RU113415U1 - TRANSFORMER - Google Patents

Abstract

1. A single-phase dry multi-purpose transformer containing a split tape twisted magnetic circuit, consisting of cores and a band, on the cores of which there are high and low voltage windings (primary and secondary), characterized in that the magnetic circuit is cut into two symmetrical parts, on one of the cores there are three primary high voltage windings, one low voltage secondary winding is located on the second core. ! 2. Single-phase dry multipurpose transformer according to claim 1, characterized in that the windings have reinforced insulation.

Description

The utility model relates to electrical engineering, namely to electric voltage transformers of the OSM series (single-phase, dry, multi-purpose) with a capacity of 0.5 kVA to 3.0 kVA with a primary voltage of 220 V +/- 5%, frequency 50 Hz. The transformer is designed to power control circuits, local lighting, alarm and automation in enclosed spaces.

Known rod and armored single-phase transformers with split tape magnetic circuits, consisting of upper and lower halves [Kasatkin AS, Nemtsov MV, Electrical Engineering: - M ,: Energoatomizdat, 1983], used to reduce voltage when transmitting electrical energy from power source to the consumer of electricity. In two-winding transformers, there are two windings per phase - higher and lower voltage, in three-winding transformers - two windings per phase - one primary and two secondary or two primary and one secondary.

Powering various electrical appliances requires a variety of voltages. A disadvantage of the known step-down transformers is the impossibility of obtaining a number of voltages on the output winding without including additional transformers in the circuit.

The objective of this utility model is to obtain a series of output voltages of various sizes from the only transformer in the circuit.

The solution to this problem is achieved by the following constructive solution. The proposed design of a single-phase dry multipurpose transformer contains a split ribbon twisted magnetic circuit, consisting of cores and a band, on the cores of which are placed windings of higher and lower voltage (primary and secondary), characterized in that the magnetic circuit is cut into two symmetrical parts, three are placed on one of the cores primary windings of higher voltage, on the second core there is one secondary winding of low voltage, the windings have reinforced insulation.

The parameters of the claimed transformer are determined by a given (technically sound) series of values of the maximum currents of the secondary windings. The transformer is designed to receive the voltage of the secondary winding of the following series: 6V, 12V, 18V, frequency 50 Hz when powered from a 220V network.

The essence of the claimed utility model is illustrated by electrical and structural diagrams, where in Fig.1, Fig.2 and Fig.3 shows a transformer containing a split ribbon twisted magnetic circuit 1, consisting of cores 2, 3 and band 4, primary windings of high voltage 5, secondary low voltage winding 6.

The transformer magnetic core is made of a cold-rolled anisotropic steel electrical tape, the windings are made of copper wire with heat-resistant insulation. The transformer assembly is impregnated with moisture-proof electrical insulating varnish.

The transformer operates as follows. The regulation of the voltage drop of the transformer comes from the control unit (BU) (figure 1) and is provided by changing the transformation ratio. Three conclusions of the primary high voltage windings of the claimed transformer are connected to the control unit on one side. One of the terminals of the primary winding has a permanent connection to the neutral conductor of the power supply. After connecting the transformer to the power supply for any value of the transformer by the value of the maximum current of the secondary winding, the primary winding is organized in such a way as to obtain the voltage of the secondary winding in idle mode of the following series: 6V, 12V, 18V. Thus, a switching algorithm occurs, which includes connecting the primary winding of the higher voltage corresponding to the required by the consumer on the secondary winding of the lower voltage, the necessary voltage is supplied.

The structural diagram of the inventive transformer allows you to create a lineup with the following parameters of the maximum currents of the secondary windings: 10A, 30A, 50A, 80A, 120A, 160A, 200A, 250A.

The transformer is resistant to shock loads with acceleration up to 8g and vibration loads in the frequency range 10-60 Hz with a maximum acceleration of 2 g, installation is possible both in horizontal and vertical position. Reinforced insulation of the windings increases the safety of transformer maintenance, increases the resistance to overvoltage in the network.

The design of the claimed economical in size and material consumption of the transformer allows its use in voltage stabilizers in a wide range.

Claims (2)

1. The transformer is a single-phase dry multipurpose, containing a split ribbon twisted magnetic circuit, consisting of cores and a band, on the cores of which are placed the windings of higher and lower voltage (primary and secondary), characterized in that the magnetic circuit is cut into two symmetrical parts, one of the cores is placed three primary windings of higher voltage, on the second core there is one secondary winding of low voltage. 2. The single-phase dry multi-purpose transformer according to claim 1, characterized in that the windings have reinforced insulation.