RU2116142C1 - Device for heating and applying anticorrosive compound - Google Patents

Abstract

FIELD: spraying and applying protective coatings, such as viscous compound, on machine surfaces. SUBSTANCE: device has tank with pipe connection and spraying gun with hose. Tank 1 is placed in reservoir accommodating heating element and sensor. Hose 4 accommodates electric heating coil. Electric heating coil is also placed inside sleeve. EFFECT: simplified design and facilitated servicing. 2 cl, 4 dwg

Description

 The invention relates to devices for spraying and applying protective coatings, can be used for applying viscous mastic on the surface of machines.

 A device for pumping liquid to a spraying device is known, comprising a sealed container with a stirrer, a fitting for supplying compressed air, an external tube that is connected and coaxially connected to it, the ends of which are connected to each other, and on the other through a step-down transformer and a ballast, with source of electricity [1].

 A disadvantage of the known device is the deterioration of its performance while lowering the ambient temperature. Under these conditions, the heated material pumped from the flow tube of the device to the spraying unit is cooled in the main connecting them during breaks in operation. As a result of cooling and increasing the viscosity of the material, its atomization and coating quality deteriorate.

 Also known is a unit for applying anti-corrosion coatings [2], containing a spray barrel connected to the pump by means of a pressure hose, in which a heating coil is placed, included in the step-down transformer circuit, and a tank with heating elements for melting the lubricant.

 The disadvantages of the known device are due to the fact that it does not provide a change in the power of the preheating of the lubricant in the hose to the operating power when it is supplied for spraying, and it is also inconvenient to maintain the connection of the heating spiral with the nozzle of the gun barrel made by welding or soldering. During operation of the known unit, the heating coil breaks off near the spray gun due to kinks in the hose. To restore the operability of the device, it is necessary to remove the hose from the fitting and perform welding or soldering of the spiral on it.

 The closest known device to the claimed technical essence and the achieved effect is a device for heating and applying liquids [3], containing a spray gun connected by a conductive hose to the pump, and a power source, the neutral wire of which is connected to the pump and the gun, and the phase - with the midpoint of the hose, and the power source is equipped with a switch mounted on the handle of the spray gun.

 The disadvantages of the known device are the complexity of the design of the system that regulates the heating of the liquid, expressed in the presence of magnetically controlled contacts installed in the handle of the spray gun, an additional wire connecting the gun to the power source, and in the device of the power source, which quickly changes the heating power of the liquid; low reliability of the known device when painting surfaces of complex geometric configuration, since the operator often and briefly pulls the trigger of the spray gun. As a result, the power supply will also often switch from one power to heat the liquid to another, which can lead to its failure; the person’s electrical safety is not ensured when the circuit of the neutral wire connected to the spray gun is broken, since the person will be under voltage from the phase wire through the conductive hose.

 The objective of the invention is to eliminate these disadvantages and thereby simplify the design and improve service conditions.

 This is achieved by the fact that in the device for heating and applying anticorrosive mastic containing a heated mastic tank, connected to the tank via a mastic supply hose, a spray gun having a compressed air supply hose with a fitting and a mastic heating system in the hose, including an electric heating spiral and step-down transformer, an electric heating coil is placed in the compressed air supply hose, made of metal with a high temperature coefficient of resistance and connected in series but with a mastic feed hose spiral and a step-down transformer, and the output of the hose from the hose is made on the nozzle in the form of a screw with a radial hole for the electric heating spiral in the head installed inside the nozzle, and the connecting end of the electric heating spiral is bent by a loop and installed in the radial hole of the head screw on the outlet side of the fitting.

 The use of an electric heating spiral made of metal with a high temperature coefficient of resistance and placed in the compressed air supply hose allows you to change its resistance when cooled by compressed air supplied through the hose to the spray, and thereby automatically adjust the heating power of the spiral installed in the mastic feed hose. As a result, the design of the device is simplified, its reliability is improved, and the quality of applying mastic is improved due to its spraying with heated air in the hose.

 The detachable outlet of the electric heating spiral from the hose, made in the form of a screw inserted into the fitting and having a radial hole for the spiral in the head, provides quick troubleshooting of the hose and spiral without welding or soldering, which improves the service conditions of the device.

 The bending of the connecting end of the electric heating spiral by the loop allows it to be installed in the screw head hole from the outlet side of the nozzle without removing the hose from the nozzle, and prevents the spiral from coming out of the screw hole if its attachment to the fitting is loosened.

 In FIG. 1 shows a diagram of a device for heating and applying anti-corrosion mastic; in FIG. 2 - node 1 in FIG. 1 (node output electric heating spiral from the hose, a partial section); in FIG. 3 is a section AA in FIG. 2; in FIG. 4 - node II in FIG. 1 (hose attachment to the spray gun).

