BG113379A - On load selector with preselector for distribution transformers - Google Patents

Abstract

The on-load selector has a bearing head (K) with mechanisms (M), an insulating cylinder with contact systems (H) and a bottom. The three phases X, Y, Z are arranged one below the other and are isolated from each other. Each phase has one main vacuum arc extinguishing chamber (V1) and one auxiliary vacuum arc extinguishing chamber (V2) located next to each other and attached to two vertical insulating rails (41, 44). Resistors (R) are mounted on the sides of these rails. The main vacuum arc extinguishing chamber has an upper support (42) with a radial arm with contact lamellae (45) contacting U-shaped stationary contact elements (38) located on the insulating cylinder (37). There is also a radial arm bottom carrier with slats contacting a ring (39) mounted on the isolation cylinder (37). The auxiliary vacuum arc extinguishing chamber (V2) has an additional support (47) with arm and slats (45) contacting the U-shaped contact elements (38). To the lower carrier there is a system for opening and closing the vacuum arc extinguishing chambers (V1 and V2). The pre-selector (P) is located to the side of the on-load tap-changer and also has three tiered phases. It is actuated by a kinematic system located in the bearing head (K). It contains an insulating segment (33) with two fixed contacts (32) and a movable contact system (59) carried by two insulating rails (60).

Description

ON-LOAD SELECTOR WITH PRE-SELECTOR FOR DISTRIBUTION TRANSFORMERS

FIELD OF ENGINEERING

The invention relates to a three-phase step voltage regulator operating as a selector under load. This means that the selection of the adjacent bias of the regulation winding of the transformer and switching is carried out by the same contact nodes. In this case, vacuum arc extinguishing chambers can also be used. Most often, in the case of distribution transformers, it is regulated by a linear regulation coil, but if a larger number of stages is needed, a preselector can also be used.

PRIOR ART

A step-down voltage regulator operating as a load selector (1) is known, comprising a bearing head, an insulating cylinder and a bottom. In the bearing head are located a drive shaft with a worm gear, a Maltese gear and a spring energy accumulator. Three phases are stacked in the insulating cylinder. Each phase has one main vacuum arc-extinguishing chamber and one auxiliary vacuum arc-extinguishing chamber mounted in the center of the insulating cylinder mirroring each other. They are attached to two insulating pipe segments connected to the Maltese gear. Resistors are attached to them. A certain number of U-shaped contact elements are mounted on the periphery of the insulating cylinder with terminals connected to the deviations of the regulation winding of the transformer. The fixed terminals of the two vacuum arc extinguishing chambers are connected to the U-shaped contact elements by means of arm-bearing contact lamellae with contact springs. The movable contact terminals of the two vacuum arc extinguishing chambers are connected by analogous arms to the contact rings mounted on the inner surface of the insulating cylinder. Mechanisms for opening and closing are caught on the removable contact terminals

1/7 the vacuum arc extinguishing chambers during switching. The switching is two-step, with the two vacuum arc extinguishing chambers opening and closing one after the other.

A disadvantage of this step regulator is that it has a limited number of positions due to the lack of a pre-selector. Another disadvantage is that due to the floor arrangement of the six vacuum arc extinguishing chambers there is a great length. A disadvantage is that there is duplication of some elements.

Another step voltage regulator operating as an on-load selector (2) is also known, which is installed under the cover of the transformer. It has a bearing head with actuators located in it. Two horizontal insulating bars are attached to the head, to which three phases are mounted side by side. Each phase has a power switch module and a selector module. The power switch contains a vacuum arc extinguishing chamber, switching contacts and a resistor. In the selector module there are two parallel contact systems switching one after the other. The modules have a supporting structure of cast epoxy resin panels. The step regulator does not have a spring-energy accumulator, and the movement of the mechanisms is carried out by an electric motor and its gears. There is also a pre-selector version with three more modules added, one for each phase.

A disadvantage of this stepper is that it is of complicated construction because the switching sequence is complicated. Another disadvantage is that with a variant with a pre-selector, the dimensions and weight increase significantly. A disadvantage is that the reliability of switching is reduced due to the lack of a spring energy accumulator.

TECHNICAL ESSENCE OF THE INVENTION

The task of the invention is to create an on-load selector with a pre-selector of a compact design with reduced overall dimensions and weight. In addition, the addition of a preselector should have a negligible effect on overall dimensions and weight. The product should have stable reinforcement of the elements and reliable operation.

