanism of a heating film auxiliary installation device of a battery cell module according to an embodiment of the present utility model.

The following reference numerals are included in fig. 1 to 5:

the bearing mechanism 10, the tool driving assembly 11, the bearing table 12 and the limiting part 13;

the clamping mechanism 20 comprises a mounting plate 21, a clamping component 22, a clamping driving piece 23, a transmission assembly 24, a swinging rod 240, a connecting rod 241, a lifting assembly 25, an insulating pressing plate 250, a guide rod 251 and a sensing component 26;

a lifting mechanism 30, a base 31, a lifting driving member 32, a lifting member 33, a drop-preventing driving member 34, a drop-preventing member 35 and a positioning column 36;

a turnover mechanism 40, a turnover driving member 41 and a turnover frame 42;

a cell module 50; a tool 60; a slip assembly 70; a detecting section 80; the driving member 81 is detected.

Detailed Description

In order that the above-recited objects, features and advantages of the present utility model will become more readily apparent, a more particular description of the utility model will be rendered by reference to the appended drawings and appended detailed description.

It is well known that temperature has a very pronounced effect on chemical reactions, especially when the battery is in a low temperature environment below 0 ℃, and the battery is not allowed to charge. To meet the requirements of reliable and safe operation of the battery at low temperatures, it is necessary to install a heating film on the surface of the battery to raise the temperature of the battery.

In the prior art, the heating film is generally installed on the lower surface of the battery cell module, and the heating film is installed manually at present because the heating film has a complex structure and fragile texture. But the weight of electric core module is big, installs the heating film after the manual work upset electric core module, leads to workman's work load strong, and production efficiency is difficult to guarantee.

Therefore, the utility model provides a heating film auxiliary installation device of a battery cell module, as shown in fig. 1 and fig. 2, the heating film auxiliary installation device of a battery cell module provided by the embodiment of the utility model is used for assisting in manually installing a heating film on the battery cell module, the heating film auxiliary installation device of the battery cell module comprises at least one operation station, each operation station is provided with a bearing mechanism 10, a clamping mechanism 20, a lifting mechanism 30 and a turnover mechanism 40, wherein the bearing mechanism 10 is at least configured to bear the battery cell module 50; the clamping mechanism 20 is configured to clamp the battery cell module 50 on the carrier mechanism 10; the driving end of the lifting mechanism 30 is connected with the clamping mechanism 20, and the lifting mechanism 30 is configured to drive the clamping mechanism 20 to lift; the driving end of the turnover mechanism 40 is connected with the lifting mechanism 30, and the turnover mechanism 40 is configured to drive the clamping mechanism 20 to turn over a preset angle so that the film-sticking surface of the battery cell module 50 faces the operation side of the device when the lifting mechanism 30 drives the clamping mechanism 20 clamping the battery cell module 50 to rise to a preset height.

It can be seen that, after the clamping mechanism 20 clamps the electric core module 50, the lifting mechanism 30 drives the clamping mechanism 20 to rise to a preset height, and then the turnover mechanism 40 drives the clamping mechanism 20 to turn over by a preset angle, so that the film sticking surface of the electric core module 50 faces the operation side of the device, the automatic turnover of the electric core module 50 is realized, the manual installation of the heating film is facilitated, the labor intensity of workers is reduced, and the working efficiency is improved.

Specifically, the preset angle for the turnover mechanism 40 to drive the clamping mechanism 20 to turn over may be 90 ° or may be an angle that is convenient for manual operation, such as 100 ° or 110 °.

As an embodiment, referring to fig. 3, the clamping mechanism 20 includes a mounting plate 21, two clamping members 22, a clamping driving member 23 and a transmission assembly 24, wherein the two clamping members 22 are slidably mounted on opposite sides of the mounting plate 21, and the clamping driving member 23 drives the two clamping members 22 to approach or separate from each other through the transmission assembly 24 so as to perform clamping or loosening actions on the battery cell module 50.

Specifically, the clamping driving member 23 adopts a servo motor, the clamping driving member 23 is vertically mounted on the end face of the mounting plate 21, the rotating shaft of the clamping driving member penetrates through the mounting plate 21, the two clamping components 22 are assembled on the bottom face of the mounting plate 21 through sliding guide pairs formed by sliding and guide rails, the transmission assembly 24 comprises a swinging rod 240 and two connecting rods 241, the swinging rod 240 is fixedly mounted on the rotating shaft of the clamping driving member 23, one ends of the two connecting rods 241 are mounted at two ends of the swinging rod 240 through joint bearings respectively, and the other ends of the two connecting rods 241 are mounted on the corresponding clamping components 22 through the joint bearings respectively.

