RU2217851C1 - Switchgear and control gear - Google Patents

Abstract

FIELD: electrical and radio engineering; one-sided switchgear and control gear with vacuum circuit breakers. SUBSTANCE: proposed installation has cabinet accommodating monoblock that integrates vacuum circuit breaker and vacuum chambers, as well as ground disconnecting switch with movable contacts. This monoblock can be removed from cabinet upon grounding cables without de- energizing collecting buses. Axes of collecting buses, those of vacuum chambers and of contacts of ground disconnecting switches are disposed not in lines but in triangle in three relatively perpendicular spatial directions. EFFECT: facilitated maintenance and repairs of switchgear and control gear. 5 cl, 11 dwg

Description

 The invention relates to electrical engineering, in particular to the designs of complete switchboards for one-way service with vacuum circuit breakers.

 Known switchgear series SVS company HOLEC (Netherlands), containing stationary mounted vacuum circuit breakers, on-off selectors (disconnectors, grounding) linear movement, cable entries, busbars [1].

 The phase modules of the vacuum circuit breakers are arranged in a line parallel to the busbars, which complicates the architecture of the primary circuits and increases the dimensions of the device. In addition, in this design, without switching off the entire substation, it is impossible to replace the circuit breaker, since busbars are directly attached to it; it is impossible to install current transformers in each cell of the switchgear, for this a special measuring cell is used. The solid insulation of all live parts worsens the thermal operation of the device, which explains its low current parameters and, as a result, the ability to connect only one cable.

 The primary circuit architecture closest is the one-way service switchgear series TEL, containing a vacuum circuit breaker and an earthing switch, combined in one monoblock, and the contact axis of the circuit breaker, disconnector-earthing switch and busbars are located in three mutually perpendicular planes [2].

 The design disadvantages are the relatively large dimensions of the device, since the fill factor of the internal volume is low, and the impossibility of replacing the circuit breaker without removing voltage from the busbars, i.e. without paying off the relevant section of the substation.

 The present invention solves the problem of creating a complete switchgear with the architecture of the power current-carrying circuit, providing the maximum possible fill factor of the internal volume of the product.

 The technical result of the application of the invention is to reduce the size of the complete switchgear and the ability to replace the switch without extinguishing the substation.

 The proposed complete switchgear is characterized in that the phase axes of the busbars, contacts of the disconnector-earthing switch and the contacts of the circuit breaker are not arranged in rows, but triangles, and the axis of the contacts of the vacuum circuit breaker is vertical, the axis of the contacts of the disconnector-earthing switch is horizontally and perpendicular to the service side, and the axis of the precast busbars horizontally and parallel to the service side, and the monoblock in which the vacuum circuit breaker and the disconnector-earthing switch are connected is secured by detachable connections inside the enclosure of the complete switchgear in the upper part behind the base of the vacuum circuit breaker, and in the lower - for the fixed contacts of the vacuum chambers.

 The movable contacts of the disconnector-earthing switch are made in the form of cylindrical double-sided collets with internal contact, moreover, their lamellas, being parts of cylindrical surfaces, are inclined to the axles of the collets and are pressed from the inside by leaf springs, made in the form of levers, resting with free ends on bushings with conical surfaces having limited freedom axial displacement relative to the collet body.

The supporting frame of the complete switchgear is assembled from a shaped profile made of aluminum alloy, and is lined with rectangular steel sheets having flanges on the faces, turned 180 ^o , with a bending radius corresponding to the shape of the said profile so that in the assembled state the faces of the facing sheets enter meshing with the profiles of the supporting frame and sealed there with rubber cords.

 The cable compartment of the complete switchgear is equipped with asymmetric plug-shaped lugs for connecting cables.

 The bottom of the cable compartment is equipped with devices for adjusting the vertical position of the cables.

 The essence of the invention lies in the fact that the disconnector-earthing switch is operated by linearly moving its contacts along the axes located in a triangle and directed in depth from the service side, and the axis of the phase modules of the vacuum circuit breaker, also located in a triangle, are directed vertically.

