KR20160025770A - dipping and omissing device for surface treatment object - Google Patents

Abstract

The main body includes a main body having an outer body formed with a cylindrical body having a working space therein and an opening formed through the upper body; A tamper assembly rotatably mounted on the main frame for removing surface treatment components; A tilting actuator installed in the main frame for tilting the tamper assembly; And a liquid storage tank disposed in the main frame and adapted to receive a coating liquid discharged from the outflow assembly, wherein the maintenance can be easily performed from the outside So that it is possible to prevent the coating liquid from sticking to the surface of the surface-treated parts when the surface-treated parts are tampered with.

Description

[0001] DIPING AND OMISSING DEVICE FOR SURFACE TREATMENT OBJECT [0002]

More particularly, the present invention relates to an overflow apparatus, and more particularly, to an apparatus and a method for preventing overflow of a surface treatment component, The present invention relates to a device for removing a surface-treated component according to a new form capable of preventing sticking.

[0002] Generally, various parts such as bolts used in various industries are used in a state of simply casting or metal working. However, parts such as a ship, automobile parts and the like, which are used for parts frequently exposed to outside air or moisture The surface is treated with various coating liquids such as painting or plating to prevent corrosion and improve performance.

However, in the case of various parts surface-treated as described above, the coating layer coated on the surface of the component is not uniform, and coating failure is caused due to the coating solution remaining in each recessed portion of the component.

Accordingly, in the related art, by using a separate fouling apparatus, the surface-treated components are removed at once, thereby allowing the thickness of the coating liquid to be constant and removing the coating liquid remaining in the various recessed portions. As disclosed in Japanese Patent Application Laid-Open No. 10-2004-049700.

Particularly, in recent years, the defective basket in which the components are accommodated is configured so that the defrosting basket can be revolved and rotated at the same time so that the defective performance can be improved. In the related art, Patent Document 10-117110, And the like.

However, in consideration of the fact that the various types of outflow apparatuses according to the above-described prior art are merely merely performed so that the malfunction basket can perform both revolutions and rotations simultaneously, for example, when the wrench insertion groove of the wrench bolt is erected upwardly, There is a problem in that the coating liquid in the wrench insertion groove is not fouled out, so that it is inconvenient that the malfunctioning through manual operation must be additionally performed.

In addition, in the prior art, a driving unit for revolving each of the defogger baskets and a driving unit for rotation are separately installed inside and outside the main frame. Particularly, the driving unit for revolving, which is located inside the main frame, It has a disadvantage in that it is applied as a factor to make the internal structure more complicated and its maintenance becomes very difficult.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide an apparatus and a method for the maintenance, And to prevent the coating liquid from sticking to the surface of the surface-treated part at the time of work.

In order to achieve the above object, according to the present invention, there is provided an overturning apparatus for a surface treatment component, comprising: a main frame having an inner body formed of a cylinder having a working space and formed with an opening at an upper surface thereof; A tamper assembly rotatably mounted on the main frame for removing surface treatment components; A tilting actuator installed in the main frame for tilting the tamper assembly; And a liquid storage tank disposed in the main frame for receiving the coating liquid discharged from the outflow assembly.

Here, the tilting operation unit may include a cylinder whose one end is rotatably mounted on a peripheral portion of an upper surface of the main frame, and a plunger end of the cylinder is exposed to the outside of the upper surface of the main frame And is rotatably connected.

The outflow assembly may include a shaft housing which is installed to penetrate through the opening and closing plate, a circumferential surface of which is rotatably installed in the main frame and which has an inner hollow body, A rotation shaft which is installed to penetrate through the shaft housing and is rotated by receiving a driving force from the motor, and a rotating shaft which is installed to surround a part of the rotating shaft, A basket seating part coupled to an end of the orbiting shaft in the main frame, the basket seating part being open to the periphery and having a seating space therein; And the surface treated parts are housed inside. To a plurality of dropping-off and the basket, the basket made of a fugitive each cylinder interlocked, characterized by a yirueojim including interlocking parts such that a rotation at the same time, each fugitive basket.

