RU216459U1 - BREAKER-DISCONNECTOR-EARTH SWITCH ASSEMBLY - Google Patents

Abstract

The presented utility model relates to the interrupter-disconnector-grounding switch (1) assembly, containing a housing (2) made of a dielectric material, where the assembly (3) "disconnector-grounding switch" and the assembly (4) of the vacuum interrupter are located, connected to each other with a friend in a sequential pattern;

which is characterized in that the assembled device (1) contains a rotary electrical junction assembly (5), which forms an electrical serial connection between the "disconnector-grounding switch" assembly (3) and the vacuum interrupter assembly (4), wherein the assembly (3) "disconnector -grounding switch" contains:

– a chamber (31), in which a rotary rod (32) is located, made of a dielectric material, and the axis (O32) of rotation of the rotary rod (32) coincides with the axis (O5) of rotation of the assembly (5) of the rotary electrical joint;

- a rotary conductive connecting element (33) located in the chamber (31) and in the rotary rod (32), and from one of its ends electrically connected by means of the first axial contact (331) with the node (5) of the rotary electrical joint, and from its other end end provided with a second radial rotary contact (332) extending from the rotary rod (32) in a direction not parallel to the axis (O32) of rotation of the rotary rod (32);

– at least two insulating barriers (321) which are made of dielectric material and extend from the pivot rod (32) enclosing and separating the second radial pivot contact (332) in the plane (P1-P1) perpendicular to the axis (O32) of rotation rotary rod (32), and on the side of the second radial rotary contact (332) insulating partitions (321) set between them a protruding angle (α);

- a gear wheel (322) connected to the rotary rod (32) and made with the possibility of rotation around the axis (O32) of rotation of the rotary rod (32);

– a receiving output contact (61) and a grounding contact (62) extending inwardly from the inner surface of the chamber (31) in the plane of rotation of the second radial rotary contact (332) of the rotary conductive connecting element (33) and made with the possibility of connection with the second radial rotary contact (332) in specific angular positions of this rotary contact (332); And

– an electrical receiving terminal (63) and an electrical earthing terminal (64), which are connected to the receiving output contact (61) and the earthing contact (62), respectively.

Description

Field of technology to which the utility model belongs

This utility model relates to a circuit breaker-disconnector-earthing switch assembly, comprising a housing made of a dielectric material, in which the "disconnector-earthing switch" assembly and the vacuum interrupter assembly are located, connected to each other in a series circuit.

State of the art

Combining a vacuum interrupter and a disconnect-earth switch assembly to form the above-mentioned breaker-disconnect-earth switch assembly is known in the art.

For example, such a breaker-disconnect-earth switch assembly is disclosed in WO0133593A1 and includes a breaker that is placed in an SF6 gas protected environment and that functions as a two-way line/ground switch, and a vacuum breaker that is connected in series to disconnector, and which can be used as both a circuit breaker for line protection and an earthing switch with the possibility of closing.

Utility Model Disclosure

The objective of the present utility model is to provide an innovative alternative breaker-disconnector-earthing switch assembly that has a relatively simple yet robust design.

According to the proposed utility model, a breaker-disconnector-grounding switch assembly is proposed, the type of which is indicated at the beginning, which contains a housing made of a dielectric material, where the "disconnector-grounding switch" assembly and the vacuum interrupter assembly are located, connected to each other in series, and which is characterized in that the breaker-disconnector-earthing switch assembly comprises a rotary electrical junction forming an electrical series connection between the breaker-earthing switch assembly and the vacuum interrupter assembly, wherein the breaker-earthing switch assembly comprises:

- a chamber in which a rotary rod is located, made of a dielectric material, and the axis of rotation of the rotary rod coincides with the axis of rotation of the rotary electrical junction;

- a rotary conductive connecting element located in the chamber and in the rotary rod, and from one of its ends electrically connected by means of the first axial contact with the node of the rotary electrical joint, and from its other end equipped with a second radial rotary contact extending from the rotary rod in a non-parallel direction axis of rotation of the rotary rod;

