SU804279A1 - Multistation unit for suppling power to load - Google Patents

Description

The invention relates to a multistage power supply of an electric current, a load, mainly a welded arc, and can be used in welding production and other industrial fields. A known multipoint installation for supplying a current to an electric arc, containing converter transformers electrically interconnected, to the secondary windings of which, by the number of posts, rectifiers are connected interconnected in a common output point. A disadvantage of the known installation is the inability of the pargshtric stabilization of optimal load power values, which Significantly reduces the technological capabilities of the installation, for example, the quality of welding. Also known as a multi-station for electrical power. current welding arc containing electrically interconnected voltage regulator, converter transformers and three-winding voltage transformer, the first winding of which is connected to the supply network, and the second connected to the output of the voltage regulator, and (by the number of posts) strong rectifiers connected to each other in a common output point and connected to the secondary windings of converter transformers. This installation, due to individual boost transformers, allows to some extent ensure parametric stabilization of the optimal load power values of each post separately 12. However, the absence of a single closed automatic control system in said installation does not allow for simultaneous parametric stabilization of the optimal power values of all loads, which reduces the technological capabilities of the installation. The presence of a large number (by the number of posts) of booster three-winding transformers causes significant power losses during the operation of the installation. The purpose of the invention is to increase technological capabilities. This goal is achieved by introducing a threshold element and a protective arrester with a start-up unit into a multi-station installation for supplying electric current, and the converter transformers included in it are made of loop-shaped primary windings and secondary windings placed on ferromagnetic cores, made in the form of sectioned (by the number of posts) toroidal coils with an equal number of turns, with Ks1zhd from sections of these coils connected to the input of the power rectifier, to one of the output points Each rectifier is connected to the working electrode of the post, and the total output point of the rectifier is connected to the inputs of the protective discharger and the threshold element connected by its own: control input to the third winding of the booster transformer, and its second winding is connected to the regulator output, for example wiring through serially connected primary windings of converter transformers. The drawing shows a circuit diagram of a multi-station installation for supplying a load with electric current. The installation contains a voltage regulator 1 electrically connected to each other, converter transformers 2 and a three-winding booster transformer 3, the first winding 4 of which is connected to the mains and the second 5 to the output of voltage regulator 1. The installation also contains power rectifiers b, by the number of posts interconnected at the common output point 7 and 8 converter transformers connected to the secondary windings, a threshold element 9 and a protective arrester 10 with the start node 11 are introduced into the installation . Converter transformers 2 installations are made of 12 loop-like primary windings 13 and secondary windings 8, made in the form of sectioned, by the number of posts, toroidal coils with an equal number of turns, placed on ferromagnetic cores. Each of the sections of these coils is connected to the input of the power rectifier 6. The working electrode of the 15th post is connected to one of the output points 14 of each rectifier, and the common output point 7 is rectified to the inputs of the protective discharge element 10 and the threshold element 9 connected to its control input to the third winding 16 booster transformer 3. The second winding 5 booster transformer is connected to the output of the voltage regulator 1 through serially connected primary windings 13 converter transformers 2. In set It has a switching device 17 with a current cut-off node 18, when switched on, the primary voltage 13 of the voltage regulator output 1 and the second winding 5 of booster three-winding transformer 3 are applied to the primary connected 13 windings of the converter transformers. the secondary windings 8 of the pre-transformer transformers 2 are rectified by rectifier 6 and 15 work stations are distributed between the working electrodes and the common output point 7 of rectifiers 6. Equal number The secondary windings 8 on each magnetic core 12 provide equal resistance of these windings, reduced to the primary winding 13, which ensures the same power take-off in case of difference of optimal voltages on the electrodes 15. When current passing through the working electrode 15, dynamic lowering the voltage of the secondary winding 8 at the output of the rectifier 6 and the working electrode 15, and reducing the operating current causes an increase in the voltage on the electrode, which contributes to the simultaneous EFINITIONS and parametric power stabilization at all the electrodes in the static and dins1micheskom modes. Voltage regulator 1 serves to set optimal voltages on electrodes 15. As the current increases on one or several electrodes 15, the operating current of threshold element 9 increases and the reduced resistance of the primary windings 13 of converter transformers 2 decreases. Connect the second winding 5 of booster transformer 3 to the output regulator voltage 1 through serially connected primary windings 13 of transformer transformers 2 provides a reduction of the voltages on the windings 5 and 16 of the three windmill when the current through the threshold element 9 and the primary windings of the 13 converter transformers (mators 2) increase, the voltage on the electrodes 15 with a constant operating current is maintained. Starting unit 11 of the zgtstsitnogo discharge switch 10 operates at overcurrents in the / port element 9 and opens the protective gaiter, as a result of which the current cut-off node 18 includes the switching device 17. Introduction to the multipost installation for supplying the load with a electric current of the threshold element and the protective gating element , The specific implementation of the converter transformers and essentially new connection of said elements with the other installation ee nodes allows povy

Claims (2)

Claim A multi-post installation for supplying an electric current to a load, mainly a welding arc, containing a voltage regulator, converter transformers, a three-winding booster transformer, the first winding of which is connected to the mains, and the second is connected to the output of the voltage regulator, and, by the number of posts, Power rectifiers connected to each other at a common output point and connected to the secondary windings of converter transformers, I yuschayas that, in order to improve the technological capabilities by simultaneously stabilizing parametric optimal power values of loads and at the same time reduce losses .. cl 2. 282559,