KR20170000925A - Plastic powder thermal spray coating equipment and thereof plastic powder thermal spray coating gun - Google Patents

Plastic powder thermal spray coating equipment and thereof plastic powder thermal spray coating gun Download PDF

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Publication number
KR20170000925A
KR20170000925A KR1020150090136A KR20150090136A KR20170000925A KR 20170000925 A KR20170000925 A KR 20170000925A KR 1020150090136 A KR1020150090136 A KR 1020150090136A KR 20150090136 A KR20150090136 A KR 20150090136A KR 20170000925 A KR20170000925 A KR 20170000925A
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South Korea
Prior art keywords
powder
compressed air
supply
gas
spray
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KR1020150090136A
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Korean (ko)
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KR101723487B1 (en
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정성두
문영준
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주식회사 코코솔
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Priority to KR1020150090136A priority Critical patent/KR101723487B1/en
Publication of KR20170000925A publication Critical patent/KR20170000925A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B7/00Spraying apparatus for discharge of liquids or other fluent materials from two or more sources, e.g. of liquid and air, of powder and gas
    • B05B7/16Spraying apparatus for discharge of liquids or other fluent materials from two or more sources, e.g. of liquid and air, of powder and gas incorporating means for heating or cooling the material to be sprayed
    • B05B7/20Spraying apparatus for discharge of liquids or other fluent materials from two or more sources, e.g. of liquid and air, of powder and gas incorporating means for heating or cooling the material to be sprayed by flame or combustion
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B7/00Spraying apparatus for discharge of liquids or other fluent materials from two or more sources, e.g. of liquid and air, of powder and gas
    • B05B7/02Spray pistols; Apparatus for discharge
    • B05B7/12Spray pistols; Apparatus for discharge designed to control volume of flow, e.g. with adjustable passages
    • B05B7/1209Spray pistols; Apparatus for discharge designed to control volume of flow, e.g. with adjustable passages the controlling means for each liquid or other fluent material being manual and interdependent
    • B05B7/1236Spray pistols; Apparatus for discharge designed to control volume of flow, e.g. with adjustable passages the controlling means for each liquid or other fluent material being manual and interdependent with three or more interdependent valves
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B7/00Spraying apparatus for discharge of liquids or other fluent materials from two or more sources, e.g. of liquid and air, of powder and gas
    • B05B7/14Spraying apparatus for discharge of liquids or other fluent materials from two or more sources, e.g. of liquid and air, of powder and gas designed for spraying particulate materials
    • B05B7/1404Arrangements for supplying particulate material

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Combustion & Propulsion (AREA)
  • Nozzles (AREA)

Abstract

The present invention relates to an apparatus for thermal spraying and coating plastic powder, an apparatus for controlling the same, and a coating gun. The apparatus for thermal spraying and coating plastic powder comprises a belt holder allowing a worker to hold a gas supply hose, an air supply hose, and a powder supply hose, wherein the belt holder includes an operation means controlling the supply of compressed air and powder. The coating gun includes an operation switch. The coating gun includes a first body part, a second body part, and a nozzle part. The second body part includes a cylindrical inner space including a cylinder part and a flange part, and an external space formed between the cylinder part and the nozzle part. The nozzle part is inserted in a packing and coupling manner to be coupled and fixed. Therefore, the apparatus for thermal spraying and coating plastic powder can reduce the entire weight before coating to increase or expand the size of a powder spray hole, a compressed air spray hole, and a gas spray hole to be manufactured in a structure for increasing the injection area of flame, thereby increasing work efficiency.

Description

[0001] The present invention relates to a plastic powder thermal spray coating apparatus and a plastic powder thermal spray coating apparatus,

The present invention relates to a plastic powder spray coating apparatus, a control apparatus therefor, and a plastic powder spray coating gun according to the present invention. More particularly, the present invention relates to a coating powder coating gun of a spray coating apparatus capable of reducing the weight of a coating gun, To a plastic powder spray coating apparatus and a control apparatus therefor, and a plastic powder spray coating coating gun therefor.

Spray coating equipment is a device for surface coating of durable polyethylene or polypropylene or plastic powder such as epoxy, polyester or polyamide to prevent corrosion and abrasion. It is used for spraying clean combustion gas such as propane gas or butane gas The flame is generated by igniting the combustion gas while spraying, and the plastic powder is melted by passing the plastic powder into the flame together with the air compressed through the air compression compressor, so that the plastic powder is melted, Or a glass fiber reinforced plastic surface to a required thickness.

