KR101232240B1 - Electro deposition coating masking device for hollow cylindrical works - Google Patents

Abstract

PURPOSE: A masking device for electroplating an outer peripheral surface of a hollow part is provided to obtain enough sealing power for masking and conjoining as first and second masking caps through a vacuum unit. CONSTITUTION: A masking device(100) for electroplating an outer peripheral surface of a hollow part comprises a first masking cap(110), a second masking cap(120), an elastic contact terminal(130), and a vacuum unit(140). The first masking cap comprises a first sealing(113) masking one opening of a hollow portion and an air hole(111). The second masking cap comprises a second sealing(124) masking the other opening of the hollow portion. The elastic contact terminal is installed in the first and second masking caps and is in contact with the inner circumference of a workpiece(W). The vacuum unit forms a vacuum state in the hollow portion using the air hole. [Reference numerals] (141) Vacuum pump

Description

ELECTRO DEPOSITION COATING MASKING DEVICE FOR HOLLOW CYLINDRICAL WORKS}

The present invention relates to a masking device for preventing the painting of the inner circumferential surface during the electrodeposition coating of the outer circumferential surface of the part having a hollow.

Decoupler pulleys can induce overruns when the speed of the generator's drive shaft is faster than the pulley, and allow the pulley's speed to change relative to the generator's drive shaft when the engine speed changes. Refers to a pulley equipped with a decoupler installed between the generator and the generator.

In general, the inner circumferential surface of the decoupler pulley is in contact with the bearing, so wear resistance is required, while the outer circumferential surface is required for corrosion resistance in an operating environment. To this end, in order to impart wear resistance to the inner circumferential surface of the decoupler pulley, nitriding or the like is treated, while the outer circumferential surface forms a coating layer having sufficient bonding force to protect the surface from peeling by moisture, air, or scratches. do. Therefore, the inner circumferential surface and the outer circumferential surface of the decoupler pulley are subjected to different surface treatment, and a masking device is used to prevent the coating layer to be formed on the outer circumferential surface from penetrating the inner circumferential surface. This masking device basically prevents fluids filled during painting work from penetrating into the inner circumferential surface, which is basically unpainted surface, but in order to mask a large number of parts, the sealing force decreases repeatedly during painting work, and handling for replacement of the work is easy. It needs to be easy.

Korean Patent No. 10-907987 discloses a body which has a long shape to prevent the coating of a rod part heat-treated in the shock absorber, and an inner cover of the bolt and shock absorber that is screwed to the end of the body. By providing a separation cap, it is proposed that the masking is implemented by their assembly. Korean Utility Model Registration No. 20-407690 proposes a form in which permanent magnets are embedded in a cylindrical body made of silicon so as to prevent the painting of holes in the lower arm of automobiles.

However, according to the former literature, not only the components for masking the hollow part of the hollow workpiece are complicated, but also the mass of the painting work is difficult, and according to the latter literature, the sealing performance in a state such as electrodeposition is kept constant. There is a problem that is difficult to manage.

In view of the above, the present invention provides a masking device for electrodeposition coating work on the outer peripheral surface of a hollow component such as a decoupler pulley, and can maintain a sealing performance from repeated desorption, and is easily detachable and has excellent mass productivity. An object of the present invention is to provide a masking device for electrodeposition painting on the outer circumferential surface of a part.

In order to solve the said subject, the masking apparatus for electrodepositing the outer peripheral surface of the hollow part which concerns on this invention is an apparatus formed so that the outer peripheral surface of the to-be-painted object which has a hollow can be electrodeposition-coated, The said apparatus is the said one side opening of the said hollow. A first masking cap having a first sealing to seal the air hole is formed; A second masking cap having a second seal for sealing the other opening of the hollow; An elastic contact terminal provided in the first masking cap or the second masking cap and capable of contacting the inner circumferential surface of the workpiece; And a vacuum unit provided to form a vacuum in the hollow through the air hole.

