KR102237765B1 - Powder coating system of battery case - Google Patents

Abstract

The present invention relates to a powder coating system for a battery case, and more particularly, to a powder coating system for a battery case, capable of easily forming an insulating coating layer on an inner surface of the battery case. In the powder coating system for the battery case, the insulating powder is coated on the inner surface of the battery case having one side open in a hollow hexahedral shape with an upper part and a lower part open and having a flat cross-section of a 'U' shape. A protrusion part forming a step part in the direction from an outer surface to an inner surface at an open edge of the battery case is formed protruding. The thickness of the protrusion part is thinner than the thickness of the battery case. The step part is formed in an external direction of the battery case. The system comprises: an input unit for inserting the battery case; a coating unit for spraying and attaching the insulating powder to the inner surface of the battery case; a primary powder removing unit for removing the powder attached to the step part of the battery case; an external cleaning unit for removing the powder attached to the outer surface of the battery case; a heating unit for heating the battery case to which the powder is attached to the inner surface and coating and bonding the powder to the inner surface of the battery case; and a drying unit for cooling and drying the heated battery case.

Description

Powder coating system of battery case {POWDER COATING SYSTEM OF BATTERY CASE}

The present invention relates to a powder coating system for a battery case, and more particularly, to a powder coating system for a battery case capable of easily forming an insulating coating layer on the inner surface of the battery case.

Recently, interest in environmental pollution and rising prices of energy sources due to depletion of fossil fuels has been amplified, and the demand for eco-friendly alternative energy sources has become an indispensable factor for future life.

Accordingly, research on various power generation technologies such as nuclear power, solar power, wind power, tidal power, etc. is continuing, and power storage devices for more efficient use of the energy thus produced are also receiving great interest.

In particular, as technology development and demand for electric vehicles and mobile devices increase, the demand for secondary batteries as an energy source is rapidly increasing, and accordingly, many studies on secondary batteries that can meet various demands are being conducted.

In such a secondary battery, a battery cell is provided in the battery case.

At this time, an inner insulating layer is coated on the inner side of the battery case for insulation.

Conventionally, the process of forming the inner insulating layer on the inner surface of the battery case has not been easy, and when forming the inner insulating layer, a coating liquid or powder is attached to the outside, causing a problem.

Meanwhile, the battery case may be formed in various shapes, and may be formed in a shape as shown in FIG. 2.

That is, the battery case has a hollow hexahedron shape with an upper and lower part open and one side is open to have a flat cross-section in the shape of'└┘', and the open edge of the battery case forms a step from the outer surface to the inner surface. The protrusion is formed to protrude, and the thickness of the protrusion is formed to be thinner than that of the battery case.

In addition, the stepped portion is formed in an external direction rather than an internal direction of the battery case.

When the powder is attached to the inner surface of the battery case having such a shape to be coated, the powder may be attached to the stepped portion.

In this case, the stepped portion is a portion that is later joined by welding, such as a cover, and if powder is attached to the stepped portion, a problem may occur when the cover is welded to the next step.

Patent Publication 10-2008-0064921 Patent Publication 10-2017-0045564

The present invention is to solve the above-described problem, it is possible to easily form an insulating coating layer inside the battery case easily, and prevents powder from adhering to the stepped portions formed at the open corners of the battery case, so that the quality of the body painting Its purpose is to provide a powder coating system for a battery case that can improve.

In order to achieve the above object, the powder coating system of the battery case of the present invention is insulated on the inner surface of the battery case in which one side is open in the shape of a hollow hexahedron with the upper and lower parts open, so that the shape of the flat section is'└┘' shape. In the powder coating system for a battery case that coats powder of a material, a protrusion forming a step in a direction from an outer surface to an inner surface is formed at an open edge of the battery case, and the thickness of the protrusion is thinner than the thickness of the battery case. The stepped portion is formed in the outer direction of the battery case, and an input portion for inserting the battery case; A coating part spraying and attaching powder of an insulating material to the inner surface of the battery case; A primary powder removal unit for removing powder attached to the stepped portion of the battery case; An external cleaning unit for removing powder adhered to the outer surface of the battery case; A heating unit that heats the battery case with powder attached thereon to coat and couple the powder to the inner surface of the battery case; It characterized in that it comprises a; drying unit for cooling and drying the heated battery case.

