JPH06277573A - Coating device for plural high viscous reactive curable coating materials - Google Patents

Abstract

PURPOSE:To provide a coating device enabling to simply and freely change at least two kinds of base resins being highly viscous curable coating materials without changing a pump size. CONSTITUTION:An oil pressure unit 6 is piped to two oil pressure control instruments via a manifold 13, and the respective oil pressure control instruments include oil pressure cylinders 16, 17 having both penetrated rods and the one rod works on valve changeover switches 18, 19 to work switching valves of the oil pressure control instruments 14, 15 and switch the flow passage and the other rod drives pistons of material pumps 4, 5. A coating material supply means is composed of the material pumps by which materials from respective material tanks 20, 21 are suck and ejected and these are supplied to a static mixer 8, and coating material flow rate sensing sensors 24, 25 are installed in a piping path, and speed of the oil pressure cylinders 16, 17 is adjusted by controlling the oil pressure control instrument by a control signal compared with the set value.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for applying a high-viscosity reaction hardening coating material suitable for outdoor, indoor and factory production lines such as waterproof coating of buildings, floor linings, pipe linings, road linings.

[0002]

2. Description of the Related Art When a high-viscosity reaction-curing coating material such as urethane resin, epoxy resin, unsaturated polyester resin is applied, at least two or more base resins of the above resins are weighed with a measuring instrument and then stirred. Although it is applied by hand with a brush, iron, roller, etc., it is not possible to upsize the tank because it is limited in weight, and the supply of coating material to the tank becomes frequent, resulting in extremely poor work efficiency. , A mechanical pumping system that can be operated continuously has been developed and implemented. In this mechanical pressure feeding system, a plunger pump is generally known as a coating pressure feeding machine.

[0003]

However, when pumping by using two or more pumps, if it is necessary to change the blending content of the base resin, the pump diameter is changed to perform the work. Therefore, it is very difficult to set the blending ratio to a constant value, which takes time and has a problem in workability. Therefore, in the present invention,
At least two or more base resins of high-viscosity reaction curing coating material,
A coating device for multiple high-viscosity reaction-curing coating materials that can be easily and freely varied without changing the pump diameter even when the content of the formulation is changed, and can be quantitatively supplied at any ratio regardless of viscosity. It is intended to be provided.

[0004]

SUMMARY OF THE INVENTION The present invention has been made to achieve the above object, and comprises a spray gun having an operating switch and comprising a single nozzle or a plurality of nozzles, and a pressurized air supply. Cleaning by supplying pressure air from the unit via the even flow switch and air pressure reducing valve to the pressurized air to the spray gun and the solvent supplied from the solvent tank by the solvent supply pump to the static mixer. Means, a plurality of high-viscosity reaction-curing coating material through a static mixer through a spray gun at the same time coating material applying means comprising a coating material applying means, the coating material applying means, It comprises a plurality of hydraulic control means and a coating material supply means which is controlled and driven by the respective means, and the hydraulic control means is provided with the pressure control means. The even flow switch of the air supply means controls start and stop of the switching valve with oil flow rate adjustment, which will be described later, and is connected from the hydraulic unit through a manifold to a hydraulic control device consisting of an oil flow rate control switching valve, a pressure reducing valve and a pressure gauge. The coating material supply means is operated by each of the hydraulic pressure control means, and the coating material is applied by a hydraulic cylinder that controls switching of the oil flow rate adjusting changeover valve by a valve changeover switch and a material pump driven by the hydraulic cylinder. Suction and discharge from the material tank, and this is configured to be connected to the spray gun through a static mixer from a coating material passage equipped with an abnormal pressure detection sensor and a coating material flow rate detection sensor, and the coating material flow rate detection in the coating material supply means. The pulse signal from the sensor is used to adjust and control the oil amount with the oil flow rate adjustment switching valve of the hydraulic control device. Perform device stopped by the abnormal pulse signal abnormal pressure detection sensor, further,
The gist of the present invention is a coating device for a plurality of high-viscosity reaction-curing coating materials, characterized in that the hydraulic unit and the pressurized air supply unit are controlled by operating switches of a spray gun.

[0005]

In the coating apparatus for a plurality of high-viscosity reaction-curable coating materials constructed as described above, the coating material coating means is composed of a plurality of hydraulic pressure control means and coating material supply means controlled and driven by the respective means. The hydraulic control means is configured to be piped from a hydraulic unit to a hydraulic control device including an oil flow rate adjusting switching valve, a pressure reducing valve and a pressure gauge through a manifold, and the coating material supplying means is each hydraulic control means. Operated by
A coating material is sucked and discharged from a material tank by a hydraulic cylinder that controls switching of the switching valve with oil flow rate adjustment by a valve switching switch, and a material pump driven by the hydraulic cylinder, and this is detected as an abnormal pressure detection sensor and a coating material flow rate detection sensor. The spray gun is connected to the spray gun from a coating material passage provided with a static mixer, and the amount of oil is adjusted by an oil flow rate control switching valve of a hydraulic control device by a pulse signal from a coating material flow rate detection sensor in the coating material supply means. Since it can be controlled, even if it is necessary to change the formulation content for two or more types of base resins, it will be possible to easily and automatically change the free pump speed without changing the pump diameter, It becomes possible to quantitatively supply at an arbitrary ratio regardless of the viscosity.