The basket mount part includes a bottom plate that is rotatably installed in a position where the respective basket members are symmetrically positioned with respect to each other, an upper ring body that is installed to surround the upper end of each of the basket members, A connection shaft which is installed along the opposite surface between the bottom plate and the upper ring body and connects the bottom plate and the upper ring body to each other and a housing cover which is formed to cover the upper surface of the upper ring body and to which the revolving shaft is coupled The driven gear is provided with a driven gear formed along an upper circumferential surface of each of the plurality of strike baskets and a driven gear interposed between adjacent portions of the upper ends of the strike basket to be engaged with driven gears of the strike basket, And a driven gear to which the end of the rotation shaft is coupled.

The liquid storage tank may be installed in the main frame so as to be able to move up and down, and the main frame may further include an elevation driving unit for providing a driving force for moving the liquid storage tank up and down.

As described above, according to the present invention, it is possible to prevent the problem of accumulation of the coating liquid on the recessed portions of the respective parts as the through-putting operation is progressed while the respective drainage baskets are tilted.

Particularly, in the surface treatment part of the surface treatment component according to the present invention, the rotation shaft is positioned so as to be overlapped within the revolving shaft, while both the motor for exclusive use and the motor for self use are located outside the main frame, And the size of the internal space of the main frame can be minimized, so that it is possible to miniaturize the overall fouling apparatus.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic cross-sectional view of a surface treatment component according to an embodiment of the present invention,
2 is a side cross-sectional view illustrating an internal structure of a through-hole device of a surface treatment component according to an embodiment of the present invention;
3 is a plan view for explaining a through-put device of a surface treatment component according to an embodiment of the present invention.
4 is an enlarged view for explaining an installation state of a through-out assembly among the through-out devices of the surface treatment component according to the embodiment of the present invention.
5 is a cross-sectional view for explaining the state of installation between the basket seating portion and each of the remove basket in the outflow apparatus of the surface treatment component according to the embodiment of the present invention
FIG. 6 is a plan view for explaining the state of installation between the basket seating portion and each of the fall-through baskets in the outflow apparatus of the surface treatment component according to the embodiment of the present invention.
FIGS. 7 and 8 are cross-sectional views illustrating the connection relationship between the tilting operation portion and the through-hole assembly of the surface treatment component defoaming device according to the embodiment of the present invention.
FIGS. 9 to 12 are diagrams for explaining a process of coating and deflating a surface treatment component using a through-hole of a surface treatment component according to an embodiment of the present invention.
13 is a side sectional view showing another example of a through-hole device of a surface treatment component according to an embodiment of the present invention
Fig. 14 is an enlarged view showing the details of the other example of the removal device of the surface treatment component according to the embodiment of the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of a filler device of a surface treatment component according to the present invention will be described with reference to FIGS. 1 to 14 attached hereto.

FIG. 1 is a front sectional view for explaining an internal structure of a surface treatment component of a surface treatment component according to an embodiment of the present invention, and FIG. 2 is a cross- Fig. 3 is a plan view for explaining a fouling apparatus of a surface treatment component according to an embodiment of the present invention. Fig.

As shown in these figures, a defrosting device (hereinafter referred to as a defrosting device) of a surface treatment component according to an embodiment of the present invention mainly comprises a main frame 100, a deflashing assembly 200, 300, and a liquid storage tank 400, and in particular, the tamper assembly 200 is provided with a tilting operation portion 300 so as to perform a tampering operation on the surface treatment component in an inclined state by the tilting operation portion 300 .

This will be described in more detail below for each configuration.

First, the main frame 100 is a portion for forming an outer body of the through-hole device according to an embodiment of the present invention.