Conventional polyethylene or polyamide systems for spray coating the powder of predominantly thermoplastic plastic resin are described in U.S. Patent No. 4,632,309 and an improved plastic powder coating method and apparatus described in U.S. Patent No. 4,934,595, Patent No. 5,211,990 discloses a polyolefin spray coating method.

U.S. Patent No. 4,632,309,

A plurality of nozzle holes for spraying and spraying plastic powder are sprayed from a propane gas storage container in a structure of a spray gun, and a plurality of nozzle holes are obliquely drilled in the structure of the spray gun. At the outer side of the burning gas nozzle obliquely drilled, To increase the efficiency of combustion and to supply more oxygen in the compressed air to make the flame more susceptible and to increase the temperature at which the flame is generated, In the direction in which the plurality of nozzles are straightened.

And the plastic powder falling down to the bottom of the plastic powder storage container together with the compressed air transferred through the air compressor to the inside where the combustion gas ignites and generates flame is mixed to form one hollow nozzle located in the center of the spray gun of the spray coating machine The compressed air supplied from the air compressor through the other hollow nozzle is sprayed to the outer periphery of the hollow nozzle which is jetted out of the spray gun through the hollow nozzle and surrounds the hollow nozzle at a certain interval, The plastic powder is attached to the flow and velocity of the compressed air injected outside the gun, and is sprayed outside the spray gun, passes through the flame which is burnt, receives thermal energy by the flame burning, instantly melts at high temperature, A surface coating layer Describes a coating apparatus for a lustrous powder spray.

However, in the above-mentioned U.S. Patent No. 4,632,309, the amount of flame generated in the structure of the spray gun of the plastic powder spray coating machine is small, the length of the flame is short, the diameter of the plastic spray nozzle is small, In the plastic powder spray coating machine with the same size and same spray area, the area of surface coating is small, or the high temperature of the flame is excessively concentrated on the coating area of plastic powder, and the plastic resin coated on the surface of the coating object is partially carbonized There is a problem that appears.

To improve this, US Patent No. 4,934,595 discloses a spray coating apparatus for a plastic powder in which a middle plate having a plurality of nozzles for spraying a combustion gas in the structure of a spray gun of a spray coating machine is bonded in front of a nozzle to which a combustion gas is supplied, The gas expands the area through which the flame is sprayed through the plurality of nozzle holes and also the compressed air supplied from the air compressor is jetted out of the spray gun while the compressed air compressed and transported from the air compressor is mixed with the plastic powder, A nozzle with a hollow nozzle for pushing out the compressed air into the expanded nozzle at one end, and a valve with a propeller for pressurization, which is formed outwardly from the inside of the spray gun, One more And the pressure of the compressed air moving from the air compressor is further increased so that the plastic powder is sprayed outside of the spray gun at the end of the expanded plastic powder spray nozzle once more and the spraying area of the plastic powder is broader, And the length of the flame in which the combustion gas is burned is also longer than that of the flame.

However, the structure of the spray gun of the plastic powder spray coating apparatus of U.S. Patent No. 4,632,309 and U.S. Patent No. 4,934,595 is more detailed in the above-mentioned U.S. Patent No. 4,632,309 and U.S. Patent No. 4,934,595. And sprayed intermediate plates are complex, and they are connected with each other through a screwed connection structure. Due to the complicated structure and the heavy weight of the spray gun, the spray gun of the spray coating apparatus is hand held for a long time, It was difficult for a person who manually made the powder to perform the operation of preheating and surface coating with a plastic powder spray coating device alone.

In addition, the surface of the plastic powder coated with the plastic powder spray coating apparatus is coated with the plastic powder on the surface of the metal or concrete, and the surface coating layer of the plastic resin surface-coated by the spray coating apparatus is coated with the surface coating layer In order to accomplish this, a plastic powder of metal or concrete is sprayed with a plastic powder through a coating device of a plastic powder, and the high temperature of the combustion gas is injected to spray the surface of the object to be coated before spraying. Ignite the combustion gas. Burning and preheating operation causes the surface temperature of the metal or concrete to melt. The plastic powder is melted. The plastic powder is sprayed onto the heated surface to have a surface temperature of more than 100 degrees Celsius. It is necessary to heat the flame generated by combustion of the combustion gas to the flame. Also, as the above-mentioned area heated to more than 100 degrees Celsius is wider, the speed of coating and melting the plastic powder can be rapidly achieved.

