SU743806A1 - Multiwelder power supply system - Google Patents

Description

The invention relates to devices that provide direct current multistage welding systems containing posts with different polarity of current on the electrode, and are used in all areas of the economy where there is a large amount of welding work with a significant length of distribution welding busbars (for example, when installing power plants, construction, automotive, shipbuilding industry, etc.).

Known multi-post power system for arc welding, containing a DC power source, a multi-wire distributing busbar, each line of which is equipped with a protective device that protects the power source from overload [1].

However, such a system does not have a device that provides stabilization of the welding voltage, which significantly affects the static and dynamic characteristics of the power source.

A known system that contains a direct current power source, a distribution busbar made of separate lines having a common contact, and a device supporting a constant voltage at the output terminals of power supplies 30, consisting of a control and control unit [2].

However, such a system does not ensure the maintenance of a constant welding voltage at the output terminals of the power source, to which multi-post welding systems containing posts with different polarity of current on the electrode are connected at the same time. In addition, the indicated system does not provide operability in case of failure of the stabilizing device, which significantly reduces the energy performance of the power source of the entire system.

The aim of the invention is to improve the static and dynamic characteristics and energy performance of the power source.

This goal is achieved by the fact that 20 a splitter-combiner and switches with a switching unit, which is connected to the output terminals of the power supply, and switches are connected in parallel and sequentially to the control unit and connected to the outputs of the switching unit, are introduced into the system. The input of the divider-combiner is connected to the output terminals of the power source, and its output is connected to the control unit.

The drawing shows a basic scheme of the proposed multi-post power system.

Distribution busbars 4 and 5 are connected to the power supply 1, consisting of a power transformer 2 and rectifier blocks 3, in the circuit of which welding posts 6 and 7 are installed, respectively, with direct and reverse current polarity on the electrode. A stabilizing inductor 8 is connected to a common point A at the power source. A dividing-combining device 9 is installed in parallel with the power supply from the side of the welding stations. The output terminals of the device 9 are connected to the control unit 10 connected to the control unit 11. The control unit is installed on the high voltage side of the power supply 1.

Parallel to the And block, a line 12 is mounted, which is equipped with a block of switches 13, for which, for example, contactors can be used. In series with the block 11, a switch 14 is installed, which can also be used as a contactor. The control of the switches 13 and 14 is carried out from the block 15 switching associated with the output terminals of the power source.

The principle of the system is as follows.

The required value of the stabilized voltage in the busbars 4 and 5 corresponds to a certain value of the voltage difference between the value of the base voltage and the voltage at the input of the control unit. When the load current changes in the busbars 4 and 5, the output voltage of the power source 1, which is supplied to the dividing-adder device 9, changes accordingly. This device allows you to send a signal to the control unit 10 about voltage changes both in the busbar 4 and in the busbar 5. The resulting signal issued at the input of the control unit 10, is compared with the nominal value of the base voltage. The received error signal with its sign is fed to the control terminals of the control unit, which, acting accordingly on the power supply 1, changes the voltage in the busbars 4 and 5 until the value of the error between the base voltage and the voltage at the input of the control unit 10 reaches the initial level.

In addition, the scheme provides for the transition to an unstabilized supply voltage of welding stations in case of failure of the control unit. To this end, the circuit provides for the installation of a switching unit 15, which gives a signal to the switch 14 to turn off the control unit AND, and to the switch 13, connecting the line 12 to supply high voltage to the power source 1.

The presence of a dividing-adder device allows you to connect the output voltage stabilization system to a power source that provides simultaneous operation of welding posts with different current polarity across the electrode. This improves the static, dynamic and energy performance of the power source.

The proposed lithium system passed production tests in the Moseyergomontazh trust. The test results are positive.

Claims (2)

on the scheme of the proposed multipoint power system. Power supply 1, consisting of a power transducer 2 and power supply units 3, is connected to the distribution shioiovoda 4 and 5, in the chains of which welding stations 6 and 7 are installed, respectively, with an irregular current on the electrode. A stabilizing choke 8 is connected to the common point A at the power source. Parallel to the power source from the side of the welding stations, a divider-adder device 9 is installed. The output terminals of the device 9 are connected with the control unit 10 connected to the control unit AND. The control unit is installed on the high voltage side of power supply 1. Parallel to the unit 11, mounted the line 12, which is equipped with a switch unit 13, which can be used, for example, contactors. Consistently with the unit AND installation} switch 14, which can also be used as a contactor. Switching the switches 13 and 14 is carried out from the switch unit 15 connected to the output terminals of the power supply. The principle of operation of the system is as follows. The required value of the stabilized voltage in the lines 4 and 5 corresponds to a certain value of the voltage difference between the base voltage and the voltage at the input of the control unit 10. When the load current changes in shioiodovodi 4 and 5, the output voltage of the power supply source 1 1 changes accordingly, which is injected into the divider device 9. This device allows the control unit 10 to signal the change of control both in the conduit 4 and in the conductor 5 The resulting signal outputted by the PA input of the control unit 10 is compared with the nominal value of the base voltage. The received mismatch signal with its sign is passed to the control terminals of the control AND block, which, acting accordingly on the source of 1 thread, varies the voltage in cable leads 4 and 5 to the normal voltage mismatch between the base voltage and the input voltage of the block 10 controls will not reach the original level. In addition, the scheme provides for switching to unstabilized supply voltage of welding stations in the event of a failure of the chipper unit. For this purpose, in the diagram of the installation, installation of the block 15 and the disconnected, which gives a signal to the switch 14 to turn off the control block 11, and to switch 1, switch 13, and to connect line 12 for high voltage supply to the source of 1 nitann. The splitter-combiner device makes it possible to connect a system of stabilized output nanometers to a source of titanium, which prevents the simultaneous operation of welding nodes with different current currents on the electrode. Thereby, the static, dynamic and energy indicators of the source of the Titan are improved. The proposed feeding system was produced in Isity in the trust “Mosenergomontazh. The results of the test are positive. Claims of the invention The Miogopostov iitani system, comprising a direct current source, whose pa input is a control unit, the output of which is connected to control inputs of a control unit, and the output terminals of a direct current source are connected to control protection blocks and groups of welded posts The current is different from the current and the electrode, in order to improve the static and diaamic characteristics of the power source, a divider-summing device and Switches with a switching unit, which is connected to the output terminals of the power supply source, and the switches are connected to the control unit; to block uiravleni. Sources of information that are taken into account during the examination 1. USSR author's certificate No. 610627, V 23K 9/00, 1976. 2. USSR Author's Certificate N ° 460957, В 23К 9/00, 1973.