The main frame 100 is formed as a cylinder that provides a working space inside while closed at all sides.

At this time, an opening 110 for installing a malfunction assembly 200 to be described later is formed through the upper surface of the main frame 100.

Next, the tamper assembly 200 is a portion that performs coating (sinking) and tarnishing operations on the surface treatment component.

In the embodiment of the present invention, as shown in FIGS. 1 to 6, the degassing assembly 200 includes an opening / closing plate 210, a shaft housing 220, an air motor 230, An example will be described in which the robot arm 240 includes an idle shaft 250 and a rotation axis 260, a basket seating portion 270, a plurality of elimination baskets 280, and an interlocking portion 290.

The open / close plate 210 is a plate-shaped member that opens and closes the opening 110 of the main frame 100 to block the opening 110 formed in the upper surface of the main frame 100 Plate. It is preferable that the opening / closing plate 210 is formed to have a smaller size than the opening 110 so as to be rotated in a state of being positioned inside the opening 110.

Particularly, the open / close plate 210 is rotatably installed in the main frame 100 as a rotating shaft 120, so that the entire through assembly 200 can rotate about the rotating shaft 120 as a center of rotation.

The upper end of the shaft housing 220 is exposed to the outside of the main frame 100 through the upper surface of the opening and closing plate 210, And the lower end of the main body 100 is formed so as to protrude into the main frame 100 and the interior of the main body 100 is formed as an empty tube.

The motor 230 is a portion for transmitting the driving force so that the basket seating portion 270 is allowed to revolve and the self-propelled motor 240 is a portion for transmitting the driving force to rotate the respective removing basket 280 .

The motor 230 is installed at one side of the outer surface (upper surface) of the open / close plate 210 outside the main frame 100. The motor 240 is connected to the main frame 100 (Upper surface) of the open / close plate 210, which is the outside of the open / close plate 210.

The revolving shaft 250 is configured to receive a driving force from the coin motor 230 to rotate a basket seating part 270 to be described later and the rotation shaft 260 is rotatably supported by the shaft housing 220, And is configured to sequentially pass through the revolving shaft 250 and to receive the driving force from the motor 240 to rotate each of the remove baskets 280 to be described later.

The upper end and lower end of the rotation shaft 260 are installed to be exposed to the outside through the upper end of the shaft housing 220 and the lower end of the revolving shaft 250, 260 is coupled to a pulley 261 at an upper end circumference thereof, and is configured to transmit power by the self-propelled motor 240 and the belt 262.

The motor 230 is provided with a shaft 231 protruding into the main frame 100 and a pulley 251 and a belt 252 provided on the circumferential surface of the revolving shaft 250, .

In addition, the basket seating part 270 is coupled to the end of the revolving shaft 250 in the main frame 100, and is open at its periphery and has a seating space therein.

The basket seating part 270 includes a bottom plate 271 rotatably installed in a position symmetrical with respect to each of the basket 302, The upper end ring body 272 and the upper end ring body 272. The upper end ring body 272 and the upper end ring body 272 are connected to each other along the opposite surfaces between the bottom plate 271 and the upper end ring body 272, A connection shaft 273 and a housing cover 274 formed to cover the upper surface of the upper ring body 272 and coupled to a lower end of the revolving shaft 250 on an upper surface thereof.

At this time, the upper end of each of the drainage baskets 280 is accommodated in the upper end ring body 272 of the basket seating part 270, and the upper end of each of the drainage baskets 280 is supported on the inner circumferential surface of the upper end ring body 272 And a plurality of bearings 277 are provided on the upper surface of the support jaw 276 to support the rotation of the upper jaw 276 in close contact with the upper circumferential surface of each of the remove baskets 280 do.

Each of the fall-off baskets 280 is rotatably installed in the basket seating part 270 as a cylinder in which a plurality of surface-treated parts are received therein. At this time, the outer surface of each of the defective baskets 280 is configured to be a perforated plate formed to penetrate a plurality of holes, so that a defective liquid (coating liquid) that is detached from each surface-treated component can be discharged to the outside.