- at least two insulating partitions, which are made of a dielectric material and extend from the rotary rod, enclosing and separating the second radial rotary contact in a plane perpendicular to the axis of rotation of the rotary rod, and on the side of the second radial rotary contact, the insulating partitions define a protruding angle between themselves , which preferably does not exceed 110°;

- a gear wheel, preferably a worm gear, connected to the rotary rod and made with the possibility of rotation about the axis of rotation of the rotary rod;

- a receiving output contact and a ground contact extending inward from the inner surface of the chamber in the plane of rotation of the second radial rotary contact of the rotary conductive connecting element and made with the possibility of connection with the second radial rotary contact in specific angular positions of this rotary contact;

– an electrical receiving terminal and an electrical earthing terminal, which are connected, respectively, to the receiving output contact and the earthing contact.

Preferably, the dielectric rotary rod may comprise a radial protrusion extending from its side surface, from which a second radial rotary contact extends.

In some preferred embodiments of this utility model, each of the receive output contact and/or ground contact may comprise two component contacts, with a second radial rotary contact inserted between the component contacts in the direction of the axis of rotation of the pivot rod.

The breaker-disconnector-earth switch rotary electrical junction assembly may preferably comprise a conductive intermediate element electrically connected to the fixed contact of the vacuum interrupter assembly and containing an opening located concentrically with respect to the axis of rotation of the rotary rod and provided with a radial annular groove, and in the radial annular groove is located a conductive helical spring that comes into contact with the surface of the radial annular groove, and also in contact with the first axial contact of the rotary conductive connecting element located in the opening of the conductive intermediate element.

In the presented utility model, it is preferable that the rotary rod contains an insulating collar ring made of a dielectric material and enclosing the rotary electrical junction assembly around the circumference.

Preferably, the axis of rotation of the rotary rod of the breaker-disconnector-earthing switch assembly coincides with the longitudinal axis of the contacts of the vacuum interrupter assembly.

In the preferred embodiment, the gear wheel forms a monolithic element together with a rotary rod and is located in the chamber of the "disconnector-earth switch" assembly.

Preferably, the body of the breaker-disconnect-earth switch assembly may be provided with a channel in which is located a drive worm that engages with a gear, preferably a worm gear, of the pivot rod.

Preferably, the chamber of the disconnector-earth switch assembly is provided with an outlet on the side opposite the vacuum interrupter assembly, said outlet being preferably covered by a lid, preferably a pivoting lid.

Preferably, the body of the breaker-disconnect-earth switch assembly may comprise a monolithic body made of an electrically insulating resin, preferably an epoxy resin, and more preferably a two-component epoxy resin, such as, for example, the commercially available Huntsman two-component epoxy resin. CW229-3/HW229-1.

The breaker-disconnector-earthing switch assembly of the proposed utility model is characterized by a simple and reliable structure, easy operation and maintenance, and it does not require the use of SF ₆ insulation. The nodes of this utility model, presented in different numbers (for example, in the amount of three nodes), can be easily placed on a common mounting base, thereby forming integrated multi-phase (for example, three-phase) interrupter-disconnector-earth switch units. The gears of all of the breaker-disconnector-earthing switch assemblies of the present utility model constituting such an integrated device can be driven by a single common drive worm.

List of drawing figures

The utility model will be described and disclosed below in connection with the embodiments illustrated in the accompanying drawings, where:

In FIG. 1 is a perspective view of a first embodiment of a breaker-disconnector-earthing switch assembly of this utility model;

In FIG. 2 is a perspective view in cross section of the first embodiment shown in FIG. 1, in the position of connection of the conductive connector with the ground contact;

In FIG. 3 is a longitudinal sectional view of the first embodiment shown in FIG. 1, in the position of connection of the conductive connector with the ground contact;

In FIG. 4 is a cross-sectional view of the first embodiment shown in FIG. 1 in the plane P1-P1 shown in FIG. 3, in the connection position of the conductive connector with the ground contact;

