WO2016096889A1 - Insulating support assembly for conductor and busbar thereof - Google Patents

Abstract

The present invention relates to an insulating support assembly for a conductor, comprising: a first fixing element, having a first connecting face capable of fitting an inner peripheral surface of the connecting part; a second fixing element, having a second connecting face capable of fitting an outer peripheral surface of the connecting part, wherein the second connecting face and the first connecting face can be fixed together with the connecting part; and an insulating support element, having a first fixing end capable of being connected to the second fixing element, and a second fixing end capable of being connected to a base. The insulating support assembly for a conductor has a simple structure, and is easy to process and assemble. The present invention also relates to a busbar which uses the insulating support assembly, and which reduces the effect of a change in the external form of the cylinder wall of the conductor on the electric field uniformity of the conductor when the latter is carrying a current.

Description

Description

Insulating support assembly for conductor and busbar thereof Technical field

The present invention relates to an insulating support assembly, in particular to an insulating support assembly for supporting a conductor. The present invention also relates to a busbar using the insulating support assembly.

Background art

An insulating support assembly is generally installed between a busbar housing and a conductor, and serves insulating and supporting functions. During manufacture of a known insulating support assembly, it is necessary to process a complex end face on the conductor for connecting the insulating support assembly, thereby destroying the original structure of the conductor, and in turn affecting the uniformity of the electric field on the conductor during passage of current.

Content of the invention

An object of the present invention is to provide an insulating support assembly for a conductor, to reduce the effect of installing an insulating support assembly on conductor electric field uniformity.

Another object of the present invention is to provide a busbar which uses the above insulating support assembly.

The present invention provides an insulating support assembly for a conductor, comprising a first fixing element, a second fixing element and an insulating support element. The conductor is cylindrical and has a connecting part. The first fixing element has a first connecting face capable of fitting an inner peripheral surface of the connecting part. The second fixing element has a second connecting face capable of fitting an outer peripheral surface of the connecting part, wherein the second connecting face and the first connecting face can be fixed together with the connecting part. The insulating support element has a first fixing end capable of being connected to the second fixing element and a second fixing end capable of being connected to a base.

In a schematic embodiment of the insulating support assembly for a conductor, insulated support of the conductor can be realized by means of the first fixing element, the second fixing element and the insulating support element. By fitting the first fixing element and second fixing element together with the conductor, the effect of a change in the external form of the cylinder wall of the conductor on conductor electric field uniformity during passage of current is reduced. The insulating support assembly for a conductor has a simple structure, and is easy to process and assemble.

In another schematic embodiment of the insulating support assembly for a conductor, the first fixing element has a first fixing face parallel to an axial direction of the conductor, while the second fixing element has a second fixing face parallel to the axial direction of the conductor. The first fixing element comprises a first fixing hole extending from the first fixing face to the first connecting face, while the second fixing element comprises a second fixing hole extending from the second fixing face to the second connecting face. In a direction perpendicular to the axial direction of the conductor, the first fixing hole and the second fixing hole can form a straight through-hole. The insulating support assembly further comprises a connecting bolt capable of passing through the first fixing hole and the second fixing hole, and the connecting bolt can be screwed into the first fixing end. The above structure facilitates installation of the insulating support assembly, is easy to process and has a simple structure .

In another schematic embodiment of the insulating support assembly for a conductor, the first fixing element has two said first fixing holes in the axial direction of the conductor, the second fixing element has two said second fixing holes in the axial direction of the conductor, and two said connecting bolts can be passed through the first fixing holes and the corresponding second fixing holes and screwed into the first fixing end. The use of two connecting bolts for fixing helps to ensure the orientation of the insulating support element during assembly .

In another schematic embodiment of the insulating support assembly for a conductor, the insulating support element comprises a through-hole located in a middle part of the insulating support element. The through-hole in the insulating support element can improve the insulating properties of the insulating support element while decreasing the amount of insulating material used.

