DE102012217559A1 - Feedthrough i.e. vacuum-tight feedthrough, for e.g. flywheel energy storage, has connecting part accommodated in inner bore hole and including radial flange part that forms stage on mantle surface, where inner bore hole forms another stage - Google Patents

Abstract

The feedthrough has a rotatable symmetrical insulation body (4) formed with an inner bore hole (5). An electrically conductive connecting part (6) is accommodated in the inner bore hole, and includes a radial flange part (1) that forms a stage (16) on a mantle surface (17). The inner bore hole forms another stage (19), and the flange part is provided with a mounting stage on which a fixing ring is defined. An electrical insulation hose (12) is arranged in a section (11) of the inner bore hole between the connecting part and an inner wall of the inner bore hole. The insulation body is made of plastic or ceramic material. An independent claim is also included for an evacuated housing.

Description

Field of the invention

The invention relates to a bushing for an evacuated housing, comprising a substantially rotationally symmetrical insulation body with an inner bore, a recorded in the inner bore electrically conductive connecting part.

In practice, the requirement often arises to provide a vacuum-tight passage for an evacuated housing, wherein the passage must be designed to be electrically conductive in order to be able to conduct signals or electrical energy out of the evacuated housing to the outside. This requirement occurs, for example, in connection with flywheel mass accumulators, which are mounted in an evacuated housing, but for which electrically conductive bushings in the wall of the housing must be provided.

DE 199 08 557 A1 describes a flywheel mass storage with a rotor which is non-contact, namely magnetic, stored in an evacuated housing, projecting through the wall of the evacuated housing through pole pieces, which are surrounded by coils. The electrical lines of the coils are arranged outside the housing, so that there is no vacuum-tight electrically conductive feedthrough here.

DE 36 40 180 C2 describes a vacuum-tight electrical feedthrough comprising an electrically conductive winding mandrel about which an insulator is wound in layers, the insulator being made of resin-impregnated glass fibers provided with conductor pieces. The composite of the electrically conductive winding mandrel and the cured resin-impregnated glass fibers forms an insulating body to which a disc-shaped metallic flange is attached, for example by gluing, wherein the flange has holes through which fixing elements are guided to the implementation of the wall by the as electrically conductive connecting part intended to fasten winding mandrel to the wall of an evacuated housing. The flange part is formed of a metal, so that the passage formed by the insulating body and the flange part attached thereto by gluing can be directly fixed.

Object of the invention

It is the object of the invention to provide an easy-to-install vacuum-tight implementation for particularly high currents.

Summary of the invention

This object is achieved by a passage for an evacuated housing, in particular for a flywheel energy storage, comprising a substantially rotationally symmetrical insulating body with an inner bore, a received in the inner bore electrically conductive connecting part, wherein the insulating body has a radially projecting flange portion having a first stage forms on an outer circumferential surface, and wherein the inner bore of the insulating body forms a second stage. At the two stages of the insulating body, sealing elements, such as O-rings, can be arranged and supported. The radially projecting flange is in this case a portion of the insulating body and in particular integrally formed therewith.

Preferably, it is provided that the flange part has a mounting step, on which a fixing ring can be fixed. By the fixing ring, the flange is pressed outside on the wall of the housing and achieved a vacuum-tight seal between the insulating body and the wall of the housing.

It is preferably provided that an electrical insulation hose is arranged in a first portion of the inner bore between the connecting part and the inner wall of the inner bore.

It is preferably provided that the body of the insulating body is formed of a plastic or a ceramic-coated metallic base body.

The invention further relates to an evacuated housing, comprising a bore in a wall of the housing and a recorded in the bore inventive implementation, in particular such a housing in which a flywheel mass of a flywheel mass storage is added quickly rotating stored.

Further advantages and features of the invention will become apparent from the dependent claims and from the description of an embodiment.

The invention will be described and explained in more detail below with reference to the accompanying drawings.

Brief description of the figures

1 shows a sectional view of an embodiment of a bushing according to the invention and an embodiment of a housing according to the invention.

Detailed description of the figures

1 shows a section of a wall 1 an evacuated housing, wherein the evacuated area in the representation of 1 below the wall 1 is arranged and above the wall 1 Ambient air is present. In the wall 1 is a hole 2 provided within which one implementation 3 is included, with the implementation 3 is vacuum-tight and can carry high currents.

The implementation 3 comprises a substantially rotationally symmetrical insulating body 4 with a continuous inner bore 5 , In particular, it is provided that the body of the insulating body 4 is formed of a plastic (for example PEEK) or a ceramic-coated metallic base body. The insulation body 4 is designed as a one-piece item, in particular as a plastic molded part or as a ceramic-coated metallic molded part.

The implementation 3 further includes one in the inner bore 5 recorded electrically conductive connection part 6 , which is designed as a substantially rotationally symmetrical metal part, in particular made of copper, and to both ends via the insulating body 4 survives. At a narrow section 7 the inner bore 5 lies the connecting part 6 on the inner wall of the inner bore 5 at.