In addition, the linkage portion 290 includes a driven gear 291 formed along the upper circumferential surface of each of the fall-off baskets 280, And is disposed between adjacent ones of the upper ends of the respective deflux baskets 280 so as to be engaged with the driven gears 291 of the respective deflux baskets 280. In addition, 292).

In the embodiment of the present invention, each of the defective baskets 280 is provided at three positions and is rotatably installed at three portions symmetrical with respect to the center of the top surface of the bottom plate 271 constituting the basket seating portion 270 For example, the main gear 291 is located at a central portion within the upper ring body 272 between the three cancellous baskets 280.

Next, the tilting operation portion 300 is a portion for tilting the outflow assembly 200.

2, 7 and 8, the tilting operation unit 300 includes a cylinder having one end rotatably mounted on a peripheral portion of the upper surface of the main frame 100, The tip of the plunger 310 constituting the tilting operation part 300 is connected to the upper surface of the open / close plate 210 constituting the degumming assembly 200.

That is, the opening / closing plate 210 can be rotated up and down around the rotation axis 120 by the selective protrusion of the plunger 310 according to the operation of the tilting operation part 300, So that the whole can be inclined.

At this time, a coupling plate 320 is fixed to the upper surface of the opening / closing plate 210, and the plunger 310 of the tilting operation part 300 is rotatable to the coupling plate 320 through the coupling plate 330 As shown in FIG.

Next, the liquid storage tank 400 is filled with a solution containing the solution of the fouling liquid (a coating solution that has been deflated from the surface treatment component) discharged from the solution removing assembly 200, And a coating liquid for performing a coating on each surface-treated part is stored.

In the embodiment of the present invention, the liquid storage tank 400 is installed in the main frame 100 so as to be able to move up and down, and a driving force for moving the liquid storage tank 400 up and down is provided in the main frame 100 (500) is further provided.

That is, the liquid storage tank 400 maintains the state of being positioned in the space on the bottom side in the main frame 100 during the nonworking operation, and the liquid storage tank 400 is in a state of being tilted by the tilting operation part 300 The basket 280 is lifted so as to be received by the basket seating part 270 so that the tank 30 can store the totaling liquid discharged from each of the basket 302 in the basket seating part 270, So that the accumulated solution can be stored intact while preventing the leakage solution from leaking to the inner wall surface of the main frame 100.

The lift driving unit 500 may be configured to move the liquid storage tank 400 up and down using a conventional hydraulic and pneumatic cylinder. However, the elevating drive motor 510 and the pair of chains The liquid storage tank 400 may be configured to be lifted and moved by using the lifting plate 520 and the seating plate 530, or the like. At this time, the seating plate 530 is installed across the main frame 100 in a state where both ends of the seating plate 530 are connected to the pair of chains 520, and the seating plate 530 is placed on the liquid storage tank 400.

Of course, it is preferable that the liquid storage tank 400 is further provided with a plurality of casters 410 on its bottom surface so that the liquid storage tank 400 can freely roll in accordance with the operation of the operator.

Hereinafter, the process of performing the coating operation and the defluxing operation using the defluxing device according to the embodiment of the present invention constructed as described above will be described in more detail.

First, in the first non-working state, the degas assembly 200 is maintained in a vertically erected state as shown in FIGS. 1, 2 and 7. At the same time, the liquid storage tank 400 is moved away from the lower portion of the tamper assembly 200 and remains in a state of being located in the space on the bottom side in the main frame 100.

In this state, when a component to be surface-treated is loaded into each of the defective baskets 280 and then the defrosting apparatus according to the embodiment of the present invention is operated, the lifting and lowering driving unit 500 is operated and the liquid storage tank 400 is moved up Each of the drainage baskets 280 of the degassing assembly 200 is received in the liquid storage tank 400. This is as shown in Fig. 9 attached hereto.