As an example related to the present invention, the vacuum unit may include: a vacuum port connected to the air hole; A valve for opening and closing the vacuum port; And it may include a vacuum pump connected to the vacuum port.

In this case, the vacuum port may include a screw thread, and the first masking cap may have a screw fastening groove fastened to the screw thread.

As an example related to the present invention, the masking apparatus for electrodeposition coating on the outer circumferential surface of the hollow part may further include a frame to which the plurality of vacuum ports are connected.

As an example related to the present invention, the first sealing and the second sealing may be formed in pairs spaced apart by a predetermined interval, respectively.

In this case, the first seal located inside the hollow of the pair of first seals is smaller in diameter than the first seal located outside of the hollow, and inside the hollow of the pair of second seals. The positioned second seal may have a smaller diameter than the second seal located outside the hollow.

As an example related to the present invention, the first masking cap and the second masking cap may be formed of a conductive metal.

In this case, the elastic contact terminal may be formed in a 'C' shape so that one end may be fixed to one of the first guide part or the second guide part and the other end may contact the inner circumferential surface of the workpiece. .

As an example related to the present invention, the elastic contact terminal may include a spring installed radially in any one of the first masking cap and the second masking cap; And it may include a conductive ball formed to be elastically protruded or retracted by the spring.

According to the masking device for electrodeposition coating of the outer peripheral surface of the hollow part related to the present invention, since the first masking cap or the second masking cap is fastened using a vacuum unit, sufficient sealing force for masking can be obtained, and Penetration can be effectively prevented. The elastic contact terminal induces accurate contact with the workpiece while the first masking cap or the second masking cap is fastened, and allows electrodeposition. The first masking cap, the second masking cap, and the elastic contact terminal can maintain the sealing performance even after repeated detachment, and can significantly increase the coating ability by fixing any one masking cap to a batch electrodeposition frame or the like.

1 is an exploded cross-sectional view of a masking device for electrodeposition painting the outer peripheral surface of a hollow component according to an embodiment related to the present invention
Figure 2 is an assembled cross-sectional view of the assembled state of the masking device for electrodeposition coating outer peripheral surface of the hollow part of Figure 1
Figure 3 is a cross-sectional view of the masking device for electrodeposition painting the outer peripheral surface of the hollow component according to another embodiment related to the present invention
Figure 4 is a side view showing a state in which the masking device 100 for the outer circumferential surface electrodeposition coating of the hollow component related to the present invention is fixed to the frame
5 is a front view showing a state in which the masking device 100 for electrodeposition coating of the outer peripheral surface of the hollow part of FIG. 4 is fixed to a frame.
6 is a cross-sectional view conceptually showing a state in which a large amount of electrodeposition coating using the masking device for electrodeposition painting 100 of the outer peripheral surface of the hollow part related to the present invention.

Hereinafter, with reference to the accompanying drawings, the masking device for electrodeposition coating of the outer peripheral surface of the hollow component according to the present invention will be described in detail.

1 is an exploded cross-sectional view of an outer circumferential surface electrodeposition coating masking device 100 of a hollow part according to an embodiment of the present invention, and FIG. 2 is a masking device 100 of an outer circumferential surface electrodeposition coating of a hollow part of FIG. 1. It is an assembly sectional view of the assembled state.

As shown in these figures, the outer peripheral surface electrodeposition coating masking device 100 of the hollow part is the first masking cap 110 so that the electrodeposition coating does not penetrate the inner peripheral surface of the workpiece (W) having a hollow in the coating solution ), A second masking cap 120, an elastic contact terminal 130, and a vacuum unit 140. In the case of the hollow coating W, for example, a decoupler pulley should be subjected to abrasion-resistant treatment on the inner circumferential surface, whereas the outer circumferential surface forms a coating layer for preventing rust or the like from corrosion or scratches. Can be applied. However, the masking device related to the present invention may be used in a hollow end pipe, a cylinder or a pipe.

