KR100897803B1 - Coating apparatus of compressor swash plate and coating method thereof - Google Patents

Abstract

The present invention is to uniformly coat the paint on the surface of the inclined plate having a complex shape, such as a counterweight, arms, etc., the control body, the inclined plate rotating unit for rotating the inclined plate by the operation of the control body, a nozzle for spraying the paint on the surface of the inclined plate A coating device for a compressor inclination plate having a nozzle transfer unit for moving a nozzle up and down over the inclination plate rotating unit, wherein the nozzle comprises a supply part connected to the nozzle transport unit and a blade part bent from the supply part, The supply hole is formed, characterized in that the blade portion is formed with a plurality of injection holes for ejecting the paint supplied from the paint supply hole to the surface of the inclined plate.

Thus, in the present invention, since the nozzle is bent, the coating material can be coated on the surface of the inclined plate having a complicated shape in which a counterweight, an arm, etc. are formed on the inclined plate, and the nozzle is moved up and down, thereby simplifying the construction of the coating apparatus. , The paint ejected from the blade portion is evenly distributed by the inclined blade portion is coated with a uniform thickness, and as a uniform coating has a useful effect of minimizing the consumption of the paint.

Compressor, Coating Equipment, Nozzle, Blade Section, Supply Section

Description

Coating Apparatus of Compressor Swash Plate and Coating Method Thereof}

The present invention relates to a coating apparatus for a gradient plate for a compressor and a coating method thereof, and more particularly to a coating apparatus for a gradient plate for a compressor and a coating method for forming a coating film on the surface of the gradient plate installed in the compressor.

Generally, a compressor is installed in an air conditioner of a vehicle and driven by an engine driving, and used to compress a refrigerant converted into low pressure gas from an evaporator to a high pressure state and send it to a condenser.

As shown in FIG. 1, the compressor 1 is installed in the housing 2, the housing 2, and the drive shaft 3 and the drive shaft 3 selectively receiving power of an engine by an intermittent action of an electromagnetic clutch. 3) a disk-shaped inclined plate 8 which is installed to be inclined at an angle, a shoe 6 provided around the inclined plate 8, a bore 5 formed in the cylinder block 4 in the housing 2, A plurality of pistons 7 are provided which reciprocate the inside of the bore 5 by the rotation of the inclined plate 8 and the shoe 6.

The compressor sucks / compresses refrigerant from the evaporator and sends it to the condenser.

On the other hand, the compressor 1 is to form a coating film of a predetermined thickness on the surface of the sliding component to increase the wear resistance.

In the surface coating, the applied film must maintain a constant thickness, and a coating method such as spraying or pad / roll coating is used.

Here, the spray coating method is not only difficult to apply the coating process but also inefficient due to the large amount of paint consumed due to the scattering of the sprayed paint, and the increase of the work process in which the scattered paint causes contamination of the peripheral device and removes the scattered paint. Maintenance becomes difficult.

In addition, the pad / roll coating method can compensate for the disadvantages of the spray method, but it requires a transfer of the paint, it is difficult to apply in the case of a paint having a poor transferability of the paint.

Meanwhile, Korean Patent Publication No. 2006-92309 discloses a coating apparatus (hereinafter, referred to as a 'prior art') of an inclined plate for a compressor, which is illustrated in FIGS. 2A and 2B.

As shown in Figures 2a and 2b, the coating apparatus 10 of the inclination plate for the compressor of the prior art is installed on the control body 11, the upper surface of the control body 11 is capable of rotating the inclination plate (8) for the compressor A nozzle conveying unit 13 comprising at least two conveying members 13a and 13b spaced apart at a predetermined interval to one side of the inclined plate rotating unit 12 and the inclined plate rotating unit 12 to move forward and upward and downward. It consists of the nozzle member 14 which is installed in the conveying member 13b of the nozzle conveying unit 13, and sprays paint close to the surface 8a of the rotating inclination plate 8 for compressors.

In addition, the nozzle member 14 protrudes from one side of the nozzle body 14a and the nozzle body 14a coupled to the transfer member 13b, and a paint spray hole 14b is formed through the paint spray hole 14b. It is composed of a blade portion 14c which expands while removing excess paint liquid from the surface 8a of the inclined plate 8 to a predetermined thickness.