 The device comprises a tank 1 for mastic with an outlet pipe 2 and a spray gun 3 with a hose 4 for feeding mastic and a hose 5 for supplying compressed air. Tank 1 is placed in the reservoir 6 for the coolant. An electric heating element 7 and a temperature sensor 8 are installed in the tank 6.

 At the outlet pipe 2 there is a crane 9 connected to the mastic feed hose 4 to the spray gun 3.

 The hose 5 is in communication with a source of compressed air (not shown) through a valve 10 and an air duct 11. The upper part of the tank 1 is in communication with an air duct 11 through a valve 12 and a pneumatic reducer 13.

 The device has a mastic heating system in the hose 4, including an electric heating spiral 14 in the mastic supply hose 4, the end of which from the side of the spray gun 3 is connected by a wire 15 to the end of the electric heating spiral 16 in the air supply hose 5, while the second ends of the electric heating spirals 14 and 16 through a step-down transformer 17 connected to a source of electricity.

 The compressed air supply hose 5 consists of a sleeve 18, at the end of which a fitting 19 is fixed. Inside the fitting 19, a screw head 20 is inserted on the side, on which a through radial hole 21 is made.

 Inside the sleeve 18 is placed an electric heating coil 16 with a high temperature coefficient of resistance, for example, steel wire. The connecting end of the spiral 16 is bent by a loop 22, installed in the radial hole 21 of the screw head 20 from the side of the outlet 23 of the fitting 19 and secured with a nut 24. An electric wire 25 from the transformer 17 is connected to the outer end of the screw 20.

 At the other end of the hose 5 and at both ends of the hose 4 there are fittings of a similar design. The fitting 19 of the hose 5 is connected to the valve 10 through an electrical insulator 26 and is closed by a protective casing 27. The mastic feed hose 4 is also isolated from the valve 9. An alloy with a low temperature coefficient of resistance can be used as the material for the electric spiral 14 placed in the hose 4, for example nichrome wire.

 The device operates as follows.

 The tank 1 is loaded with viscous anticorrosive mastic, and the tank 6 is filled with a coolant, for example oil.

 When you turn on the electric heating element 7, the coolant in the tank 6 is heated. Temperature control is carried out using the sensor 8. In the process of heating the coolant in the tank 6, the mastic is heated in the tank 1.

 When you turn on the step-down transformer 17, the spiral 16 in the hose 5 and the spiral 14 in the hose 4 are heated, from which the mastic located there is heated. With increasing temperature of the electric heating coil 16, its resistance increases, and so in the circuit of the spiral 16 and spiral 14 decreases. This automatically reduces the power of pre-heating the mastic in the hose 4.

 When the mastic reaches the viscosity necessary for high-quality spraying, open the valve 12 and supply compressed air to the tank 1. The pressure in the tank 1 is regulated by a pneumatic reducer 13.

 To dispense the mastic, the tap 9 is opened. Heated mastic under air pressure from the tank 1 through the pipe 2 enters through a hose 4 to the spray gun 3.

 When compressed air is supplied through the valve 10 through the hose 5 to the spray gun 3, the mastic is sprayed and applied to the surface to be treated.

 The electric heating coil 16 in the hose 5 is cooled by the air passing to the spray, its resistance decreases, which causes an increase in the current strength in the circuit of the spiral 16 and spiral 14. In this case, automatically with the inclusion of the spray gun 3, the working heating power of the mastic in the hose 4 increases.

 By placing an electric heating coil 16 with a high temperature coefficient of resistance in the hose 5 for supplying compressed air, a reduction in the cost of electricity for preheating the mastic in the hose 4 is achieved.

 The proposed device provides electrical safety for the operator in contact with live parts on the spray gun 3, since both output wires of the step-down transformer 17 are isolated from the mass of the device and the ground.

Claims (2)

 1. A device for heating and applying anticorrosive mastic, containing a heated mastic tank connected to the tank via a mastic feed hose, a spray gun having a compressed air supply hose with a fitting, and a mastic heating system in the hose, including an electric heating coil and a step-down transformer, characterized in that in the compressed air supply hose there is an electric heating coil made of metal with a high temperature coefficient of resistance and connected by a follower on with electric heating coil supply hose mastic and step-down transformer.  2. The device according to claim 1, characterized in that the outlet of the electric heating spiral from the hose is made on the fitting in the form of a screw with a radial hole for the electric heating spiral in the head installed inside the fitting, while the connecting end of the electric heating spiral is bent by a loop and installed in the radial hole of the head screw on the outlet side of the fitting.

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