It can be seen that the swinging rod 240 is driven to rotate by the clamping driving member 23, so that the two connecting rods 241 drive the corresponding clamping members 22 to approach or separate from each other, thereby realizing clamping or releasing of the battery cell module 50. The clamping mechanism is simple in structure and stable and reliable in clamping.

As an embodiment, referring to fig. 4, the clamping mechanism 20 further includes a detecting mechanism for detecting whether the two clamping members 22 are lowered to the clamping position, the detecting mechanism includes a lifting assembly 25 and a sensing member 26, the lifting assembly 25 is assembled on the mounting plate 21 in a lifting manner, the sensing member 26 is installed at a preset position of a lifting path of the lifting assembly 25 and is configured to sense whether the lifting assembly 25 is raised to the preset position, and when the clamping mechanism 20 descends to clamp the battery cell module 50, the lifting assembly 25 is abutted against the battery cell module 50.

Specifically, the lifting assembly 25 includes an insulating pressing plate 250 and at least two guide rods 251, the at least two guide rods 251 are installed on the mounting plate 21 in a relatively lifting manner, the insulating pressing plate 250 is fixedly installed at the bottom ends of the at least two guide rods 251, the sensing component 26 adopts a proximity switch, and the sensing component 26 is installed above the mounting plate 21 and is located at one side of one guide rod 251.

It can be seen that, the clamping mechanism 20 descends and makes the insulating pressing plate 250 attach to the upper surface of the cell module 50, along with the descent of the insulating pressing plate 250, the guide rod 251 on the insulating pressing plate 250 can be lifted relative to the mounting plate 21, when the top end of the guide rod 251 is flush with the sensing component 26, the sensing component 26 sends an electrical signal, and at this time, the cell module 50 can be clamped, the automatic control of the two clamping components 22 descending to the clamping position is realized, the whole structure of the detection mechanism is simple, the detection mechanism is easy to realize, and meanwhile, the accuracy of clamping the cell module can be ensured.

In one embodiment, the two holding members 22 are L-shaped, and when the two holding members 22 hold the cell module 50, the protruding portions on both sides of the cell module 50 are placed on the holding members 22.

Therefore, the two clamping members 22 are designed into the L shape, so that the protruding portions on both sides of the battery cell module 50 can be lapped on the clamping members 22 to support the battery cell module 50 clamped by the two clamping members 22, so that the battery cell module 50 can be conveniently fixed, and the battery cell module 50 can be prevented from falling from the two clamping members 22 due to insufficient clamping force of the two clamping members 22, thereby further improving the stability and reliability of clamping.

As an embodiment, referring to fig. 5, the turnover mechanism 40 includes a turnover driving member 41 and a turnover frame 42, the turnover frame 42 is rotatably installed on a driving end of the lifting mechanism 30, the turnover driving member 41 is configured to drive the turnover frame 42 to rotate, and the clamping mechanism 20 is installed on the turnover frame 42.

It can be seen that the turnover driving member 41 drives the turnover frame 42 to rotate, so as to drive the clamping mechanism 20 holding the battery cell module 50 to automatically turn over, so as to face the adhesive film of the battery cell module 50 to the operation side, and a turnover mechanism with simple structure and stable and reliable operation is provided.

As an embodiment, the lifting mechanism 30 includes a base 31, a lifting driving member 32 and a lifting member 33, the fixed end of the lifting driving member 32 is mounted on the base 31, the driving end of the lifting driving member 32 is connected with the lifting member 33, the lifting member 33 is liftably mounted on the base 31, the roll-over stand 42 is rotatably mounted on the lifting member 33, an anti-falling assembly for preventing the lifting member 33 from accidentally falling down after the lifting member 33 rises is mounted between the base 31 and the lifting member 33, the anti-falling assembly includes an anti-falling driving member 34 and an anti-falling member 35, the fixed end of the anti-falling driving member 34 is mounted on the base 31, the movable end of the anti-falling driving member 34 is connected with the anti-falling member 35, and the anti-falling driving member 34 drives the anti-falling member 35 to be connected with or separated from the lifting member 33.

Specifically, the lifting driving member 32 and the anti-falling driving member 34 are both cylinders, the anti-falling member 35 is an anti-falling hook, the anti-falling member 35 is rotatably installed on the base 31, the lifting member 33 is provided with a positioning column 36, and the anti-falling driving member 34 drives the anti-falling member 35 to rotate, so that the anti-falling member 35 hooks the positioning column 36 or disengages the positioning column 36.

