KR200367629Y1 - Pressure Tank for automatic supplying flux - Google Patents

Abstract

The present invention is to automatically supply the flux supply through the pressure tank as the welding line is automated in the welding process for manufacturing ships or steel structures. More specifically, the flux injection of the pressure tank for the storage and supply of flux and According to flux supply

The present invention relates to a pressure automatic supply tank for flux automatic supply, which is capable of automatically opening and closing a valve of a recovery flux filling port. The flux pressure tank (T) having a flux inlet (1) and a flux supply port (2) includes a flux pressure tank ( The upper and lower flux detection sensors 3 and 3 'are mounted at the upper and lower ends of T), and the recovery flux filling port 4 is installed at one end of the flux inlet 1 so as to open and close the compressed air inlet 5. ), The control valve (5 '), the tank inlet (6) and the control valve (6') are connected to the compressed air pipe (7), respectively, and the compressed air outlet (8) and control valve (8 ') separately. To the exhaust air pipe (9), the conical valve (10) inside the recovery flux filling port (4) is installed by the valve supporter (11), the compression spring 12 is installed on the upper end of the valve supporter ( 11) When the compressed air tube 13 is connected to the compressed air inlet 5 for opening and closing the valve. Pressure tank for automatic supply of flux, characterized in that turned on.

Description

Pressure tank for automatic supplying flux

The present invention is to automatically supply the flux supply through the pressure tank as the welding line is automated in the welding process for manufacturing ships or steel structures. More specifically, the flux injection of the pressure tank for the storage and supply of flux and According to flux supply

The present invention relates to a pressure automatic supply tank for flux automatic supply, which automatically opens and closes a valve of a recovery flux filling port.

In general, in performing welding work, flux is deposited on the base material to be welded and continuously welded with welding wires through which current flows to the base material in the flux, and the flux covers the base material to block external atmosphere. It protects the refining action of weld metal and contributes to weld bead or slag formation.

In addition, since the flux of the welding material is expensive, the flux remaining on the base metal after the welding is recovered to remove slag and iron, and then reused.

The conventional pressure supply tank for flux supply shuts off the supply of compressed air in the pressure tank to supply the flux, discharges the compressed air remaining in the tank, and opens the flux injection valve to fill the flux and supply the compressed air to supply the valve. The internal pressure keeps the airtight inside the tank so that pressure is applied to the supply of the flux.

The whole process as described above had a problem that can not be applied to automatic welding equipment because it is operated manually.

Therefore, the present invention has been devised for the purpose of improving the conventional problems as described above, which enables automatic unmanned welding continuously in response to automatic welding equipment. The flux supply pressure tank is automatically opened and closed according to the operating conditions of the welding apparatus. To provide a pressure tank that can be filled and supplied.

In order to provide the above pressure tank, a flux detection sensor is mounted at the upper and lower ends of the pressure tank including the flux inlet and the flux supply port, and a recovery flux filling port is installed at one side of the flux inlet and the compressed air inlet for opening and closing the valve is provided. Control valve and tank pressure inlet and control valve are installed and connected to compressed air pipe, respectively. Compressed air outlet and control valve are separately connected to discharge air pipe at recovery flux filling port.

In addition, a conical valve is installed inside the recovery flux filling hole by a valve supporter, a compression spring is installed at the upper end thereof, and a compressed air supply tube for supplying and blocking compressed air to the inside of the conical valve is connected to the compressed air inlet for opening and closing the valve. It is to provide a pressure tank to open and close the recovery flux inlet with the conical valve to supply and shut off the flux.

1 is a conceptual diagram showing a state of use of the subject innovation

2 is an operating state of the present invention

3 is a conceptual view of the compressed air injection unit of the present invention

* Explanation of symbols for main parts of the drawings

(1) flux inlet (2) flux inlet

(3) (3 ') Flux Sensors (4) Flux Filler for Recovery

(5) Compressed air inlet for valve opening and closing (6) Inlet for pressurizing tank

(7) compressed air piping (8) compressed air outlet

(5 ') (6') (8 ') Regulating valve (9) Exhaust air piping

(10) Conical Valves (11) Valve Supporters

(12) Compression Springs (13) Compressed Air Tubes

(T) Flux Pressure Tank

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

1 is a conceptual diagram showing a state of use of the subject innovation, Figure 2 is a diagram showing the operating state of the conical valve by the compressed air as an operating state diagram of the subject innovation, Figure 3 is a conceptual diagram of the compressed air inlet portion of the subject innovation Is a conceptual diagram illustrating the supply and discharge of compressed air.

