RU2321122C1 - Low-voltage switchgear and control gear - Google Patents

Abstract

FIELD: electrical engineering; cabinets for low-voltage switchgear and control gear designed for electrical energy distribution and metering.

SUBSTANCE: proposed low-voltage switchgear and control gear has at least one power cabinet with draw-out modules, each of the latter being provided with mechanism for locking them in desired positions and bus compartment with mainline and distribution bused installed in top part. Bus bridge is formed by mainline buses set on edge and clamped throughout their entire length by means of bus holders; each of the latter has two transversal load-bearing members. Bottom load-bearing member is secured on cabinet framework and top one is mounted on bottom load-bearing member by means of fastening members for holding down mainline buses. Bus bridge is equipped with insulators having protruding members on their supporting surfaces. Each load-bearing member has longitudinal row of holes to receive mentioned protruding members of insulators provided with slots on locating surfaces for disposing mainline buses on them.

EFFECT: improved performance characteristics, enhanced safety.

3 cl, 8 dwg

Description

The invention relates to the electrical industry and is intended for the formation of low voltage switchboards operated in various fields of activity, for example, for use in the power supply system of the needs of any type of power plant.

A complete switchgear is known comprising a cabinet having various functional compartments, including a drawer compartment, equipped with an individual signal circuit of the position of the withdrawable circuit breaker (RU, patent No. 2107370, Н02В В 1/30, 03.20.1998).

Also known is a low-voltage complete device for input, distribution, electricity and control, comprising at least one power cabinet, made with retractable modular units and including a bus compartment, in the upper part of which trunk and distribution buses are installed (Catalog of MERLIN GERIN, 1998 city, p. 2, 6).

This solution is selected as a prototype for the claimed device according to the present invention.

The objective of the described invention, characterizing a low-voltage complete device for input, distribution of electricity and control, is to improve the operational characteristics of the device and increase its safety by ensuring the assembly of the device from any required number of power cabinets and the formation of a single busbar bridge that will provide power supply to each power cabinet.

The specified technical result in the design of a low-voltage complete device for input, distribution of electricity and control, containing at least one power cabinet, made with extendable modules and including a bus compartment, in the upper part of which trunk and distribution buses are installed, is achieved by the fact that it is equipped with fixing mechanisms each modular block in the required positions and with a busbar bridge formed in parallel by the main tires mounted on the rib, fastened throughout for not by busbar holders, each of which has two transversely arranged load-bearing elements, the lower of which is mounted on the cabinet frame, and the upper - by means of fasteners, is mounted on the lower load-bearing element for pressing the busbars, and the busbar bridge is equipped with insulators with protruding elements on their supporting surfaces, and on each supporting element there is a longitudinal row of holes for installing the said protruding elements of insulators in them, made with grooves on the mounting surfaces for placement the busbars in them, in addition, the device can be equipped with a mechanism for fixing each modular block in the required position in the functional compartment of the power cabinet, which includes two square-section rods, mutually perpendicular, one of which is installed between the side walls of the modular block, and the other - is connected with the control mechanism of the circuit breaker, while on the first rod is placed with the possibility of fixing in the desired position on the rod cam, having the form of a disk with two p unidirectionally arranged U-shaped grooves, and on the second rod with the possibility of fixing in the required position, a sector is installed with the possibility of entering the corresponding groove of the specified fuse, while on both ends of the first rod the cams are rigidly fixed with open curved slots for interacting with them supports mounted on the inner surfaces of the side walls of the functional compartment of the cabinet, and at one end of the first rod, the fixing handle of the modular block is rigidly fixed, and on the inner surface of one of the side walls there is a fixing element for locking the aforementioned locking handle of the modular block in three required positions, in addition, on the front surface of each modular block there is a control handle for the circuit breaker mounted to engage with the second rod, and each modular block may be provided with at least five power connectors having a housing made of two parallel expandable halves, on the inside of each of which five grooves are made to accommodate the rocker-shaped contact plates, each pair of corresponding contact plates located on different halves of the housing is connected by an arcuate compression spring in which two rectangular grooves are made for the contact plates to pass through them.

Figure 1 shows a General view of the device; figure 2 - device in another configuration of cabinets; figure 3 - power cabinet with tires; figure 4 - tire holders; figure 5 - insulators; figure 6 is a General view of the power cabinet with retractable modular units; figure 7 - locking mechanism of the modular block; on Fig - power connector.

The low-voltage complete device for input, distribution of electricity and control (hereinafter referred to as the shield) for one-way maintenance consists in the considered example of five one-way service cabinets with the specific purpose of each power cabinet, namely, cabinet 1 for docking with power distribution transformer, cabinet 2 for inputting electricity, cabinet 3 for distribution electricity cabinet 4 control mechanisms, cabinet 5 cable entry (figure 1).