It can be seen that the lifting driving member 32 drives the lifting member 33 to lift, so as to drive the roll-over stand 42 to lift, so as to lift the electric core module 50 on the clamping mechanism 20, and hook the positioning column 36 through the anti-falling member 35, so as to realize connection between the anti-falling member 35 and the lifting member 33, so as to avoid unexpected falling (such as fatigue damage of the cylinder, or failure of the cylinder caused by sudden power-off and gas-off) after the lifting member 33 rises, thereby improving the safety and reliability of the device.

As an embodiment, referring to fig. 1 and 2 again, the carrying mechanism 10 includes a tool driving assembly 11 and a carrying table 12, the tool driving assembly 11 is configured to drive the tool 60 to move to a designated position of the carrying table 12, and the battery module 50 is placed on the tool 60.

Specifically, the tool driving assembly 11 comprises a driving motor and a chain, and the driving motor drives the chain to rotate, so that the tool 60 is driven to move through the chain.

It can be seen that the tool driving assembly 11 can drive the tool 60 to move to the designated position of the carrying table 12, and provides the carrying mechanism 10 with carrying and conveying functions.

As an embodiment, the carrying platform 12 is provided with a limiting member 13 for limiting the position of the battery cell module 50 on the carrying platform 12.

Specifically, the limiting member 13 employs two stopper plates fixed to the carrying table 12 at intervals.

It can be seen that, by blocking by the limiting member 13, the position of the cell module 50 on the carrying platform 12 can be determined, so as to accurately clamp the cell module 50.

As an embodiment, the heating film auxiliary installation device of the cell module further comprises a sliding component 70, wherein the sliding component 70 is configured to drive the cell module 50 to be close to the operation side of the device after the clamping mechanism 20 is turned to a preset angle, or drive the cell module 50 to be far away from the operation side of the device after the heating film is installed on the cell module 50.

It can be seen that after the turnover mechanism 40 turns over the cell module 50, the sliding assembly 70 moves the cell module 50 to a position close to the operation side, so as to facilitate the worker to install the heating film, and after the heating film is installed, the sliding assembly 70 drives the cell module 50 to reset away from the operation side of the device.

As an embodiment, referring to fig. 1, the heating film auxiliary mounting apparatus for a battery cell module further includes a detecting part 80 and a detecting driving part 81, the detecting part 80 is configured to detect whether the heating film of the battery cell module 50 is mounted in place, the heating film auxiliary mounting apparatus for a battery cell module includes two operation stations, and the detecting driving part 81 is configured to drive the detecting part 80 to switch between the two operation stations.

Specifically, the detection part 80 adopts an industrial detection camera, the detection driving part 81 adopts a transverse movement module, the transverse movement module is arranged at the outer sides of the two operation stations along the width direction, and the driving end of the transverse movement module is connected with the industrial detection camera.

It can be seen that, through detecting part 80, it is realized that after the installation of heating film, whether the heating film on the automatic detection electric core module 50 is installed in place, through detecting driver 81 can drive detecting part 80 to switch between two operation stations, realized that two stations share a detecting part, simplified the structure, saved the cost.

The auxiliary installation equipment of heating film of electric core module that this embodiment provided theory of operation does:

s1, the bearing assembly 10 moves the tool 60 and the battery cell module 50 to a designated position of the bearing table 12;

s2, the lifting driving piece 32 drives the lifting piece 33 to descend so that the two clamping parts 22 descend to the clamping positions and then clamp the cell module 50;

s3, the lifting driving piece 32 drives the lifting piece 33 to lift, and the battery cell module 50 is lifted to a specified height;

s4, the turnover driving piece 41 drives the turnover frame 42 to turn over 90 degrees, and the film pasting surface of the battery cell module 50 faces to the operation side (namely, the lower surface of the battery cell module faces to an operator);

s5, the sliding assembly 70 moves the battery cell module 50 towards the operation side, and finally moves to a film pasting position for film pasting by an operator;

s6, after film pasting is completed, the turnover driving piece 41 drives the turnover frame 42 to reset, so that the film pasting surface of the battery cell module 50 faces downwards, and whether the heating film is installed in place or not is detected by the detecting component 80;

and S7, after the detection is qualified, the cell module after film pasting is moved to the bearing mechanism 10, and the cell module after film pasting is moved out or moved to the next process by the bearing mechanism 10.

The auxiliary heating film installation equipment of the battery cell module provided in the embodiment has the following advantages:

1) The automatic overturning of the cell module is realized, the heating film is convenient to install manually, the labor intensity of workers is reduced, and the working efficiency is improved.

2) The automatic control of the two clamping components falling to the clamping position is realized, so that the accuracy of clamping the cell module is ensured.

