CN210753452U

CN210753452U - Device for automatically coating oil on battery

Info

Publication number: CN210753452U
Application number: CN201921601699.1U
Authority: CN
Inventors: 邓方立; 曹新; 王一擘; 王菘如; 任少华
Original assignee: China Electronic New Energy Wuhan Research Institute Co ltd
Current assignee: China Electronic New Energy Wuhan Research Institute Co ltd
Priority date: 2019-09-25
Filing date: 2019-09-25
Publication date: 2020-06-16
Anticipated expiration: 2029-09-25

Abstract

The utility model provides an automatic device of carrying out fat liquoring to battery, include: the conveying belt is laid on the workbench, and the conveying belt is fixedly provided with a placing part for placing the battery; the oiling component is arranged above the workbench and comprises an oiling seat with a downward opening, a cylindrical cavity is arranged on the oiling seat, an oil adsorption material is arranged on the inner wall of the cylindrical cavity, an oiling port is arranged at the lower end of the inner wall of the oiling seat, and an oil inlet component connected with the oiling port is arranged on the outer side of the oiling seat; and the telescopic mechanism is arranged at the top of the oiling assembly and used for driving the oiling seat to move downwards so that the battery to-be-oiled area enters the cylinder cavity. The utility model discloses an oiling station can only carry out the fat liquoring to battery key position, has avoided also carrying out the fat liquoring to the difficult rusty position of battery, has saved the cost, has improved work efficiency.

Description

Device for automatically coating oil on battery

Technical Field

The utility model relates to a battery production facility technical field especially relates to an automatic device that carries out the fat liquoring to the battery.

Background

At present, the shell of the cylindrical battery is basically a nickel-plated steel shell, the steel shell has certain corrosion resistance after being plated with nickel, but rust spots still appear on the shell when the cylindrical battery is stored or used in a high-temperature and high-humidity environment. Therefore, in the production process of the cylindrical battery, in order to increase the corrosion resistance, a layer of rust preventive oil is applied to the battery case.

However, the oil coating process in the production process of the cylinder type battery at present has the following problems:

firstly, manual oiling is adopted, a large amount of manpower and working hours need to be invested, and the phenomenon of coating omission of anti-rust oil is easily caused in the manual oiling process, so that the labor cost is increased, and the production efficiency and the product percent of pass are also reduced.

And secondly, the position of the cylindrical battery, which is easy to rust, is arranged on the notch of the roller on the steel shell, the shoulder of the steel shell and the top of the cover cap, and the positions are all positions with damaged plating layers. The equipment fat liquoring is spray-type fat liquoring generally, and when adopting spray-type fat liquoring equipment to scribble the oil to the cylinder battery, the existence can not effectively be coated key rust position, and has also carried out the fat liquoring to the difficult rusty position of battery easily, causes the cost too big.

SUMMERY OF THE UTILITY MODEL

According to prior art's not enough, the utility model provides a device of fat liquoring is carried out automatically to battery to the realization can reduction in production cost, avoids cylinder type battery to appear leaking scribbling rust-resistant oil in process of production, scribbles phenomenon such as rust-resistant oil more, with the purpose that improves battery production efficiency and product percent of pass.

In order to achieve the above object, the technical solution adopted in the present invention is:

an apparatus for automatically oiling a battery, comprising:

the battery storage rack is characterized by comprising a workbench (100), wherein a conveyor belt (200) is laid on the workbench (100), and a plurality of placing parts (300) for placing batteries are fixedly arranged on the conveyor belt (200) at equal intervals;

the oiling assembly (400) is arranged above the workbench (100) and comprises an oiling seat (410) with a downward opening, a cylinder cavity (420) with a downward opening is formed in the oiling seat (410), an oil adsorption material (430) is arranged on the inner wall of the cylinder cavity (420), the oil adsorption material (430) is used for aligning the shoulder of the battery steel shell to the top area of the cover cap for oiling, an oiling port (440) is formed in the lower end of the inner wall of the cylinder cavity (420), the oiling port (440) is used for aligning the groove area of the battery roller for oiling, and an oil inlet assembly (450) connected with the oiling port (440) is arranged on the outer side of the oiling seat (410);

the telescopic mechanism (500) is arranged at the top of the oiling assembly (400) and is used for driving the oiling seat (410) to move downwards so that the area to be oiled of the battery enters the cylindrical cavity (420).

