RU66255U1 - INSTALLATION FOR WELDING IN A PROTECTIVE GAS MEDIA - Google Patents

Abstract

The utility model relates to the field of welding production and can be used in welding in a protective gas environment of a wide range of structures, including those whose connection is formed in various spatial positions.

Installation for welding in a protective gas environment contains a welding torch, containers for storing protective gases and lines for supplying gases to the torch. The installation is equipped with a tank for passing or mixing gases, having inlet nozzles, each of which is connected by a line to one of the gas storage tanks, and an outlet pipe, connected by a line to the welding torch, and in each line connecting the gas storage tank to the passage or gas mixing, a metering valve is installed, the actuator of which is connected to the control unit.

1 item, 1 ill.

Description

The utility model relates to the field of welding production and can be used in welding in shielding gases of a wide range of structures, including those whose connection is formed in various spatial positions, for example, when welding vertical and ceiling seams, fixed pipe joints.

A device for welding with a pulsed supply of protective gas containing a torch, a gas supply line, a valve, a pulsator made in the form of a cylindrical body and an oscillating piston (see UK patent No. 1372518, class B23K 9/00, 1974).

The disadvantages of the known device is the lack of the ability to alternately alternate the supply of two different gases or one gas of different densities and control the frequency and duration of the pulsation of each gas or change the pressure of one gas, which significantly narrows the scope of this device.

A device for welding with a pulsed supply of protective gas containing a gas supply regulator, an adjustable power source (current) and a welding torch, the regulator is made in the form of a housing with two inlet and one outlet channels with fittings on each channel, the mixing chamber is movable in the axial direction a valve element with a cylindrical central part and two conical end parts, and a valve element moving drive, and a sleeve is mounted on the housing from the inlet channels, a mixing chamber it is called a hollow cylindrical body and bushings, the cylindrical part of the valve element is made with a diameter equal to the inner diameter of the hollow cylindrical body, an annular groove is made in the cylindrical part of the valve element, longitudinal grooves are on either side of it, the fittings on the inlet channels are made in the form of adjusting screws with axial hole in each of them installed in the bushings with the possibility of axial movement

relative to the housing and connected by highways with a gas station, moreover, the screws are made of material with an elastic modulus greater than the elastic modulus of the valve element, and the outlet fitting (pipe) is trunk-connected to the welding torch (see RF patent No. 2049618, class B23K 9/16, 1995) - the closest analogue.

As a result of the analysis of the known device, it should be noted that the implementation of the inlet fittings and adjusting screws in the form of a single structural unit complicates both the design of the device and the regulation of the stroke of the core valve, and in addition, it is possible to jam the conical part in contact with the adjusting element, which leads to the need additional disassembly of the device. Quite often, when the core valve is jammed, contact surfaces of the core valve and (or) the element for regulating its position are damaged. This reduces the life of the device and leads to the need for repair.

The objective of this utility model is to develop a shielding gas welding installation that is simple in design and reliable in operation, the design of which provides convenient and accurate control of the ratio of shielding gases supplied to the welding zone over a wide range.

The task is ensured by the fact that in the installation for welding in a protective gas medium containing a welding torch, containers for storing protective gases and a line for supplying gases to the burner, the new fact is that the installation is equipped with a tank for passing or mixing gases having inlet pipes, each of which is connected by a highway to one of the gas storage tanks, and an outlet pipe connected to the welding torch by a highway, and in each highway connecting the gas storage tank to passage or mixing of the gases is set metering valve, an actuator which is connected to the control unit.

When conducting patent research, no solutions were identified that are identical to the declared ones, which allows us to conclude that the claimed utility model meets the “novelty” protection condition.

The information set forth in the application materials is sufficient for the practical implementation of the utility model.

The essence of the utility model is illustrated by graphic materials on which the installation diagram for welding in a protective gas environment is presented.

Installation for welding in a protective gas environment contains a welding torch 1, which provides welding of parts 2. A path 3 for supplying gas or a mixture of gases in containers (gas cylinders) 4 and 5 for storing gases under excess pressure is connected to the torch 1.

Tanks 4 and 5 by lines 6 and 7 are connected to the inlet pipes 8 and 9 of the tank 10 for passage or mixing of gases, to the outlet pipe 11 of which a highway 3 is connected.

In highways 6 and 7, metering valves 12 and 13 are installed, connected to the control unit 14.

As a protective gas used during operation of the installation, a fairly wide range of gases or their mixtures, for example, argon and / or helium, can be used.

The amount of gas supplied to the mixing, and therefore the number of containers for their storage, can be different.

The design of the welding torch 1, metering valves 12 and 13, control unit 14 is standard and their selection is not difficult for specialists. The tank 10 for passing or mixing gases can be made, for example, in the form of a closed vessel of cylindrical shape with inlet and outlet pipes. Non-return valves (not shown) may be installed in the nozzles. As containers for gas storage, as a rule, standard industrial gas cylinders are used. As pipelines, standard gas fittings are used.

Installation for welding in a protective gas environment works as follows.

Let us consider the operation of the installation using the example of welding two horizontal plates using a mixture of argon and helium as a protective medium. Naturally, this does not mean that other gases or their mixtures cannot be used as protective gases.

To ensure the functioning of the installation, the gas path of the welding torch 1 is connected by a line 3 to the outlet pipe 11 of the tank 10 for mixing gases, to the inlet pipes 8 and 9 of which the lines 6 and 7 are connected, which are connected to the tanks 4 and 5. Control elements of the metering valves 12 and 13 installed in highways 6 and 7 are connected to the control unit.

Naturally, for the installation of the installation, standard connecting elements are used, the design of which is known to specialists.

During the operation of the installation, the welding torch welds the parts 2, while the protective gases that are in the tanks 4 and 5 under excess pressure pass through the pipes 6 and 7 through the passage channels of the valves 12 and 13 to the tank 10, where they are mixed with each other and along line 3 they are fed to the welding torch and sent to the welding zone to protect it from the environment.

During operation of the installation, the control unit 14 controls the position of the metering spools of the valves 12 and 13, adjusting their throughput section, thereby dosing the amount of each gas entering the tank 10.

Providing dosing of the supply of gases to the tank 10 allows you to feed into it, and therefore in the welding zone, a gas mixture with a precisely defined ratio of its components. Depending on the welding technology used, the supply of gas or a mixture of gases can be carried out continuously or pulsed with a given frequency. Naturally, if one of the metering valves is closed, then only one gas passes through the tank 10 into the welding zone.

The installation is easy to install, reliable in operation and can be used for welding critical structures from a wide range of materials. Regulation of the supply of each gas by a separate metering valve allows to significantly simplify the regulation process and increase its accuracy.

Claims (1)

Installation for welding in a protective gas environment, containing a welding torch, containers for storing protective gases and a line for supplying gases to the burner, characterized in that the installation is equipped with a tank for passing or mixing gases, having inlet pipes, each of which is connected by a line to one of tanks for storing gas, and an outlet pipe connected to the line with the welding torch, and in each line connecting the tank for storing gas with a tank for passing or mixing gases Oziri valve actuator which is connected to the control unit.