WO2015132059A1

WO2015132059A1 - Connecting device for waveguides

Info

Publication number: WO2015132059A1
Application number: PCT/EP2015/052979
Authority: WO
Inventors: Ismail Cem BÜTÜNER; Olaf SCHLIEPER; Arno Wahle
Original assignee: Siemens Aktiengesellschaft
Priority date: 2014-03-04
Filing date: 2015-02-12
Publication date: 2015-09-11
Also published as: CN106030900A; EP3090465A1; DE102014203901A1; CN106030900B; ES2796223T3; EP3090465B1

Abstract

The invention relates to a connecting device (10) for waveguides, comprising a hollow body (12) which consists of electrical conductive materials; a plurality of receiving openings (20, 22) arranged on the hollow body (12) for receiving the waveguides (28, 30) to be connected and at least one vent (26) arranged on the hollow body (12) for dissipating the heat within the hollow body. According to the invention, the vent (26) of said connecting device (10) is designed as a mounting opening (26).

Description

description

Connecting Device for Waveguides The present invention relates to a connecting device for waveguides.

PRIOR ART Hollow conductors are used in GIS high-voltage technology. Current flow creates heat in the waveguides. Especially in a vertical arrangement, it comes to heat accumulation, since the taking place in the blocks and the heat dissipation to the environment supporting convection does not take place in the ladders. The heat is applied to adjacent components, e.g.

Contacts, which for obvious reasons is counterproductive. For better heat dissipation to the environment "vents" are installed in the ladder in some areas.

Waveguides must be connected, for example, to build a waveguide network. When connecting the waveguides, the electrical resistance along the entire circumference must be very low, since high currents can flow in the wall. In waveguides is like screwed inside. For a larger mounting hole is provided. However, this causes dielectric problems. To solve the problem, the mounting hole is usually closed with a lid. Object of the invention

The object of the invention is to provide a connecting device for waveguides, which allows both a mounting of the waveguide in a simple manner and an optimized convection.

To solve this problem, a connecting device is proposed with the invention, which is provided with a hollow body formed of electrically conductive materials,

a plurality of arranged on the hollow body receiving openings for receiving the waveguide to be connected and - at least one arranged on the hollow body ventilation opening for dissipating the heat within the hollow body.

In the connection device according to the invention,

the ventilation opening is designed as a mounting opening.

The connecting device according to the invention has a hollow body and a plurality of receiving openings arranged on the hollow body for receiving the waveguides to be connected. The hollow body is formed of electrically conductive materials, such as e.g. made of aluminum, iron, steel or other metals. In order to dissipate the heat within the hollow body, at least one ventilation opening is arranged on the hollow body.

When connecting the waveguide is like screwed inside. This requires a mounting hole. According to the invention, the ventilation opening also serves as a mounting opening. Favorable design of the radii around the mounting hole avoids dielectric problems. A lid for the mounting hole is not needed in the invention. Since the mounting hole also serves as a ventilation opening, this opening should not be covered. The combination of the mounting aperture and vent allows both easy assembly of components (e.g., waveguides, contacts, etc.) on the hollow body and optimized gas convection between the inside and outside of the hollow body.

In order to optimize the thermal convection at least two ventilation openings can be arranged on the hollow body. If necessary, the hollow body also several vents exhibit. It should be emphasized at this point that the number of openings can not be increased arbitrarily, since the electrical resistance of the hollow body is increased by too many openings. Therefore, when arranging the ventilation openings and selecting their number, it must be ensured that the electrical conductivity of the hollow body is not prevented.

It is expedient if one of the ventilation openings serves as a mounting opening. But it is also possible that if necessary serve several ventilation openings as mounting holes.

When connecting the waveguide to the connecting device, the waveguides with connecting elements are to be fixed to the receiving openings of the hollow body. The receiving openings are covered by the waveguides. Therefore, the connecting elements can not be reached directly outside at the connection point. Through the mounting opening, the connecting elements can be reached from the outside of the hollow body. It may be the fasteners to screws.

Waveguides are metallic tubes with a round, elliptical or rectangular cross-section. In order to completely cover the receiving opening, the receiving opening can be configured such that its shape corresponds to the cross section of the waveguide to be connected.

It is also advantageous that the hollow body is made in one piece. The hollow body can be cast in one piece, for example.

In order to enable a branching off at a waveguide connection, the hollow body can be configured essentially T-shaped. Examples and drawings

Further advantages and advantageous embodiments of the objects according to the invention are illustrated by the drawings and explained in the following description. It should be noted that the drawings have only descriptive character and are not intended to limit the invention in any way. 1 is a front view of a connecting device according to an embodiment of the invention;

Fig. 2 is a perspective view of the connecting device;

Fig. 3 is a perspective view of an assembly of the connecting device and the waveguides

4 is a bottom view of the assembly of the connection device and the waveguides, and FIG. 5 is a perspective view of an assembly of the connection device, the waveguides and a plug contact.