In the coating apparatus 10 of the inclined plate for the compressor, the inclined plate 8 is fixed to the inclined plate rotating unit 12, and then the front and rear conveying member 13a is advanced by the operation of the control unit 11, and the nozzle member 14 is moved to the inclined plate ( 8) is moved above the surface 8a.

When the nozzle member 14 is positioned above the surface 8a of the inclined plate 8, the up and down conveying member 13b is lowered so that the blade portion 14c of the nozzle member 14 is formed on the surface of the inclined plate 8. 8a).

Next, the paint is sprayed from the paint spray hole 14b, and as the inclined plate rotating unit 12 is rotated, the inclined plate 8 is rotated and the front and rear conveying member 13a is advanced back and forth, and the surface 8a of the inclined plate 8 is rotated. The paint is coated along.

At this time, the coating liquid coated on the inclined plate 8 surface 8a is spread by the blade 14c to a certain thickness, and the excess coating liquid is removed.

[Patent 1] Publication No. 2006-92309 (published Aug. 23, 2006)

By the way, the coating apparatus of the conventional inclination plate for the compressor described above has the advantage that the coating film is formed evenly on the surface of the inclined plate by the inclined blade portion, but the coating film is formed evenly on the surface of the inclined plate, There was a problem that cannot be applied to the inclined plate of a complicated shape.

That is, when the counterweight and the arm protrude from the inclined plate, the blade portion is vertical, so that the blade portion is caught by the counterweight and the arm of the inclined plate, so that the coating cannot be properly coated.

In addition, the front and rear conveying member and the vertical conveying member should be installed, respectively, there was a problem that the structure is complicated.

The present invention has been made to solve the above problems, an object of the present invention is to coat the coating device of the inclined plate for the compressor and the coating that can be uniformly coated on the surface of the inclined plate having a complex shape, such as counterweight, arm To provide a way.

In order to achieve the above object, the coating apparatus of the inclination plate for the compressor of the present invention includes a control body, an inclined plate rotating unit for rotating the inclined plate by the operation of the control body, a nozzle for spraying paint onto the surface of the inclined plate, and a nozzle over the inclined plate rotating unit. A coating device for a compressor inclined plate having a nozzle transfer unit for moving up and down, wherein the nozzle comprises a supply portion connected to the nozzle transfer unit and a blade portion bent from the supply portion, and the supply portion is provided with a paint supply hole, and the blade The part is characterized in that a plurality of injection holes for ejecting the paint supplied from the paint supply hole to the surface of the inclined plate is formed.

In addition, the coating method of the inclination plate for the compressor according to the present invention is a control body, an inclined plate rotating unit for rotating the inclined plate by the operation of the control body, a nozzle for spraying paint on the surface of the inclined plate, moving the nozzle up and down the inclined plate rotating unit A method of coating paint on an inclined plate with a nozzle conveying unit, comprising: installing an inclined plate on an upper surface of an inclined plate rotating unit, advancing a stopper after the inclined plate is installed, rotating the inclined plate with the inclined plate rotating unit, the inclined plate Stopping the rotation of the inclined plate rotating unit according to the stopper, lowering the nozzle of the nozzle transfer unit toward the inclined plate and retracting the stopper outward of the inclined plate, rotating the inclined plate with the inclined plate rotating unit, Paint on the nozzle with the rotation of the inclined plate rotating unit Characterized by the step of supplying and made of an ejecting the coating material on the swash plate, the method comprising the step of blocking the coating material supplied to the nozzle, the nozzle increases.

As described above, the present invention has a useful effect of coating the paint on the surface of the inclined plate having a complicated shape in which a counterweight, an arm, etc. are formed on the inclined plate because the nozzle is bent.

In addition, since the nozzle is moved only up and down, the configuration of the coating apparatus is simplified, and the paint ejected from the blade portion is evenly distributed by the inclined blade portion, so that the paint is coated with a uniform thickness.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention.

Figure 3 is a perspective view showing a coating apparatus of the inclined plate for the compressor of the present invention, Figure 4a is a front view showing a state in which the nozzle and the inclined plate of the coating apparatus according to the present invention, Figure 4b shows the nozzle of Figure 4a 4C is a cross-sectional view taken along the line AA of FIG. 4B, and FIG. 5 is a plan view of FIG.

3 and 4, the coating apparatus 100 of the inclination plate for the compressor of the present invention is a control body 110, the inclination plate rotating unit 130 is installed on the control body 110, the inclined plate rotation It consists of a nozzle transfer unit 150 is installed on one side of the unit 130.

