FR3128054A3 - Switch-circuit breaker-disconnector-earthing switch assembly - Google Patents

Abstract

This utility model relates to a switch-circuit breaker-disconnector-earthing switch assembly (1) comprising a casing (2) made of dielectric material, in which are arranged a disconnector-earthing switch sub-assembly (3) and a sub-assembly -vacuum switch-circuit breaker assembly (4) connected in series to each other, characterized in that the assembly (1) comprises a rotating electrical junction subassembly (5) forming an electrical connection in series between the disconnector-earthing switch subassembly (3) and the switch-vacuum circuit-breaker subassembly (4); And the disconnector-earthing switch sub-assembly (3) comprises – a chamber (31); – a rotatable conductive connection element (33) arranged in the chamber (31); - at least two insulating partitions (321) made of dielectric material and projecting from the rotary spindle (32); – a toothed wheel (322); – a receiving output contact (61) and an earthing contact (62); – an output terminal (63). Figure 2

Description

Switch-circuit breaker-disconnector-earthing switch assembly

This utility model relates to a switch-circuit breaker-disconnector-earthing disconnector assembly comprising a casing made of dielectric material, in which are arranged a disconnector-earth disconnector sub-assembly and a switch-vacuum circuit-breaker sub-assembly connected in series to each other.

An integration of a vacuum switch-circuit breaker and a disconnector-earthing disconnector assembly in the form of a switch-circuit breaker-disconnector-earthing disconnector assembly described above is known in the state of the art.

By way of example, publication WO0133593A1 discloses such a switch-circuit breaker-disconnector-earth disconnector assembly which comprises a disconnector, which is installed in an environment protected by SF6 gas and operates as a line/earth inverter, and a switch- vacuum circuit breaker, which is connected in series with the disconnector and which can be used as a line circuit breaker for line protection and as an earthing switch with making capacity.

Object of the invention

The present invention aims to provide an innovative alternating switch-circuit breaker-disconnector-earth disconnector assembly which has a relatively simple but reliable construction.

Summary of utility model

According to this utility model, a switch-circuit breaker-disconnector-earth disconnector assembly of the type mentioned in the introduction is provided, which comprises a box made of dielectric material, in which are arranged a disconnector-earth disconnector sub-assembly and a switch-vacuum circuit-breaker subassembly connected in series with each other, and which is characterized in that
the switch-circuit breaker-disconnector-earth disconnector assembly comprises a rotary electrical junction subassembly forming an electrical connection in series between the disconnector-earth disconnector subassembly and the vacuum switch-circuit breaker subassembly; And
the disconnector-earthing switch subassembly comprises
- A chamber in which is arranged a rotary spindle made of dielectric material, the axis of rotation of the rotary spindle coinciding with the axis of rotation of the rotary electrical junction sub-assembly;
– a rotating conductive connection element arranged in the chamber and in the rotating pin and at one end electrically connected by means of a first axial contact to the rotating electrical junction sub-assembly and at the other end provided with a second rotating contact radial projecting from the rotating spindle in the direction not parallel to the axis of rotation of the rotating spindle;
– at least two insulating partitions of dielectric material and projecting from the rotary spindle and surrounding and separating the second radial rotary contact in the plane perpendicular to the axis of rotation of the rotary spindle, the insulating partitions defining between them on the side of the second radial rotary contact a salient angle, which preferably is not greater than 110°;
– a toothed wheel, preferably a worm wheel, connected to the rotating spindle and rotatable around the axis of rotation of the rotating spindle;
– a receiving output contact and a grounding contact projecting inward from the inner surface of the chamber in the plane of rotation of the second rotary radial contact of the rotary conductive connection element and connectable to the second rotary radial contact in specific angular positions of said rotary contact;
– an electrical receiving output terminal and an electrical grounding terminal connected respectively to the receiving output contact and to the grounding contact.

The dielectric rotary pin may preferably include a radial projection projecting from its side surface, from which the second radial rotary contact projects.