In another schematic embodiment of the insulating support assembly for a conductor, the first connecting face is a cylindrical face capable of fitting an inner peripheral surface of the conductor. The second connecting face is a cylindrical face capable of fitting an outer peripheral surface of the conductor. The above arrangement can ensure a firm connection between the insulating support assembly and the conductor.

The present invention also provides a busbar, comprising a cylindrical conductor, a busbar housing surrounding the conductor, and an insulating support assembly as described above, wherein the conductor has a connecting part, and the busbar housing has a base on the inside. The first connecting face fits an inner peripheral surface of the conductor, the second connecting face fits an outer peripheral surface of the conductor, and the second connecting face and first connecting face are fixed together with the connecting part. The first fixing end is connected to the second fixing element, while the second fixing end is connected to the base. By means of the first fixing element, second fixing element and insulating support element, insulated support of the conductor by the busbar housing can be realized. By fitting the first fixing element and second fixing element together with the conductor, the effect of a change in the external form of the cylinder wall of the conductor on conductor electric field uniformity during passage of current is reduced, and reliable insulated support of the conductor by the busbar housing is realized.

In another schematic embodiment of the busbar, the connecting part is a through-hole disposed in a cylinder wall of the conductor. The above structure is simple, facilitates installation of the insulating support assembly as well as processing, and reduces the change in external form of the cylinder wall of the conductor.

In another schematic embodiment of the busbar, the conductor is provided with an operating hole in a cylinder wall on a side opposite the connecting part. The provision of the operating hole enables the connecting bolt to be conveniently passed through the first fixing hole for connection, and to be turned and thereby fixed in position.

Description of the accompanying drawings

The accompanying drawings below merely illustrate and explain the present invention schematically, without defining the scope thereof .

Fig. 1 is a schematic structural diagram used to illustrate a schematic embodiment of the insulating support assembly for a conductor . Fig. 2 shows a schematic diagram of the insulating support assembly for a conductor after being assembled to form a busbar, viewed in section along a plane passing through an axis of the busbar.

Key to labels

Particular embodiments

To furnish a clearer understanding of the technical features, objects and effects of the present invention, particular embodiments of the present invention are now explained with reference to the accompanying drawings, in which identical labels indicate identical parts.

In this text, "schematic" means "serving as a real example, example or illustration". No drawing or embodiment described herein as "schematic" should be interpreted as being a more preferred or more advantageous technical solution.

To make the drawings uncluttered, only those parts which are relevant to the present invention are shown schematically in each drawing; they do not represent the actual structure thereof as a product. Furthermore, to make the drawings uncluttered and easy to understand, in some drawings containing components having the same structure or function, only one of these is drawn schematically, or only one is labelled.

In this text, "a" does not only mean "just this one", but may also mean "more than one".

In this text, "first", "second", etc. are used purely for differentiation of components, and do not indicate order or degree of importance thereof, or that the presence of one component requires the presence of another, etc.

Fig. 1 is a schematic structural diagram used to illustrate a schematic embodiment of the insulating support assembly for a conductor. Fig. 2 shows a schematic diagram of the insulating support assembly for a conductor after being assembled to form a busbar, viewed in section along a plane passing through an axis of the busbar. Referring to Figs. 1 and 2, the insulating support assembly for a conductor comprises a first fixing element 20, a second fixing element 30 and an insulating support element 40. The insulating support assembly may be used for a busbar, the busbar further comprising a conductor 10 and a busbar housing 12. A middle part of the insulating support element 40 may have a through-hole 46 as shown in Fig. 1, or be a solid body as shown in Fig. 2. An insulating support element 40 having a through-hole 46 can have improved insulating properties while reducing the amount of insulating material used. The dimensions of the through-hole 46 are determined according to the strength of insulating support element 40 required. The conductor 10 is cylindrical and has a connecting part 102 on a cylinder wall, and is used for conducting current. The busbar housing 12 is also cylindrical and surrounds the conductor 10, and has a base 122 on the inside.

