BG66475B1 - Oltc with two vacuum arc arrester chambers for side mounting on the transformer - Google Patents

Abstract

The OLTC controls of the voltage on-load of power transformers. It is mounted sideways on the transformer tank. Its power switch operates with vacuum arc arrester chambers (VAC) and resistors. At the rear face of the vertical isolation plate (22), a selector (20) is situated, contained in oil-tight isolation cylinder (19) with isolation bottom (23). On the isolation cylinder, even (8, 18) and odd (7, 17) fixed contact elements are mounted, connected to conductor rings (25, 26) by means of moving contact assemblies (39, 43). The pre-selector (45) is situated next to the selector (20) and has oil-tight isolation cylinder (46) with isolation bottom (47). At the rear face of the isolation plate (22), a metal shield selector (30) is mounted, with Geneva wheels and two-arm shift (29). At the metal shield (30), a power switch (32) is mounted, with two or three VAC (69) and resistor (99). The power switch (32) and the Geneva gear (27, 28, 29) are placed in a protective casing (66) with lid (67) and connection flange (68) for attachment to the tank of the transformer.

Description

(54) STEP REGULATOR HA VOLTAGE WITH VACUUM ARGUATION CHAMBER FOR SIDE INSTALLATION OF THE TRANSFORMER

Field of technology

The invention relates to a step regulator, which is designed to regulate under voltage the voltage of power transformers. It is mounted on the side of the transformer boiler. Switches with the help of vacuum arc quenching chambers (VDK) and resistors.

BACKGROUND OF THE INVENTION

A step voltage regulator / 1 / is known, containing a vertical insulating plate, on which a pre-selector is located. A power switch with VDK and two parallel contact units is mounted on the front insulation panel in front of the Maltese gear of the selected one. The power switch works in conjunction with a reactor located behind the insulation board in the space of the load-adjustable power transformer. The step controller is located in a protective housing with a cover and is mounted on the side of the transformer wall. With a three-phase step controller, three phases are mounted next to each other on an insulation board.

The disadvantage of this step regulator is that reactors are used, which are heavy, expensive and take up a lot of space. Another disadvantage is that VDK switches inductive load, which significantly complicates its work. Another disadvantage is that the parallel contact nodes get partial electrical erosion, which pollutes the oil environment.

A step regulator / 2 / is known for lateral mounting of the transformer boiler, containing three phases located next to each other perpendicular to a vertical barrier. Each phase has circular fixed contact elements with terminal wires embedded in a block of epoxy compound. The movable contact systems with resistors rotate and alternately select the stages of the control winding of the transformer, operating in selector mode under load. The step regulator is located in a casing with a cover.

The disadvantage of this step regulator is that it extinguishes the arcs in oil and pollutes it significantly. Another disadvantage is that the contact nodes wear unevenly, which limits the electrical wear resistance.

Another disadvantage is that epoxy compound castings are heavy and expensive.

Technical essence of the invention

The object of the invention is to provide a step controller for side mounting of the transformer, which has a power switch with VDK and resistors. The step regulator must be located on an insulating plate and have a protective cover with a cover.

The problem is solved with a step regulator, containing a vertical insulating plate with a selector and a preselector located on it. The selector has circular even and odd contact elements and movable even and odd contact nodes connected by insulating elements to an even Maltese wheel and an odd Maltese wheel. At the front of the Maltese gear is a power switch with VDK and resistors. The step regulator has a protective cover with a cover. In the case of a three-phase step controller, three phases are mounted in parallel on the insulation board, which can be insulated relative to each other. According to the invention, the selector is mounted on the rear side of the insulating plate and is an oil-tight insulating cylinder with an insulating bottom and a central insulating tube which is open to the front of the insulating plate. A preselector is located next to the dialer. On the front of the insulation board there is a mechanism of an even Maltese wheel, an odd Maltese wheel and a two-arm translation. A power switch with two or three VDCs is installed next to the Maltese gear.

Circularly on the insulating cylinder of the selected are mounted oil-tight even and odd contact elements. An even drain ring and an odd drain ring are arranged on the insulating pipe, from which an even conductor and an odd conductor passing through the opening of the insulating pipe are derived.

66475 Bl

They are connected to the power switch. A wire of the power switch terminal also passes into the insulating pipe. It is connected to a through contact element of the insulating bottom.