In some preferred embodiments of this utility model, the receiver output contact and/or the grounding contact may respectively comprise two contact components, the second radially rotating contact being inserted between the contact components in the direction of the axis of rotation of the rotary spindle.

The rotating electrical junction sub-assembly of the switch-circuit breaker-disconnector-earthing disconnector assembly may preferably comprise an intermediate conductive element electrically connected to a fixed contact of the switch-vacuum circuit-breaker sub-assembly and comprising an opening located concentrically to the axis of rotation of the rotating spindle and provided with a radial annular recess, in which in the radial annular recess a conductive spiral spring is arranged and comes into contact with a surface of the radial annular recess and comes into contact with the first axial contact of the rotating conductive connection element located in the opening of the intermediate conductive element.

According to this utility model, it is preferable that the rotary spindle comprises an insulating collar of dielectric material and circumferentially surrounding the rotating electrical junction sub-assembly.

The axis of rotation of the rotary spindle of the switch-circuit breaker-disconnector-earthing switch assembly preferably coincides with the longitudinal axis of the contacts of the switch-vacuum circuit-breaker sub-assembly.

The toothed wheel preferably forms a single piece element together with the rotary spindle and is arranged in the chamber of the disconnector-earth disconnector sub-assembly.

The housing of the switch-circuit breaker-disconnector-earth disconnector assembly may preferably be provided with a channel in which a drive worm is arranged and coupled to the toothed wheel, preferably the worm wheel , of the rotary spindle.

The chamber of the disconnector-earthing switch sub-assembly is preferably provided with an output on the opposite side with respect to the switch-vacuum circuit-breaker sub-assembly, the output being preferably closed by means of a cover, preferably at the means of a rotating cover.

The housing of the switch-circuit breaker-disconnector-earth disconnector assembly may preferably comprise a one-piece body made of electrically insulating resin, preferably epoxy resin, and more preferably epoxy resin with two components such as, for example, the two-component epoxy resin, Huntsman CW229-3/HW229-1, commercially available.

The switch-circuit breaker-disconnector-earthing switch assembly according to the utility model is of simple and reliable construction, its use and maintenance are easy, and it does not require the use of SF ₆ insulation. The sets of this utility model can be simply arranged in larger numbers (for example, in numbers of three sets) on a common mounting base thus forming integrated switch-circuit breaker-disconnector-earth disconnector units multi-phase (e.g. three-phase). The toothed wheels of all the switch-circuit breaker-disconnector-earth disconnector assemblies of this utility model forming such an integrated unit can be driven by means of a single common drive worm.

The utility model is described and explained below in connection with embodiments shown in the accompanying drawings in which:
shows an axonometric view of the first embodiment of the switch-circuit breaker-disconnector-earth disconnector assembly of this utility model,
shows an axonometric cross-sectional view of the first embodiment of the in a position of a connection of a conductive connection element to a grounding contact,
shows a longitudinal cross-section of the first embodiment of the in a position of a connection of a conductive connection element to a grounding contact,
shows a cross section of the first embodiment of the carried out in the plane P1-P1 represented on the in a position of a connection of a conductive connection element to a grounding contact,
shows a cross section of the first embodiment of the carried out in the P2-P2 plane represented on the in a position of a connection of a conductive connection element to a grounding contact,
shows a cross section of the first embodiment of the carried out in the P2-P2 plane represented on the in a neutral position to a complete disconnection of a conductive connection element,
shows a cross section of the first embodiment of the carried out in the P2-P2 plane represented on the in a position of a connection of a conductive connection element to a receiver output contact,
shows a longitudinal cross-section of the second embodiment of the switch-circuit breaker-disconnector-earthing switch assembly of the present utility model in a position of a connection of a conductive connection element to an earthing contact earth,
shows a cross section of the second embodiment of the carried out in the plane P1-P1 represented on the in a position of a connection of a conductive connection element to a grounding contact,
shows a longitudinal cross-section of the third embodiment of the switch-circuit breaker-disconnector-earthing switch assembly of the present utility model in a position of a connection of a conductive connection element to an earthing contact earth.