The task is solved with a three-phase on-load selector with a pre-selector containing a bearing head with a drive shaft with a worm gear and a mechanism driving a double translation connected to two Maltese wheels. A switching spring is attached to the mechanism. To the carrier

2/7 head is a trapped insulating cylinder with fixed contact elements. Connected to one Maltese wheel is an isolation element which carries three main vacuum arc extinguishing chambers, one for each phase. Connected to the other Maltese wheel is an isolation element which carries three auxiliary vacuum arc extinguishing chambers. Resistors are mounted to the insulating elements, which are connected in series to the auxiliary vacuum arc extinguishing chambers.

According to the invention, at the end of the drive shaft there is a second worm gear with a locking disc and roller connected to a malt wheel bearing on the shaft above the two malt wheels. Axially above it is fixed a disc with a roller interacting with a fork connected to the contact system of the pre-selector through a rod, an arm, a vertical shaft, a second arm and a second rod.

Two vertical insulating slats are mounted to the upper Maltese wheel operating with the double translation, to which the main vacuum arc extinguishing chambers are attached by means of an upper carrier and a lower carrier. Two vertical insulating slats are mounted to the lower Maltese wheel, to which the auxiliary vacuum arc extinguishing chambers are attached by means of an upper support and a lower support. Resistors are attached to the side of the insulating rails.

The upper support of the main vacuum arc extinguishing chamber has a radial arm with contact lamellas that contact the lower tongue of shaped contact elements mounted on the insulating cylinder. The lower chamber support has a radial arm with similar contact lamellas that contact a ring mounted on the isolation cylinder. A vertical support is attached to the lower support, at the end of which a two-armed lever is mounted. It has on its outer shoulder a roller which contacts the front cam of a ring attached to the insulating cylinder. The inner arm of the two-arm lever is connected to a fork clamped to the movable contact of the main vacuum arc extinguishing chamber. The electrical connection between the movable contact and the lower support is made by a flexible connection.

The upper carrier of the auxiliary vacuum chamber does not have a radial arm, and above it and isolated from it is caught another carrier with a radial arm with contact lamellae that contact the upper tongue of the U-shaped contact elements. The lower support of the auxiliary vacuum arc extinguishing chamber also does not have a radial arm, and its electrically movable contact is connected to the movable contact of the main vacuum

3/7 arc extinguishing chamber via flexible connection. The resistors attached to the insulating rails are connected in series, with their two terminals connected to the upper carrier and the carrier above it.

The pre-selector is located next to the insulating cylinder and has an insulating segment with two fixed contact elements. They are alternately connected to the tenth U-shaped element through contact plates mounted to two vertical insulating rails. They are driven by the aforementioned kinematic chain from the fork connected to the disk in the bearing head.

An advantage of the on-load selector with a preselector is that it doubles the number of positions by adding a preselector, the kinematics are slightly complicated, and the overall dimensions are almost the same. Another advantage is that the length is reduced significantly due to the location of the two vacuum arc extinguishing chambers next to each other. Another advantage is that the attachment of the vacuum arc extinguishing chambers is more stable.

EXPLANATION OF THE ATTACHED FIGURES

An exemplary implementation of the selector under load with a pre-selector according to the invention is shown in the attached figures, of which:

Figure 1 is a longitudinal section through a three-phase on-load selector with a side-mounted pre-selector.

Figure 2 - Longitudinal section (B-B) on an enlarged scale through the carrier head and phase X.

Figure 3 - cross-section (A-A) through the on-load selector and the pre-selector relating to the three phases X, Y, Z.

Figure 4 — longitudinal section (C—C) through phase Z rotated 90°.

Figure 5 - Cross section (D-D) through the carrier head, above the Maltese gear for actuating the preselector.

Figure 6 is a cross-section (E-E) through the carrier head showing the preselector actuation mechanisms.

Figure 7 - longitudinal section (F-F) through the column with a shaft connecting the mechanisms from the bearing head to the contact system of the preselector.

4/7

EXAMPLES OF IMPLEMENTATION OF THE INVENTION

The on-load selector (fig. 1) has a supporting head K with mechanisms M located in it. Under the supporting head K are located the three mutually isolated phases X, Y, Z of the on-load selector H. The pre-selector P is mounted on its side. Each phase has one main vacuum arc extinguishing chamber Vi each, one auxiliary chamber V ₂ and resistors R.

