KR102046960B1 - Plating apparatus - Google Patents

Abstract

A painting apparatus is disclosed. According to an aspect of the present invention, a preheating device for receiving a jig in which at least one material is mounted, and preheating the material installed in the housed jig to a predetermined temperature; A painting bath in which a painting solution is stored to electrodeposition the preheated material; A mobile device having a holder supporting the jig and an electrode plate immersed in the painting solution so that the material is immersed in the painting solution, and moving the holder reciprocally in the longitudinal direction of the painting bath; Agitation apparatus for improving the fluidity of the coating solution; And a rectifier for applying a cathode and an anode to the jig and the electrode plate, respectively.

Description

Painting apparatus

The present invention relates to a coating apparatus, and more particularly to a coating apparatus that can improve the quality during electrodeposition coating of the workpiece (material).

In general, electrodeposition coating is a method of coating a material into a solution by applying static electricity of different polarities (anode and cathode) to the solution and the material, respectively. At this time, the solution is a water-soluble paint, the solution forms a film on the material due to the neutralization reaction using the alkalinity generated when water is electrolyzed.

Before performing such electrodeposition coating, surface treatment is performed to improve the adhesion of the coating to the material. For example, in the surface treatment operation, the surface treatment of the material is performed by moving (immersing) the material in a water bath containing a phosphate solution, which is a surface treatment solution after degreasing, washing, and drying to remove foreign substances on the surface of the material. That is, the phosphate treatment is performed to form a film such as a phosphate coating on the surface of the material for the purpose of protecting the material before coating and preventing corrosion and improving paint adhesion.

However, the electrodeposition coating test using various materials is carried out for the coating adhesion and quality improvement according to the characteristics of the material. It is affecting. That is, the impression salt-treated material is present in the atmosphere in the test space for a predetermined time before the coating treatment, and the adhesion of the coating solution is impaired in the electrodeposition coating process due to the contact of the residual phosphate surface with moisture in the air. In the summer when the humidity is high in the air, the problem of deterioration of coating quality due to moisture adhesion frequently occurs.

In addition, the electrodeposition coating of the material proceeds while the coating solution is heated and maintained at the required temperature for the purpose of the experiment.As a result of the temperature deviation between the coating solution and the material during the precipitation of the coating solution of the material, a pinhole is generated on the surface of the coating solution. have. This problem occurs frequently during winter, especially when the air temperature is low. That is, as the temperature difference between the coating solution and the material is greatly generated, the temperature of the coating solution is lowered when the material is precipitated in the coating solution, and thus, there is a problem that the electrodeposition coating is difficult to proceed at the proper temperature along with the pinhole generation problem.

The coating apparatus according to the embodiment of the present invention removes residual moisture before proceeding with electrodeposition coating on the phosphate-treated material and blocks moisture contact in the air, as well as minimizing the temperature deviation between the material and the coating solution to lower the temperature of the coating solution. By preventing the paint quality can be improved.

According to an aspect of the present invention, a preheating device for receiving a jig in which at least one material is mounted, and preheating the material installed in the housed jig to a predetermined temperature; A painting bath in which a painting solution is stored to electrodeposition the preheated material; A mobile device having a holder supporting the jig and an electrode plate immersed in the painting solution so that the material is immersed in the painting solution, and moving the holder reciprocally in the longitudinal direction of the painting bath; Agitation apparatus for improving the fluidity of the coating solution; And a rectifier for applying a cathode and an anode to the jig and the electrode plate, respectively.

In addition, the preheating device, the housing is formed with a receiving groove in the upper portion to insert the material mounted on the jig; A partition wall provided to partition the receiving groove into a plurality of directions in one direction of the housing; And a heating wire embedded in the partition wall and receiving power to radiate heat.

In addition, the jig may have a body having a predetermined length so that both ends are supported at the upper end of the housing and having an opening formed in the longitudinal direction at the lower side thereof, and a magnet provided in the body to fix the material fitted through the opening. have.

In addition, the moving device, a pair of cradles that are slidably installed at both ends of the upper surface of the painting tank, the support groove for supporting the end of the jig; A connecting plate having both ends coupled to the pair of holders to move together with the pair of holders, and having an installation hole for installing the electrode plate; A support plate fixed to the painting tank; And an operation cylinder installed on the support plate to move the connection plate.