Detailed Description of Preferred Embodiments

The first embodiment of the switch-circuit breaker-disconnector-earth disconnector assembly of this utility model as illustrated in Figures 1 to 7 comprises a casing 2 made of dielectric material in the form of a one-piece resin body electrically insulating (for example, an epoxy resin, such as the commercially obtainable two-component epoxy resin, Huntsman CW229-3/HW229-1), in which are arranged a disconnector-earthing switch subassembly 3 and a sub -vacuum switch-circuit breaker assembly 4 connected in series to each other. The vacuum switch-circuit breaker sub-assembly 4 is completely integrated in a resin material of the body 21 of the casing 2, the connection ends of its fixed contact 41 and of its movable contact 42 projecting outside the body 21 of the housing 2. The vacuum switch-circuit breaker subassembly 4 with its fixed contact 41 and by means of a rotating electrical junction subassembly 5 is electrically connected in series to the disconnector-earthing disconnector subassembly 3. Contact 42 movable is movable relative to the contact 41 fixed along the longitudinal axis O4 of the vacuum switch-circuit breaker sub-assembly 4. The disconnector-earth disconnector sub-assembly 3 comprises a chamber 31, in which a connection element 33 rotating conductor is arranged and connects in its specific angular positions the fixed contact 41 of the vacuum switch-circuit breaker sub-assembly 4 to a receiver output contact 61 connected to an electrical receiver output terminal 63 or alternatively to an earthing contact. ground 62 connected to an electrical grounding terminal 64. The rotary conductor connection element 33 is integrated in a rotary pin 32 of dielectric material, a first axial contact 331 of the rotary conductor connection element 33 protruding from the rotary pin 32 along its longitudinal axis O32, and a second radial rotary contact 332 of the rotary conductive connection element 33 protruding from a radial projection 323 of the rotary spindle 32 in the direction not parallel with respect to the axis of rotation O32 of the rotary spindle 32. The first axial contact 331 and the second radial rotary contact 332 constitute the opposite end portions of the rotary conductive connection element 33. The first axial contact 331 of the rotary conductive connection element 33 is electrically connected to the rotary electrical junction sub-assembly 5. The second radial rotary contact 332 moves in a circle following a rotation of the rotary pin 32 with the rotary conductive connection element 33 around the axis of rotation O32. During said circular movement, the second radial rotary contact 332 can be moved into a position of electrical contact with the receiver output contact 61 and into another position of electrical contact with the grounding contact 62, the contacts 61 and 62 being projecting opposite to each other inwardly from the inner surface of the chamber 31 in the plane of rotation P1-P1 of the second radial rotary contact 332 of the connecting element 33 rotary conductor. The receiver output contact 61 and the grounding contact 62 respectively comprise two contact components 611, 621, the second radial rotary contact 332 of the rotary conductive connection element 33 being inserted between the contact components 611, 621 in the direction of the axis of rotation O32 of the rotary spindle 32. In this first embodiment of the switch-circuit breaker-disconnector-earth disconnector assembly 1, the axis of rotation O32 of the rotary pin 32 with the rotary conductor connection element 33 coincides with the longitudinal axis O4 of the contacts 41, 42 