In addition, the plastic powder spray coating apparatus often cuts off the supply of the gas which burns the combustion gas or ignites the combustion gas frequently during the operation, and also reduces the amount of the plastic powder to supply, block or surface coat the plastic powder The amount of the plastic powder is frequently controlled and the amount of the combustion gas is controlled to control the amount, size and length of the flame. In the conventional plastic powder spray coating apparatus, A control device capable of controlling the amount of powder and the amount of combustion gas is mounted on a plastic powder storage and supply device to perform surface coating of plastic powder and operation structure of a plastic powder spray coating device.

Patent Document 1: U.S. Patent No. 4,632,309 Patent Document 2: United States Patent No. 4,934,595 Patent Document 3: U.S. Patent No. 5,211,990

Accordingly, the present invention is directed to improving the problem of the prior art plastic powder spray coating apparatus so that the plastic powder is coated at the same time with a larger amount of plastic powder at the same time than in the prior art, and the speed of the surface coating is increased.

In addition, the present invention reduces the weight of the spray gun compared to the spray gun of the prior art plastic powder spray coating apparatus and burns a larger amount of combustion gas to increase the area where the heat of the flame reaches the surface of the plastic powder and the coating object It is intended to increase the speed of surface coating the plastic powder by preheating the surface of the object to be coated with the plastic powder to a larger area in the same time and surface-coating a larger amount of the plastic powder.

The present invention also includes a regulator for regulating the amount of plastic powder to be injected into or out of the plastic powder, a regulator for regulating the amount of injection of the plastic powder, a regulator for supplying or shutting off propane gas as a combustion gas or regulating the amount of combustion gas, A regulator capable of regulating the amount of air, including oxygen, to control the temperature, size and length of the flame, is sprayed with a spray gun or plastic powder It is possible to supply and shut off the plastic powder to be easily and easily spray-coated on the belt or the belt to be worn on the waist of the sprayer or to attach it to the apparatus or apparatus to be sprayed automatically or semi- Of Adjust the intensity of the flame, and want to make to the plastic powder spray coating.

The present invention is also applicable to a plastic powder spray coating apparatus in which the particle size of the plastic powder or the method of storing or transporting the plastic powder is a gravity type or a device for supplying the plastic powder of the fluidized bed method, If you feed into a hollow plastic powder spray nozzle in the spray gun without receiving it, you want to make enough surface coating.

In the spray coating apparatus according to the present invention,

A compressed air supply device for supplying compressed air through an air compressor;

A powder supply device for supplying a spray coating material powder using a part of compressed air of the compressed air supply device;

A gas supply device for supplying gas from the gas tank; a belt holder for holding the compressed air, the powder and the gas hose in the body of the operator and provided with adjusting means for the operator to adjust the powder, compressed air and gas supply;

And a coating gun that combines the powder, compressed air, and gas hose connected through the belt holder to spray the powder, compressed air, and gas through the nozzle while spraying the powder by gas combustion heat to spray coat the surface of the object . (Here, the plastic powder spray-coated with the spray coating apparatus of the present invention is collectively referred to as "powder ".)

The powder supply device includes:

The powder in the hopper is sucked by the compressed air through the lower portion of the hopper containing the powder to be supplied to the coating gun side and is operated by the compressed air supplied from the compressed air supply device to the outer periphery of the hopper And an air knocking device is attached and installed.

The coated gun,

A powder supply operation switch is provided on the handle portion, and the compressed air for control, which is controlled by the powder supply operation switch, is connected to the compressed air for control of the master valve, So that powder supply of the spray coating gun can be turned on / off.

The apparatus for controlling a spray coating apparatus according to the present invention comprises:

1. A spray coating apparatus for spraying powder, compressed air and gas through a coating gun to melt the powder by gas combustion heat and to melt the powder on the surface to be coated,

A filter and a regulator for filtering the foreign matter of the compressed air supplied from the air compressor of the compressed air supply device and supplying the compressed air to a constant pressure;

A compressed air supply valve for opening and closing the output of the filter and the regulator;

A master valve that receives compressed air from the compressed air supply valve and supplies a portion of compressed air to the air knocking device and controls output of compressed air for powder supply control of the powder supply device;

A powder supply operation switch provided in the handle of the coating gun for supplying the compressed air output from the compressed air supply valve to the compressed air for powder supply control of the master valve;

A powder holder, and a gas hose connected to the coating gun. The compressed air supplied from the compressed air supply valve is branched from the belt holder to hold the powder supply compressed air in the powder supply device. A powder adjusting means for adjusting the powder;

Compressed air adjusting means for adjusting the amount of compressed air supplied to the coating gun by being distributed to the compressed air output from the compressed air supply valve installed in the belt holder;

A powder supply valve for supplying compressed air supplied through the powder adjusting means to the powder supply means under the control of compressed air for powder supply control of the master valve;

A powder control valve controlled by compressed air for powder supply control of the master valve to regulate an amount of powder supplied to the coating gun in accordance with compressed air in the powder supply device;

And gas regulating means installed in the belt holder for regulating opening / closing and gas supply amount of the gas supplied from the gas supply device.