The two Maltese wheels are mounted at the outlet of the insulating pipe and are connected respectively to an even insulating drive sector which has an insulating ring with a tail and to an odd insulating driving sector with an insulating ring with a tail. The two insulating rings are mounted on the even and odd discharge rings, respectively, and even and odd movable contact assemblies are mounted on the tails.

A metal shield is attached to the front face of the insulation board, to which a power switch with a spring energy accumulator (PEA) is mounted. The two-arm transmission is driven by a composite metal-insulating shaft by means of a helical gear and a freewheel clutch. The drive shaft also charges the PEA.

The pre-selector is mounted to the rear wall of the insulation board, parallel to the selector. It contains an oil-sealed insulating cylinder is an insulating bottom and a fixed contact element connected to the last fixed contact element of the selector. Both fixed contact elements are mounted on the insulating cylinder, which alternately contact with a movable contact unit. The movable contact unit is driven by insulating rails connected to a drive mechanism. The pre-selector can be mounted on the vertical axis of the selector or inclined to it.

Another variant of a preselector is when it is located next to the selector in the oil space of the transformer. It has a fixed contact element connected by a carrier to the last movable contact element of the voter. Two fixed contact elements are located on an insulating sector, which is attached to the insulating plate by a stable metal sector. The insulation sector can be cantilevered. The movable contact assembly of the pre-selector is mounted on a support which is mounted to the fixed contact element by an axis and is connected to a drive mechanism by an oil-sealed shaft, arm and insulating rail.

In the case of a three-phase step controller, the three phases of the described type are located next to each other on an insulating plate. Another variant of a step regulator is when the insulation plate is located horizontally and the selector has a vertical axis. The power switch is mounted under the insulation board. The pre-voter is placed above the voter co-with him. There may be an option in which the insulation plate and the selector are inclined.

An advantage of the step controller according to the invention is that VDCs are used in combination with resistors. Compared to the reactor stage regulator, there are no expensive and heavy reactors that take up a lot of space in the transformer. Another advantage is that the arcing in the resistor power switches is safer.

An advantage over the step regulator with arc quenching in oil is that the use of VDK does not contaminate the oil and the electrical wear resistance is greater.

Explanation of the attached figures

An exemplary embodiment of a step voltage regulator according to the invention is shown in the accompanying figures, of which:

Figure 1 is a longitudinal section through one of the phases of the step regulator;

fshura 2 - cross section in front of the Maltese gear;

Figure 3 is a cross section through the contact systems of the selector and the pre-selector;

Figure 4 shows another variant of a pre-selector;

Figure 5 is a diagram of the arrangement of the nodes in a three-phase step regulator;

Figure 6 - variant of the step regulator with selected, located vertically.

Examples of the invention

Fixed even and odd contact elements 1 to 18 are mounted in a circle on an insulating cylinder 19 of a selected 20. The cylinder 19 has on one side a flange 21, through which it is mounted to a vertical insulating plate 22, and on the other side is tightly closed by oil. insulating bottom 23. In the center of the selector 20 is located an insulating tube 24, on which are attached an even current-carrying contact ring 25 and an odd current-carrying

66475 Bl contact ring 26. In front of the insulating plate 22 on the outlet of the insulating tube 24 is mounted a Maltese gear consisting of an even Maltese wheel 27, an odd Maltese wheel 28 and a two-arm translation 29. The tube 24 is reinforced in the Maltese gear with a metal shield 30 to the insulating plate 22. Three insulated conductors pass inside the tube 24. One of these wires 31 is connected between the even terminal of the power switch 32 and the even output ring 25. The second wire 33 is connected between the odd terminal of the power switch 32 and the odd output ring 26. The third wire 34 exits the common terminal of the power switch 32 and goes to a contact element 35 passing oil tightly through the insulating bottom 23.

The even Maltese wheel 27 has a metal drive sector 36 which is connected to an insulating sector 37. The insulating sector 37 is connected to an insulating ring with a tail 38 mounted on the drain ring 25 and an even movable contact node 39 is mounted on the tail. the odd Maltese wheel 28 has a drive sector 40 connected by an insulating sector 41 to an insulating ring with a tail 42 to which an odd movable contact unit 43 is mounted. Laterally from a selected 20 to the insulating plate 22 (Fig. 1, Fig. 3) by a flange 44 a pre-selector 45 is mounted. It has an oil-sealed insulating cylinder 46 and an insulating bottom 47. Three fixed contact elements are oil-tightly mounted on the insulating cylinder 46. Input contact element 48 connected via a conductive connection 49 to contact element 18 of a selected 20. Two contact elements 50 and 51, also referred to as + and a movable contact node 52 of the preselector 45 are switched in a known manner from 51 to 52 and vice versa by insulating rails 53, mounted eccentrically between arms 54 and 55.