of the vacuum switch-circuit breaker sub-assembly 4. The rotating electrical junction sub-assembly 5 comprises an intermediate conductive element 51 on one side electrically connected to the fixed contact of the vacuum switch-circuit breaker sub-assembly 4 and of the the other side electrically connected to the first axial contact 331 of the rotary conductive connection element 33. The electrical connection of the conductive intermediate element 51 to the fixed contact 41 of the vacuum switch-circuit breaker subassembly 4 is made by bringing said elements into contact directly with each other by means of a screwed connection. While the electrical connection of the conductive intermediate element 51 to the first axial contact 331 of the rotary conductive connection element 33 is made by means of a conductive spiral spring 53 arranged in a radial annular recess 521 located in an opening 52 formed in the conductive intermediate element 51. The opening 522 comprising the radial annular recess 521 is concentric with respect to the axis of rotation O32 of the rotary spindle 32 and the first axial contact 331 of the rotary conductive connecting element 33 is introduced into said opening 522 in such a way so that a spiral spring 53 arranged in the radial annular recess 521 is in electrically conductive contact on its internal face with said first axial contact 331 of the rotary conductive connecting element 33 and is in electrically conductive contact on its external side with the surface of the radial annular recess 521. Thanks to this, the axis of rotation O32 of the rotary spindle 32 and of the rotary conductor connection element 33 coincides with the axis of rotation O5 of the rotary electrical junction subassembly 5. Two longitudinal insulating partitions 321 of dielectric material protrude in radial directions from the rotary pin 32 and extend along the axis of the rotary pin 32 and surround and separate the second radial rotary contact 332 in the plane P1-P1 , which is perpendicular to the axis of rotation O32 of the rotary spindle 32. Said two insulating partitions 321 define between them on the side of the second rotary radial contact 332 a salient angle α, which, preferably, is not greater than 110°. In addition, the disconnector-earth disconnector subassembly 3 comprises a worm gear 322 connected to the rotary spindle 32 above the longitudinal insulating partitions 312 and concentrically with respect to the axis of rotation O32 of the spindle 32 rotary. The worm gear 322 is used to control the angular position of the rotary spindle 32 and therefore of the switching state of the second radial rotary contact 332 of the rotary conductor connection element 33 with respect to the output contact 61 receiver and to the grounding contact 62. The teeth of the worm gear 322 are accessible from outside the chamber 31 through the exit of the chamber 31 on the opposite side with respect to the switch-circuit breaker sub-assembly idler 4 to allow worm gear 322 to engage a suitable drive control member not shown in Figures 1 to 7. Rotating spindle 32 includes an insulating collar 324 of dielectric material located opposite side relative to the worm gear 322 and circumferentially surrounding the rotary electrical junction sub-assembly. In this first embodiment, the rotating pin 32, its radial projection 323, the longitudinal insulating partitions 321, the worm wheel 322 and the insulating collar 324 form a single one-piece dielectric element made of an electrically insulating resin, for example, into an epoxy resin, such as, for example, commercially available two-component epoxy resin, Huntsman CW229-3/HW229-1.