The primary powder removal unit injects air to remove the powder adhered to the stepped portion.

It further comprises a secondary powder removing unit disposed at the rear of the drying unit and additionally removing the powder attached to the stepped portion of the battery case.

The secondary powder removal unit removes the powder by irradiating a laser.

The secondary powder removal unit removes the powder by etching the stepped portion with a laser.

The secondary powder removing unit is made of a sanding machine.

The coating unit includes a support member supporting the lower portion of the open battery case; A vertical support protruding upward from the support member and contacting an open side surface of the battery case; A nozzle for attaching the powder to the inner surface of the battery case by spraying the powder while moving to the inside of the battery case through the upper end of the battery case, wherein the protrusion formed on the lower surface of the battery case It is in close contact with the upper surface of the member, and a protrusion formed on one side of the battery case is in close contact with the side surface of the vertical support.

According to the powder coating system of the battery case of the present invention as described above has the following effects.

The present invention can easily form an insulating coating layer inside the battery case automatically.

In particular, it is possible to improve the quality of the main body painting by preventing powder from adhering to the stepped portions formed at the open corners of the battery case.

1 is a configuration diagram of a powder coating system of a battery case according to an embodiment of the present invention,
2 is a perspective view of a battery case used in the present invention,
3 is a perspective view of an automatic inner coating device of a battery case according to an embodiment of the present invention,
4 is a side view of an automatic inner coating device for a battery case according to an embodiment of the present invention,
5 is a plan view of an automatic inner coating apparatus for a battery case according to an embodiment of the present invention,
6 is a side cross-sectional view of a state in which the battery case is disposed in the automatic inner coating device of the battery case according to an embodiment of the present invention;
7 is a plan cross-sectional view taken along line AA of FIG. 6;
8 is a side view of a state in which the air injection member is operated in the automatic inner coating device of the battery case according to an embodiment of the present invention;
9 is a perspective view of the battery case in a state in which the coating part and the primary powder removal part of the powder coating system of the battery case according to an embodiment of the present invention are finished;

The powder coating system of the battery case of the present invention is for forming the insulating coating layer 130 as shown in FIG. 9 by coating the powder of an insulating material on the inner surface of the battery case 100 as shown in FIG. .

As shown in FIG. 1, the battery case 100 applied in the present invention has a hollow hexahedron shape in which the upper and lower portions are open, and one side is open to have a flat cross-section in a'└┘' shape.

A protrusion 120 forming a step 110 from an outer surface to an inner surface is protruded at an open edge of the battery case 100, and the thickness of the protrusion 120 is greater than the thickness of the battery case 100. It is formed thinly.

In addition, the step portion 110 is formed in an external direction rather than an internal direction of the battery case 100.

In the powder coating system of the battery case of the present invention, as shown in FIG. 1, in order to coat the powder of insulating material on the inner surface of the battery case 100 as described above, the input unit 10, the coating unit 20 and the , A primary powder removing unit 30, an external cleaning unit 40, a heating unit 50, a drying unit 60, and a secondary powder removing unit 70.

The input unit 10 is a device for inserting the battery case 100.

The coating unit 20 is a device that sprays and attaches powder of an insulating material to the inner surface of the battery case 100 injected through the input unit 10.

This coating part 20 is made of an inner coating device of the battery case of the present invention.

As shown in Figs. 3 to 8, the internal coating device of the battery case 100 includes a support member 21, a vertical support 22, a nozzle 23, a first contact member 24, and , A vertical bar 25, a second contact member 26, a guide member 27, an upper cover 28, and an air injection member 29.

The support member 21 supports the lower portion of the open battery case 100.

At this time, the battery case 100 is disposed to be elongated in the vertical direction so that the open lower part can be supported on the upper surface of the support member 21, while the open side is disposed to face the rear.

The vertical support 22 protrudes upward from the support member 21 and is supported by contacting an open side surface of the battery case 100.

The nozzle 23 moves to the inside of the battery case 100 through the open upper end of the battery case 100 and sprays the powder on the inner surface of the battery case 100. Attach the powder to.