The insulating rails 53 are driven in a known manner by a gear consisting of a lever 56 with a roller 57, a gear sector 58 connected to a lever 56 and a gear sector 59 connected to the shaft 60 of the drive rails 53. A hinge can be used instead of a gear quadruple. The two-arm gear 29 has two drive rollers 61 and is mounted on a shaft 62. In a known manner, the two-arm gear 29 is actuated by a large gear of the helical gear 64. The small gear of the helical gear 64 is connected to a metal insulating gear. a drive shaft 65 passing oil tightly through a protective casing 66. The protective casing has a cover 67 and a flange 68, by means of which it is attached laterally to a non-exposed boiler of the transformer.

The preselector 45 is offset from the longitudinal axis of the selected 20 to make the electrical connection accessible and to reduce the longitudinal gauge slightly. A variant is also possible in which the pre-selector is located symmetrically on the longitudinal axis, as the axis of contact 48 coincides with it.

The power switch 32 (Fig. 1) is of a known type and can be with two VDCs or three VDCs. Its device is as follows. Two or three VDK 69 are caught by metal heads 70 to a flat insulation sector 71. This sector together with a second flat insulation sector 72, a metal bottom 73, an insulation sector of a cylinder 74 and undisplayed reinforcing columns form the supporting structure of the power switch 32. bottom 73 is a bearing drive shaft 75, which may have a flywheel 76. To the insulating sector of the cylinder 74 are mounted even and odd contact elements 77, connected respectively to the wires 31 and 33. Consecutively to VDK 69 is connected contact unit 78, actuated by known method from the control disk 79. The movable contact element 80 of the VDK 69 has a contact spring 81 and a current-carrying element 82 connected to a conductor 34. The actuation of the movable contact element 80 is performed by a L-shaped lever 83 and a cam disk 84 mounted on the drive shaft 75. The switching of the power switch 32 is done by a known PEA 85 connected to the drive shaft 75.

Another variant of the preselector is shown in fig. 4. It is located in the space of the transformer. This is permissible because the pre-selector is seldom activated and does not contaminate the oil. A bracket 86 with a fixed contact element 87 is mounted to the contact 18 of the selected 20. The fixed contact elements 88 and 89 of the preselector are arranged on a cantilever insulation sector 90 of a cylinder which is connected to the insulation plate 22 by a metal sector 91. is mounted on a carrier 93, mounted by an axis 94 to the fixed contact element 87. The drive of the movable contact unit 92 is from a bearing to the insulating plate 22, an oil-tight shaft 95, which on one side is connected to a drive lever 96 and on the other with arm 97. To the arm 97 are connected drive insulating rails 98, connected to the carrier 93.

In FIG. 5 is a schematic top view of a three-phase step controller consisting of 10 of the three single-phase modules shown in Figures 1, 2 and 3. The position designations are the same as in these figures, but are related to the three phases X, Y and Z. are also resistors 99, which are not visible from fig. 1. 15

FIG. 6 represents another variant of a step controller. The selector 100 is located vertically on a horizontal insulating plate 101, under which is a power switch 102. The pre-selector 103 is mounted above the selected 100 20 coaxially thereto. A protective housing 104 with a connecting flange 105 has an open space of a dial 100 to the space of the transformer and a closed one relative to the power switch 102. A lid 106 25 provides access to the power switch 102 and a cover 107 to a dial 100 and the preselector 103.

The operation of the step regulator is as follows. The drive shaft 65 makes one revolution 3 0 per shift and charges the PEA 85. The helical gear 64 converts the rotation of the two-arm gear 29 to half a revolution of the shift. Thus, alternately the even Maltese wheel 28 and the odd Maltese wheel 27 35 pass the even mobile contact node 39 or the odd mobile contact node 43 from one adjacent even or odd fixed contact element from 1 to 18. After completing the selection from the selected 20, PEA 85 performing 40 switching of the power switch 32 in a known manner. When the range 1 to 18 is passed, the pre-selector is inverted from a fixed contact unit 50 to a fixed contact unit 51. Thus, from the directional switching 45 of the step winding of the main winding of the transformer, a counter-switching is performed. The self-propelled clutch 69 allows after reaching the end position and

B1 return to become only power switch 32 without dialing from selected 20.