In addition, the pair of cradle is formed with a guide groove in the longitudinal direction, the guide groove may be fitted to both sides of the upper portion of the painting tank.

In addition, any one of the pair of holders may be connected to the cable of the rectifier is provided with an angle of steel material is installed to apply a cathode current to the jig inserted into the support groove.

In addition, the connection plate may be provided with a magnet to fix the electrode plate penetrating the installation hole, the cable of the rectifier may be connected to apply a positive current to the electrode plate.

In addition, the stirring device may include a rotary blade portion immersed in the coating solution, a drive motor for generating a driving force for rotating the rotary blade portion, and a rotary shaft connecting the rotary blade portion and the drive motor.

The coating device according to an embodiment of the present invention is to remove the residual moisture on the surface of the material by preheating the phosphate-furnished material before the electrodeposition coating, as well as to prevent the water contact in the air to solve the problem of paint adhesion by moisture There is an effect to improve.

In addition, by maintaining the same temperature as the coating solution through preheating of the material, it is possible to stably conduct electrodeposition coating experiments by preventing the temperature drop of the coating solution due to the temperature deviation when it is precipitated in the coating solution, and also to prevent the occurrence of pinholes. There is an effect to improve.

In addition, the distance and ratio of the plurality of materials fixed to the jig and the electrode plate are always maintained at the same position at the same position as the optimum conditions for the electrodeposition coating quality, as well as through the repeated flow of the material during the electrodeposition coating and stirring device. By improving the fluidity of the coating solution, there is an effect of inducing active contact of the coating solution on the surface of the material to form a uniform and foolish coating film on the material.

The present invention will be described in detail with reference to the following drawings, but these drawings illustrate preferred embodiments of the present invention, and the technical concept of the present invention is not limited to the drawings and should not be interpreted.
1 is a view schematically showing a painting apparatus according to an embodiment of the present invention.
2 is a view showing a preheating device provided in the coating device according to an embodiment of the present invention.
3 is a view showing a moving device provided in the painting apparatus according to an embodiment of the present invention.
4 is a view showing a state in which the moving device of FIG. 3 is installed in the painting tank.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are presented to sufficiently convey the spirit of the present invention to those skilled in the art. The present invention is not limited to the embodiments presented herein but may be embodied in other forms. The drawings may omit illustrations of parts not related to the description in order to clarify the present invention, and may be exaggerated to some extent in order to facilitate understanding.

1 is a view schematically showing a coating device according to an embodiment of the present invention, Figure 2 is a view showing a preheating device provided in the coating device according to an embodiment of the present invention, Figure 3 is a view of the present invention 4 is a view showing a moving device provided in the painting apparatus according to the embodiment, and FIG. 4 is a view showing a state in which the moving apparatus of FIG. 3 is installed in the painting tank.

1 to 4, the painting apparatus 100 according to an aspect of the present invention includes a preheating apparatus 110 for preheating the material 20 installed in the jig 10 to a predetermined temperature, and a painting solution 122. The stored paint tank 120, the moving device 130 for flowing the material 20 immersed in the paint tank 120, the stirring device 140 and the electrodeposition to improve the fluidity of the coating solution 122 Rectifier 150 for applying a cathode and an anode for painting.

The preheater 110 is for preheating the phosphate-treated material 20 to a predetermined temperature. As shown, the preheater 110 is provided to receive the material 20 mounted on the jig 10. More specifically, the preheating device 110 includes a housing 111 in which an accommodating groove 112 is formed at an upper portion so that the material mounted on the jig 10 is inserted, and the accommodating groove 112 in one direction of the housing 111. It is provided with a partition wall 113 partitioned into a plurality of partition wall 113 and a heating wire 114 for dissipating heat by receiving power.

The receiving groove 112 is provided in an open form on the upper portion of the housing 111 and is formed in plural at regular intervals. A partition wall 113 in which the heating wire 114 is built may be provided between the receiving grooves 112 to preheat the inside of the housing 111 to a predetermined temperature. In this case, the preheating device 110 may be used after being deformed regardless of the number and configuration of the receiving groove 112 and the partition wall 113 if the material 20 can be preheated to have a predetermined temperature therein.