In FIG. 5 is a cross-sectional view of the first embodiment shown in FIG. 1 in the plane P2-P2 shown in FIG. 3, in the connection position of the conductive connector with the ground contact;

In FIG. 6 is a cross-sectional view of the first embodiment shown in FIG. 1 in the plane P2-P2 shown in FIG. 3, in the neutral position, in which the conductive connecting element is completely disconnected;

In FIG. 7 is a cross-sectional view of the first embodiment shown in FIG. 1 in the plane P2-P2 shown in FIG. 3, in the connection position of the conductive connector with the receiving output contact;

In FIG. 8 is a longitudinal sectional view of a second embodiment of the breaker-disconnector-earthing switch assembly of the proposed utility model in the state of connection of the conductive connector with the earthing contact;

In FIG. 9 is a cross-sectional view of the second embodiment shown in FIG. 8 in the plane P1-P1 shown in FIG. 8, in the position of connection of the conductive connector with the ground contact;

In FIG. 10 shows a longitudinal section of a third embodiment of the breaker-disconnector-earthing switch assembly of the proposed utility model in the position of connection of the conductive connector to the earthing contact.

Implementation of the utility model

The first embodiment of the breaker-disconnect-earth switch assembly of the proposed utility model, which is illustrated in FIG. 1-7 comprises a housing 2 made of a dielectric material in the form of a monolithic body made of an electrically insulating resin (e.g. an epoxy resin such as the commercially available Huntsman CW229-3/HW229-1 two-component epoxy resin) in which the assembly 3 is located. "disconnector-earthing switch" and node 4 of the vacuum interrupter, connected to each other in series. The vacuum interrupter assembly 4 is completely embedded in the resin material of the body 21 of the body 2, with the connecting ends of the fixed contact 41 and the movable contact 42 protruding outside the body 21 of the body 2. 3 "disconnector-earthing switch" in series. The movable contact 42 is movable relative to the fixed contact 41 along the longitudinal axis O4 of the vacuum interrupter assembly 4 . Node 3 "disconnector-earth switch" contains a chamber 31, which houses a rotary conductive connecting element 33, and connects in its specific angular positions the fixed contact 41 of the node 4 of the vacuum interrupter with the receiving output contact 61 connected to the electrical receiving terminal 63 or alternatively variant, with a ground contact 62 connected to an electrical ground terminal 64. The rotary conductive connector 33 is embedded in a rotary rod 32 made of a dielectric material, and the first axial contact 331 of the rotary conductive connector 33 extends from the rotary rod 32 along its longitudinal axis O32 , and the second radial rotary contact 332 of the rotary conductive connecting element 33 moves away from the radial protrusion of the rotary rod 32 in a direction not parallel to the rotation axis O32 of the rotary rod 32. The first axial contact 331 and the second radial rotary to the contact 332 constitute the opposite end portions of the rotary conductive connector 33. The first axial contact 331 of the rotary conductive connector 33 is electrically connected to the rotary electrical joint assembly 5 in a conductive manner. In this case, the second radial rotary contact 332 moves in a circle as a result of the rotation of the rotary rod 32 with the rotary conductive connecting element 33 around the axis of rotation O32. With this circumferential movement, the second radial rotary contact 332 can be placed in electrical contact with the receiving output contact 61 and in another electrical contact with the ground contact 62, with the contacts 61 and 62 projecting inwardly against each other from the inner surface of the chamber 31 in a plane P1-P1 rotation of the second radial rotary contact 332 of the rotary conductive connector 33. Each contact of the receiving output contact 61 and the ground contact 62 contains two component contacts 611, 621, and between the component contacts 611, 621 is inserted the second radial rotary contact 332 of the rotary conductive of the connecting element 33 in the direction of the axis of rotation O32 of the rotary rod 32. In this first embodiment of the breaker-disconnector-earthing switch assembly, the axis of rotation O32 of the rotary rod 32 coincides with the rotary conductive connecting element 33 with