With a different configuration, the device may consist of four double-sided service cabinets with a specific purpose for each power cabinet, namely power supply cabinets 6 and 7, power distribution and control cabinets 8 and 9, bus jumper 10 is designed to connect busbars of two panels (Fig. 2).

Each power cabinet has its own busbar system, consisting of trunk (horizontal) buses 11 (Fig. 3), designed to transmit electricity between cabinets, distribution (vertical) buses 12, designed to supply electricity to consumers, and transition buses 13. Trunk buses 11 are located in the upper part of the cabinet in the bus compartment 14, and when assembled into a shield they are connected to each other by means of docking buses 15, which are copper plates with ellipsoid openings designed to compensate dimensional errors and temperature deformation. Vertical tires are located at the rear of the one-way service cabinet 16 and in the middle of the two-way service cabinet 17 (Fig. 17). Transition busbars 13 are used to connect trunk and distribution buses. All tires are isolated from the touch of service personnel without special tools. The section of the busbars is selected depending on the total power load of the connections of the entire switchboard or at least one distribution and control cabinet.

For spatial orientation in the cabinet and their fastening, busbar holders are used 18. The basic element of the busbar holder 18 is an insulator 19 made of plastic having high dielectric properties and mechanical strength, which has a complex shape. In the design of the insulator 19 (Fig. 4), five grooves 20 (Fig. 5) are provided, a length multiple of 8 sizes of tire thickness, intended for mounting and guiding the busbars. The insulators have three square spikes 21 with a central slot and a supporting plane 22. The insulators 19 are mounted on their channels 23 and 24 with their supporting plane, in which there are square holes 25 for the direction and orientation of the insulators. Busbars are installed in the grooves of insulators 20 located on the channels 23 and 24 on both sides of the tires, and the channels are pulled together by means of threaded rods 26 and fasteners 27, thus ensuring reliable fastening of the busbars and depriving them of five degrees of freedom in space.

The described construction of busbars for low-voltage switchgears for input, distribution of electricity and control ensures the assembly of a unified modular design without the use of welding and loss of stiffness, maintaining the constancy of strength, electrodynamic characteristics and electrical parameters of the main circuit.

All power cabinets included in the low-voltage package device contain a functional compartment 28 (Fig.6), which includes sliding modular units (carts) 29 or sliding circuit breakers of the power circuit connector. Each modular unit has a system of mechanical and electrical interlocks that ensure the safe operation of the switchgear. The modular unit is made of panels made of sheet metal, bent in certain places to give structural rigidity, front 30, two side 31, equipment installation panel 32, rear panel 33. A circuit breaker 34 is located on the equipment installation panel 32. On the front panel 30 having the corresponding figured hole 35, the handle 36 for controlling the circuit breaker 34 is installed. The control is carried out by means of a rotary shaft 37 having a square cross section across and at the end across a primary pin 38 for pivotally securing in the figured hole of the handle 35.

The low-voltage complete device is equipped with distribution busbar bridges located vertically behind the functional compartment 28 (Fig.6) and designed to supply voltage to the retractable modular units 29.

On the rear panel 33 of the unit there are detachable power connectors 39 (contacts) (Figs. 7, 8), which, when the modular unit is moved to the working position, are connected to the distribution buses 40. This arrangement of the buses and the design of the connectors of the vertically arranged poles of the retractable module allow you to remove anywhere in the cabinet along the tires.

The design of the connectors 39 (Fig. 8) is a housing 41 made of durable plastic with high dielectric properties, having five levels of horizontal grooves 42 located at the same distance from each other. In the grooves are installed contacts 43, which relieve stresses from the tires. Each contact is an elongated part of a rectangular profile with rounded ends at the ends. The contacts 43 in the grooves 42 are mounted in pairs mirror-to-each other with rounded ends inside the connector and burst by a spring 44 made in the form of a ring with two rectangular grooves through which the contacts pass, from the side of the modular unit 29, where they are connected to the connection bus 45. The rounded ends of the contacts 43 on the other side of the housing, being in the grooves, as guides, can be inserted into the distribution busbars with a certain pressing force, which allows reliable and stable passage of current up to 125 A. By installing additional pairs of contacts in the grooves of the housing, increasing the bandwidth of the connector to 250, 375, 500, 625 A.