The coating gun of the spray coating apparatus according to the present invention,

A first body formed with an outlet formed outside the outlet of the air supply hole and a gas supply hole through which the gas is supplied through the body, the powder supply hole being supplied with powder as a spray coating material, Wealth;

Wherein the powder supply hole and the air supply hole of the first body portion are connected to the inside of the cylindrical portion and the outlet of the gas supply hole is connected to the cylindrical portion and the flange portion, And a plurality of air injection holes formed in a circular shape around the powder injection hole are formed in the bottom surface of the cylindrical portion so as to penetrate through the powder injection hole formed at the center of the cylindrical body, A second body part having a plurality of gas injection holes penetratingly formed at an outer flange part of the cylindrical part such that an outlet side thereof is inclined forward toward the center;

A powder tube inserted and coupled between the powder supply hole of the first body part and the powder discharge hole of the second body part;

And a nozzle unit coupled to the outer circumference of the first body unit and the second body unit to form an outer case and protrude from the outlet of the second body unit at a predetermined interval.

And a packing groove is formed on the outer circumferences of the first body portion and the second body portion, respectively, so that the packing material is coupled and the nozzle portion is inserted outside the packing material and fixed to the first and second body portions.

The coating gun may include:

The gas injection hole formed in the flange portion of the second body portion is formed with a through hole inclined at an interval in a plurality of circumferences having different radii.

In the spray coating apparatus of the present invention, the body of the coated gun is constituted by the first and second body portions, and the second body portion is constituted by the cylindrical portion and the flange portion, and the space between the cylindrical portion and the outside of the cylindrical portion, And the nozzle portion is formed as a packing, thereby reducing the weight of the coating gun. As a result, the size of the coating gun is made large, and the powder, air, and gas spray holes are formed in a diffusion array And it is possible to increase the working efficiency by enlarging the flame spraying area, and it is possible to improve the working efficiency, and it is possible to improve the working efficiency by supplying the air and the supply amount of the plastic powder And the flame size or intensity generated by combustion of the flue gas, and also the amount and surface area within the same time There is an effect that causes the increased rate at which the coating can be sprayed plastic powders.

1 is a schematic view of a spray coating apparatus according to the present invention.
2 is a cross-sectional view of the coating gun of the spray coating apparatus according to the present invention
3 is an exploded view of the coating gun of the spray coating apparatus according to the present invention.
4 (a) and 4 (b) are front and rear plan views of the first body portion of the coated gun according to the present invention.
5 is a front plan view of a second body portion of a coated gun according to the present invention.
6 is a control circuit diagram of a spray coating apparatus according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a system configuration diagram of a spray coating apparatus according to the present invention, and FIG. 2 is a cross-sectional view of a coating gun of a spray coating apparatus according to the present invention.

In the spray coating apparatus,

A powder supply device (300) for supplying a spray coating material powder using a part of compressed air of the compressed air supply device; a gas supply device A powder supply device for supplying compressed air, powder and gas hoses to a body of a worker, and an operation means for operating a supply pressure of the compressed air and the powder, Compressed air and gas supplied through the belt holder 500 to the compressed air and the gas hose to spray the powder, compressed air, and gas through the nozzle while melting the powder by the gas combustion heat to spray coat the object And a coating gun 100 for spray coating the surface.

In the spray-coated gun 100 according to the present invention,

A powder supply hole 11 supplied with powder as a spray coating material, an air supply hole 12 to which compressed air is supplied, and an outlet formed outside the outlet of the air supply hole 12, A first body part 10 having a supply hole 13 formed through the body;

And the cylindrical portion 24 is connected to the first body portion 10 so that the powder supply hole 11 of the first body portion 10 and the air supply An outlet of the hole 12 is connected to the first body 10 at an inner side of the cylindrical portion 24 and an outlet of the gas supply hole 13 is located outside the cylindrical portion 24, A powder spray hole 21 formed at a center of the bottom surface of the powder spray hole 24 for spraying the powder and a plurality of air spray holes 22 formed in a circular shape around the powder spray hole 21, A second body portion 20 having a plurality of gas injection holes 23 formed in an inclined shape such that an outlet side of the cylindrical portion 24 faces frontward;

A powder tube 40 inserted between the powder supply hole 11 of the first body part 10 and the powder discharge hole 21 of the second body part 20;

And a nozzle unit 30 coupled to the outer periphery of the first body 10 and the second body 20 to form an outer case and protrude at a predetermined distance from the outlet of the second body 20 .