longitudinal axis O4 of contacts 41, 42 of node 4 of the vacuum interrupter. The node 5 of the rotary electrical joint contains a conductive intermediate element 51, which on the one hand is electrically connected to the fixed contact of the node 4 of the vacuum interrupter, and on the other hand is electrically connected to the first axial contact 331 of the rotary conductive connecting element 33. Electrical connection of the conductive intermediate element 51 with the fixed contact 41 of the node 4 of the vacuum interrupter is implemented by providing direct contact of these elements with each other using a screw connection. At the same time, the electrical connection of the conductive intermediate element 51 with the first axial contact 331 of the rotary conductive connecting element 33 is realized by means of a conductive helical spring 53 located in a radial annular groove 521 formed in the hole 52, which is made in the conductive intermediate element 51. The hole 52 with a radial annular the groove 521 is located concentrically with respect to the axis of rotation O32 of the rotary rod 32, and the first axial contact 331 of the rotary conductive connecting element 33 enters this hole 52 in such a way that the helical spring 53, located in the radial annular groove 521, conductively enters with its inner side into the electrical contact with this first axial contact 331 of the rotatable conductive connector 33, and with its outer side it comes into electrical contact in a conductive manner with the surface of the radial annular groove 521 Due to this, the axis of rotation O32 of the rotary rod 32 and the rotary conductive connector 33 coincides with the axis of rotation O5 of the rotary electrical joint assembly 5 . Two longitudinal insulating barriers 321 made of dielectric material extend in radial directions from the pivot rod 32 and extend along the axis of the pivot rod 32 enclosing and separating the second radial pivot contact 332 in a plane P1-P1 that runs perpendicular to the axis of rotation O32 of the pivot rod 32 These two longitudinal insulating barriers 321 on the side of the second radial rotary contact 332 define a protruding angle between them, which preferably does not exceed 110°. In addition, the node 3 "disconnector-earthing switch" contains a worm gear 322 connected to the rotary rod 32 above the longitudinal insulating partitions 312 and concentric with respect to the axis O32 of rotation of the rotary rod 32. The worm gear 322 serves to adjust the angular position of the rotary rod 32 and , respectively, the switching state of the second radial rotary contact 332 of the rotary conductive connector 33 relative to the receiving output contact 61 and the ground contact 62. Access to the teeth of the worm gear 322 is provided from the outside of the chamber 31 through the outlet of the chamber 31 on the side opposite the node 4 of the vacuum interrupter, which allows the worm gear 322 to engage with a corresponding drive motion control, not shown in FIG. 1-7. The rotary rod 32 includes an insulating collar ring 324, which is made of a dielectric material and is located on the side opposite the worm gear 322, surrounding the rotary electrical joint assembly 5 around the circumference. In this first embodiment of the rotary rod 32, its radial protrusion 323, longitudinal insulating baffles 321, worm gear 322 and insulating collar 324 form a single monolithic dielectric element made of an electrically insulating resin, for example, epoxy resin, such as, for example, available Huntsman CW229-3/HW229-1 two-component epoxy resin is on the market.

The second embodiment of the breaker-disconnector-earth switch assembly 1 shown in FIG. 8 and 9, comprises a pivoting rod 32 provided with four insulating baffles 321, 3211, including two additional insulating baffles 3211 (additional compared to the first embodiment, which is illustrated in Figs. 1-7), which are arranged symmetrically with respect to the insulating barriers 321, enclosing the second radial rotary contact 332 of the rotary conductive connector 33 in a plane which passes through the axis of rotation O32 of the rotary rod 32 and which extends perpendicular to the projection direction of the second radial rotary contact 332. In this second embodiment, the second radial rotary contact 332 The rotary conductive connector 33 extends directly from the pivot rod 32, which is not provided with any radial protrusion, from which the second radial rotary contact extends in this embodiment.