In the embodiments shown in Figs. 1 and 2, the connecting part 102 of the conductor 10 has two through-holes processed in the cylinder wall, these two through-holes being arranged along an axial direction of the conductor 10. The two through-holes are used for fixing together the first fixing element 20, the second fixing element 30 and the insulating support element 40. Those skilled in the art will understand that fixing could also be carried out by means of one through-hole, or be carried out in another way such as by means of a snap connection, but during assembly the orientation of the insulating support element having the through-hole 46 must be ensured. The first fixing element 20 has a first connecting face 22 and a first fixing face 24. The first connecting face 22 is a cylindrical face, the curvature thereof enabling it to fit an inner peripheral surface of the cylinder of the conductor 10, i.e. the first connecting face 22 and the inner peripheral surface of the cylinder of the conductor 10 fit together with no gaps. The first fixing face 24 is parallel to the axial direction of the conductor 10. The second fixing element 30 has a second connecting face 32 and a second fixing face 34. The second connecting face 32 is a cylindrical face, the curvature thereof enabling it to fit an outer peripheral surface of the cylinder of the conductor 10, i.e. the second connecting face 32 and the outer peripheral surface of the cylinder of the conductor 10 fit together with no gaps. The second fixing face 34 is parallel to the axial direction of the conductor 10. Those skilled in the art will also understand that the cross section of the cylinder of the conductor 10 need not be absolutely round, but may also be oval or a similar shape.

The insulating support element 40 has a first fixing end 42 and a second fixing end 44. The first fixing end 42 can be connected in a fixed manner to the second fixing element 30, while the second fixing end 44 can be connected in a fixed manner to the base 122 of the busbar housing 12. The first fixing end 42 and second fixing end 44 are made of metal, and form an integral insulating support element 40 with an insulating material such as epoxy resin in a middle part by means of casting. The second connecting face 32 and first connecting face 22 can be fixed together with the connecting part 102. In the embodiment shown in Figs. 1 and 2, the first fixing element 20 has two first fixing holes 26, while the second fixing element 30 has two corresponding second fixing holes 36. The first fixing holes 26 are through-holes extending from the first fixing face 24 to the first connecting face 22; the second fixing holes 36 are through-holes extending from the second fixing face 34 to the second connecting face 32. In a direction perpendicular to the axial direction of the conductor 10, the first fixing holes 26, the through-holes of the connecting part 102 and the second fixing holes 36 can form straight through- holes, thereby being in communication and aligned. The insulating support assembly further comprises two connecting bolts 50. The connecting bolts 50 can sequentially pass through and connect the first fixing holes 26, the through-holes of the connecting part 102 and the second fixing holes 36, and the connecting bolts 50 can be screwed into the first fixing end 42, thereby connecting the first fixing element 20, the conductor 10, the second fixing element 30 and the insulating support element 40 together in a fixed manner. Those skilled in the art will understand that the first fixing element 20 may also have just one first fixing hole 26, while the second fixing element 30 has just one second fixing hole 36, so that the first fixing element 20, the conductor 10, the second fixing element 30 and the insulating support element 40 are connected together in a fixed manner by screwing just one connecting bolt 50 into the first fixing end 42.

By means of the first fixing element, second fixing element and insulating support element, the insulating support assembly for a conductor can realize insulated support of the conductor by the busbar housing. In order to coordinate the connection of the first fixing element and second fixing element to the conductor, it is only necessary to process through-holes in the conductor in a simple manner. Furthermore, the insulating support assembly for a conductor has a simple structure, and is easy to process and assemble.

Referring to the embodiments shown in Figs. 1 and 2, an operating hole 104 may also be provided in the cylinder wall of the conductor 10. The operating hole 104 is disposed in the cylinder wall on the side opposite the connecting part 102, i.e. the position of the operating hole 104 and the position of the connecting part 102 are on two opposite sides of the cylinder wall of the conductor 10. The provision of the operating hole 104 enables the connecting bolts 50 to be conveniently passed through the first fixing holes 26 for connection, and to be turned and thereby fixed in position.