Details of construction are presented in the following figures on an enlarged scale. The bearing head K contains a housing 1 with a bottom 2 and a flange 3 for attachment to the transformer cover. On top, the housing 1 is closed with a cover 4. Along the diameter of the housing 1, there is a drive shaft 5 with a worm 6 in the middle, engaged with a worm wheel 7. At the bottom 2, a vertical axis 8 is caught, on which the worm wheel 7 and mechanism 9 are mounted. to drive a double translation 10. The double translation 10 interacts sequentially with a lower Maltese wheel 11, bearing on the bottom 2, and an upper Maltese wheel 12, mounted on a shaft 13, bearing in the lower Maltese wheel 11. The mechanism 9 is connected to a switching spring 14. A Maltese wheel 15 and a rigidly connected disk 16 with a roller 17 are mounted on a shaft 13, through which the pre-selector P is actuated. At one end of the drive shaft 5, a worm 18 (fig. 5) is made, which is engaged with a block of worm wheel and blocking disc 19. This disc has an arm with a roller 20 and is supported on a vertical axis 21 mounted on the bottom 2, at the level of the Maltese wheel 15. On the axis 21, at the level of disc 16, is a bearing fork 22 (fig. 6), connected at one end with e claim 16, and at its other end there is an arm 23. A vertical carrier 24 with a shaft 25 supported in it is mounted to the bottom 2 (fig. 7). An arm 26 is attached to the upper end of the shaft 25, connected by a rod 27 to an arm 23 of the fork 22. At the lower end of the shaft 25, under the bottom 2, an arm 28 is attached, connected by a rod 29 to the movable contact system 30 of the preselector, which rotates relative to the axis 31. The preselector has fixed contact elements 32 mounted on an insulating segment 33 clamped to a bottom 34.

On the housing 1 there is an observation window 35 for fixing the "normal position", which is done when the worm wheel 7 is turned one revolution per switching. A position indicator 35 is located between the Maltese wheel 15 and disk 16, and the position of the working step is visible through an observation window 36.

The contact systems of the three phases X, Y, Z of the selector H are arranged one below the other in an insulating cylinder 37. In order to facilitate the installation, it can be cut into two halves. Po

5/7 the inner surface of the cylinder are mounted a certain number (in this case 10 pcs.) U-shaped fixed contact elements 38 for each phase. Below them there is a contact ring 39. The insulating cylinder 37 is fixed in its upper part to the housing 1, and in its lower part to the bottom 40.

Two vertical insulating slats 41 are connected to the lower Maltese wheel 11, to which the auxiliary vacuum arc extinguishing chambers V2 are attached by means of an upper carrier 42 and a lower carrier 43. In an analogous way, two vertical insulating rails 44 are connected to the upper Maltese wheel 12, which carry the main vacuum arc extinguishing chambers V ι. The upper support 42 of the main vacuum arc extinguishing chamber V ι has a radial arm on which contact lamellae 45 with contact springs 46 are located. Another support 47 with a radial arm is attached to the rails 41 above the upper support 42 of the auxiliary vacuum arc extinguishing chamber V2, on on which such contact lamellae are also located. Between this carrier 47 and the upper carrier 42 of the auxiliary vacuum arc extinguishing chamber V2, the resistors R are connected.

A vertical support 48 is attached to the lower supports 43 of each of the vacuum arc extinguishing chambers Vi and V2, to the lower end of which a two-armed lever 49 is mounted. The inner end of this lever is connected to a fork 50 attached to the movable contact 51 of the vacuum arc extinguishing chamber. A roller 52 is mounted on the outer end of the lever 49, which during switching contacts a front cam profile of a ring 53 fixed to the inner surface of the insulating cylinder 37. The electrical connection between the movable contact 51 of the main vacuum arc extinguishing chamber Vi and its lower support 43 is carried out by a flexible connection 54. The connection between the movable contacts 51 of the main vacuum arc extinguishing chamber Vi and the auxiliary vacuum arc extinguishing chamber V2 is made by a flexible connection 55. A cylindrical support 56 is mounted on the bottom 40, to which an arm 57 connected to the lower end is mounted. on the insulating rails 41 and arm 58 connected to the insulating rails 44.