On the basis of the above technical solution, preferably, the device further comprises a control box (900) arranged on the workbench (100), the control box (900) is provided with a control panel (910) and a controller (920), and the control panel (910) and the telescoping mechanism (500) are respectively electrically connected with the controller (920).

On the basis of the above technical solution, preferably, an infrared sensor (600) is arranged on the workbench (100) below the oil coating seat (410), and the infrared sensor (600) is electrically connected with the controller (920).

On the basis of the technical scheme, preferably, the oil adsorption material (430) is cylindrical with one open end, the open end of the oil adsorption material (430) faces the workbench (100), the inner diameter of the oil adsorption material (430) is consistent with the inner diameter of a battery, the open end of the oil adsorption material (430) is flush with the open end of the cylindrical cavity (420), and an oil conveying channel (431) communicated with the oil coating port (440) is arranged on the side wall of the oil adsorption material.

Still further preferably, the oil inlet assembly (450) comprises an oil reservoir (451) and an oil pipe (452), the oil reservoir (451) is connected with the oil coating port (440) through the oil pipe (452), an electromagnetic regulating valve (453) is arranged on the oil pipe (452), and the electromagnetic regulating valve (453) is electrically connected with the controller (920).

On the basis of the technical scheme, preferably, at least one oil coating port (440) is arranged.

On the basis of the technical scheme, preferably, an electromagnet (800) is arranged at the bottom of the conveyor belt (200) corresponding to the lower part of the oiling seat (410), the electromagnet (800) is fixedly connected with the workbench (100), and the electromagnet (800) is electrically connected with the controller (920).

On the basis of above technical scheme, preferred, still including being used for the drive scribble the rotatory rotation motor (700) of oil coating subassembly (400), it sets up to rotate motor (700) telescopic machanism (500) top, just rotate motor (700) and controller (920) electric connection, wherein, the stiff end of telescopic machanism (500) with the output shaft fixed connection who rotates motor (700), the flexible end of telescopic machanism (500) with scribble oil seat (410) top fixed connection.

On the basis of the above technical solution, preferably, the telescopic mechanism (500) is any one of an electric cylinder, a hydraulic cylinder, and an air cylinder.

The utility model discloses a have following beneficial effect for prior art:

(1) through setting up the conveyer belt on the workstation, treat that the fat liquoring battery carries on the conveyer belt, telescopic machanism drive scribbles the motion of oil base down, utilizes the inside oil adsorption material of scribbling oil base to wrap up battery end's box hat shoulder to block cap top region. The side wall of the oil absorbent material can wipe the shoulder of the steel can at the end of the cell when the cell is inserted into the oil absorbent material. When the top of the oil adsorbing material contacts the cap, the cap is wiped. At the moment, the oil coating port is aligned to the notch of the battery roller, oil is supplied by the oil inlet assembly, and oil sprayed from the oil coating port is sprayed to the notch of the battery roller through an oil pipeline on the side wall of the oil adsorption material, so that the oil coating of the notch of the battery roller is realized. The excessive oil sprayed can be adsorbed by the oil adsorbing material, so that the excessive oil is prevented from flowing to a non-oiling area, and the cost is saved. Compared with the prior art, the utility model discloses an oiling station can only carry out the fat liquoring to battery key position, has avoided also carrying out the fat liquoring to the difficult rusty position of battery, has saved the cost, has improved work efficiency.

(2) Can carry out signal detection to the battery that flows into fat liquoring seat below through infrared inductor, accept infrared inductor signal through the controller to send control signal by the controller and scribble the oil base downstream with the drive of control telescopic machanism, scribble the oil of oil base to the battery with the realization.

(3) Through setting up electromagnetic control valve on the oil feed subassembly, can be by the dose of controller control electromagnetic control valve oil spout to the fat liquoring volume of control electromagnetic roller notch prevents to scribble more, and the rust-resistant oil that causes is extravagant, thereby lifting cost.

(4) Through set up the rotation motor in telescopic machanism top, can push down and aim at the oil coating level at telescopic machanism drive oil coating seat after, rotate the motor through the controller start rotation, utilize the electro-magnet of conveyer belt bottom to adsorb fixedly to the battery in the oil coating seat simultaneously to make oil coating seat and battery take place relative rotation, make the oil coating of battery key point position more even.

