RU1798074C - Centralized power supply system for welding station - Google Patents

Abstract

Usage: providing welding on direct and alternating current in the energy sector, in transport. in construction, etc. SUMMARY OF THE INVENTION: The system comprises DC welding sources connected to DC welding posts. The first terminals of the DC welding sources are combined and connected to the first input terminals of the DC welding posts. The second terminals of the DC welding power sources are connected to each second input terminal of the DC welding stations. The system is additionally equipped with sources and posts of alternating welding current. The first conclusions of sources of alternating welding current are combined and connected to the first input terminals of all welding stations. The second terminals of the AC welding power sources are connected to each input terminal of the AC welding posts. 1 ill. ate

Description

It is used in industry, energy, transport, construction with a large volume of installation and repair welding.

The purpose of the invention is to save equipment and materials by creating a universal system for centralized power supply of welding posts of direct and alternating current voltage of 60 V.

The drawing shows a schematic diagram of the proposed system.

The universal three-pole system comprises a constant welding current source 1 and an alternating welding current source 2, the clamps of which maintain a constant voltage when the welding current changes. These sources are connected via connecting lines 3 to buses 4-2 of a three-pole assembly 4 through bipolar switches 4-1, and through branching buses 4-3, fuses 4-4 and connecting lines 5 to welding shields 6 where the switches are installed 6-1 and fuses 6-2. Through the connecting wires 7, the welding shields (6) are connected to the ballast rheostats 8, the welding electrodes 9 and the maintenance part.

Universal three-pole centralized power supply system for welding stations with direct and alternating current 60 V

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It contains direct and alternating current sources connected via two-pole circuit breakers to buses, of a three-pole assembly with three-pole fuse groups.

One pole in the assembly and shields is for the DC welding network, the second for the alternating current, and the third is common for the DC and AC welding networks.

The most significant difference from all known welding power supply systems (including analogs and prototypes) is the use of three-pole assemblies, shields, busbars (cables) for DC and AC 60 V when connecting the assembly to DC and DC sources -, alternating current.

The proposed system contains a rectifier 1 of a welding current with a voltage of 60 V, a welding transformer 2 with a voltage of 60 V, a connecting line 3 from a source of welding current to a power assembly (wire, cable or busbar), a power assembly 4 consisting of knife switches at the input ( 4-1), busbars (4-2). branch busbars (4-3) and three-pole fuse groups (4-4), connecting line 5 from the power assembly to the welding shield (wires, cable or busbar), welding shield 6, consisting of a knife switch (6-1) and fuses ( 6-2), connecting wires 7 from the welding shield to the part, ballast rheostat 8 With adjustable resistance, welding electrode 9 and part 10.

Positions 6-9 relate to a welding station.

The source of constant welding current 60 V 1 and the source of alternating welding current 60 V 2 are connected by connecting lines 3 to buses 4-2 of the three-pole assembly 4 through two-pole knife switches 4-1 and then through the branch buses 4-3 and fuses 4-4, and also through connecting lines 5 - to the welding shields 6, where the circuit breakers 6-1 and fuses 6-2 are installed. From the welding shields 6 through the connecting lines 7 are connected the welders' jobs for welding with direct or alternating current 60 V, where ballast rheostats 8 for regulating the welding current, welding electrodes 9 and welding parts 10 are placed.

The source works as follows ..

A direct current or alternating current source, or both sources are connected together to a three-pole assembly 4 through its bipolar switches 4-1.

Further, the welding current from the assembly 4 through the connecting lines 5 is supplied to the welding shields 6 located at the welders' workstations (8.9). Welder connects

when the circuit breaker 6-1 in the shield 6 is disconnected, the welding wires 7, for example, of direct current to two terminals of the shield 6, and the other welder1 can connect the welding wires 7 of alternating voltage to the two terminals of the shield

0 current, with one terminal of the shield 6 being common to direct and alternating current. The welding current is controlled by changing the resistance value of the ballast rheostat 8.

5 As a specific application, a centralized welding network of 60 V DC and AC can be used to repair boilers at power plants.

0 60 V welding current rectifiers are designed for responsible welding of pipelines operating at high pressures and temperatures; they are scarce and more expensive than welding

5 transformers with a voltage of 60 V. Therefore, for welding work on pipelines. low pressure and for welding metal structures can be used welding transformers with a rigid external characteristics, since The voltage at the terminals of the welding transformer is almost unchanged with changes in the welding current.

A centralized universal welding network eliminates the need for ten of 5 single-post rectifiers and welding transformers, the movement of which from one boiler site to another site is associated with large labor costs and large capital investments. For a 300 MW solid fuel unit, 95 shields are required, and for a 1200 MW unit, 145 shields are required.

The universal centralized power supply system for DC and AC welding posts allows reducing the number of assemblies, shields and connecting lines (cables, cables) by about 2 times in comparison with the option of separate welding networks of constant and alternating current

0 busbars, wires), as well as, accordingly, reduce the space occupied by assemblies and shields in the conditions of clutter of equipment, as well as the space occupied by cable communications and

5 busbars ..

Claims (1)

SUMMARY OF THE INVENTION A centralized power supply system for welding stations, comprising DC welding sources connected to DC welding stations; moreover, the first conclusions of the sources of constant welding current are combined and connected to the first input terminals of the welding posts of direct current, and the second conclusions of sources of constant welding current are connected to each second input terminal of the welding posts of direct current, and in order to save equipment and materials, it is additionally equipped with sources and posts of alternating welding current, and the first conclusions of sources of alternating welding current are combined and connected to the first input terminals am of all welding stations, and the second conclusions of the sources of alternating welding current are connected to each input terminal of the welding stations of alternating current.