The temperature control through the hot wire 114 may be maintained at a temperature set through a program control of a control unit (not shown), and may be preheated to a temperature corresponding to the temperature of the coating solution 122. In addition, it is possible to block the inflow of moisture into the receiving groove 112 of the preheater 110 by the heat source floating up in the process of preheating the material 20. That is, the preheating device 110 removes residual moisture from the surface of the material 20 and blocks moisture contact with the air.

At least one material 20 is mounted on the jig 10 to stably receive the material 20 in the preheating device 110 as described above. More specifically, the jig 10 has a predetermined length so that both ends are supported at the upper end of the housing 111 of the preheater 110 and the body 11 having the opening 12 formed in the longitudinal direction at the lower side thereof, and being opened. The magnet 13 is provided to fix the material 20 fitted through the part 12.

The jig 10 is formed of steel or stainless steel. This is to transfer the cathode current to the material 20 installed in the jig 10 when the cathode current is applied through the rectifier 150. In this case, the magnet 13 may be provided on the front and rear of the body 11 to stably fix the material 20 to be fitted through the opening 12 of the body 11. As shown, it is shown that the magnet 13 is provided at a predetermined interval at the location where the material 20 is installed, but is not limited thereto, and may be provided to have a predetermined length in the longitudinal direction of the body 11 of the jig 10. It may be.

As described above, the plurality of materials 20 installed in one jig 10 are inserted into one receiving groove 112 formed in the preheating device 110 to be preheated. That is, by installing the material 20 in each of the plurality of jig 10, and preheating the material 20 installed in the plurality of jig 10 through the preheating device 110 to perform a continuous painting work. Will be.

The paint bath 120 is installed adjacent to the preheater 110, and the paint solution 122 is stored to electrodeposition the preheated material 20 from the preheater 110. At this time, although not shown, a heating device may be provided in the painting tank 120 so that the painting solution 122 stored in the painting tank 120 has a predetermined temperature. In addition, the coating tank 120 is formed to have a rectangular shape with an open top. A moving device 130 for supporting and flowing the preheated material 20 in the paint bath 120 in an immersed state is installed.

The moving device 130 is connected to the pair of holders 132 supporting the jig 10 and the pair of holders 132 so that the material 20 is immersed in the coating solution 122 and the electrode plate 30. The connecting plate 134 is installed, an operating cylinder 136 for moving the connecting plate 134, and a supporting plate 138 for supporting the operating cylinder 136.

The pair of cradles 132 are slidably installed at both ends of the upper side of the paint tank 120, respectively. The pair of holders 132 may be made of a plastic material, and may be formed of various materials. Each cradle 132 is formed with a guide groove 132a in the longitudinal direction at the bottom. That is, the cradle 132 is a lower and longitudinal front and rear open form, the cross-sectional shape is made of a so-called 'c' shape. Thus, each cradle 132 is fitted to both sides of the upper portion of the paint tank 120 is guided when moving. In addition, each cradle 132 is formed with a support groove 131 for supporting the end of the jig 10. The support grooves 131 are formed to face each other on the pair of cradles 132. This is for stably supporting the jig 10 seated in the support groove 131.

On the other hand, any one of the pair of holder 132 is provided with an angle of steel (131a) of the steel material to apply a cathode current to the jig 10 is inserted into the support groove 131. As shown, the angle 131a is connected to the cathode power cable 151 of the rectifier 150 to receive a cathode current through the rectifier 150 and apply it to the jig 10.

Both ends of the connecting plate 134 are coupled to the pair of holders 132 to move together with the pair of holders 132. The electrode plate 30 is installed on the connection plate 134 so as to be immersed in the coating solution 122. As shown, the connection plate 134 is provided with an installation hole 133 in which the electrode plate 30 is installed. Here, the magnet 133a may be provided as a means for installing the electrode plate 30 in the installation hole 133. That is, the connection plate 134 may be assembled with a magnet 133a penetrating through the corresponding installation hole 133 to fix the electrode plate 30. For example, the fixing means of the electrode plate 30 through the magnet 133a may fix the electrode plate 30 using a bolt. The electrode plate 30 is connected to the positive power cable 153 of the rectifier 150 to receive a positive current.

The working cylinder 136 reciprocates the assembly of the pair of cradles 132 and the connecting plate 134. This working cylinder 136 is mounted to the support plate 138 fixed to the painting tank 102 to be able to operate the connection plate 134 stably. The support plate 138 is coupled to the paint tank 120 to be detachable.