Drawings

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

Fig. 1 is a perspective view of the disclosed oiling device;

FIG. 2 is a plan view of the disclosed oiler apparatus;

fig. 3 is a schematic perspective view of the oiling assembly disclosed in the present invention;

fig. 4 is a schematic plan view of the oiling assembly disclosed in the present invention;

fig. 5 is a flow chart showing the connection between the controller and the electronic components according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work all belong to the protection scope of the present invention.

As shown in fig. 1, with reference to fig. 2 to 5, an embodiment of the present application discloses an apparatus for automatically oiling a battery, which is an apparatus for oiling a cylindrical battery after sealing, and specifically includes a workbench 100, an oiling assembly 400, and a telescoping mechanism 500.

Wherein, the workstation 100 is laid the conveyer belt 200, and conveyer belt 200 makes assembly line motion along workstation 100 through the drive roller drive. A plurality of placing parts 300 for placing batteries are fixedly arranged on the conveyor belt 200, the placing parts 300 are cylindrical, the height of the placing parts 300 is smaller than that of the batteries, and the height of the placing parts 300 is set to ensure that the batteries are not inclined in the inner cavity of the placing parts 300. The diameter of the inner wall of the cylinder of the placing part 300 is slightly larger than the diameter of the battery by 2-3mm, so that the battery cannot shake in the cylinder cavity of the placing part 300, and subsequent oiling operation is facilitated. In order to automate the battery oiling operation, in the present embodiment, the placing parts 300 are fixedly arranged on the belt at equal intervals.

The oiling assembly 400 is arranged above the workbench 100 and comprises an oiling seat 410 with a downward opening, a cylinder cavity 420 with a downward opening is arranged on the oiling seat 410, and the inner diameter of the cylinder cavity 420 is larger than that of the battery. The inner wall of the cylinder cavity 420 is provided with an oil absorption material 430, the oil absorption material 430 is used for aligning the shoulder of the battery steel shell to the top area of the cap for oiling, the lower end of the inner wall of the cylinder cavity 420 is provided with an oil coating port 440, the oil coating port 440 is used for aligning the groove area of the battery roller for oiling, and the outer side of the oiling seat 410 is provided with an oil inlet assembly 450 connected with the oil coating port 440.

And the telescopic mechanism 500 is arranged at the top of the oiling assembly 400 and is used for driving the oiling seat 410 to move downwards so that the area to be oiled of the battery enters the cylinder cavity 420.

By adopting the technical scheme, when the telescopic mechanism 500 is controlled to work, the telescopic mechanism 500 drives the oil coating seat 410 to move downwards so as to coat the end part of the battery entering the cylinder cavity 420 with oil. Specifically, when the battery is inserted into the oil absorbing material 430, the oil absorbing material 430 inside the oil painting base 410 is used to wipe the shoulder of the steel case at the end of the battery to the top area of the cap. When scribbling hydraulic fluid port 440 and aim at the battery roller notch, utilize oil feed subassembly 450 to carry out the oil spout, now to prior art to the battery roller notch, the utility model discloses an oiling station can only carry out the fat liquoring to the key position of battery, has avoided also carrying out the fat liquoring to the difficult rusty position of battery, has saved the cost, has improved work efficiency.

The utility model discloses still realize through following technical scheme.

The table 100 is provided with a control box 900, and the control box 900 is provided with a control panel 910 and a controller 920. The control panel 910 is used for setting parameters and generating corresponding instructions. The controller 920 is electrically connected to the control panel 910, and outputs a corresponding control command after processing after receiving parameters or commands of the control panel 910, the telescoping mechanism 500 is electrically connected to the controller 920, and the controller 920 is used for controlling the direction and speed of the telescoping mechanism 500. In the present application, the control panel 910 may set the stretching amount and the movement rate of the stretching mechanism 500; meanwhile, the control panel 910 can also set the following opening time of the electromagnetic adjusting valve 453; meanwhile, the control panel 910 can also set the rotation direction, speed and rotation time of the rotary motor 700 as follows. These parameters or command settings can be received by the controller 920 for processing and outputting corresponding control commands.