The second embodiment of the switch-circuit breaker-disconnector-earth disconnector assembly 1, as illustrated in Figures 8 to 9, comprises the rotating pin 32 provided with four insulating partitions 321, 3211, including two additional insulating partitions 3211 , which are additional to the first embodiment of Figures 1 to 7, which are arranged symmetrically to the insulating partitions 321 surrounding the second radial rotary contact 332 of the connecting element 33 rotary conductor relative to the plane, which passes through the axis of rotation O32 of the rotary spindle 32 and which is perpendicular to the direction of projection of the second contact 332 radial rotary. In this second embodiment, the second radial rotary contact 332 of the rotary conductive connection element 33 projects directly from the rotary pin 32, which is not provided with any radial projection, from which, in the first embodiment, the second radial rotary contact protrudes.

There shows the third embodiment of the switch-circuit breaker-disconnector-earth disconnector assembly 1. In this third embodiment, the axis of rotation O32 of the rotary spindle 32 comprising the rotary conductor connection element 33 coincides with the axis of rotation O5 of the rotating electrical junction subassembly 5 but it does not coincide with the longitudinal axis O4 of the contacts 41, 42 of the vacuum switch-circuit breaker subassembly 4 and it is perpendicular to said longitudinal axis O4 . The output of the chamber 31 of the disconnector-earth disconnector subassembly located on the opposite side with respect to the vacuum switch-circuit breaker subassembly 4 is in this third embodiment closed by a rotating cover 24. The cover 24 forms the housing 2 together with the body 3 and defines the channel 22 in the housing, in which the drive worm 23 is arranged in the channel 22 and cooperates with the worm wheel 322 of the spindle. 32 rotating arranged in the chamber 31. In addition, a cylindrical sleeve 241 is formed on the inner side of the cover 24, the end of the rotating spindle 32 being embedded in said sleeve. Further, in addition to the first and second embodiments, the body 21 of the housing 2 in the third embodiment comprises a mounting projection 25 projecting downward from the bottom of the body 21 and provided with an opening threaded assembly 251 allowing the switch-circuit breaker-disconnector-earthing switch assembly 1 to be mounted on a base not shown in the drawings.

The above presented embodiments of this utility model and the attached drawings are given by way of example and should not be considered as limiting the scope of utility model protection which is defined in the claims. For a skilled person in the art, it is obvious to create a number of other variations of this utility model, including new variations that are combinations of the described embodiments of this utility model. The figures are not necessarily to scale and certain features may be exaggerated or understated to better illustrate this utility model. These and other factors should not, however, be construed as limiting this utility model, the intended scope of protection of which is set forth in the appended claims.

Numerical references

1 Switch-circuit breaker-disconnector-earthing switch assembly

2 Housing

21 Body

22 Channel

23 Drive worm

24 Lid

241 Socket

25 Mounting projection

251 Installation opening

3 Disconnector-earthing switch sub-assembly

31 Room

32 Rotary Spindle

321 Insulating partition

3211 Additional insulating partition

322 Worm wheel

323 Radial projection

324 Insulating collar

33 Rotating conductive connecting element

331 First axial contact

332 Second Radial Rotary Contact

4 Vacuum switch-circuit breaker sub-assembly

41 Fixed contact

42 Movable contact

5 Rotating electrical junction sub-assembly

51 Conductive intermediate element

52 Opening
521 Radial annular recess

53 Spiral spring

61 Receiver output contact

611 contact component

62 Ground Contact

621 contact component

63 Electrical receiver output terminal

64 Electrical ground terminal

O32 Rotation axis of the rotating spindle (32)

O5 Axis of rotation of the rotating electrical junction (5) sub-assembly

O4 Longitudinal axis of the contacts (41, 42) of the vacuum switch-circuit breaker sub-assembly (4)

P Plane perpendicular to the axis of rotation of the rotary spindle (32)

α Salient angle between the insulating partitions (321) on the side of the second radial rotary contact (332)

Claims (9)