As shown, the actuating cylinder 136 has an actuating rod 135 which is slidably moved by hydraulic or pneumatic pressure. The operating rod 135 is coupled to the connecting plate 134 so that the connecting plate 134 moves together with the movement of the operating rod 135. That is, when the connection plate 134 moves, a pair of cradles 132 move together. Accordingly, the material 20 mounted on the jig 10 installed on the pair of holders 132 and the electrode plate 30 installed on the connection plate 134 move together while maintaining a predetermined distance. This working cylinder 136 is capable of controlling the forward, backward distance and speed through a control unit (not shown).

The stirring device 140 improves the fluidity of the coating solution 122 along with the flow of the coating solution 122 according to the movement of the material 20 by the moving device 130 described above, thereby painting the coating solution on the surface of the material 20. Allow 122 to be uniform and active in contact. The stirring device 140 is a rotary wing 142 immersed in the coating solution 122, and the rotational force of the drive motor 144 and the drive motor 144 for generating a driving force for rotating the rotary wing 142 It may be provided with a rotating shaft 146 for transmitting to the rotary wing 142. Although not shown, the stirring device 140 may be installed to be lifted up and down on a separate support frame, and may be made to operate by selectively immersing the rotary wing 142 in the coating solution 122 as necessary. Accordingly, the fluidity of the coating solution 122 is increased by the mixing and stirring of the repetitive flow of the material 20 through the moving device 130 and the operation of the stirring device 140, thereby achieving uniform electrodeposition coating.

As described above, when the electrodeposition coating of the material 20 is completed for the set time, the operation of the operation cylinder 136 and the stirring device 140 is stopped, the jig 10 is separated from the holder 132 and the preheating device 110 The new jig 10 preheated in the receiving groove 112 of the) is mounted on the holder 132 to proceed with the electrodeposition coating again. Accordingly, it is possible to smoothly perform painting work continuously and repeatedly by minimizing work waiting time.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

10: jig 20: material
30: electrode plate 100: coating device
110: preheating device 112: receiving groove
120: paint bath 122: paint solution
130: mobile device 131: support groove
132: holder 133: mounting hole
134: connection plate 135: operating rod
136: working cylinder 138: support plate
140: stirring device 150: rectifier

Claims (8)

A preheating device for storing a jig in which at least one material is mounted, and preheating the material installed in the stored jig to a predetermined temperature;
A painting bath in which a painting solution is stored to electrodeposition the preheated material;
A mobile device having a holder supporting the jig and an electrode plate immersed in the painting solution so that the material is immersed in the painting solution, and moving the holder reciprocally in the longitudinal direction of the painting bath;
Agitation apparatus for improving the fluidity of the coating solution; And
And a rectifier for applying a cathode and an anode to the jig and the electrode plate, respectively.
The preheater,
A housing having an accommodating groove formed therein so that the material mounted on the jig is inserted therein;
A partition wall provided to partition the receiving groove into a plurality of directions in one direction of the housing; And
And a heating wire which is embedded in the partition wall and receives power to radiate heat.
The jig has a predetermined length so that both ends are supported on the upper end of the housing and the body is formed with an opening in the longitudinal direction on the lower side, and a coating device provided with a magnet provided in the body to secure the material fitted through the opening. delete delete The method of claim 1,
The mobile device,
A pair of cradles slidably installed at both ends of the paint tank and having a support groove for supporting the end of the jig;
A connecting plate having both ends coupled to the pair of holders to move together with the pair of holders, and having an installation hole for installing the electrode plate;
A support plate fixed to the painting tank; And
And a working cylinder installed on the support plate to move the connection plate. The method of claim 4, wherein
The pair of cradle is formed with a guide groove in the longitudinal direction, the guide groove is fitted to the upper both sides of the painting tank. The method of claim 4, wherein
Coating device connected to the cable of the rectifier is provided with an angle of steel is installed in any one of the pair of cradle to apply a cathode current to the jig inserted into the support groove. The method of claim 4, wherein
The connecting plate is provided with a magnet to fix the electrode plate penetrating the installation hole, the painting device is connected to the cable of the rectifier to apply a positive current to the electrode plate. The method of claim 1,
The stirring device is a painting device having a rotary blade portion immersed in the coating solution, a drive motor for generating a driving force for rotating the rotary blade portion and a rotary shaft connecting the rotary blade portion and the drive motor.

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