The first masking cap 110 has a first sealing 113 and an air hole 111 for sealing one side opening of the workpiece W, and an external port may be assembled in the air hole 111. Screw grooves 112 are formed. On the other hand, the second masking cap 120 has a second sealing 123 for sealing the other opening of the workpiece (W). Operating the vacuum unit 140 in a state where the first masking cap 110 and the second masking cap 120 are aligned with the respective openings, and the direction in which the first masking cap 110 and the second masking cap 120 come closer to each other. While moving to the first sealing 113 and the second sealing 123 is in close contact with the opening side of the workpiece (W) to seal the hollow portion of the workpiece (W). The first masking cap 110 and the second masking cap 120 may have a tapered outer circumferential surface to improve adhesion in proportion to the fastening force.

The second masking cap 120 is provided with a handle 125 to be easily fastened to the second masking cap 120. The handle 125 is a preliminary step of the masking operation, the first masking cap 110 and the second masking cap 120 by the handle portion 125 by the operator first, both openings of the workpiece (W) After fitting to the masking operation may be carried out by the vacuum unit 140.

The first sealing 113 and the second sealing 123 may be formed of a non-conductive soft material such as rubber or silicon, and the first masking cap 110 and the second masking cap 120 are made of a conductive metal. Is formed. In this case, the elastic contact terminal 130 is used for the electrical connection between the workpiece (W) and the masking caps 110 and 120 during electrodeposition coating.

One end of the elastic contact terminal 130 is connected to the first masking cap 110 or the second masking cap 120, the other end is a process of fastening the first masking cap 110 and the second masking cap 120 It may be formed in the shape of a hook to be in contact with the inner circumferential surface of the workpiece (W). As such, the elastic contact terminal 130, as shown in Figure 1, the central portion is caught in the first masking cap 110, the edge may be formed in the form of a spring of the 'C'. In addition, the elastic contact terminal 130 may be applied in various forms having elasticity.

The vacuum unit 140 has a vacuum pump 141, a valve 142 for controlling the degree of vacuum, and a vacuum port 143 for connecting to the air hole 111. The vacuum unit 140 generates a vacuum force for assembling the first masking cap, the second masking cap 120, and the workpiece W connected to each vacuum port 143.

3 is a cross-sectional view of the masking apparatus 200 for electrodeposition coating of the outer peripheral surface of the hollow component according to another embodiment related to the present invention.

The first masking cap 210 and the second masking cap 220 included in the masking apparatus 200 of the present example include a pair of first sealing caps 213 and 214 and second sealing caps 223 and 224, respectively. Such a double arrangement of the sealing has the advantage that the other sealing can compensate for the weakening of the sealing force in any one seal while improving the sealing force in the masking operation. The seals 214 and 224 located inside the hollow may have a smaller radius than the seals 213 and 223 located outside of the hollow to easily slide along the inner circumferential surface of the workpiece W. FIG.

Referring to FIG. 3, the elastic contact terminal 230 has a conductive spring 232 radially installed on the second masking cap 220 and a conductive spring formed to be elastically protruded or retracted by the spring 232. The ball 231 is included. The conductive ball 231 is the first masking cap 210 or the second masking cap 220 by the masking operation of the scratch by the elastic contact terminal 230 itself while moving in the hollow inward direction of the workpiece (W) It can prevent occurrence.

Figure 4 is a side view showing a state in which the outer peripheral surface electrodeposition coating masking apparatus 100 of the hollow part related to the present invention is fixed to the frame, Figure 5 is a peripheral device electrodeposition coating masking apparatus 100 of Figure 4 Figure 6 is a front view showing a state fixed to the frame, Figure 6 is a cross-sectional view showing a conceptual state of a large amount of electrodeposition coating using the masking device 100 for the outer peripheral surface electrodeposition coating of the hollow part related to the present invention.