A packing groove 51 is formed in the outer circumference of the first body part 10 and a second body part 20 so that the packing material 51 and 52 are coupled and the nozzle part 30 is connected to the packing material 51 52 of the first and second body portions 10, 20, respectively.

The gas injection hole 23 formed in the flange portion 25 of the second body portion 20 is characterized in that through holes are formed on two circumferences having different radii.

The powder supply device 300 further includes an air knocking device 320 in a hopper 310 for containing powder.

The coating gun 100 of the spray coating apparatus of the present invention is connected to the other end of the first body portion 10 by the packing material 102 corresponding to the nozzle unit 30, And a handle 110 including a powder supply operation switch 101 for supplying powder.

6 is a control circuit diagram of a spray coating apparatus according to the present invention.

A filter and a regulator 210 for filtering the foreign matter of the compressed air supplied from the air compressor of the compressed air supply apparatus 200 and supplying the compressed air to a constant pressure;

A compressed air supply valve 220 for opening and closing the output of the filter and the regulator 210;

A master for supplying compressed air from the compressed air supply valve 220 to the air knocking device 320 and controlling the output of compressed air for powder supply control of the powder supply device 300, A valve 230;

A powder supply operation switch (not shown) for branching the compressed air output from the compressed air supply valve 220 and selecting supply of compressed air to the powder supply control signal of the master valve 230 101);

Powder adjusting means installed in the belt holder 500 for branching compressed air output from the compressed air supply valve 220 to adjust the amount of compressed air to be supplied to the powder supplying device 300 510);

Compressed air adjusting means (520) installed in the belt holder (500) for adjusting the amount of compressed air supplied to the coating gun (100) by branching the compressed air outputted from the compressed air supply valve (220);

A powder supply valve (240) for supplying compressed air supplied through the powder adjusting means (510) to the powder supply means (300) under the control of compressed air for powder supply control of the master valve (230);

A powder control valve 250 controlled by compressed air for powder supply control of the master valve 230 to control the supply amount of powder supplied to the coating gun 100 by the compressed air in the powder supply device 300, Wow;

And gas regulating means 530 installed in the belt holder 500 for regulating opening / closing and gas supply amount of the gas supplied from the gas supplying device 400.

In the spray coating apparatus according to the present invention,

When compressed air is generated and supplied from the compressed air supply device 200, a part of the compressed air is supplied to the lower end of the hopper 310 of the powder supply device 300, and the powder coming from the hopper 310 is compressed And is supplied to the coating gun 100 through the powder hose.

The present invention has a belt holder 500 for mounting a compressed air supply hose, a powder supply hose, and a gas supply hose to a worker's body, that is, a waist, And the belt holder 500 is provided with a compressed air adjusting means 520, a powder adjusting means 510 and a gas adjusting means 530 so that the operator can easily operate the supply of compressed air and powder .

The coating gun 100 is configured to connect a case connected to the nozzle unit 30 with the handle 110 so that the worker can hold the handle 100 by hand and the powder supply operation switch 101 is connected to the handle 110. [ And the powder supply control compressed air controlled by the powder supply operation switch 101 is connected to the master valve 230 to control the powder supply.

The powder supply device 300 is configured to allow the hopper 310 to be mounted and coupled in a one-touch clamp type. An air knocking device 320 is attached to the outer periphery of the hopper 310, So that it is possible to easily release the residual powder in the container 310.

The coating gun 100 of the spray coating apparatus according to the present invention is characterized in that the powder hose, the compressed air hose and the gas hose are connected to the coupling portion 11a of the powder supply hole 11 of the first body portion 10, To the engaging portion 12a of the gas supply hole 12 and the engaging portion 13a of the gas supply hole 13, respectively. A connector is integrally connected to an end portion of a normal hose, and a connector is screwed and fixed to the engaging portion.

In this manner, gas, compressed air, and powder supply hose are connected to the coating gun 100 to prepare for the operation, the powder supply operation switch 101 provided on the handle 110 is operated, The air adjusting means 520, the powder adjusting means 510 and the gas adjusting means 530 are operated.

As shown in FIG. 6, the compressed air supplied from the air compressor of the compressed air supply apparatus 200 passes through the filter and the regulator 210, and is subjected to foreign matter filtering and stabilizes at a constant pressure. The compressed air having passed through the filter and the regulator 210 is supplied through a compressed air supply valve 220. The compressed air supply valve 220 is operated by an operator to open and close the supply of compressed air.