The control body 110 is provided with a control unit for controlling the coating apparatus 100, there is provided a drive device (not shown in the figure) for driving the inclined plate rotating unit 130 therein.

In addition, the inclined plate rotating unit 130 is rotatably installed on the upper surface of the control body 110, and supports the inclined plate 8 rotatably. At this time, the inclined plate 8 is installed on the inclined plate rotating unit 130 so that the surface (8a) to coat the paint facing up.

In addition, the nozzle transfer unit 150 is installed on one side of the inclined plate rotating unit 130 at regular intervals, the transfer member 151 is fixed to the upper surface of the control body 110, is installed on the transfer member 151 It consists of the nozzle 152 which ejects paint.

The transfer member 151 is installed to be elevated by conventional power transmission means such as a belt and pulley, a sprocket and a chain so as to be elevated by driving of a drive motor (not shown in the drawings), and a detailed description thereof will be omitted. Shall be.

As shown in FIG. 4, the nozzle 152 is connected to the conveying member 151 and is bent from the supply part 154 and the supply part 154 and formed parallel to the surface 8a of the inclined plate 8. It consists of a blade portion 153.

The supply unit 154 is bent at an angle of right angle, acute angle, or obtuse angle with the blade unit 153, and preferably configured to change the angle as necessary.

In addition, the supply unit 154 is formed with a paint supply hole 155 to transfer the paint supplied from the paint supply unit (not shown in the figure), the blade portion 153 is connected to the paint supply hole 155 A plurality of injection holes 156 are formed.

On the other hand, the inclined surface 153a is formed in the exit blade portion 153 of the injection hole 156.

3 and 5, a stopper 157 is provided separately from the nozzle transfer unit 150. The stopper 157 may be supported by the frame 158, and may reciprocate the inside and the outside of the inclined plate 8 in the front-rear direction.

In addition, although not shown, the stopper 157 may be installed to rotate 90 degrees up and down.

Since the stopper 157 is installed to be moved or rotated by a conventional power transmission means such as a rack and pinion, a belt and a pulley or a rotating motor, detailed description thereof will be omitted.

Hereinafter, the process of coating the coating material to a predetermined thickness on the surface 8a of the inclined plate 8 by the coating apparatus of the inclined plate for a compressor of the present invention will be described with reference to FIGS. 5 and 6.

5 and 6, the surface 8a of the inclined plate 8, in which a counterweight or an arm, etc. protrude from the inclined plate rotating unit 130 of the coating apparatus 100 of the present invention, is placed upward. Install facing (S10).

Here, the inclined plate 8 includes a counter weight or an arm not formed.

Next, the stopper 157 installed on the fixed plate 158 is advanced toward the inclined plate rotating unit 130 through the operation of the control unit 110 to be positioned above the inclined plate 8 (S11).

As described above, in the state where the stopper 157 is positioned on the inclined plate 8, the controller 110 drives the inclined plate rotating unit 130 to rotate the inclined plate 8 mounted on the inclined plate rotating unit 130 (S12).

At this time, since the inclined plate 8 is rotated while the stopper 157 is positioned on the inclined plate 8, a protruding portion such as a counter weight or an arm of the inclined plate 8 is caught by the stopper 157, and the counter weight or When the arm or the like is caught by the stopper 157, the inclined plate rotating unit 130 is temporarily stopped (S13).

When the inclined plate rotating unit 130 stops, the transfer member 151 of the nozzle transfer unit 150 is lowered so that the blade portion 153 of the nozzle 152 is close to the surface 8a of the inclined plate 8 ( S14).

After the nozzle 152 is lowered, the stopper 157 is retracted to be in the original position away from the inclined plate 8 (S15), and the inclined plate rotating unit 130 is rotated at a constant speed (S16).

In addition, the paint is supplied to the nozzle 152 from the paint supply part to the paint supply hole 155 of the nozzle 152, and the paint supplied to the paint supply hole 155 is transferred to the injection hole 156 of the blade part 153. Then, it is ejected to the surface 8a of the inclined board 8 (S17).

At this time, since the inclined plate 8 is rotating at a constant speed, the inclined surface 153a formed on the blade portion 153 on the outlet side of the injection hole 156 receives the paint on the surface 8a of the inclined plate 8. Even thickness is even. That is, the inclined surface 153a of the blade portion 153 evenly distributes the paint supplied to the surface 8a of the inclined plate 8.