Then, the ball-dedicated motor 230 and the motor 240 are driven. By the rotation of the revolving shaft 250 and the rotation axis 260 by the driving of the motors 230 and 240, And rotates and rotates in the liquid storage tank (400). Thus, the surface of each of the surface-treated components located in the fall-through basket 280 is coated with the coating liquid in the liquid storage tank 400.

When the coating operation is completed, the motor 230 and the motor 240 are stopped. At the same time, the elevation driving unit 500 is operated to move the liquid storage tank 400 downward The liquid storage tank 400 is returned to the initial state as shown in FIG.

When the liquid storage tank 400 is returned to its original position, the tilting operation unit 300 is operated as shown in FIGS. 8 and 10 and the tilting assembly 200 is tilted as a whole, When the tilting operation is completed, the operation of the elevation driving unit 500 is performed and the liquid storage tank 400 is lifted up by the upward movement of the liquid storage tank 400, So that the malleable basket 280 of the malleable assembly 200 is received in the liquid storage tank 400. This is as shown in Fig. 11 attached hereto.

12, the motor 230 and the motor 240 are driven to revolve and rotate each of the malfunctioning baskets 280 so that the angles of the respective malfunctioning baskets 280 The thickness of the coating liquid present on the surface of the surface-treated component is made uniform, and the high-viscosity coating solution is allowed to fall through the recessed portion of each component.

That is, as the idle shaft 250 rotates to rotate the basket seating portion 270 by driving the motor 230, each of the drainage baskets 280 in the basket seating portion 270 is rotated by the revolution axis The rotary shaft 260 is rotated by the drive of the propelling motor 240 to rotate the driven gear 292 constituting the driven portion 290 and the driven gear 292 is rotated, The driven gears 291 engaged with the driven gears 291 and the respective defrosting baskets 280 provided with the driven gears 292 are rotated respectively and the components can be deflated by revolving and rotating the defrosting baskets 280 .

Particularly, due to the tilting of the degas assembly 200, each of the deflux baskets 280 is also tilted and revolved and rotated. As a result, the coating liquid present in the recessed portions of the respective components smoothly flows out from the recessed portions, The problem of the coating liquid sticking is prevented.

When the overflow procedure is completed, the descending movement of the liquid storage tank 400 by the operation of the lifting drive unit 500 and the lifting of the percolation assembly 200 by the operation of the lifting operation unit 300 are sequentially Wherein the liquid storage tank 400 is positioned just below the outflow assembly 200 with subsequent horizontal movement. This is the same as the state shown in Fig. 2 attached hereto.

The worker finishes the work through the above-described processes. After that, the worker drains the surface-treated parts in each of the run-off baskets 280, re-inserts the new surface-treated parts, and repeats the above-described steps.

In this state, after the liquid storage tank 400 as shown in FIG. 9 is lifted up, the ballast motor 280 and the motor 240, So that an additional malfunctioning operation can be performed through rotation of each of the malleable baskets 280 through the driving of the malleable baskets 280.

As a result, the defective device of the surface treatment part according to the present invention can prevent the problem of sticking of the coating liquid to the recessed parts of the respective parts by proceeding the defoliating operation with each of the defective baskets 280 inclined.

In addition, the motor 230 and the motor 240 are configured such that the rotation axis 260 is positioned so as to be overlapped within the revolving shaft 250, 100, the maintenance work can be facilitated. In particular, since the size of the internal space of the main frame 100 can be minimized, it is possible to downsize the entire overflow device.

On the other hand, the fouling apparatus of the surface treatment component according to the present invention is not limited to the structure of the above-described embodiment.

