RU2025851C1 - Factory-assembled switch-gear - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: factory-assembled switch-gear is designed for use at electric power stations. Frame of switch-gear carries collecting buses common for two connections. Buses are coupled to main electric circuits of connection equipment arranged in two rows. Description gives three versions of design of frame. In compliance with first version switches in equipment compartments can be mounted on extending element or stationary. In agreement with second version switches are built-in in equipment compartments. In accordance with third version equipment compartments are mounted on rolled-out cars. EFFECT: improved functional convenience and efficiency. 4 cl, 3 dwg

Description

 The invention relates to electrical engineering, to the field of production, conversion and distribution of electrical energy and can be used at power plants, lowering substations of power systems for its supply and distribution.

 Known complete switchgear (switchgear) containing busbars, switching device, output conductors. Lead conductors are located in the upper part of the housing. This makes it possible to carry out a universal approach to the output conductors of external conductors - power cables, current conductors: side, front, top. Maintenance of the connection equipment, as well as the supply of external conductors, is performed from one front side, which concentrates attention both during operation and during repair work.

 The disadvantage of switchgear is the low utilization of busbars per unit length.

 The invention comprises busbars, connection equipment — switching apparatus, lead-out conductors. Equipment of at least two connections is placed in two rows with facades facing in opposite directions. In this case, the busbars are made common, connected to the main electrical circuits of the equipment of these connections. As a result, the length of the busbars is reduced by half in the calculation of one connection compared to the prototype. Switchgear is manufactured in a block casing, the design of which determines the presence of common busbars and the specified two-row placement of equipment connections.

 In FIG. 1, 2 and 3 depict examples of the construction of the block casing 1 with common busbars and equipment of two connections, placed in two rows with facades facing in opposite directions, with a partial transverse section, side view.

 The block housing 1 of FIG. 1 is made in the form of two rectangular posts located at a distance and connected at the bottom by a rectangular jumper. Common busbars 2 are located in a rectangular jumper 2. A switching device is located in each rectangular rack, for example, a switch mounted in the hardware compartment 3 on a pull-out element or stationary, and output conductors 4 and 5. There is free space 6 above the common busbars 2. Its presence creates the condition for installation and repair of common busbars 2. For this, the upper wall 7 of this part of the block casing 1 is removable.

 The block housing 1 of FIG. 2 is made in the form of an upper rectangle mounted along the longitudinal axis of the block case on a rectangular rack. In a rectangular rack placed common busbars 2. Its depth is sufficient to accommodate the latter. The front walls of this rectangular rack are removable for servicing common busbars 2. The upper rectangle is divided into two halves by a longitudinal vertical partition. In each half of it there is a switching device, for example, a switch installed in the hardware compartment 3 on a pull-out element or stationary, and output conductors 4 and 5 of the corresponding connection.

 The block housing 1 of FIG. 3 is made in the form of an upper rectangle mounted along the longitudinal axis of the block case on a rectangular rack. In the lower part of the rectangular rack there are common busbars 2. Its front walls are removable for servicing the common busbars 2. Switching devices, for example switches, are installed on both front sides of the rectangular rack in the withdrawable hardware compartments 3. The rest of the block case 1 is the upper part rectangular rack and upper rectangle - divided into two halves by a longitudinal vertical partition. In each of its half, lead conductors 4 and 5 of the corresponding connection are placed. The depth of the rectangular rack is sufficient to accommodate the common busbars 2 and output conductors 4. The interaction of the circuit breaker leads with the main electrical circuit of the equipment of the corresponding connection is made according to known technical solutions, for example, by means of disconnecting contacts (not shown in Fig. 3).

 Switchgear is used as follows.

 The choice of the design of the block casing 1 according to the described examples is made when designing an object. It takes into account the indicated design solutions of the block case, technical specifications of the customer. To achieve a technical result, other options are possible for a specific design of the block housing 1. The selected option is manufactured in the factory by common blocks. Each common block may include two or more block housings 1 with mounted common busbars 2 and equipment connections. In a building or in an outdoor installation, common blocks are placed so that front service corridors are provided along both rows of connections. For the switchgear of FIG. 1 and 3 compared with the structure of FIG. 2 design a building with a greater width, but with a lower height of the premises.

 Thus, the structure of the block housing 1 of FIG. 1, 2 and 3 include common busbars 2 connected to the main electrical circuits of the equipment of two connections, placed in two rows with facades facing in opposite directions. Each of the connections contains a switching device installed in the hardware compartment 3, output conductors 4 and 5, served from their front sides.

 This technical solution reduces the consumption of material necessary for the manufacture of common busbars 2 and the block casing as compared to using the switchgear according to the prototype, provides maintainability of the general busbars 2, maintains the performance characteristics described in the description of the prototype, increases the efficiency of factory manufacturing, transportation and installation of switchgear .

Claims (4)

 1. Complete switchgear containing busbars, connection equipment - switching apparatus, lead-out conductors, characterized in that at least the equipment of two connections is placed in two rows with facades facing in opposite directions, while the busbars are made common, connected to main electrical circuits of equipment for these connections.  2. The device according to claim 1, characterized in that the common busbars, equipment of two connections are placed in a block case, which is made in the form of two rectangular racks installed at a distance, connected at the bottom by a rectangular jumper, while the latter contains common busbars, and in each rectangular rack there is a switching device, output conductors of the corresponding connection.  3. The device according to claim 1, characterized in that the common busbars, equipment of two connections are placed in a block casing, which is made in the form of an upper rectangle divided into two halves by a longitudinal vertical partition mounted along the longitudinal axis of the block casing on a rectangular rack having shorter depth compared to the depth of the upper rectangle, while in the rectangular rack there are common busbars, in each half of the upper rectangle there is a switching device, output conductors with appropriate accession.  4. The device according to claim 1, characterized in that the common busbars, equipment of two connections are placed in a block case, which is made in the form of an upper rectangle mounted on the longitudinal axis of the block case on a rectangular rack having a shallower depth compared to the depth of the upper rectangle at the same time, common busbars are placed in the lower part of the rectangular rack, in each half of the rest of the block casing obtained by dividing this part of the block casing by a longitudinal vertical partition, p output conductors of the corresponding connection are located, and switching connection devices are installed on both front sides of the rectangular rack in the withdrawable hardware compartments.

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