In Fign. 1 and 2, a connection device according to an embodiment of the invention is shown. As can be seen from FIG. 1, the connecting device 10 has a T-shaped hollow body 12. The hollow body 12 has an upper end face 14, two lateral end faces 16 and a bottom side 18. As shown in Fig. 2, the hollow body 12 has an upper receiving opening 20 and two lateral receiving openings 22, wherein the upper receiving opening 20 on the upper Front side of the hollow body 14 and a lateral receiving opening 22 is disposed in each case on one of the two lateral end faces 16. In this embodiment, the hollow body 12 has three ventilation openings. On the front and rear side of the hollow body 12, a long-shaped ventilation openings 24 is arranged in each case. On the bottom side of the hollow body 18, an opening 26 is arranged, which serves both as a ventilation opening and as a mounting opening. It will be described below with reference to FIGS. 3 and FIG. 4 explains in more detail how an assembly is performed through the mounting opening 26 and how convection passes through the ventilation openings 24, 26. Fig. 3 illustrates the assembly of the connecting device and the waveguides. At the upper receiving opening 20, an upper waveguide 28 is arranged. The attachment of the upper waveguide 28 at the upper receiving opening 20 will be explained in more detail with reference to FIG. 4. As can also be seen from FIG. 3, a lateral waveguide 30 is arranged on each lateral receiving opening 22. The waveguide 30 is fixed to the lateral receiving opening 22 with a plurality of connecting elements 32. In this embodiment, screws 34 are used as the connecting members 32. But it is also possible to use other elements than connecting elements 32.

As shown in Fig. 3, the waveguide 30 are screwed to the hollow body 12 from the inside. Therefore, the screws 34 would not be accessible from the outside of the hollow body 12, if the mounting hole 26 were not present. The mounting hole 26 allows one to easily reach the screws 34 through them. Also, in view of the dielectric problem, the mounting hole 26 should not be too large. The installation opening 26 should be so large that a fitter can easily assemble the screws 34 through this mounting opening 26. However, the conductivity of the hollow body 12 should be affected by the mounting hole 26 as little as possible. As a vent opening allows the large opening 26 at the same time effective convection. In Fig. 3 is further a

Air flow 36 shown passing through the ventilation and mounting opening 26 and the long-shaped vent opening 24. By means of this air flow 36, a heat transfer between the inside and the outside of the hollow body 12 is carried out.

Fig. 4 shows a bottom view of the assembly of the connecting device and the waveguides. One can by means of Fig. 4 clearly recognize that the mounting opening 26 is also suitable for the assembly of the upper waveguide 28. Since the upper waveguide 28 is also screwed to the hollow body 12 from the inside, the installer must perform the tightening through the mounting hole 26.

Fig. 5 illustrates an assembly of the connecting device, the waveguides and a plug contact. In this exemplary embodiment, a plug contact 38 instead of the waveguide 30 is arranged on one of the two lateral receiving openings 22.

reference numeral

10 connection device

12 hollow bodies

14, the upper end side of the hollow body

16, the lateral end face of the hollow body

18 bottom side of the hollow body

20, the upper receiving opening

22, the lateral receiving opening

24 the long-shaped vent

26 Ventilation and mounting opening

28 upper waveguide

30 lateral waveguides

32 connection element

34 screw

36 air flow

38 plug contact

Claims

claims

1. Connecting device for waveguide, with

a hollow body (12) formed of electrically conductive materials,

a plurality of receiving openings (20, 22) arranged on the hollow body for receiving the waveguides (28, 30) and

at least one ventilation opening (26) arranged on the hollow body (12) for dissipating the heat within the hollow body,

characterized ,

the ventilation opening (26) is designed as a mounting opening (26).

2. Connecting device according to claim 1, characterized in that at least two ventilation openings (24, 26) are arranged on the hollow body (12).

3. Connecting device according to claim 2, characterized in that at least one of the ventilation openings (24, 26) is designed as a mounting opening (26).

4. Connecting device according to one of claims 1 to 3, characterized in that the waveguides (28, 30) on the hollow body (12) with a plurality of connecting elements (32) can be fastened, by the mounting opening (26) from the outside of the hollow body ( 12) can be reached.

5. Connecting device according to claim 4, characterized in that the connecting elements (32) are designed as screws (34).

6. Connecting device according to one of claims 1 to 5, characterized in that the shape of the receiving opening (20, 22) corresponds to the cross section of the waveguide (28, 30).

7. Connecting device according to one of claims 1 to 6, dadu rch gekenn ce i c hne t that the hollow body (12) is made in one piece.

8. Connecting device according to one of claims 1 to dadu rch gekenn z e i c hne t that the hollow body (12) is configured substantially T-shaped.