 This arrangement of contacts allows to reduce the dimensions of the monoblock, combining the disconnector-earthing switch and the vacuum circuit breaker and, as a result, to reduce the dimensions of the complete switchgear. The collet contacts of the disconnector-earthing switch enter the corresponding cylindrical sockets without tension, and then are opened there by lever springs to provide the necessary contact pressure. Flanging the lining sheets of the casing along the perimeter and its engagement with the supporting profile allows you to get the strength of the shell of the product in excess of analogues realized by the use of threaded fasteners. The use of asymmetric plug-in cable lugs allows you to connect up to 4 cables to one point without spacing them in space, which also solves the problem of reducing the overall dimensions of the product. Adjusting the vertical position of the cables makes it easy to connect.

 Figure 1 shows the architecture of the claimed device; figure 2 and 3 are axial sections along one of the phases of the aforementioned monoblock in the disconnected and grounded position of the movable contacts of the disconnector-earthing switch, respectively; figure 4, 5, 6 are axial sections of the contact of the disconnector-earthing switch in the disconnected, turned on and grounded positions, respectively; in Fig.7 and 8 - options for fastening the sheathing sheets to the corner and middle bearing profiles of the frame; in FIG. 9 is a view of a contact cable lug; and figure 10 is an option of fastening four tips at one point; 11 is a view of a device for adjusting the vertical position of the cable.

 The complete switchgear consists of a housing 1, inside of which busbars 2 and a monoblock are fixed, consisting of a TEL series vacuum circuit breaker with vacuum chambers 3, base 4 with magnetic latch actuators located inside, traction insulators 5 and a ground disconnector consisting of movable contacts 6, spindles 7, drive with a grounding plate 8 and fixed cylindrical contacts of the working 9 and grounded 10 position. The specified monoblock in the upper part is attached to the housing 1 by detachable connections 11 behind the base 4. The compartment of the switch 12 is separated from the cable compartment 13 by a metal partition 14 and bushing 15, inside of which there are current transformers 16, current sensors (Rogowski coils) 17 and capacitive voltage sensors 18. The central conductors 20 of the bushing insulators 15 in the compartment of the switch 12 are secured by detachable connections to the fixed contacts of the vacuum chambers 3, and in the cable compartment 13 to the cable lugs 21, pressed onto abeli 22. The bottom of the cable compartment 23 is equipped with devices for adjusting the vertical position of the cables, consisting of a housing 24, an elastic fixing element 25 of the fixing nut 26 and the adjusting nut 27. Inside the movable contacts of the disconnector-earthing 6, which are copper collets with lamellas 28, inclined to the axis collets, bushings 29, leaf springs 30 and retaining rings 31 are located. The bearing profile of the housing 32 is connected to the sheathing sheets 33 fixed with rubber cords 34.

 The device operates as follows.

 In the on position (FIGS. 1 and 5), the cables 22 are connected to the busbars 2 through the contacts of the vacuum chambers 3 and the contacts of the earthing switch 6. If necessary, disconnect from the busbars 2, first the vacuum switch opens (the contacts of the vacuum chambers 3 open), and then rotation special. the handle of the actuator 8 is the rotation of the spindles 7 and the movement of the movable contacts 6 to the off position (figure 2 and 4). The possibility of operating a switch and an earthing switch is determined by interlocks according to GOST and IEC.

 The mimic diagram on the front panel reflects the position of the contacts of the vacuum circuit breaker and the disconnector-earthing switch. If it is necessary to ground cable 22, during repair or routine maintenance, the movable contacts of the disconnector-earthing switch are brought to the earthed position (Figs. 3 and 6) and the contacts of the vacuum circuit breaker are closed. This procedure is not critical even with erroneous actions of the operator (grounding of a cable under voltage), since the vacuum circuit breaker is designed to turn on short-circuit currents. After the grounding procedure is completed, the cables 22 are grounded through the conductors 20, closed vacuum chambers 3, movable 6 and fixed 10 contacts of the disconnector-earthing switch. One of the fixed contacts 10 is implemented in the grounding plate of the actuator 8, connected to the ground circuit of the substation. In this condition of the complete switchgear, it becomes possible to remove the cable compartment cover (electromagnetic interlock) to apply, if necessary, portable grounding to the cable lugs with preliminary testing by the indicator for lack of voltage. After that, it is possible to remove the front cover of the compartment of the switch 12, providing access to detachable threaded connections 11, fastening the base of the vacuum switch 4 to the housing 1 and connections 19, fixing the stationary contacts of the vacuum chambers 3 to the conductors 20. Having unscrewed these threaded connections, you can remove the monoblock uniting vacuum switch and disconnector-earthing switch (figure 3) from the housing of the complete switchgear without removing voltage from the busbars 2. Thus, the claimed design combines the advantages of switchgear with stationary installation switches (simplicity) and switchgear with withdrawable elements (the ability to replace a switch without extinguishing the substation).