In this embodiment, the device further includes an infrared sensor 600, the infrared sensor 600 is disposed on the workbench 100 below the oil applying base 410, a signal output end of the infrared sensor 600 is connected to a signal input end of the controller 920, and the infrared sensor 600 is configured to detect a battery signal below the oil applying base 410. When a battery is conveyed to the position below the oil coating seat 410 through the conveyor belt 200, the infrared sensor 600 obtains a battery signal and transmits the battery signal to the controller 920, the controller 920 controls the driving rollers on the conveyor belt 200 to stop running, and meanwhile the controller 920 outputs a control signal to control the telescopic mechanism 500 to move downwards to drive the oil coating assembly 400 to perform oil coating work.

In this embodiment, the oil adsorbing material 430 is cylindrical with an open end, the open end of the oil adsorbing material 430 faces the workbench 100, the inner diameter of the oil adsorbing material 430 is the same as the inner diameter of the battery, the open end of the oil adsorbing material 430 is flush with the open end of the cylindrical cavity 420, and the side wall of the oil adsorbing material 430 is provided with an oil conveying passage 431 communicated with the oil coating port 440. In some embodiments, the oil adsorbing material 430 may be a sponge, and the inner diameter of the cylindrical sponge is consistent with the inner diameter of the battery, so that the end face of the battery can be rubbed by the elastic force of the sponge. When in use, the sponge is evenly soaked by injecting the anti-rust oil into the sponge. The open end of oil adsorption material 430 flushes with drum chamber 420 open end, after aim at oil adsorption material 430 wraps up the battery tip completely, its open end can laminate the battery roller notch, set up and scribble the oil delivery passageway 431 of hydraulic fluid port 440 intercommunication through oil adsorption material 430 lateral wall, can coat to the battery roller notch through oil delivery passageway 431 when scribbling the antirust oil that the hydraulic fluid port sprays, unnecessary antirust oil flows the back from the battery roller notch, can be absorbed by oil adsorption material, thereby the waste that causes the cost after antirust oil directly flows has been avoided.

During the oiling operation, the telescoping mechanism 500 is fixed by the mounting bracket 110 on the workbench 100, the fixed end of the telescoping mechanism 500 is fixed on the mounting bracket 110, and the telescoping end of the telescoping mechanism 500 is fixed with the oiling seat 410. The telescopic end of the telescopic mechanism 500 drives the oil coating seat 410 to move downwards towards the battery, the end part of the battery firstly enters the cylindrical cavity 420 of the oil coating seat 410, and the elongation of the telescopic mechanism 500 is controlled by the controller 920, so that the end face of the battery is ensured to be just inserted into the cylindrical sponge. When the battery is inserted into the cylindrical sponge, the side wall of the inner cavity of the sponge can wipe the shoulder part of the steel shell at the end part of the battery, and when the top of the inner cavity of the sponge contacts the cap, the cap is wiped.

In this embodiment, the oil inlet assembly 450 includes an oil reservoir 451 and an oil pipe 452, the oil reservoir 451 is connected to the oil coating port 440 through the oil pipe 452, an electromagnetic adjusting valve 453 is disposed on the oil pipe 452, and the electromagnetic adjusting valve 453 is electrically connected to the controller 920. The oil reservoir 451 is used for storing rust preventive oil, and is connected to the oil applying port 440 through an oil pipe 452, and the electromagnetic adjusting valve 453 is used for opening or closing the oil pipe 452. When the telescopic mechanism 500 is controlled by the controller 920 to run to a certain stroke, the controller 920 outputs a control signal to the electromagnetic adjusting valve 453, the electromagnetic adjusting valve 453 opens the oil pipe 452, and the antirust oil is sprayed out through the oil coating port 440 to coat the notch of the battery roller. In a specific embodiment, the number of the oil coating ports 440 is at least one, and preferably, the number of the oil coating ports 440 is 4, and the oil coating ports are symmetrically arranged on the inner side wall of the cylindrical cavity 420, so that oil can be uniformly coated on the periphery of the battery slot.

Above-mentioned technical scheme does the utility model discloses an embodiment mainly orders about through telescopic machanism 500 and scribbles oily seat 410 downstream, and the battery keeps on conveyer belt 200 with the motionlessness, and the friction through oil adsorption material 430 and battery tip and carry out the oil-slicking to accomplish the regional fat liquoring of battery box hat shoulder to block. When the ends of the cells have fully entered the oil absorbent material 430, the oiling port 440 is now aligned with the cell roll slot for oiling. The time when the electromagnetic adjusting valve 453 is opened is set through the control panel 910, for example, when the electromagnetic adjusting valve 453 is set to be opened for 5s, after the oil coating port 440 sprays oil for 5s, oil spraying is automatically finished, the controller 920 sends a control signal to the telescoping mechanism 500, and the telescoping mechanism 500 drives the oil coating assembly 400 to move upwards, so that the oil coating base 410 is separated from the battery. After the oil coating base 410 is completely separated from the end of the battery, the controller 920 sends out a control signal to start the driving roller on the conveyor belt 200 to continue working, and then the conveyor belt 200 continues to move towards the downstream end to perform oil coating operation on the second battery to be coated, and the operation is circulated in sequence.