At this time, the lower surface of the battery case 100 has a protrusion 120 formed on the lower surface of the battery case 100 in close contact with the upper surface of the support member 21, and one side of the battery case 100 has a protrusion 120 formed at one side. Is in close contact with the side surface of the vertical support 22.

In order for the lower surface and one side surface of the battery case 100 to more closely adhere to the support member 21 and the vertical support 22, a first masking pad made of elastic material ( 21a) is coupled, and a second masking pad 22a made of an elastic material is coupled to one surface of the vertical support 22.

After placing the battery case 100 vertically on the support member 21, the lower surface and one side surface of the battery case 100 are respectively attached to the first masking pad 21a and the second masking pad 22a. It adheres closely.

When the lower surface and one side of the battery case 100 come into close contact with the first masking pad 21a and the second masking pad 22a as above, the powder sprayed from the nozzle 23 is transferred to the battery case 100 ) Leakage to the outside of the stepped portion 110 or attached to the outer surface can be minimized.

The first contact member 24 is disposed to be movable from the top of the support member 21 in the front-rear direction.

As shown in FIGS. 6 and 7, the first contact member 24 pushes the battery case 100 placed on the upper surface of the support member 21 to the vertical support 22 in close contact.

When the first contact member 24 is made of a cylinder, etc., and the battery case 100 is placed on the upper surface of the support member 21, the battery case 100 is pushed in the direction of the vertical support member 22 to make it in close contact. Let's do it.

The vertical bar 25 is disposed to be elongated in the vertical direction adjacent to the first contact member 24.

The second contact member 26 is mounted to the vertical bar 25 so as to be rotatable in a horizontal direction.

The second contact member 26 rotates in a horizontal direction with respect to the vertical bar 25 and pushes the battery case 100 placed on the upper surface of the support member 21 to the vertical support 22 in close contact.

In some cases, the vertical bar 25 and the second contact member 26 may be omitted.

In this embodiment, the first contact member 24 is disposed in a lower direction than the second contact member 26, and the first contact member 24 is a battery case placed on the upper surface of the support member 21 ( The lower side of the side surface of 100) is pushed to the vertical support 22, and the second contact member 26 moves the upper side of the battery case 100 placed on the upper surface of the support member 21 into the vertical support 22. ) To make it close.

As above, by pushing both the upper and lower portions of the battery case 100 to the vertical support 22 by the first and second contact members 24, the battery case 100 The second masking pad 22a may be more strongly adhered to the open side surface.

The guide member 27 is coupled to protrude forward from both sides of the vertical support 22.

When one side of the battery case 100 is disposed on the vertical support 22, the guide member 27 guides the battery case 100 to be disposed at a preset position.

To this end, an inclined surface is formed on the inner side of the guide member 27 to better guide one side of the battery case 100.

The upper cover 28 is disposed to be movable in the vertical direction from the top of the vertical support 22.

As shown in FIG. 6, the upper cover 28 is lowered to cover the open upper part of the battery case 100.

The nozzle 23 passes through the upper cover 28 and moves into the battery case 100.

A third masking pad 28a made of an elastic material is coupled to the lower surface of the upper cover 28.

By the lowering of the upper cover 28, the third masking pad 28a is in close contact with the upper surface of the battery case 100, so that the powder flows out through the upper portion of the battery case 100 when the powder is sprayed. Prevent it.

The air injection member 29 serves to remove the powder attached to the support member 21 and the vertical support 22 by spraying air after the powder coating is completed as shown in FIG. 8.

At this time, it is preferable that the air injection member 29 injects air to the support member 21 and the vertical support 22 while rising and descending in the vertical direction.

By spraying powder onto the inner surface of the battery case 100 having a flat cross-section in the shape of'└┘' by the coating part 20 of the present invention, that is, the inner coating device as described above, it can be easily attached.

In the battery case 100 after the coating part 20 is finished, powder is attached to the inner surface, but as the powder is sprayed, some powder is also attached to the stepped part 110 and the outer surface as shown in FIG. 9(a). Can be.

The primary powder removing unit 30 removes the powder attached to the step portion 110 of the battery case 100 from the battery case 100 to which the powder is attached from the coating unit 20.