The compressed air output from the compressed air supply valve 220 is branched and connected to the compressed air for powder control of the master valve 230 through the powder supply operation switch 101 provided on the handle 110. That is, the branched compressed air hose is connected to the master valve 230 through the compressed air operation switch 101. The compressed air outputted from the compressed air supply valve 220 is connected to the powder supply valve 240 through the powder adjusting means 510 installed in the belt holder 500 through another branch hose, The branched compressed air hose passes through the compressed air adjusting means 520 installed in the belt holder 500 and is connected as a compressed air connecting hose of the coating gun 100.

When the compressed air for powder supply control is supplied to the master valve 230 by the powder supply operation switch 101, the master valve 230 is controlled by the powder supply valve 240 and the powder control valve 250, Air is supplied. That is, when the powder supply operation switch 101 is operated to be turned on and operated, the master valve 230 supplies powder supply control air to the powder supply valve 240 and the powder control valve 250 Respectively.

When the powder adjusting means 510 installed in the belt holder 500 is adjusted, the amount of compressed air supplied from the compressed air supply valve 220 is adjusted to be supplied to the powder supply valve 240, 240 are opened and closed by compressed air for powder supply control of the master valve 230 to supply compressed air for powder supply to the powder supply device 300.

Powder in the hopper 310 is sucked into the compressed air and supplied to the coating gun 100 while passing compressed air through the lower end of the hopper 310. The vibrator is operated by the compressed air supplied by the master valve 230 to continuously vibrate the hopper 310 so that the powder contained in the hopper 310 is easily supplied to the lower portion of the powder supply device 300 .

Therefore, when the powder supply operation switch 510 is operated, the powder supply valve 240 and the powder control valve 250 are operated by the master valve 230 to supply the compressed air to the powder supply device 300, The compressed air containing the powder output from the powder supply device 300 is supplied to the coating gun 100 and the amount of powder supplied can be adjusted by controlling the amount of compressed air by the powder adjusting means 510.

As described above, according to the present invention, the powder adjusting means 510 and the compressed air adjusting means 520 and the gas adjusting means 530 installed in the belt holder 500, The feed rate can be easily manipulated during operation.

The powder gun, the compressed air, and the gas connection hose are connected to the first body part 10 to form the powder supply hole 11, the air supply hole 12, and the gas supply hole 13, The powder, the compressed air, and the gas are supplied through the first body portion 10 through the through holes.

The powder tube 40 is coupled to the flange portion 25 of the second body portion 20 and connected to the powder spray hole 21 in the powder supply hole 11 formed at the center of the first body portion 10 . The air supply hole 12 of the first body part 10 communicates with the interior of the cylindrical part 24 of the second body part 20 and the gas supply hole 13 of the first body part 10 And communicates with the outside of the cylindrical portion 24 of the second body portion 20.

A powder spray hole 21 is formed at the center of the bottom surface of the cylindrical portion 24 of the second body portion 20 so that the other end of the powder tube 40 is inserted and engaged. A plurality of air injection holes 22 are formed on the circumference at regular intervals on the circumference so that the compressed air supplied from the air supply holes 12 of the first body portion 10 is passed through the plurality of air injection holes 22 And is injected through the furnace portion (30). Here, the air injection holes 22 are arranged on one circumference, but the present invention is not limited thereto. The air injection holes 22 may be arranged on a plurality of circumferences or may be dispersed in each direction.

The gas supply hole 13 of the first body part 10 communicates with the outside of the cylindrical part 24 of the second body part 20 and the nozzle part 30 is provided outside the cylindrical part 24 It is a combined installation. The combustion gas supplied through the gas supply hole 13 flows into the cylindrical portion 24 of the second body portion 20 through the empty space between the outer side of the cylindrical portion of the second body portion 20 and the nozzle portion 30 Through a plurality of inclined gas injection holes 23 formed in the outer flange portion 25 and is injected through the nozzle portion 30.

At this time, the gas injection holes 23 are formed in an inclined shape toward the center and are injected in the center direction. The gas injection holes 13 may be formed by forming a plurality of injection holes at regular intervals on a single circumference. In an embodiment of the present invention, two circular columns having different radii And a plurality of gas injection holes 23 are formed in a gap between the gas injection holes 23. However, the present invention is not limited to this, and a plurality of circumferential phases having different radii may be formed, or may be gas distributing holes uniformly distributed in each direction regardless of the circumferential direction.