In the flux pressure tank T provided with the flux inlet 1 and the flux supply port 2,

Upper and lower flux detection sensors (3, 3 ') are mounted on the upper and lower ends of the flux pressure tank (T), and a recovery flux filling port (4) is installed at one end of the flux inlet (1) to open and close the valve. An air inlet (5), a control valve (5 '), a tank pressurization inlet (6), and a control valve (6') are mounted and connected to the compressed air pipe (7), respectively, and the compressed air outlet (8) and control valve separately. (8 ') is connected to the exhaust air pipe (9), and a conical valve (10) is installed inside the recovery flux filling hole (4) by the valve supporter (11), and a compression spring (12) is installed at the upper end thereof. And the compressed air tube 13 is connected to the valve supporter 11 by the compressed air inlet 5 for opening and closing the valve.

The present invention has a flux inlet when supplying the first flux to the pressure supply tank for flux supply (T), which performs flux welding on the base material to perform the automatic welding operation and recovers and reuses the flux after welding to manufacture a ship or steel structure. (1) a recovery flux filling hole mounted on the side of the flux inlet (1) for supplying and filling new flux and for supplying the flux of the flux pressure tank (T) to the base material through the flux supply port (2) ( 4) Operate the control valve 8 'on the exhaust air pipe 9, which is piped into the interior, to close the compressed air outlet 8 and each control valve 5', 6 'on the compressed air pipe 7 ) By opening the compressed air into the compressed air inlet (5) for opening and closing the valve and supplying it into the valve supporter (11) through the compressed air tube (13) to raise the conical valve (10) to fill the flux for recovery. Mouth of 4 And the compressed air supplied to the tank pressurizing inlet 6 at the same time is injected into the flux pressure tank T to pressurize the inside of the pressure tank T to discharge the flux in the tank T from the flux outlet 2. The flux is supplied to the welding base metal.

Supplying the flux in the same manner as described above while exhausting the flux in the pressure tank (T) while performing the automatic welding operation when the lower flux detection sensor (3 ') installed in the lower end of the pressure tank (T) detects the exhaust air pipe (9) ) Actuates the control valve (8 ') on the compressed air pipe (7) to discharge the compressed air in the pressure tank (T) to the compressed air outlet (8). When the compressed air is stopped by the compressed air inlet 5 for opening and closing the valve and the tank pressurized inlet 6, the compressed air is no longer supplied to the tank pressurized inlet 6 so that the pressure tank T is pressurized. In addition, the compressed air supplied to the inside of the valve supporter 11 through the compressed air inlet 5 and the compressed air tube 13 is stopped so that the conical valve 10 is lowered to recover the flux filling port 4 for recovery. The plate recovered after welding on the base metal by opening the inner inlet. The lux is filled into the tank through the recovery flux filler 4 by removing the powdered iron and slag through a separate process.

At this time, even if the supply of compressed air stops the supply of compressed air, the conical valve 10 is provided with a compression spring 12 installed on the upper portion of the conical valve 10 in case the internal inlet of the recovery flux filling port 4 is not opened. It is to open and lower by the elasticity of).

When the recovered flux is filled and filled to the upper portion of the pressure tank T, the upper flux detection sensor 3 sensed at the upper end of the tank is sensed to close the compressed air outlet 8 and to open and close the compressed air inlet 5. And compressed air to the tank pressurizing inlet 6 to close the flux filling port 4 and pressurize the inside of the tank to continuously supply the flux.

By continuously repeating operation as described above, the flux can be continuously supplied in conjunction with the automatic welding device.

Therefore, the present invention is able to provide a flux tank for the automatic supply of flux, which can continuously supply the flux on the welding base material in response to the welding operation of the automatic welding device.

Claims (1)

In the flux pressure tank T provided with the flux inlet 1 and the flux supply port 2, Upper and lower flux detection sensors (3, 3 ') are mounted on the upper and lower ends of the flux pressure tank (T), and a recovery flux filling port (4) is installed at one end of the flux inlet (1) to open and close the valve. An air inlet (5), a control valve (5 '), a tank pressurization inlet (6), and a control valve (6') are mounted and connected to the compressed air pipe (7), respectively, and the compressed air outlet (8) and control valve separately. (8 ') is connected to the exhaust air pipe (9), and a conical valve (10) is installed inside the recovery flux filling hole (4) by the valve supporter (11), and a compression spring (12) is installed at the upper end thereof. And a pressure tank for automatic supply of flux, characterized in that the compressed air tube (13) is connected to the inside of the valve supporter (11) by the compressed air inlet (5) for opening and closing the valve.