In this case, it is preferable that the primary powder removing unit 30 injects air to remove the powder attached to the step 110 as shown in FIG. 9(b).

The external cleaning unit 40 removes powder adhered to the outer surface, that is, the outer surface of the battery case 100.

The external cleaning unit 40 uses a brush to remove powder attached to the outer surface of the battery case 100.

The heating unit 50 heats the battery case 100 to which the powder is attached to the inner surface to melt the powder, so that the powder is melted and coated on the inner surface of the battery case 100.

The drying unit 60 cools and dries the heated battery case 100.

When the heating unit 50 and the drying unit 60 are completed as above, an insulating coating layer 130 is formed on the inner surface of the battery case 100.

The secondary powder removing part 70 is disposed behind the drying part 60 and additionally removes the powder attached to the stepped part 110 of the battery case 100.

The secondary powder removing unit 70 additionally removes powder that has not been removed by the primary powder removing unit 30, and may be omitted in some cases.

The secondary powder removal unit 70 may remove the powder by irradiating a laser, or may be configured with a sanding machine to remove the powder.

When the secondary powder removing part 70 uses a laser, the stepped part 110 is partially etched with a laser to remove the powder.

Through the above process, the present invention allows the powder to be coated on the inner surface of the battery case 100 and prevents the powder from being attached to the stepped part 110, so that other covers, etc., can be easily provided to the stepped part 110 in the future. It can be combined through welding or the like.

The powder coating system of the battery case according to the present invention is not limited to the above-described embodiment, and may be implemented by various modifications within the scope of the technical idea of the present invention.

10: input,
20: coating part, 21: support member, 21a: first masking pad, 22: vertical support, 22a: second masking pad, 23: nozzle, 24: first contact member, 25: vertical bar, 26: second contact Member, 27: guide member, 28: upper cover, 28a: third masking pad, 29: air injection member,
30: primary powder removing unit, 40: external cleaning unit, 50: heating unit, 60: drying unit, 70: secondary powder removing unit,
100: battery case, 110: stepped portion, 120: protruding portion, 130: insulating coating layer,

Claims (7)

In the powder coating system of a battery case that coats the powder of insulating material on the inner surface of the battery case in which one side is opened in the shape of a hollow hexahedron with open top and bottom and the flat cross section is in the shape of'└┘',
A protrusion forming a step portion protruding from an outer surface to an inner surface direction is formed at the open edge of the battery case,
The thickness of the protrusion is thinner than the thickness of the battery case,
The stepped portion is formed in the outer direction of the battery case,
An input unit for inserting the battery case;
A coating part spraying and attaching powder of an insulating material to the inner surface of the battery case;
A primary powder removal unit for removing powder attached to the stepped portion of the battery case;
An external cleaning unit for removing powder adhered to the outer surface of the battery case;
A heating unit that heats the battery case with powder attached thereon to coat and couple the powder to the inner surface of the battery case;
Containing a drying unit for cooling and drying the heated battery case,
The coating part,
A support member supporting the lower portion of the opened battery case;
A vertical support protruding upward from the support member and contacting an open side surface of the battery case;
And a nozzle for attaching the powder to the inner surface of the battery case by spraying powder while moving into the inside of the battery case through the upper end of the battery case,
The lower surface of the battery case has a protrusion formed on the lower surface of the battery case in close contact with the upper surface of the support member,
Powder coating system for a battery case, characterized in that the protrusion formed on one side of the battery case is in close contact with the side of the vertical support. The method according to claim 1,
The powder coating system for a battery case, wherein the primary powder removing unit injects air to remove the powder attached to the stepped portion. The method according to claim 1,
A powder coating system for a battery case further comprising a secondary powder removing unit disposed behind the drying unit and additionally removing the powder attached to the stepped portion of the battery case. The method according to claim 3,
The powder coating system of a battery case, characterized in that the secondary powder removal unit removes the powder by irradiating a laser. The method of claim 4,
The powder coating system for a battery case, wherein the secondary powder removal unit removes the powder by etching the stepped portion with a laser. The method according to claim 3,
The powder coating system of the battery case, characterized in that the secondary powder removal unit is made of a sanding machine. delete

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