For example, as shown in FIGS. 13 and 13, a mounting bracket 211 is additionally installed on the upper surface of the opening / closing plate 210 constituting the detachment assembly 200, and the mounting bracket 211 is provided with a rotation shaft 260 The lifting cylinder 212 can be configured to perform only idling so that the rotating shaft 260 can be separated from the main gear 292 of the interlocking portion 290 according to the type of work It is.

In addition, although not shown, the tamper assembly 200 is provided with an opening / closing plate 210 constituting the tamper assembly 200 when the main frame 100 is not in operation, so that the tilting assembly 200 can be tilted only during operation control for operation. And a locking device for restricting the locking device to the upper surface.

As described above, the present invention can be said to be a useful invention which can be modified in various ways.

100. Main frame 110. Open mouth
120. Rotary shaft 200. Stall assembly
210. Open / close plate 211. Mounting bracket
212. Lift cylinder 220. Shaft housing
230. Ball motor 231. Axis
240. Self-propelled motor 250. Spindle shaft
260. Rotation axis 251,261. Pulley
252, 262. Belt 270. Basket seating portion
271. Bottom plate 272. Top ring body
273. Connecting Shaft 274. Housing Cover
275. Coupling hub 276. Base jaw
277. Bearing 280. Threshold basket
290. Interlocking part 291. Slave gear
292. Main drive gear 300. Tilting operation part
310. Plunger 320. Engagement plate
330. Connecting plate 400. Liquid storage tank
410. Castor 500. Elevation East
510. Lift / lower drive motor 520. Chain
530. Mounting plate

Claims (5)

A main frame having an inner body formed of a cylindrical body having a working space while forming an outer body and having an opening formed through the upper surface thereof;
A tamper assembly rotatably mounted on the main frame for removing surface treatment components;
A tilting actuator installed in the main frame for tilting the tamper assembly; And,
And a liquid storage tank disposed in the main frame for storing a coating liquid for coating the surface treatment component and containing a coating liquid discharged from the outflow assembly. The method according to claim 1,
The tilting operation unit
And a cylinder provided at one end of the upper surface of the main frame so as to be rotatable up and down,
Wherein the plunger end of the cylinder is installed to be rotatably connected to a portion of the outflow assembly exposed to the outside of the upper surface of the main frame. The method according to claim 1 or 2,
The tamper assembly
An opening / closing plate for opening / closing the opening of the main frame,
A shaft housing provided so as to penetrate the opening and closing plate and having a circumferential surface rotatably installed in the main frame and having an inner hollow body,
A motor dedicated to the motor and a motor dedicated to the outer surface of the opening / closing plate, which are outside the main frame,
A rotation shaft installed to penetrate the shaft housing and rotated by receiving a driving force from the motor,
A revolving shaft which is installed to surround a part of the rotation axis and is rotated by receiving a driving force from the revolving motor;
A basket seating part coupled to an end of the orbiting shaft in the main frame and having a perimeter open and a seating space inside;
A plurality of purge baskets formed in a cylindrical shape so as to be rotatably installed in the basket seating part,
And an interlocking part for interlocking the respective defective baskets with each other to rotate the defective baskets at the same time. The method of claim 3,
The basket mount part includes a bottom plate that is rotatably installed in a position where the respective basket members are symmetrically positioned with respect to each other, an upper ring body which is installed to surround the upper end of each of the basket members, A connection shaft which is installed along the opposite surface between the plate and the upper ring body and which connects the bottom plate and the upper ring body to each other and a housing cover which is formed to cover the upper surface of the upper ring body and to which the revolving shaft is coupled,
Wherein the interlocking portion includes a driven gear formed along an upper circumferential surface of each of the fall-off baskets, and a gear disposed between the adjacent portions of the upper ends of the fall-off baskets to engage with the driven gears of the fall-off baskets, And a driven gear to which an end is coupled. The method according to claim 1,
Wherein the liquid storage tank is installed in the main frame so as to be able to move up and down,
Wherein the main frame further includes an elevation driving part for providing a driving force for moving the liquid storage tank up and down.

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