[0006]

EXAMPLE An example of a coating apparatus for a high-viscosity reaction-curing coating material according to the present invention will be described with reference to the block diagram shown in FIG.
It is as follows. The apparatus of the present invention is a spray gun 1 for spraying a coating material (main agent and curing agent) with pressurized air.
And an air compressor 3 which supplies pressurized air to the spray gun 1 and serves as a pressure source for the air motor 2, and a hydraulic unit 6 which serves as a drive source for the material pumps 4 and 5 for supplying the main agent and the curing agent. ing.

The spray gun 1 is provided with an operation switch (trigger) 7 for opening and closing pressurized air and activating the apparatus, and is composed of a single nozzle or a plurality of nozzles, and a static mixer 8 for mixing a main agent and a curing agent is piped. Further, the air compressor 3 constitutes pressure air supply means which is piped to the spray gun 1 through an even flow switch 9 and an air pressure reducing valve 10, and the air motor 2 uses the air compressor 3 as a drive source and opens and closes an on-off valve 26. A cleaning means for sucking and discharging the solvent from the solvent tank 12 by the connected solvent pump 11 and feeding the solvent under pressure to the static mixer 8 connected to the spray gun 1 is configured.

The hydraulic unit 6 is provided with a pressure sensor P ₁ via a manifold 13 equipped with a pressure sensor P _1.
2 , hydraulic pressure control devices 14 and 15 equipped with P ₃ , respectively, and the hydraulic control devices 14 and 15 respectively have hydraulic control means piped to hydraulic cylinders 16 and 17 which constitute coating material supply means. I am configuring.

The hydraulic cylinders 16 and 17 have a double rod structure in which rods penetrate, and one rod operates hydraulic valves 14 and 19 by operating valve changeover switches 18 and 19.
The switching valve with oil flow rate adjustment valve 5 is operated to switch the flow path, and the other rod drives the pistons of the material pumps 4 and 5.

The material pumps 4, 5 constitute a coating material supply means for sucking and discharging the main component or the curing agent from the respective material tanks 20, 21 and supplying it to the static mixer 8. 5 and the static mixer 8 are connected to the abnormal pressure detection sensors 22, 2
3 and the coating material flow rate detection sensors 24 and 25 and the three-way valve 27 are attached so that they can be returned to the respective material tanks 20 and 21. If the pressure becomes an abnormal value due to hose breakage, etc. The central control panel C inputs and outputs the pulse signals of the pressure detection sensors 22 and 23 to stop the driving of the hydraulic unit 6, and the central control panel outputs the pulse signals caught by the coating material flow rate detection sensors 24 and 25. Input to C to output a comparison calculation signal comparing the current coating material flow rate and the set value to the oil flow rate adjusting changeover valves of the hydraulic control devices 14 and 15 to adjust the oil amount. As a result, the reciprocating speed of the hydraulic cylinders 16 and 17 is changed to secure the set flow rate ratio to be supplied to the spray gun 1. Although not shown in the figure, the workable lamp is turned on and confirmed when the work preparation is completed by the procedure described below.

In the coating apparatus for the high-viscosity reaction-curing coating material constructed as described above, first the switch of the hydraulic unit 6 is turned on, and then the pressure is set and the hydraulic control device 1 is set.
After setting the pressure of the pressure reducing valves 4 and 15, and turning on the switch of the air compressor 3, the specific gravity and flow rate of each coating material are input from the operation panel S to the central control panel C in which computer software is incorporated. The display O is digitally displayed to complete the work preparation. When the operation is completed, the workable lamp is turned on. After confirming this, when the operation switch of the spray gun 1 is turned on, pressurized air is supplied to the spray gun 1 and at the same time, the hydraulic control devices 14, 15 are pressed. Is energized, the hydraulic cylinders 16 and 17 are started, and the material pumps 4 and 5 suck and discharge the main agent and the curing agent. Then, the discharge amount is measured by the coating material flow rate detection sensors 24 and 25 arranged in the discharge path, and the switching valves with oil flow rate adjustment of the hydraulic control devices 14 and 15 are controlled so that the input and set flow rate values are obtained. The speeds of 16 and 17 are automatically controlled, but until the set value is reached, the three-way cock 27 is switched to the reflux side to apply the coating material to the material tank 20,
Bring to reflux. After that, when the flow rate of the coating material reaches the set value, the three-way cock 27 is switched to allow the coating material to flow to the static mixer 8, and the main agent and the curing agent discharged from the material pumps 4 and 5 are mixed by the static mixer 8. After that, it is sprayed from the spray gun 1 onto the surface of the object by the pressurized air. Although detailed illustration is omitted, the set numerical value is input from the operation panel O to the central control panel C and digitally displayed on the display S, which serves as a reference. In addition, the display S
In addition to providing a switch for each electrical component, the main component and the hardener are separated into at least the allowable integrated flow rate, specific gravity, current flow rate, drive oil pressure, material pressure, and material temperature, which are digitally displayed. , Ambient temperature, etc. are displayed.