To move the unit in the cabinet to the working, test and disconnected position, a stationary handle 46 and a rotary handle for fixing the modular unit 47 are installed on the front panel 30. To fix the handle 47 in the above positions, there is a push button 48. When the button 48 is pressed, the pin 49 leaves the groove 50 of the rotary handle 47. The pin 49 is located on the housing 51 of the push button 48. Using the springs 52 located on the legs 53 and resting against the corner 54, mounted on the side wall 31 of the drawer unit, the button 48 is returned to the original e position, ensuring that the pin 49 gets into one of the three grooves 50 of the rotary handle 47. Thus, the rotary handle 47 can occupy one of three fixed positions marked on its end side with the letters: “I” - operating position, “T” - test position, “O” - detached position of the retractable modular unit. A pivot rod 55 having a parallelepiped shape with a square cross section is inserted into the square hole of the rotary handle 47. In addition to the rotary handle 47, two hooks 56 with open curved grooves on both sides of the rod and an eccentric 57 with two radially arranged U-shaped grooves are installed on the bar in addition to the rotary handle 47. The hooks 56 are designed to move the sliding block from the test position to the working position and create a certain force to insert the connectors 39 onto the distribution busbars 40, for which purpose the hook holes are provided with square holes 58, by means of which the rotational movement from the rotary handle 47 is transmitted through the rod 55 on the hook, and shaped grooves 59, which engage with cylindrical supports 60, rigidly mounted on the vertical racks of the cabinet, and through which the kinematic transformation of the rotator the movement of the rotary knob 47 into the translational movement of the connectors 39 and the entire modular unit. In this case, the eccentric 61 is fixed on the rod 55 with a screw at the location of the rotary shaft 37 control circuit breaker. The eccentric 61 engages with a sector 62 located on the rotary shaft 37 by means of a screw, and they act as a mechanical lock in case of erroneous actions of the personnel and do not allow the unit to be installed from the disconnected or test position to the operating position when the circuit breaker is turned on and do not allow the unit to be pulled out working position in the test with the circuit breaker closed. When you turn the knob 35 to control the circuit breaker 34, the rotational movement is transmitted through the transverse pin 38 to the rotary shaft 37, in the ON-on position, sector 62 enters the groove of the cam 61, thereby creating a mechanical lock for the rotary system consisting of the handle 47, the rod 55 , hooks 56, cylindrical supports 60 and the frame of the uprights of the power cabinet as supports. When the knob 35 of the control of the circuit breaker 34 is turned to the “OFF-off” position, the sector 62 exits the groove of the eccentric 61, thereby creating no obstacles for the rotary system: the knob 47, the rod 55, the hook 56, and when the rod 55 is rotated, the hook 56 , the slots 59 of which become in a position that allows the hooks to disengage from the cylindrical supports 60. The retractable modular unit is mechanically released and can be removed from the functional compartment, ensuring the separation of the electrical circuit of the unit and the cabinet when switched off m circuit breaker.

Claims (3)

1. A low-voltage complete device for input, distribution of electric power and control, comprising at least one power cabinet, made with retractable modular units and including a bus compartment, in the upper part of which trunk and distribution buses are installed, characterized in that it is equipped with mechanisms for fixing each a modular block in the required positions and a busbar bridge formed in parallel by the main tires mounted on the rib, fastened along the entire length by busbar holders, each of the cat It has two transversely spaced load-bearing elements, with the lower load-bearing element mounted on the frame of the cabinet, and the upper by means of fasteners mounted on the lower load-bearing element for pressing the busbars, and the busbar bridge is equipped with insulators with protruding elements on their supporting surfaces, and on each bearing the element has a longitudinal row of holes for installing the indicated protruding elements of insulators in them, made with grooves on the mounting surfaces to accommodate the main in. 2. The device according to claim 1, characterized in that the mechanism for fixing each modular unit in the required position in the functional compartment of the power cabinet includes two square-section rods, mutually perpendicular, one of which is installed between the side walls of the modular unit, and the other is connected with the control mechanism of the circuit breaker, while on the first rod is placed with the possibility of fixing in the desired position on the rod cam, having the form of a disk with two radially located U-shaped p , and on the second rod with the possibility of fixing in the required position, a sector is installed with the possibility of entering the corresponding fuse of the specified fuse, while on both ends of the first rod the cams are rigidly fixed with open curved slots for interacting with them cylindrical supports mounted on the inside the surfaces of the side walls of the functional compartment of the cabinet, and at one end of the first rod the modular block fixing handle is rigidly fixed, and on the inner surface of one of the postglacial wall mounted locking member for locking said handle assembly module fixation at three desired positions, in addition, on the front surface of each modular block has a control lever a circuit breaker mounted to engage with the second pole. 3. The device according to claim 1 or 2, characterized in that each modular unit is equipped with at least five power connectors having a housing made of two parallel-expandable halves, on the inside of each of which five grooves are made to accommodate contact plates in the form of a rocker arm, with each pair of corresponding contact plates located on different halves of the housing connected by an arcuate compression spring in which two rectangular grooves are made for passage through them contact tny plates.

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