In the first embodiment of the present application, in the initial state, the battery is placed in the placing portion 300 while flowing on the conveyor belt 200, and the bottom of the battery is in contact with the conveyor belt 200 but is not fixed. After the oiling assembly 400 finishes oiling the current battery, the oil absorption material 430 is wrapped at the end of the battery because the diameter of the oil absorption material 430 is consistent with that of the battery. When the oiling assembly 400 needs to be detached from the current battery, the oil absorbing material 430 may lift the battery from the placing part 300, and subsequent oiling may not be performed. Therefore, based on the first embodiment, the present application provides the following specific scheme for fixing the battery in the axial direction:

the electromagnet 800 is arranged at the bottom of the conveyor belt 200 corresponding to the lower part of the oil coating seat 410, the electromagnet 800 is fixedly connected with the workbench 100, and the electromagnet 800 is electrically connected with the controller 920. When the controller 920 receives the battery signal transmitted from the infrared sensor 600, it sends a control signal to the electromagnet 800 while controlling the driving roller of the conveyor belt 200 to stop moving. After the electromagnet 800 is powered on, the battery to be oiled above the conveyor belt 200 is magnetically adsorbed, so that the battery is kept still in the axial direction, and the end part of the battery is wrapped by the oiling seat 410 accurately; meanwhile, after the current battery is oiled, the electromagnet 800 and the current battery are kept in a magnetic adsorption state, so that the oiling seat 410 can be conveniently separated from the end of the battery. After the oiling seat 410 is completely separated from the end of the battery, the controller 920 controls the electromagnet 800 to be powered off, so that the electromagnet is separated from the current battery by magnetic adsorption, meanwhile, the controller 920 sends out a control signal to start the driving roller on the conveyor belt 200 to continue working, the conveyor belt 200 continues to move to the downstream end, the second oiling operation of the battery to be oiled is carried out, and the operations are circulated in sequence. This embodiment allows the battery to be oiled without changing its position, and the battery is oiled only by the operation of the oiling assembly 400. The oiling mode can ensure that the battery oil-to-be-oiled area is accurately oiled, the phenomenon of multi-coating is avoided, and the operation is convenient.

On the basis of the first embodiment of the present application, a second embodiment is proposed, and the specific scheme is as follows:

the fat liquoring subassembly 400 top is provided with rotates motor 700 for it is rotatory to drive fat liquoring subassembly 400, rotates motor 700 and sets up in telescopic machanism 500 top, and is concrete, rotates motor 700 and fixes through installing support 110 on the workstation 100, and rotates motor 700 and controller 920 electric connection, and wherein, telescopic machanism 500's stiff end and the output shaft fixed connection who rotates motor 700, telescopic machanism 500's flexible end and fat liquoring seat 410 top fixed connection.

In practice, the infrared sensor 600 obtains a battery signal flowing into the bottom of the oiling seat 410 and transmits the battery signal to the controller 920. The controller 920 controls the driving rollers on the conveyor belt 200 to stop running, and controls the electromagnet 800 to be electrified, the electromagnet 800 adsorbs the battery to be oiled above the conveyor belt 200, so that the battery cannot radially rotate on the conveyor belt 200, and meanwhile, the controller 920 outputs a control signal to control the telescoping mechanism 500 to drive the oiling seat 410 to move downwards. When the telescopic mechanism 500 reaches a predetermined stroke, that is, after the region to be oiled of the battery is completely aligned with the oil adsorbing material 430 and the oil applying port 440, the controller 920 controls the rotating motor 700 to start, and at the same time, the electromagnetic adjusting valve 453 is started to open. The rotation of the rotating motor 700 drives the telescoping mechanism 500 to rotate, so that the oiling assembly 400 and the battery rotate relatively. The oil absorption material 430 repeatedly wipes oil on the shoulder of the battery steel shell and the cap area in the rotating process, the wiping effect is better and uniform, and the oil coating port 440 can rotationally spray oil on the notch of the battery roller in the rotating process, so that the oil coating on the notch of the battery roller is better and uniform. In this embodiment, at least one oil coating port 440 is provided, and two, three or four oil coating ports may be provided.