Accordingly, the powder is sprayed to the center of the nozzle unit 30 through the powder spray hole 21, and the powder is sprayed through the air spray hole 22 formed on the circumference of the sprayed powder to form a circular shape And the powder is injected toward the center thereof through a gas injection hole 23 inclined to the outside of the powder injection hole. Accordingly, when the gas is ignited and burned, the flame is sprayed to the front surface to be coated by the compressed air, and the powder in the center portion is fused to the surface to be coated while being melted by the combustion heat while being adhered to the compressed air.

In the spray coating apparatus of the present invention, the structure of the coating gun 100 is divided into a first body portion 10, a second body portion 20, and a nozzle portion 30, 20 are formed to have a cylindrical portion 24 and a flange portion 25 so that a void is formed between the inside of the cylindrical portion 24 and the outside of the cylindrical portion 24 and the nozzle portion 30 Structure.

Therefore, the overall weight of the coated gun can be greatly reduced, the weight of the coated gun can be reduced, and the size of the coated gun can be increased. That is, the conventional coating guns have a coating body having a hole for supplying powder, air and gas, which is formed by a single body, and only the nozzle part is connected to the coating body. Is limited. This is because the operator holds the coating gun by hand and moves toward the desired coated surface, so that the weight of the coated gun greatly affects the workability of the operator. Therefore, when the holes are formed in the integral body portion of the conventional coating guns, since the size limitations are imposed due to the limitations of the weight of the integral coating bodies, powder and air gas holes have to be densely gathered. As a result, And is sprayed in a limited and narrow area.

In contrast, the present invention is characterized in that the first and second body portions 10 and 20 are separated from each other and the second body portion 20 is formed of a cylindrical portion 24 and a flange portion 25, The air and the gas can be separated and supplied by the air conditioning unit 24, thereby greatly reducing the weight.

The present invention can also be applied to a method for reducing the weight of a coating gun 100 by applying a method such as screw coupling between the nozzle unit 30 and the first body unit 10 and the second body unit 20 And the packing members 51 and 52 are sandwiched and the packing members 51 and 52 are pressed while the nozzle unit 30 is sandwiched therebetween. This is because when the nozzle unit is configured to be screwed to the body unit, the screw unit must be formed on both the body unit and the nozzle unit, so that the weight of the part forming the screw unit is added. However, the present invention is not a screw connection method, but a weight increase of the means for coupling the nozzle portion to the body portion can be reduced by coupling the packing material and sandwiching the nozzle portion while pressing the packing material.

The packing material used herein is preferably a packing material which is resistant to heat of 180 degrees Celsius or more and has elasticity and is coated with a fluororubber (mainly a fluoroelastomer of FKM or FPM or a perfluoroelastomer of FFKM) or a fluorine rubber on a metal. O- Ring type packing material is sufficiently useful.

Accordingly, it is possible to reduce the weight, so that the distance between the holes for spraying powder, air, and gas, that is, the air spray holes 22 formed around the powder spray holes 21 and the gas spray holes 23 So that it is possible to make the spray area of the flame larger than that of the conventional coating guns. When the injection area of the flame is enlarged, the work efficiency is greatly improved, and remarkable workability can be obtained.

10: First body part 11: Powder supply hole
12: Compressed air supply hole 13: Gas supply hole
20: second body part 21: powder sprayer
22: air blower 23: gas blower
30: nozzle unit 40: powder tube
51, 52: packing material 100: coating gun
101: Powder supply operation switch 110: Handle
200: compressed air supply 210: filter and regulator
220: Compressed air supply valve 230: Master valve
240: Powder supply valve 250: Powder control valve
300: Powder supply device 310: Hopper
320: air knocking device 400: gas supply device
500: Belt holder 510: Powder adjusting means
520: compressed air adjusting means 530: gas adjusting means

Claims (7)