Referring back to FIGS. 1 and 2, a screw groove 115 for fixing the first masking cap 110 is formed at an outer side of the first masking cap 110. The screw groove 115 reduces the fastening time and increases the mass productivity by positioning the workpiece (W) and fastening only the second masking cap 120 while the first masking cap 110 is fixed to the object. .

That is, as illustrated in FIG. 6, the electrodeposition tank 300 filled with the coating solution 400 for electrodeposition coating is provided with a plurality of frames 145 and a vacuum port 143 connected to the frames. It has a screw for fastening to the screw groove 115 of the first masking cap 110 described above. The vacuum port 143 is formed in a plurality of forms so that the electrodeposition coating work on a large amount of the workpiece (W) at one time. Accordingly, the first masking cap 110 is fastened to the vacuum port 143 and maintained in a fixed state. During painting, only the first masking cap and the second masking cap 120 are first masked. The masking operation can be performed by the simple operation by the vacuum unit 140 in accordance with (110).

The masking device for electrodeposition coating on the outer circumferential surface of the hollow component described above is not limited to the configuration and method of the embodiments described. The embodiments may be configured so that all or some of the embodiments may be selectively combined so that various modifications may be made.

100, 200: masking device for electrodeposition coating of the outer peripheral surface of the hollow part
110, 210: first masking cap 111, 211: air hole
112: screw groove 113: first seal
120, 220: first masking cap 123: second sealing
125: handle portion 130: elastic contact terminal
140: vacuum unit 141: vacuum pump
142: valve 143: vacuum port
160: frame 300: electrodeposition tank
400: paint solution

Claims (9)

An apparatus formed so as to allow electrodeposition coating of an outer circumferential surface of a workpiece having a hollow, the apparatus comprising:
A first masking cap having a first sealing to seal the one side opening of the hollow and having an air hole;
A second masking cap having a second seal for sealing the other opening of the hollow;
An elastic contact terminal provided in the first masking cap or the second masking cap and capable of contacting the inner circumferential surface of the workpiece; And
Masking device for electrodeposition coating of the outer peripheral surface of the hollow part comprising a vacuum unit provided to form a vacuum in the hollow through the air hole.
The method of claim 1,
The vacuum unit,
A vacuum port connected to the air hole;
A valve for opening and closing the vacuum port; And
Masking device for electrodeposition coating of the outer peripheral surface of the hollow part, comprising a vacuum pump connected to the vacuum port.
The method of claim 2,
The vacuum port includes a screw thread, wherein the first masking cap is a masking device for electrodeposition coating of the outer peripheral surface of the hollow part is formed with a screw fastening groove fastened to the thread.
The method of claim 2,
Masking device for electrodeposition coating of the outer peripheral surface of the hollow part further comprises a frame to which the plurality of vacuum ports are connected.
The method of claim 1,
The first sealing and the second sealing is a masking device for electrodeposition coating of the outer peripheral surface of each of the hollow parts formed in a pair spaced by a predetermined interval.
The method of claim 5,
The first seal located inside the hollow of the pair of first seals is smaller in diameter than the first seal located outside the hollow,
Masking device for the outer peripheral surface electrodeposition coating of the hollow part of the pair of second seals located inside the hollow of the second seal is smaller than the second seal located outside the hollow.
The method of claim 1,
The first masking cap and the second masking cap is formed of a conductive metal, the masking device for electrodeposition coating of the outer peripheral surface of the hollow component.
The method of claim 1,
The elastic contact terminal,
Masking device for the outer peripheral surface electrodeposition coating of the hollow part, one end is fixed to any one of the first masking cap or the second masking cap and the other end is formed in a 'C' shape to be in contact with the inner peripheral surface of the workpiece.
The method of claim 1,
The elastic contact terminal,
A spring installed radially in any one of the first masking cap and the second masking cap; And
Masking device for electrodeposition coating of the outer peripheral surface of the hollow part comprising a conductive ball formed to be elastically protruding or retracted by the spring.

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