During the spin-coating process, the control panel 910 can set the rotation time of the rotation motor 700, and when the rotation is finished, the controller 920 starts the electromagnetic adjusting valve 453 to close, and meanwhile, the controller 920 sends a control signal to the telescoping mechanism 500. The telescoping mechanism 500 drives the oiling assembly 400 to move upward, so that the oiling seat 410 is separated from the battery. When the oiling seat 410 is completely separated from the end of the battery, the controller 920 controls the electromagnet 800 to be powered off, so that the electromagnet is separated from the current battery by magnetic adsorption. Meanwhile, the controller 920 sends out a control signal to start the driving roller on the conveyor belt 200 to continue working, so that the conveyor belt 200 continues to move towards the downstream end to perform the oiling operation of the second battery to be oiled, and the operations are circulated in sequence. According to the embodiment, after the rotating motor 700 is added, the oil coating assembly 400 can rotate relative to the battery to be coated, so that more uniform oil coating is performed on the basis of the first embodiment, and the oil coating effect is better.

In the above embodiment, the telescoping mechanism 500 is any one of an electric cylinder, a hydraulic cylinder or an air cylinder, and in the case of the hydraulic cylinder or the air cylinder, the controller 920 is connected to a reversing valve to control the movement of the hydraulic cylinder or the air cylinder, and the telescoping mechanisms 500 are all in the prior art.

It should be noted that, the electronic devices in the present application are all connected to the external commercial power and controlled by the conventional power module, which is the prior art and will not be described in detail.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a device to automatic fat liquoring of battery which characterized in that includes:

2. The apparatus of claim 1 for automatically oiling a battery, wherein: the automatic control device is characterized by further comprising a control box (900) arranged on the workbench (100), wherein a control panel (910) and a controller (920) are arranged on the control box (900), and the control panel (910) and the telescopic mechanism (500) are respectively electrically connected with the controller (920).

3. The apparatus of claim 1 for automatically oiling a battery, wherein: an infrared inductor (600) is arranged on the workbench (100) below the oil coating seat (410), and the infrared inductor (600) is electrically connected with the controller (920).

4. The apparatus of claim 1 for automatically oiling a battery, wherein: the oil absorption material (430) is cylindrical with an opening at one end, the opening end of the oil absorption material (430) faces the workbench (100), the inner diameter of the oil absorption material (430) is consistent with the inner diameter of a battery, the opening end of the oil absorption material (430) is flush with the opening end of the cylindrical cavity (420), and an oil transportation channel (431) communicated with the oil coating port (440) is arranged on the side wall of the oil absorption material.

5. The apparatus of claim 1 for automatically oiling a battery, wherein: the oil inlet assembly (450) comprises an oil reservoir (451) and an oil pipe (452), the oil reservoir (451) is connected with the oil coating port (440) through the oil pipe (452), an electromagnetic adjusting valve (453) is arranged on the oil pipe (452), and the electromagnetic adjusting valve (453) is electrically connected with the controller (920).

6. An apparatus for automatically oiling a battery according to claim 1 or 5, characterized in that: at least one oil coating port (440) is arranged.

7. The apparatus of claim 1 for automatically oiling a battery, wherein: the bottom of the conveying belt (200) corresponding to the lower portion of the oil coating seat (410) is provided with an electromagnet (800), the electromagnet (800) is fixedly connected with the workbench (100), and the electromagnet (800) is electrically connected with the controller (920).

8. The apparatus of claim 1 for automatically oiling a battery, wherein: still including being used for the drive scribble the rotatory rotation motor (700) of oil coating subassembly (400), it sets up to rotate motor (700) telescopic machanism (500) top, just rotate motor (700) and controller (920) electric connection, wherein, the stiff end of telescopic machanism (500) with the output shaft fixed connection who rotates motor (700), the flexible end of telescopic machanism (500) with scribble oil seat (410) top fixed connection.

9. The apparatus of claim 1 for automatically oiling a battery, wherein: the telescopic mechanism (500) is any one of an electric cylinder, a hydraulic cylinder or an air cylinder.