The claimed complete switchgear also allows the following routine maintenance:
- high-voltage testing of the insulation of the cables 22 by applying a test voltage to the terminals 21. The movable contacts of the disconnector-earthing switch 6 are in this case in the off position (figure 2);
- earthing of busbars. After the cable lugs are superimposed on the cable lugs, the vacuum circuit breaker is turned off and the disconnector contacts are switched to the on position. After that, by turning on the vacuum circuit breaker, the busbars are grounded 2. Next, you can open the side cover of the substation section and apply portable grounding to the busbars;
- high-voltage testing of vacuum chambers 3. The vacuum chambers are open, the contacts of the disconnector-earthing switch 6 are in the earthed position. The cable lugs 21 are disconnected, and a test voltage is applied to their connection points.

 When the movable contacts of the disconnector-earthing switch 6 are in any position, except for the included and grounded ones, all the parts occupy the position shown in Fig. 4. When contact 6 comes to one of the extreme positions, it stops, and the sleeve 29 continues to move all the way to one of the retaining rings 31. The ends of the springs 30 are unclenched from the center to the periphery, and the heels of the springs (*) press the lamellas to the cylindrical surfaces of the stationary contacts 9 or 10. Figure 5 shows the position of the parts of the movable contact in the on position, figure 6 - in the grounded.

 The device for adjusting the vertical position of the cable (Fig. 11) is fixed on the cable sheath 22 by compressing the nut 26 and compressing an elastic element, such as rubber 25. The specified fixation is carried out at approximately the desired location of the cable 22. The nut 27 is precisely adjusted by the height of the tip 21 relative to the attachment point to the current lead 20.

 The mounting options for the sheathing sheets to the bearing profile shown in Figs. 7 and 8 provide the sheath strength of the complete switchgear with internal arc faults, since the tear-off force of the sheathing rolled around the perimeter is comparable with the tear-off force of this sheet.

 The use of cable lugs (Fig.9) allows you to connect up to 4 cables at one point (Fig.10), which is impossible to implement using known types of lugs.

Sources of information
1. HOLEC SUS 3.6-24 kV Promotional Leaflet resin insulated Switchgear in sheet steel enclosure with vacuum interrupters. 3.5.1.

 2. Pat. RF 2173014 Complete switchgear from 03.16.1998.

Claims (5)

1. Complete one-way switchgear comprising a vacuum circuit breaker and a disconnector-earthing switch, combined in one monoblock, busbars, feed-through current transformers, characterized in that the phase axes of the busbars, contacts of the disconnector-grounding switch and the contacts of the vacuum circuit breaker are not arranged in rows, but triangles, and the axis of the contacts of the vacuum circuit breaker is vertical, the axis of the contacts of the disconnector-earthing switch is horizontally and perpendicular to the service side, and the axles are prefabricated x tires horizontally and parallel to the service side, and the aforementioned monoblock is mounted inside the enclosure of the switchgear with detachable connections at the top for the base of the vacuum circuit breaker, and at the bottom for the stationary contacts of the vacuum chambers. 2. The complete switchgear according to claim 1, characterized in that the movable contact of the disconnector-earthing switch is made in the form of a cylindrical two-sided collet of internal contacting, and its lamellas, being part of the cylindrical surface, are inclined to the axis of the collet and pressed from the inside by leaf springs made in the form levers supported by free ends on a sleeve with a conical surface having limited freedom of axial movement relative to the collet body. 3. A complete switchgear according to any one of claims 1 and 2, characterized in that the supporting frame of the device is assembled from a shaped profile made of aluminum alloy and is lined with rectangular steel sheets having flanges on the faces wrapped 180 ° with a bend radius corresponding to the shape of said profile in such a way that in the assembled state, the faces of the facing sheets mesh with the profiles of the supporting frame and are sealed there with rubber cords. 4. The complete switchgear according to any one of claims 1 to 3, characterized in that the cable compartment is equipped with asymmetric plug-in cable lugs. 5. Complete switchgear according to any one of claims 1 to 4, characterized in that the bottom of the cable compartment is equipped with vertical cable adjusters.

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