3) The two clamping parts are designed into L shapes, so that the clamping and supporting of the battery cell module can be realized, and the stable reliability of the clamping is further improved.

4) The anti-falling assembly is arranged to avoid accidental falling of the lifting piece after rising, so that the safety and reliability of the equipment are improved.

5) The sliding assembly is arranged, after the turnover mechanism turns over the battery cell module, the sliding assembly moves the battery cell module to a position close to the operation side, and the heating film is further convenient for workers to install.

6) The detection component is arranged to automatically detect whether the heating film on the battery cell module is installed in place.

The above embodiments merely illustrate the basic principles and features of the present utility model, and the present utility model is not limited to the above examples, but can be variously changed and modified without departing from the spirit and scope of the present utility model, which is within the scope of the present utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (10)

1. The auxiliary heating film installation equipment of the battery cell module is characterized by comprising at least one operation station, wherein each operation station is provided with a bearing mechanism, a clamping mechanism, a lifting mechanism and a turnover mechanism,

the bearing mechanism is at least configured to bear the battery cell module;

the clamping mechanism is configured to clamp the battery cell module on the bearing mechanism;

the driving end of the lifting mechanism is connected with the clamping mechanism, and the lifting mechanism is configured to drive the clamping mechanism to lift;

the driving end of the turnover mechanism is connected with the lifting mechanism, and the turnover mechanism is configured to drive the clamping mechanism to turn over by a preset angle when the lifting mechanism drives the clamping mechanism clamping the battery cell module to rise to a preset height, so that the film pasting surface of the battery cell module faces the operation side of the equipment.

2. The heating film auxiliary installation apparatus of a battery cell module according to claim 1, wherein the clamping mechanism comprises a mounting plate, two clamping members slidably mounted on opposite sides of the mounting plate, a clamping driving member driving the two clamping members toward or away from each other by a transmission assembly to clamp or unclamp the battery cell module, and a transmission assembly.

3. The heating film auxiliary installation apparatus of claim 2, wherein the clamping mechanism further comprises a detection mechanism for detecting whether the two clamping members are lowered to the clamping position, the detection mechanism comprises a lifting assembly and a sensing member, the lifting assembly is assembled on the installation plate in a lifting manner, the sensing member is installed at a preset position of a lifting path of the lifting assembly and is configured to sense whether the lifting assembly is raised to the preset position, and the lifting assembly is abutted against the battery cell module when the clamping mechanism is lowered to clamp the battery cell module.

4. The heating film auxiliary installation device of a battery cell module according to claim 2, wherein the two clamping members are L-shaped, and when the two clamping members clamp the battery cell module, the protruding portions on both sides of the battery cell module are overlapped on the two clamping members.

5. The heating film auxiliary installation apparatus of a battery cell module according to claim 1, wherein the turnover mechanism includes a turnover driving member and a turnover frame rotatably installed on a driving end of the elevation mechanism, the turnover driving member being configured to drive the turnover frame to rotate, and the clamping mechanism is installed on the turnover frame.

6. The heating film auxiliary installation apparatus of claim 5, wherein the lifting mechanism comprises a base, a lifting driving member and a lifting member, a fixed end of the lifting driving member is installed on the base, a driving end of the lifting driving member is connected with the lifting member, the lifting member is installed on the base in a lifting manner, the roll-over stand is rotatably installed on the lifting member, a falling-off prevention assembly for preventing the lifting member from falling down accidentally after the lifting member ascends is installed between the base and the lifting member, the falling-off prevention assembly comprises a falling-off prevention driving member and a falling-off prevention member, a fixed end of the falling-off prevention driving member is installed on the base, a movable end of the falling-off prevention driving member is connected with the falling-off prevention member, and the falling-off prevention driving member drives the falling-off prevention member to be connected with or separated from the lifting member.

7. The heated film assisted mounting apparatus of claim 1 wherein the carrier mechanism comprises a tooling drive assembly and a carrier table, the tooling drive assembly configured to drive a tooling to a designated position of the carrier table on which the cell module is placed.

8. The heating film auxiliary installation device of a battery cell module according to claim 7, wherein a limiting member for limiting the position of the battery cell module on the bearing table is provided on the bearing table.

9. The heated film assisted mounting apparatus of claim 1, further comprising a slip assembly configured to drive the cell module toward the operating side of the apparatus after the clamping mechanism is flipped to a preset angle or to drive the cell module away from the operating side of the apparatus after the cell module mounts a heated film.

10. The heating film auxiliary installation apparatus of a battery cell module according to claim 1, further comprising a detection member configured to detect whether the heating film of the battery cell module is installed in place or not, and a detection driving member configured to drive the detection member to switch between the two operation stations.