[0012]

As described above, according to the coating apparatus for a high-viscosity reaction hardening coating material of the present invention, the hydraulic unit is connected to a hydraulic control device equipped with an oil flow rate control switching valve, a pressure reducing valve and a pressure gauge. A plurality of hydraulic control means, a hydraulic cylinder driven by each of the hydraulic control means, which controls switching of the switching valve by a valve switching switch, and a material pump operated by the hydraulic cylinder sucks and discharges the coating material from the material tank, Since the coating material passage provided with the abnormal pressure detection sensor and the coating material flow rate detection sensor is provided with the coating material supply means which is piped to the spray gun through the static mixer, the apparatus is provided by the abnormal pressure detection sensor in the coating material supply means. The safety of the hydraulic control equipment can be ensured and the control signal based on the pulse signal from the coating material flow rate sensor can be used to control the oil flow rate of the hydraulic control equipment. By controlling the built-in switching valve, it is possible to automatically supply a fixed amount at an arbitrary ratio regardless of the viscosity, and even when it is necessary to change the blending content of two or more base resins, the pump diameter can be adjusted. It is possible to provide a coating apparatus for a plurality of high-viscosity reaction-curing coating materials that can be easily and freely changed without changing.

[Brief description of drawings]

FIG. 1 is a block diagram of a coating apparatus for a plurality of high-viscosity reaction-curing coating materials according to the present invention.

[Explanation of symbols]

1 Spray Gun 2 Air Motor 3 Air Compressor 4, 5 Material Pump 6 Hydraulic Unit 7 Operation Switch 8 Static Mixer 9 Even Flow Switch 10 Pneumatic Pressure Reducing Valve 11 Solvent Pump 12 Solvent Tank 13 Manifold 14, 15 Hydraulic Control Equipment 16, 17 Hydraulic Cylinder 18 , 19 Valve changeover switch 20, 21 Material tank 22, 23 Abnormal pressure detection sensor 24, 25 Coating material flow rate detection sensor 26 Open / close valve 27 Three-way cock C Central control panel O Operation panel S Indicator

Claims (2)

[Claims] 1. A spray gun having an operation switch and comprising a single nozzle or a plurality of nozzles, and a pipe for supplying pressure air to the spray gun from a pressure air supply unit through an even flow switch and an air pressure reducing valve. The pressurized air supply means, the cleaning means for supplying the solvent supplied by the solvent supply pump from the solvent tank to the static mixer under pressure, and the plurality of high-viscosity reaction-curing coating materials simultaneously from the spray gun through the static mixer. In a high-viscosity reaction-curing coating material coating device including a coating material coating means for spraying, the coating material coating means comprises a plurality of hydraulic pressure control means and coating material supply means controlled and driven by the respective means. The oil pressure control means activates a switching valve with oil flow rate adjustment described later by an even flow switch of the pressure air supply means. , The stop is controlled, and the hydraulic unit is connected via a manifold to a hydraulic control device consisting of a switching valve with oil flow rate adjustment, a pressure reducing valve and a pressure gauge, and the coating material supply means is operated by each of the hydraulic control means. Then, the coating material is sucked and discharged from the material tank by the hydraulic cylinder that controls the switching valve with oil flow rate adjustment by the valve selector switch and the material pump driven by the hydraulic cylinder, and this is detected by the abnormal pressure detection sensor and the coating material flow rate. The spray gun is connected to the spray gun from a coating material passage provided with a detection sensor through a static mixer, and the amount of oil is adjusted by an oil flow rate control switching valve of a hydraulic control device by a pulse signal from the coating material flow rate detection sensor in the coating material supply means. Control is performed, and the device is stopped by the abnormal pulse signal from the abnormal pressure detection sensor. Wherein the operation switch Gan hydraulic unit and a plurality of coating apparatus having a high viscosity reaction curing coating material, characterized in that so as to control the pressure air supply unit. 2. The hydraulic control device comprises a pilot switching valve which is switched and controlled by a valve switching switch which operates by the operation of a hydraulic cylinder, an oil flow rate adjusting valve and a pressure reducing valve which are manually adjusted, and a coating material flow rate sensing device. By the sensor
The coating apparatus for a plurality of high-viscosity reaction-curable coating materials according to claim 1, wherein the discharge flow rate of the coating material is displayed.