Claims (7)

1. Step voltage regulator with vacuum arc quenching chambers for side mounting of the transformer, containing a vertical insulating plate with mounted on it selected with fixed contact elements, movable contact units, Maltese gear, and front of the Maltese gear is installed a power switch with vacuum , characterized in that the selector (20) is mounted on the rear side of the insulating plate (22) and is an oil-tight insulating cylinder (19) with an insulating bottom (23) and a central insulating tube (24) open to the front of the insulating plate. plate (22), with a pre-selector (45) located laterally next to the selector (20), and on the front side of the insulating plate (22) there is a mechanism consisting of an even Maltese wheel (28), an odd Maltese wheel (27) and a two-arm translation (29), the power switch (32) with two or three vacuum arc quenching chambers (69) is mounted next to the Maltese wheels (27,28). Step voltage regulator according to claim 1, characterized in that oil-tight fixed contact elements (2,4,6,8,10,12, 14) are mounted in a circle on the insulating cylinder (19) of the selector (20), 16, 18) and odd fixed contact elements (1, 3, 5,7,9,11,13,15,17), as on an insulating pipe (24) are located an even current-carrying ring (25) and an odd current-carrying ring (26). ), from which an even conductor (31) and an odd conductor (33) are passed, passing through the opening of the insulating pipe (24) and connected to the power switch (32), and a conductor (34) to the power switch terminal (32) is also installed in the insulating tube (24) and connected to the through contact element (35) of the insulating bottom (23). Step voltage regulator according to claims 1 and 2, characterized in that the two Maltese wheels (27, 28) are mounted at the outlet of the insulating pipe (24) 66475 B1 and are connected respectively to an even insulating drive sector (37) with an insulating ring with a tail (38) mounted on the even discharge ring (25) and to an odd insulating driving sector (42) with an insulating ring with a tail (42), mounted on the odd drain ring (26), and on the respective tails (38,42) are mounted an even movable contact node (39) and an odd movable contact node (43). Step voltage regulator according to claims 1 to 3, characterized in that a metal shield (30) is attached to the front face of the insulating plate (22), to which the power switch (32) with a spring energy accumulator ( 85). Step voltage regulator according to claims 1 to 4, characterized in that the two-arm transmission (29) is connected to a composite metal-insulating drive shaft (65) by means of a helical gear (64) and a freewheel clutch ), the drive shaft (65) being coupled at the same time to the spring energy accumulator (85). Step voltage regulator according to claims 1 to 5, characterized in that the pre-selector (45) is mounted to the rear wall of the insulating plate (22) to a selected one (20) and comprises an oil-sealed insulating cylinder (46) with an insulating bottom (47), a fixed contact element (48) connected to the last fixed contact element (18) of a selected (20), two fixed contact elements (50, 51) attached to the insulating cylinder (46) and a movable contact unit (52). connected to a drive mechanism (56, 57,58,59) by insulating rails (53), the axis of the fixed contact element (48) being able to coincide with or inclined with respect to the vertical longitudinal axis of the selected (20). Step voltage regulator 5 according to claims 1 to 5, characterized in that the pre-selector is located in the transformer space and has a fixed contact element (87) attached by a carrier (86) to the last fixed contact element 10 (18). optionally (20), two fixed contact elements (88, 89) located on an insulating sector (90) mounted cantilevered by a metal sector (91) to the insulating plate (22) and a movable contact unit (92) mounted on a 15 carrier (93), mounted to the fixed contact element (87) by an axle (94) and connected to the drive mechanism (96) by an oil-sealed, bearing to the insulating plate (22) shaft (95), arm (97) and insulating rails (98) . Step voltage regulator according to Claim 1, characterized in that the insulating plate (101) is arranged horizontally and a selected (100) with a vertical axis is mounted above it, with a 25 preselector installed coaxially with the selector (100). (103), and a power switch (102) is located below the insulating plate (101), allowing the insulating plate (101) and the axis of the selector (100) to be inclined.