The pre-selector has contact plates with springs 59 similar to those of the on-load selector. They are mounted on insulating rails 60 and connected to a fixed contact element 38K. There are also terminals 61 for connecting a wire from the transformer.

The operation of the selector under preselector load is as follows. The drive shaft 5 is rotated by a known motor drive, not shown. The worm 6 turns the worm wheel 7 one revolution per

6/7 switching, in which the mechanism 9 compresses the spring 14 and releases it. The upper malting wheel 15 and the lower malting wheel 11 rotate in a stepwise manner in sequence and switch the main vacuum arc extinguishing chamber Vι and the auxiliary vacuum arc extinguishing chamber V2. Contact systems are transferred without current from the operating U-shaped contact 38 to the selected one. At the same time, the worm gear 18 through a disk 19 with a roller 20 turns the Maltese wheel 15 in one step. At the tenth position, the roller 17 switches the fork 22 and through the lever system 27,26, 28 and 29 the contact system of the pre-selector P is activated.

Claims (4)

PATENT CLAIMS 1. On-load tap-changer with pre-selector for distribution transformers, comprising a carrying head with a worm gear drive shaft and a double translation drive mechanism connected to two flywheels, a switching spring mounted to the mechanism, and an insulating cylinder clamped to the carrying head fixed contact elements, to one Maltese wheel is connected an insulating element carrying three main vacuum arc extinguishing chambers, one for each phase, to the other Maltese wheel is connected an insulating element carrying three auxiliary vacuum arc extinguishing chambers combined with resistors, characterized by the fact that at the end of the drive shaft (5) there is a second worm gear (18) with a blocking disc (19) and a roller (20) connected to a Maltese wheel (15) bearing on a shaft (13), axially above it a disc is fixed ( 16) with a roller (17) interacting with a fork (22) connected to the contact system of the pre-selector (30) through a rod (27), an arm (26), a vertical shaft (25), an arm (28) and a bar ha (29), and two vertical insulating rails (44) are mounted to the upper Maltese wheel (12), to which the main vacuum arc extinguishing chambers (V ι) are attached by means of an upper carrier (42) and a lower carrier (43), to the lower Maltese wheel (11) two vertical insulating slats (41) are mounted, to which the auxiliary vacuum arc extinguishing chambers (V2) are attached, and resistors (R) are attached to the sides of the slats (41, 44). 2. On-load selector with pre-selector according to claim 1, characterized in that the upper support (42) of the main vacuum arc extinguishing chamber (Vi) has a radial arm with contact lamellae (45) which contact the lower tongue of U-shaped contact elements (38) mounted on the insulating cylinder (37), the lower support (43) has a radial arm with similar contact lamellae (45) which contact a ring (39) mounted on the insulating cylinder (37), to the lower support (43) is clamped vertical support (48), at the end of which a two-armed lever (49) is mounted with a roller (52) on its outer arm, and its inner arm is connected to a fork (50) clamped to the movable contact (51) of the main vacuum arc quencher chamber (Vi), the roller (52) contacts the front cam of a ring (53) attached to the insulating cylinder (37), and the connection between the movable contact (51) and the lower support (43) is made by a flexible link (54). 3. Selector under load with pre-selector according to claim 1, characterized in that the upper carrier (43) of the auxiliary vacuum arc extinguishing chamber (V2) does not have a radial arm, and another carrier is clamped above it and isolated from it to the rails (41) (47) with a radial arm with contact lamellae (45) that contact the upper tongue of the fixed U-shaped contact elements (38), the lower carrier (43) of the auxiliary vacuum arc extinguishing chamber (V2) also has no radial arm, and the electrically movable its contact (51) is connected to the movable contact of the main vacuum arc extinguishing chamber (Vι) through a flexible connection (55), also the resistors (R) attached to the insulating bars (41, 44) are connected in series, and their two terminals are connected to the upper support (43) of the auxiliary vacuum arc extinguishing chamber (V2) and the support (47). 4. Selected under load with a pre-selector according to claims 1, 2 and 3, characterized in that the pre-selector (P) is located next to the insulating cylinder (37) and has an insulating segment (33) with two fixed contact elements (32) which are connected alternately with a shaped contact (38K) clamped to the insulating cylinder (37) by contact plates (59) mounted to two vertical insulating rails (60) driven by the rod (29).