RU108856U1 - HIGH VOLTAGE COMPACT DEVICE FOR INSULATION TEST - Google Patents

Abstract

A device for testing insulation with increased voltage, consisting of a circuit breaker connected to an alternating current network, a test resonant transformer, a rectifier, a button shunting a rectifier, a current-limiting resistor, a test object, characterized in that a single design and technological component is introduced into the primary circuit, made on one core with a secondary winding of a resonant transformer and consisting of the first and second conductive plates, coiled into a spiral and separated by a dielectric, the first plate has a terminal at the beginning of the plate, and the second plate has terminals located along the entire length, the circuit breaker is connected to the terminal at the beginning of the first plate and to one of the conclusions of the second plate of a single design and technological component.

Description

The utility model relates to the field of electric power and can be used for testing with increased rectified voltage and alternating sinusoidal voltage of industrial frequency 50 Hz of high-voltage insulation of electrical equipment.

A high-voltage test installation is known, which contains a circuit breaker connected to an alternating current network, an adjustment column, a test transformer, a button shunting a milliammeter to protect it from overload, a rectifier, a limiting resistor, a test object [I. Jacobson Tests and checks during the commissioning of electrical equipment. - M.: Energoatomizdat, 1988. - 120 p.: Ill.].

The disadvantages of testing facilities of this type include low power, which provides low currents (10-40 mA) in the secondary circuit, and, as a result, the inability to test with an increased alternating sinusoidal voltage of an industrial frequency of 50 Hz of high-voltage insulation of large-capacity electrical equipment.

Known resonant high-voltage test setup, containing connected to the AC mains circuit breaker, autotransformer, test resonant transformer, with an adjustable gap in the magnetic circuit, rectifier, button, shunt rectifier, test object [High voltage technique: theoretical and practical application: Per. with him / M. Beyer, V. Beck, K. Meller, V. Tsaengl; Ed. V.P. Larionova. - M.: Energoatomizdat, 1989. - 555 p.: Ill.]. In this setup, the possibility of using a resonance circuit with low attenuation formed by the high-voltage insulation capacitance and the leakage inductance of the test transformer is realized, and the effect of the disappearance of resonance during breakdown of the test object due to instantaneous change in circuit parameters is used. The resonance setting is provided by changing the inductance when adjusting the air gap in the magnetic core of the resonant transformer.

The disadvantages of this type of installation are the complexity of the design of the magnetic circuit of the test resonant transformer.

The closest technical solution to the proposed one is a resonant high-voltage test setup containing a circuit breaker connected to an alternating current network, a test resonant transformer, a rectifier, a button, a rectifier bypass, a test object [Utility Model Certificate No. 73495 of 05.25.2008, IPC G01R 31 / 06.]. In this installation, unlike the previous analogues, the possibility of using a non-corroding high-voltage winding due to the small number of turns of the high-voltage winding of the test transformer and performing its single layer is realized. The design of the test transformer is greatly simplified.

The disadvantage of this type of installation is its limited scope, since they work only with high-voltage insulation of large-capacity electrical equipment. In addition, they have a very wide range of tuning the circuit in resonance, increasing the tuning time.

The technical task of the utility model is to eliminate the above disadvantages, as well as reducing the weight and dimensions of the device.

This goal is achieved by the fact that in a known installation containing a circuit breaker connected to an alternating current network, a resonance test transformer, a rectifier, a button, a rectifier shunt, a test object, a single design and technological component is introduced into the primary circuit, made on one core with a secondary winding resonant transformer and consisting of the first and second conductive plates, rolled into a spiral and separated by a dielectric, the first plate has a conclusion to the beginning e plates, and the second plate has terminals located along the entire length, and the circuit breaker is connected to the terminal at the beginning of the first plate and to one of the terminals of the second plate of a single design and technological component. The conductive plates perform the function of three elements: the primary winding of the test resonant transformer, inductance and capacitance (resonant circuit).

Figure 1 presents the proposed device for testing insulation with high voltage, consisting of a circuit breaker 1 connected to an AC network, inserted into the primary circuit of a single design and technological component 2, connected in series with the secondary winding of the test resonant transformer 3, rectifier 4, button 5 shunting the rectifier 4, the current-limiting resistor 6, of the test object 7. The equivalent circuit of the test object includes a parallel connection of the capacitor insulation 8, and its active resistance 9. A single design and technological component 2 consists of the first 10 and second 11 conductive plates, rolled into a spiral and separated by a dielectric, the first plate 10 has an output at the beginning of the plate, and the second plate 11 has conclusions located along the entire length.

The device operates as follows. When the circuit breaker 1 is closed, the alternating voltage from the network goes to the plates 10.11 of the single design and technological component 2. The resonance of the single design and technological component 2 is adjusted in steps by connecting one of the terminals of the second conductive plate 11 to the circuit breaker 1. After setting up the circuit in the resonance voltage at the test object 7 smoothly rises to a predetermined value of the test voltage and is maintained for a predetermined time interval.

Claims (1)

A device for testing insulation with high voltage, consisting of a circuit breaker connected to an alternating current network, a resonance test transformer, a rectifier, a button, a shunt rectifier, a current-limiting resistor, a test object, characterized in that a single design-technological component is introduced into the primary circuit one core with a secondary winding of a resonant transformer and consisting of the first and second conductive plates, rolled into a spiral and once ELENITE dielectric, the first liner has a terminal electrode at the beginning, and the second plate has terminals located throughout the length of the circuit breaker connected to the terminal at the beginning of said first electrode and one of the terminals of the second single electrode design-engineering component.