A compressed air supply device (200) for supplying compressed air through an air compressor;
A powder supply device 300 for supplying a spray coating material powder using a part of the compressed air of the compressed air supply device;
A gas supply device (400) for supplying gas from the gas tank;
A belt holder 500 for holding the compressed air, the powder and the gas hose in the body of the operator, and adjusting means for adjusting the supply amount of the compressed air and the gas by the operator;
The powder supply device 300 connected through the belt holder 500 is connected to the powder, compressed air, and gas hoses of the compressed air supply device 200 and the gas supply device 300 and is injected into the gas combustion heat And a coating gun (100) for melting the powder to spray-coat the surface of the spray-coated object.
The powder supply device according to claim 1, wherein the powder supply device (300)
The powder in the hopper 310 is sucked by the compressed air through the lower portion of the hopper 310 containing the powder so that the powder is sucked to the coating gun 10 side and the compressed air is supplied to the outer periphery of the hopper 310, And an air knocking device (320) operated by some compressed air supplied from a supply device (200) is attached and installed.
The method of claim 1, wherein the coating gun (100)
A case corresponding to the nozzle unit 30 is connected to the handle unit 110 so that an operator can hold the handle unit by hand and a powder supply operation switch 101 is provided in the handle unit 110 to control the powder supply Wherein the plastic powder coating apparatus comprises:
A control device for a plastic powder spray coating apparatus for spraying powder, compressed air, and gas through a coating gun (100) to melt a powder by gas combustion heat and fuse the powder onto a surface to be coated,
A filter and a regulator 210 for filtering the foreign matter of the compressed air supplied from the air compressor of the compressed air supply apparatus 200 and supplying the compressed air to a constant pressure;
A compressed air supply valve 220 for opening and closing the output of the filter and the regulator 210;
A master for supplying compressed air from the compressed air supply valve 220 to the air knocking device 320 and controlling the output of compressed air for powder supply control of the powder supply device 300, A valve 230;
A powder supply operation for supplying the compressed air output from the compressed air supply valve 220 to the compressed air for powder supply control of the master valve 230 installed in the handle 110 of the coating gun 100, A switch 101;
A powder holder and a gas hose connected to the coating gun 100 are installed in a belt holder 500 for an operator to hold the compressed air and branch the compressed air output from the compressed air supply valve 220, A powder adjusting means 510 for adjusting the amount of compressed air for powder supply of the powder 300;
Compressed air adjusting means (520) installed in the belt holder (500) for adjusting the amount of compressed air supplied to the coating gun (100) by branching the compressed air outputted from the compressed air supply valve (220);
A powder supply valve (240) for supplying compressed air supplied through the powder adjusting means (510) to the powder supply means (300) under the control of compressed air for powder supply control of the master valve (230);
A powder control valve 250 controlled by compressed air for powder supply control of the master valve 230 to control the supply amount of powder supplied to the coating gun 100 by the compressed air in the powder supply device 300, Wow;
And a gas adjusting means (530) installed in the belt holder (500) for adjusting the open / close and the gas supply amount of the gas supplied from the gas supplying device (400) Control device.
In a plastic powder spray coating coated gun,
A powder supply hole 11 supplied with powder as a spray coating material, an air supply hole 12 to which compressed air is supplied, and an outlet formed outside the outlet of the air supply hole 12, A first body part 10 having a supply hole 13 formed through the body;
And the cylindrical portion 24 is connected to the first body portion 10 so that the powder supply hole 11 of the first body portion 10 and the air supply An outlet of the hole 12 is connected to the first body 10 at an inner side of the cylindrical portion 24 and an outlet of the gas supply hole 13 is located outside the cylindrical portion 24, A powder spray hole 21 formed at the center of the bottom surface of the powder spray hole 24 for spraying the powder and a plurality of air spray holes 22 formed around the powder spray hole 21, A second body portion 20 having a plurality of gas injection holes 23 through which an outlet side of the cylindrical portion 24 is inclined so as to be forwardly centered is formed in the outer flange portion 25;
A powder tube 40 inserted between the powder supply hole 11 of the first body part 10 and the powder discharge hole 21 of the second body part 20;
And a nozzle unit 30 coupled to the outer periphery of the first body 10 and the second body 20 to form an outer case and protrude at a predetermined distance from the outlet of the second body 20 Wherein the plastic powder is coated on the surface of the substrate.
6. The method of claim 5, wherein the coating gun (100)
A packing groove 51 is formed in the outer circumference of the first body part 10 and a second body part 20 so that the packing material 51 and 52 are coupled and the nozzle part 30 is connected to the packing material 51 52), and is fixedly coupled to the first and second body portions (10, 20).
6. The method of claim 5, wherein the coating gun (100)
The gas spray hole (23) formed in the flange portion (25) of the second body portion (20) is formed with a plurality of circumferentially spaced through holes .
KR1020150090136A 2015-06-25 2015-06-25 Plastic powder thermal spray coating equipment and thereof plastic powder thermal spray coating gun KR101723487B1 (en)

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CN113083539A (en) * 2021-03-30 2021-07-09 刘庭乐 Plastic spraying forming equipment for steel belt for packaging and control method thereof

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CN113083539A (en) * 2021-03-30 2021-07-09 刘庭乐 Plastic spraying forming equipment for steel belt for packaging and control method thereof

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