CN202871495U - Zigzag shape pin configuration structure of self-coupling voltage-regulating rectifier transformer - Google Patents

Abstract

The utility model relates to a zigzag shape pin configuration structure of a self-coupling voltage-regulating rectifier transformer and belongs to the technical field of transformer manufacturing. The technical scheme includes that the zigzag shape pin configuration structure of the self-coupling voltage-regulating rectifier transformer comprises a phase shift winding (1), basic windings (2), voltage-regulating windings (3) and on-load tap changers (4). An A phase and a C phase of the phase shift winding are respectively connected with the respective and corresponding basic windings, the respective and corresponding voltage-regulating windings and the respective and corresponding on-load tap changers. A B phase of the phase shift winding is connected with the corresponding basic winding, the corresponding voltage-regulating winding and the corresponding on-load tap changer. A net-side zigzag shape phase shift connecting method is formed. Due to the adoption of the zigzag shape pin configuration structure of the self-coupling voltage-regulating rectifier transformer, a phase 12, a phase 24 and a phase 48 are formed by a self-coupling voltage-regulating rectifier transformer phase shift (in zigzag shape connection) single table. According to the zigzag shape pin configuration structure of the self-coupling voltage-regulating rectifier transformer, wires are not needed to intersect when connected on a net side, and wiring is carried out at an output end according to a wiring principle to form phase shift connection. Therefore, leading wires on a high-voltage side can be handled according to manufacturing demands of a corresponding power transformer. The zigzag shape pin configuration structure of the self-coupling voltage-regulating rectifier transformer is safe, reliable, material-saving, low in manufacturing cost, capable of satisfying electrolytic smelting process demands and harmonic treatment, and favorable for safe operation of a power network.

Description

Indentation is from lotus root voltage regulating rectifier transformer pin configuration

Technical field

The utility model relates to a kind of indentation from lotus root voltage regulating rectifier transformer pin configuration, belongs to technical field of transformer manufacturing.

Background technology

The industrial rectifier transformer primary voltage of electrolysis for production is high, secondary electric forces down, and range of regulation is large, and direct current rectification harmonic wave is large to the infringement of electrical network, and its impact is to producing infringement on the performance of other electrical equipment on the circuit.Be to administer harmonic wave, a kind of mode is by carrying out harmonic wave control from lotus root voltage regulating rectifier transformer phase shift (indentation connections), and another kind of mode is and from the common filter realization harmonic wave control that forms of lotus root voltage regulating rectifier transformer.Because filter investment floor space is large, high to the design and manufacture requirement of voltage regulating rectifier transformer.Development along with technology, tend to carry out the harmonic wave control scheme from lotus root voltage regulating rectifier transformer phase shift (indentation connection), therefore, can be designed to the voltage regulating rectifier transformer that 12 phases, 24 reach 48 phases mutually to the transformer separate unit, the harmonic wave that produces in order to the direct current rectification carries out harmonic wave control, in order to electric power netting safe running, still, this type of transformer lead is than the complex structure of common power transformer, with reference to accompanying drawing 1, net side lead-in wire intersects, and is dangerous, and cost is high.

The utility model content

The purpose of this utility model provides a kind of indentation from lotus root voltage regulating rectifier transformer pin configuration, safety, reliable, material is economized, manufacturing cost reduces, and solves the problems referred to above that background technology exists.

The technical solution of the utility model is: indentation is from lotus root voltage regulating rectifier transformer pin configuration, comprise the phase shift winding that is arranged on the net side, basic winding, pressure regulation winding and on-load voltage regulating switch, the A phase of phase shift winding is is connected with C and is connected respectively its corresponding basic winding, pressure regulation winding and on-load voltage regulating switch separately, the B of phase shift winding be connected its corresponding basic winding pressure regulation winding and on-load voltage regulating switch consist of net side indentation phase shift connection.

Described phase shift winding, basic winding and pressure regulation winding, followed order is phase shift winding, basic winding and pressure regulation winding from inside to outside.

Good effect of the present utility model: adopt the utility model, form 12 phases, 24 and reach mutually 48 phases from lotus root voltage regulating rectifier transformer phase shift (indentation connection) separate unit, the utility model need not intersect at net side joint line, carry out wiring by connection principle at output and form the phase shift connection, high-side lead can be processed by the manufacturing requirement of corresponding power transformer like this, safety, reliable, material is economized, low cost of manufacture; Satisfy electrolysis for production technological requirement and harmonic wave control, in order to electric power netting safe running.

Description of drawings

Fig. 1 is wiring schematic diagram of the present utility model;

Fig. 2 is that the winding of the utility model embodiment is arranged schematic diagram;

Among the figure: phase shift winding 1, basic winding 2, pressure regulation winding 3, on-load voltage regulating switch 4.

Embodiment

Below in conjunction with accompanying drawing, by embodiment the utility model is described further.

Indentation is from lotus root voltage regulating rectifier transformer pin configuration, comprise the phase shift winding 1 that is arranged on the net side, basic winding 2, pressure regulation winding 3 and on-load voltage regulating switch 4, the A phase of phase shift winding is is connected with C and is connected respectively its corresponding basic winding, pressure regulation winding and on-load voltage regulating switch separately, the B of phase shift winding be connected its corresponding basic winding pressure regulation winding and on-load voltage regulating switch consist of net side indentation phase shift connection.

Described phase shift winding, basic winding and pressure regulation winding, followed order is phase shift winding, basic winding and pressure regulation winding from inside to outside.

Claims (2)

1. an indentation is from lotus root voltage regulating rectifier transformer pin configuration, it is characterized in that: comprise the phase shift winding (1) that is arranged on the net side, basic winding (2), pressure regulation winding (3) and on-load voltage regulating switch (4), the A phase of phase shift winding is is connected with C and is connected respectively its corresponding basic winding, pressure regulation winding and on-load voltage regulating switch separately, the B of phase shift winding be connected its corresponding basic winding pressure regulation winding and on-load voltage regulating switch consist of net side indentation phase shift connection.

2. described indentation is characterized in that described phase shift winding, basic winding and pressure regulation winding from lotus root voltage regulating rectifier transformer pin configuration according to claim 1, and followed order is phase shift winding, basic winding and pressure regulation winding from inside to outside.