SU1196983A1 - Cell of factory-assembled switch-gear - Google Patents

Description

The invention relates to electrical engineering, in particular to the structures of complete switchgear (KRU). Voltage 6-35 kV, consisting of a cell and used as switching points and excavator switchgears, which are designed to connect, control and protect electrical equipment of working machines, engines, transformers and other electrical installations in power supply systems for open mining.

The aim of the invention is to enhance the functionality of 15 by providing a measurement of the conduction current of the protective device under the operating voltage without installing special switching devices, simplifying the design and improving the 20 reliability of the cell.

On. FIG. 1 shows a single-line diagram of the primary connections of the switchgear cell; in fig. 2 - an example of con-25 structural implementation of a switch in a cell of a complete switchgear.

The switchgear unit contains a cabinet 1, in which the lead-in bus 2, 30 is located

a switch 3, an isolator consisting of two fixed contacts 4 and 5, a main 6 and a grounding 7 knives with shafts interlocked with each other (in Fig. 1, the lock is shown 35 by a dotted line), the first fixed contact 4 being connected to the input bus 2 The power supply cable 8 of the protective device 9 is also connected to the earthing 10 of the cabinet 40, the earthing switch 7 of the disconnector is connected, and an additional third fixed contact 11 is connected to the grounding wire 12 of the protective device and a ground is provided to this contact 7, when it is disconnected from the fixed contact 5. The additional third fixed contact I1 with the second fixed contact 5 and the grounding 50 knife 7 forms the switching device from the operating mode to the measurement and vice versa, the main knife 6 of the disconnector is connected to the switch C _t and the second fixed pin 5 of the connector 55 'of the unifier is connected to the main knife 6, the voltage from the power line is fed to the input bus 2, and

the power of the electric receiver is carried out by a cable connected to the switch 3.

The switching device uses an additional support insulator 13 with a fixed contact 11 (one per phase), which is mounted on the support 14 directly in the cell cabinet 1 below the grounding knives 7 of the disconnector. The upper flange of the protective apparatus 9 is connected by the mains lead 8c with the input bus 2 cells, and the lower flange of the protective apparatus 9 by the grounding wire 12 is connected to the additional third fixed contact 11. The protective apparatus is installed on the base plate isolated from the ground, which is supplied a metal plate resting on porcelain bushings, which allows between the protective apparatus and the ground parallel to the additional third fixed contact 11 and the cabinet grounding 10 n draw a circuit to measure the conduction current under operating voltage. As a protective device, a valve discharger can be used, as well as a nonlinear overvoltage suppressor.

Cell KRU works as follows.

In the operating mode, the main knife 6 is driven by its drive to the fixed contact 4 of the disconnector, the voltage from the power line is supplied to the switch 3 and then to the electric receiver cable. 11, thanks to which the protective apparatus 9 is connected by a network wire 8 to the input bus 2, and the ground wire 12 via an additional third fixed contact 11 and connected to it grounding knife 7 is connected to grounding 10, i.e., the protective device is closed directly to the ground.

11a, the time of periodic measurement of the conduction current of the protective apparatus of the main knife 6 is turned off, due to mechanical interlock between the shafts, the grounding knife 7 is switched on to the fixed contact 5, thanks_

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what the circuit of the grounding wire 12 of the protective apparatus is broken and connected to it is a device for measuring the conduction current of the protective apparatus without disconnecting from the network.

The proposed cell allows you to control the conduction current of the protective device without disconnecting from the operating voltage by installing only an additional fixed contact instead of an additional high-voltage disconnector, which improves weight and size, reduces material consumption, simplifies the design and reduces the cost

cells while maximizing the use of existing cell elements to create a switching device that changes the wiring so that

5 that the same disconnector in the cell with the working and grounding blades and an additional contact performs the functions of the operating mode, the grounding of the repaired

10 electrical equipment and provides the additional possibility of measuring the current conduction to diagnose the state of the protective apparatus, eliminating the need for installation

15 additional switching device.

Claims (2)

COMPLETE DISTRIBUTION DEVICE CELL, containing a cabinet with an input bus containing a protective device, a switch and a disconnector consisting of two fixed contacts and a main and grounding blade with shafts interlocked with each other, with the first fixed contact connected to the input bus to which the power cord of the protective device is connected, the earthing switch of the disconnector and the ground wire of the protective device are connected to the earthing of the cabinet, the main knife is connected to the switch, and the second zhny contact connected to the main blade, with otlichayuschaya- I that, in order to expand the functional capabilities by providing a protective device for measuring the conduction current operating voltage without installing special switching devices, simplifying construction and increasing reliability. _For operation, the disconnector is provided with an additional third fixed contact connected to the ground wire of the protective device, which forms a switching device from the operating mode to the measurement and vice versa with the second fixed contact and the grounding knife. 811 1196983 1 1196983 2