Switch-circuit breaker-disconnector-earth disconnector assembly (1) comprising a casing (2) of dielectric material, in which are arranged a disconnector-earth disconnector sub-assembly (3) and a switch-vacuum circuit-breaker sub-assembly ( 4) connected in series to each other,
characterized in that
the assembly (1) comprises a rotating electrical junction subassembly (5) forming an electrical connection in series between the disconnector-earthing switch subassembly (3) and the switch-vacuum circuit-breaker subassembly (4); And
the disconnector-earthing switch sub-assembly (3) comprises
– a chamber (31) in which is arranged a rotary spindle (32) of dielectric material, in which the axis of rotation (O32) of the rotary spindle (32) coincides with the axis of rotation (O5) of the sub- rotating electrical junction assembly (5);
– a rotary conductive connection element (33) arranged in the chamber (31) and in the rotary pin (32) and at one end electrically connected by means of a first contact (331) axial to the junction sub-assembly (5) rotary electric motor and at the other end provided with a second radial rotary contact (332) projecting from the rotary spindle (32) in the direction not parallel to the axis of rotation (O32) of the spindle (32) rotary;
– at least two partitions (321) insulating in dielectric material and projecting from the rotating spindle (32) and surrounding the second radial rotating contact (332) in the plane (P1-P1) perpendicular to the axis of rotation (O32) the rotary spindle (32), in which the insulating partitions (321) define between them on the side of the second radial rotary contact (332) a salient angle (α), which preferably is not greater than 110°;
– a toothed wheel (322), preferably a worm wheel, connected to the rotating spindle (32) and rotatable around the axis of rotation (O32) of the rotating spindle (32);
- an output contact (61) receiving and a grounding contact (62) projecting inwardly from the inner surface of the chamber (31) in the plane of rotation of the second radial rotary contact (332) of the connection element (33) conductive rotatable and connectable to the second radial rotatable contact (332) in specific angular positions of said rotatable contact (332);
- an electrical receiving output terminal (63) and an electrical grounding terminal (64) connected respectively to the receiving output contact (61) and to the grounding contact (62). Switch-circuit breaker-disconnector-earth disconnector assembly (1) according to claim 1, characterized in that the dielectric rotary pin (32) comprises a radial projection (323) from which the second radial rotary contact (332) projects . Switch-circuit-breaker-disconnector-earthing switch assembly (1) according to Claim 1 or 2, characterized in that the receiving output contact (61) and/or the earthing contact (62) respectively comprise two contact components (611, 621), wherein the second radial rotary contact (332) is inserted between the contact components (611, 621) in the direction of the axis of rotation (O32) of the rotary spindle (32). Switch-circuit breaker-disconnector-earth disconnector assembly (1) according to Claim 1 or 2 or 3, characterized in that the rotary electrical junction subassembly (5) comprises an intermediate conductive element (51) electrically connected to a contact ( 41) stationary of the vacuum switch-circuit breaker sub-assembly (4) and comprising an opening (52) located concentrically with respect to the axis of rotation (O32) of the rotary spindle (32) and provided with a recess (521 ) radial annular, wherein in the radial annular recess (521) a conductive spiral spring (53) is arranged and comes into contact with a surface of the radial annular recess (521) and comes into contact with the first contact (331 ) axial of the connection element (33) rotating conductor located in the opening (52) of the element (51) intermediate conductor. Switch-circuit breaker-disconnector-earth disconnector assembly (1) according to any one of the preceding claims 1 to 4, characterized in that the rotating pin (32) comprises an insulating collar (324) made of dielectric material and circumferentially surrounding the -rotating electrical junction assembly (5). [Claim 6 Switch-circuit breaker-disconnector-earth disconnector assembly (1) according to any one of the preceding claims 1 to 5, characterized in that the axis of rotation (O32) of the rotary spindle (32) coincides with the longitudinal axis (O4) of the contacts (41, 42) of the vacuum switch-circuit breaker subassembly (4). Switch-circuit-breaker-disconnector-earth disconnector assembly (1) according to any one of the preceding claims 1 to 6, characterized in that the toothed wheel (322) forms a one-piece element together with the rotary spindle (32) and is arranged in the chamber (31) of the disconnector-earthing switch subassembly (3). Switch-circuit breaker-disconnector-earth disconnector assembly (1) according to any one of the preceding claims 1 to 7, characterized in that the casing (2) is provided with a channel (22) in which a worm screw The drive (23) is arranged and coupled to the toothed wheel (322), preferably the worm wheel, of the rotating spindle (32). Switch-circuit breaker-disconnector-earthing switch assembly (1) according to any one of the preceding claims 1 to 8, characterized in that the chamber (31) of the disconnector-earthing switch sub-assembly is provided with an output of the opposite side with respect to the vacuum switch-circuit breaker sub-assembly (4), in which the output is preferably closed by means of a cover (24), preferably by means of a rotating cover. Switch-circuit breaker-disconnector-earth disconnector assembly (1) according to any one of the preceding claims 1 to 9, characterized in that the box (2) comprises a one-piece body (21) made of electrically insulating resin, preferably of epoxy, and more preferably two-component epoxy resin.