In FIG. 10 shows a third embodiment of the breaker-disconnector-earth switch 1 assembly. In this third embodiment, the axis of rotation O32 of the rotary rod 32 with the rotary conductive connecting element 33 coincides with the axis O5 of rotation of the rotary electrical joint assembly 5, but does not coincide with the longitudinal axis O4 of the contacts 41, 42 of the vacuum interrupter assembly 4, but runs perpendicular to this longitudinal axis O4. The outlet of the chamber 31 of the "disconnector-earth switch" assembly, located on the side opposite the vacuum interrupter assembly 4, is closed in this third embodiment by a pivoting cover 24. The cover 24 forms the body 2 together with the body 3 and defines a channel 22 in the body, and in channel 22 is located drive worm 23, which interacts with the worm gear 322 of the rotary rod 32 located in the chamber 31. In addition, a cylindrical socket 241 is formed on the inside of the cover 24, and the end of the rotary rod 32 enters into this socket. in addition to the first and second embodiments, the body 21 of the housing 2 in this third embodiment comprises a mounting protrusion 25 extending downwardly from the lower part of the body 21 and provided with a threaded mounting hole 251 to allow the breaker-disconnector-earth switch 1 assembly to be mounted on the base, which is not shown in the drawings.

The above embodiments of the utility model and the accompanying drawings are for illustrative purposes only and should not be construed as limiting the scope of the utility model's legal protection as defined by the claims of the utility model. For a person skilled in the art, it seems obvious that a number of other embodiments of this utility model can be created, including new embodiments in the form of various combinations of the described embodiments of this utility model. The figures are not necessarily drawn to true scale, and some features may be enlarged or reduced to better illustrate the proposed utility model. However, these and other factors should not be considered as limiting the essence of the presented utility model, the intended scope of protection of which is determined by the attached claims of the utility model.

Position numbers

1 - breaker-disconnector-grounding switch assembly

2 - body

21 - body

22 - channel

23 - drive worm

24 - cover

241 - socket

25 - mounting lug

251 - mounting hole

3 - node "disconnector-grounding switch"

31 - camera

32 - rotary rod

321 - insulating partition

3211 - additional insulating partition

322 - worm gear

323 - radial ledge

324 - insulating collar ring

33 - rotary conductive connecting element

331 - first axial contact

332 - second radial rotary contact

4 - vacuum interrupter assembly

41 - fixed contact

42 - moving contact

5 - node rotary electrical joint

51 - conductive intermediate element

52 - hole

521 - radial annular groove

53 - coil spring

61 - receiving output contact

611 - component contact

62 - ground contact

621 - component contact

63 - electrical receiving terminal

64 - electrical ground terminal

O32 - axis of rotation of the swivel rod (32)

O5 - axis of rotation of the assembly of the rotary electrical joint (5)

O4 - longitudinal axis of the contacts (41,42) of the assembly (4) of the vacuum interrupter

P - plane perpendicular to the axis of rotation of the rotary rod (32)

α is the protruding angle between the insulating barriers (321) on the side of the second radial rotary contact (332).

Claims (16)