On the other hand, since the blade portion 153 is bent from the supply portion 154, the nozzle 152 is caught by the counter weight or the arm even if the counter weight or the arm is formed to protrude from the surface 8a of the inclined plate 8. Or no contact.

That is, the surface 8a of the inclined plate 8 on which the coating is made is a circumferential region indicated by 'A' in FIGS. 4A and 5, and the shoe is in contact with the inclined plate 8 only in the region. Since the lower end portion is located at the center of the surface 8a of the inclined plate 8 and protrudes obliquely upward, the blade portion 153 is not caught by the counterweight, the arm or the like even when the inclined plate 8 rotates.

In addition, when the inclined plate rotating unit 130 is rotated once and the inclined plate 8 is rotated to the paint starting position of the paint, the inclined plate rotating unit 130 is stopped and the supply of paint to the nozzle 152 is cut off and the nozzle 152 is closed. Raise (S18).

When the nozzle 152 is raised in this way, the inclined plate 8 is transferred from the inclined plate rotating unit 130 to the next process (S19).

When the coating of the inclined plate 8 is completed as described above, the other inclined plate 8 is coated through the above-described process.

The present invention relates to an apparatus and a method for coating an inclined plate for a compressor, and can be used to coat a uniform thickness on the surface without being concerned with the surface shape of the inclined plate.

1 is a cross-sectional view showing a conventional compressor.

Figure 2a is a perspective view showing a coating apparatus of a conventional inclined plate for a compressor.

FIG. 2B is an enlarged perspective view of the nozzle member and the inclined plate of FIG. 2A; FIG.

Figure 3 is a perspective view showing a coating device of the inclined plate for a compressor of the present invention.

Figure 4a is a front view showing a state in which the nozzle and the inclined plate of the coating apparatus according to the present invention in contact.

4B is a perspective view of the nozzle of FIG. 4A;

4C is a cross-sectional view taken along the line A-A of FIG. 4B.

5 is a plan view of FIG.

Figure 6 is a flow chart showing a coating method of the inclined plate for a compressor of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: coating apparatus 111: control body

130: inclined plate rotating unit 150: nozzle transfer unit

151: transfer member 152: nozzle

153: blade portion 154: supply portion

155: paint supply hole 156: injection hole

157: stopper 158: fixed plate

Claims (6)

Coating device for the inclined plate of the compressor equipped with a control body, an inclined plate rotating unit for rotating the inclined plate by the operation of the control body, a nozzle for ejecting paint on the surface of the inclined plate, a nozzle transfer unit for moving the nozzle up and down the inclined plate rotating unit as, The nozzle is composed of a supply portion connected to the nozzle transfer unit and a blade portion bent from the supply portion, A paint supply hole is formed in the supply part, The blade portion is formed with a plurality of injection holes for ejecting the paint supplied from the paint supply hole to the surface of the inclined plate, And a stopper for fixing the rotational position of the inclined plate separately from the nozzle transfer part. delete The method of claim 1, The stopper is a coating device for the inclined plate of the compressor, characterized in that the reciprocating movement to the inside and outside of the inclined plate. The method of claim 1, The coating unit of the inclined plate for the compressor, characterized in that the angle of the supply portion and the blade portion of the nozzle can be varied. The method according to claim 1 or 3 or 4, Outlet blade portion of the injection hole coating device of the inclination plate for the compressor, characterized in that formed in the inclined slope. As a method of coating the paint on the inclined plate with a control body, an inclined plate rotating unit for rotating the inclined plate by the operation of the control body, a nozzle for ejecting paint onto the surface of the inclined plate, and a nozzle transfer unit for moving the nozzle up and down over the inclined plate rotating unit. , Installing an inclined plate on an upper surface of the inclined plate rotating unit, Advancing the stopper after the inclined plate is installed, Rotating the inclined plate with the inclined plate rotating unit; Stopping rotation of the inclined plate rotating unit as the inclined plate is caught by the stopper; Lowering the nozzle of the nozzle transfer unit toward the inclined plate and retracting the stopper outward of the inclined plate; Rotating the inclined plate with the inclined plate rotating unit; Supplying paint to the nozzle with the rotation of the inclined plate rotating unit to eject the paint onto the inclined plate, Cutting off the paint supplied to the nozzle, Coating method of the inclined plate for the compressor, characterized in that the step of raising the nozzle.

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