It should be understood that although the descriptions herein are based on various embodiments, it is by no means the case that each embodiment includes just one independent technical solution. This manner of presentation is employed herein purely for the sake of clarity. Those skilled in the art should consider the description in its entirety. The technical solutions in the various embodiments may also be suitably combined to form other embodiments capable of being understood by those skilled in the art.

The series of detailed explanations laid out above are merely specific explanations of feasible embodiments of the present invention. They are by no means intended to restrict the scope of protection of the present invention. Any equivalent embodiments or changes made without departing from the artistic spirit of the present invention, such as combinations, divisions or repetitions of features, shall be included in the scope of protection of the present invention.

Claims

Claims

1. An insulating support assembly for a conductor, the conductor (10) being cylindrical and having a connecting part (102), wherein the insulating support assembly comprises:

a first fixing element (20), having a first connecting face (22) capable of fitting an inner peripheral surface of the connecting part (102); a second fixing element (30), having a second connecting face (32) capable of fitting an outer peripheral surface of the connecting part (102), wherein the second connecting face (32) and the first connecting face (22) can be fixed together with the connecting part (102); and an insulating support element (40), having a first fixing end (42) capable of being connected to the second fixing element (30), and a second fixing end (44) capable of being connected to a base ( 122 ) .

2. The insulating support assembly for a conductor as claimed in claim 1, wherein the first fixing element (20) has a first fixing face (24) parallel to an axial direction of the conductor (10), while the second fixing element (30) has a second fixing face (34) parallel to the axial direction of the conductor (10),

the first fixing element (20) comprises a first fixing hole (26) extending from the first fixing face (24) to the first connecting face (22), while the second fixing element (30) comprises a second fixing hole (36) extending from the second fixing face (34) to the second connecting face (32), and in a direction perpendicular to the axial direction of the conductor (10), the first fixing hole (26) and the second fixing hole (36) can form a straight through-hole,

the insulating support assembly further comprises a connecting bolt (50) capable of passing through the first fixing hole (26) and the second fixing hole (36), and the connecting bolt (50) can be screwed into the first fixing end (42) .

3. The insulating support assembly for a conductor as claimed in claim 2, wherein the first fixing element (20) has two said first fixing holes (26) in the axial direction of the conductor

(10), the second fixing element (30) has two said second fixing holes (36) in the axial direction of the conductor (10), and two said connecting bolts (50) can be passed through the first fixing holes (26) and the corresponding second fixing holes

(36) and screwed into the first fixing end (42) .

4. The insulating support assembly for a conductor as claimed in any one of claims 1 to 3, wherein the insulating support element (40) comprises a through-hole (46) located in a middle part of the insulating support element (40) .

5. The insulating support assembly for a conductor as claimed in claim 1, wherein the first connecting face (22) is a cylindrical face capable of fitting an inner peripheral surface of the conductor (10), while the second connecting face (32) is a cylindrical face capable of fitting an outer peripheral surface of the conductor (10) .

6. A busbar, comprising:

a cylindrical conductor (10), having a connecting part (102); a busbar housing (12) surrounding the conductor (10) and having a base (122) on the inside;

an insulating support assembly as claimed in any one of claims 1 to 5, the first connecting face (22) fitting an inner peripheral surface of the conductor (10), the second connecting face (32) fitting an outer peripheral surface of the conductor (10), the second connecting face (32) and the first connecting face (22) being fixed together with the connecting part (102), the first fixing end (42) being connected to the second fixing element (30), and the second fixing end (44) being connected to the base ( 122 ) .

7. The busbar as claimed in claim 6, wherein the connecting part (102) is a through-hole disposed in a cylinder wall of the conductor (10).

8. The busbar as claimed in claim 6, wherein the conductor (10) is provided with an operating hole (104) in a cylinder wall on a side opposite the connecting part (102) .