To the air-side end of the connecting part 6 is at a connection by means of a screw, in particular by means of a cable lug, a line 8th a power electronic connection attached. The vacuum-side end of the connecting part is the supply line 9 connected to the flywheel mass storage; For this purpose, the connecting part 6 at the vacuum end, a material weakening, in particular a depression 10 , on, at the a crimp or solder connection between the supply line 9 and the connecting part 6 can be produced.

For the implementation 3 is provided that in a first section 11 the inner bore 5 between the connecting part 6 and the inner wall of the inner bore 5 an electric spaghetti 12 is arranged. The inner diameter of the inner bore 5 in the area of the first section 11 is greater than the diameter of the connecting part 6 in this area, plus the wall thickness of the spaghetti 12 so still a gap 13 between the spaghetti 12 and the inner surface of the first section 11 the inner bore 5 of the isolation part 4 remains.

The connecting part 6 points in the area of the first section 11 the inner bore 5 an annular waistband 14 on, as a stop for the spaghetti 12 serves and up to the inner surface of the first section 11 the inner bore 5 zoom ranges. In contrast, the connection part lies 6 in the area of the narrow section 7 directly on the inner surface of the inner bore 5 of the insulation body 4 at; in particular, the connecting part 6 in the area of the narrow section 7 the inner bore 5 pressed, so by means of press fit to the insulation body 4 attached.

For the insulation body 4 is further provided that the insulation body 4 a radially, with respect to the axis of symmetry, projecting flange 15 that has a first stage 16 on an outer lateral surface 17 formed. In the area of the first stage 16 at one edge of the hole 2 is arranged and in particular serves as a stop during assembly, is a first sealing element 18 , Namely, a first O-ring, arranged, the tightness between the outer surface 17 of the insulation body 4 and the wall 2 of the housing allows. The flange part 15 lies outside, on the air side, on the outside of the wall 2 of the housing.

For the insulation body 4 is further provided that the inner bore 5 of the insulation body 4 a second stage 19 trains the transition between the narrow section 7 and the first section 11 the inner bore 5 represents. At the second stage 19 is the federal government 14 of the connecting part 6 at; Next is at the second stage 19 a second sealing element 20 arranged that the tightness of the inner bore 5 of the insulation body 4 ensures to the interior of the housing. The second sealing element 20 is also designed as an O-ring.

For that with the insulation body 4 one-piece flange part 15 is provided that the flange part 15 a mounting step 21 has, at the a fixing ring 22 is determinable. The fixation ring 22 is annular, with a to the mounting stage 21 complementary inside cross-sectional contour, and has through holes 23 on, by the fixing elements, such as screws, can be performed to the fixing ring 22 against the assembly stage 21 of the insulation body 4 to push and thus the insulation body 4 on the wall 2 determine, with the contact pressure through the fixing ring 22 is evenly distributed, so that at the same time the first sealing element 16 is compressed to the seal. In particular, it does not require the screws 24 directly through the insulation body 4 through, so that the insulation body 4 may be formed of a material such as a plastic (especially PEEK - polyethylene ether ketone) or a metal with a brittle, ceramic coating.

LIST OF REFERENCE NUMBERS

1

 wall

2

 drilling

3

 execution

4

 insulation body

5

 internal bore

6

 connecting part

7

narrow section of the inner bore 5

8th

 management

9

 supply

10

 deepening

11

first section of the inner bore 5

12

 spaghetti

13

 gap

14

Covenant of the connecting part 6

15

 flange

16

 first stage

17

outer surface of the insulating body 4

18

 first sealing element

19

 second step

20

 second sealing element

21

 assembly stage

22

 fixing

23

 Through Hole

24

 screw

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 19908557 A1 [0003]
• DE 3640180 C2 [0004]

Claims (5)

Bushing for an evacuated housing, in particular for a flywheel mass accumulator, comprising an essentially rotationally symmetrical insulation body ( 4 ) with an internal bore ( 5 ), one in the inner bore ( 5 ) received electrically conductive connecting part ( 6 ), wherein the insulating body ( 4 ) a radially projecting flange part ( 15 ) having a first stage ( 16 ) on an outer lateral surface ( 17 ), and wherein the inner bore ( 5 ) of the insulating body ( 4 ) a second stage ( 19 ) trains. Bushing according to claim 1, characterized in that the flange part ( 15 ) has a mounting stage at which a fixing ring can be fixed. Bushing according to claim 1 or 2, characterized in that in a first section ( 11 ) of the inner bore ( 4 ) between the connecting part ( 6 ) and the inner wall of the inner bore ( 5 ) an electrical insulation hose ( 12 ) is arranged. Bushing according to one of claims 1 to 3, characterized in that the body of the insulating body ( 4 ) is formed of a plastic or a ceramic coated metallic base body. Evacuated housing comprising a bore ( 2 ) in a wall ( 1 ) of the housing and one in the bore ( 2 ) ( 3 ) according to one of claims 1 to 4.

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