1. Breaker-disconnector-grounding switch (1) assembly, containing a housing (2) made of a dielectric material, where the node (3) "disconnector-grounding switch" and the node (4) of the vacuum interrupter are located, connected to each other by series circuit, and characterized in that the device (1) assembly contains a node (5) of a rotary electrical junction, forming an electrical serial connection between the node (3) "disconnector-grounding switch" and the node (4) of the vacuum interrupter, and the node (3 ) "disconnector-earthing switch" contains: – a chamber (31), in which a rotary rod (32) is located, made of a dielectric material, and the axis (O32) of rotation of the rotary rod (32) coincides with the axis (O5) of rotation of the assembly (5) of the rotary electrical joint; - a rotary conductive connecting element (33) located in the chamber (31) and in the rotary rod (32), and from one of its ends electrically connected by means of the first axial contact (331) with the node (5) of the rotary electrical joint, and from its other end end provided with a second radial rotary contact (332) extending from the rotary rod (32) in a direction not parallel to the axis (O32) of rotation of the rotary rod (32); – at least two insulating barriers (321), which are made of a dielectric material and extend from the rotary rod (32), enclosing the second radial rotary contact (332) in the plane (P1-P1) perpendicular to the axis (O32) of rotation of the rotary rod (32), and on the side of the second radial rotary contact (332) insulating partitions (321) set between them a protruding angle (α), which in the preferred embodiment does not exceed 110°; – a gear wheel (322), preferably a worm gear, connected to the pivot rod (32) and rotatable about the rotation axis (O32) of the pivot rod (32); – a receiving output contact (61) and a grounding contact (62) extending inwardly from the inner surface of the chamber (31) in the plane of rotation of the second radial rotary contact (332) of the rotary conductive connecting element (33) and made with the possibility of connection with the second radial rotary contact (332) in specific angular positions of this rotary contact (332); And – an electrical receiving terminal (63) and an electrical earthing terminal (64), which are connected to the receiving output contact (61) and the earthing contact (62), respectively. 2. Breaker-disconnector-earthing switch (1) assembly according to claim 1, characterized in that the dielectric rotary rod (32) contains a radial protrusion (323), from which a second radial rotary contact (332) extends. 3. Breaker-disconnector-grounding switch (1) assembly according to claim 1 or 2, characterized in that each contact from among the receiving output contact (61) and / or ground contact contains two component contacts (611, 621), and between the component contacts (611, 621) a second radial rotary contact (332) is inserted in the direction of the axis of rotation (O32) of the rotary rod (32). 4. Breaker-disconnector-grounding switch (1) assembly according to any one of paragraphs. 1 - 3, characterized in that the assembly (5) of the rotary electrical joint contains a conductive intermediate element (51), electrically connected to the fixed contact (41) of the assembly (4) of the vacuum interrupter and containing an opening (52) located concentrically with respect to the axis (O32 ) rotation of the rotary rod (32) and provided with a radial annular groove (521), and in the radial annular groove (521) there is a conductive spiral spring (53) in contact with the surface of the radial annular groove (521) and with the first axial contact (331) of the rotary conductive connecting element (33) located in the hole (52) of the conductive intermediate element (51). 5. Breaker-disconnector-grounding switch (1) assembly according to any one of paragraphs. 1 - 4, characterized in that the rotary rod (32) contains an insulating collar ring (324) made of a dielectric material and enclosing the rotary electrical joint assembly (5) around the circumference. 6. Breaker-disconnector-grounding switch (1) assembly according to any one of paragraphs. 1 - 5, characterized in that the axis (O32) of rotation of the rotary rod (32) coincides with the longitudinal axis (O4) of the contacts (41, 42) of the assembly (4) of the vacuum interrupter. 7. Breaker-disconnector-grounding switch (1) assembly according to any one of paragraphs. 1 - 6, characterized in that the gear wheel (322) forms a monolithic element together with the rotary rod (32) and is located in the chamber (31) of the assembly (3) "disconnector-grounding switch". 8. Breaker-disconnector-grounding switch (1) assembly according to any one of paragraphs. 1 - 7, characterized in that the housing (2) is provided with a channel (22) in which the drive worm (23) is located, which engages with a gear (23), preferably a worm gear (322), of the rotary rod (32). 9. Breaker-disconnector-grounding switch (1) assembly according to any one of paragraphs. 1 - 8, characterized in that the chamber (31) of the “disconnector-earth switch” assembly is provided with an outlet on the side opposite to the vacuum interrupter assembly (4), and said outlet is preferably closed by a cover (24), preferably a pivoting cover . 10. Breaker-disconnector-grounding switch (1) assembly according to any one of paragraphs. 1 to 9, characterized in that the body (2) comprises a monolithic body (21) made of an electrically insulating resin, preferably an epoxy resin, and even more preferably a two-component epoxy resin.

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