DE1283404B - Radiator assembly for contact cooling for electrical discharge tubes - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

HOIj

German classes : 21g -13/11

Number: 1283 404

File number: P 12 83 404.7-33 (P 41425)

Filing date: February 16, 1967

Opening day: November 21, 1968

The invention relates to a heat sink arrangement for contact cooling for electrical discharge tubes, consisting of a metal holder with the discharge tubes to be picked up adapted receiving devices and from a heat sink forming part of a housing, on which the receiving body is releasably attached.

The invention thus relates to a contact cooling arrangement for electrical discharge tubes; Contact cooling is used in particular in mobile transmitters because it creates a fan for cooling is not required. If the fan is omitted, energy and weight are saved. aside from that the arrangement in the housing remains dust-free during operation. Such contact coolers are in Structure and mode of operation are completely different from the coolers, e.g. for traveling wave tubes can be used and consist of ribs placed directly on these tubes. One such known cooling device for traveling wave tubes is in U.S. Patent No. 2,937,309 shown.

In the case of heat sink arrangements for contact cooling for electrical discharge tubes, it is known to use a the housing surrounding the tube and circuit using that on its outer surface carries the cooling fins. On the inwardly lying surface of this housing, the known Arrangements of the receiving body with the insertion of an insulating but good heat conduction Intermediate body screwed on. This receiving body had facilities for attaching the electrical Discharge tube, e.g. a clamping block. This clamping block consisted of a mostly made of copper existing body, which had a bore and one side in the radial and axial directions was slotted. Screws could be screwed through this clamping block perpendicular to the slot that were tightened after the tubular anode was inserted into the hole and thereby with tight tolerances established a secure and heat-conductive contact with the tube.

Another arrangement, e.g. with conical outer surfaces slotted in the axial and radial directions having rings, was previously not known for contact cooling, but is in itself for fastening a heat sink on parts of an electric discharge tube from the British patent 953 381 known.

The previous heat sink arrangements for Kon-heat sink arrangement for contact cooling for
electric discharge tubes

Applicant:

Philips Patentverwaltung GmbH, 2000 Hamburg

Named as inventor:

Dipl.-Ing. Friedrich Pötzl, 2000 Hamburg

Clock cooling for electric discharge tubes had the disadvantage that the tube is very difficult could be removed from the housing, because these housings were mostly only from one side accessible. It was also necessary to assemble the receptacles for the electrical discharge tubes inside

ao half of the housing very difficult to carry out. This is particularly because mobile transmitters are in airplanes or the like, in which such contact cooling is preferably used, very compact are.

These disadvantages and deficiencies are now avoided by the invention. The invention relates to a heat sink arrangement for contact cooling for electrical discharge tubes of the type mentioned at the beginning and consists in that the heat sink with the receiving body forms a compact structural unit which is detachably fastened to the housing and can be pulled out through a cutout in this housing in one direction with the discharge tube fastened.
When using the invention, it is possible for the first time, after loosening a few screws or other fasteners, to pull out the entire unit even when the tube is very warm and, for. B. subject to a special examination. The arrangement according to the invention has the particular advantage that the heat sink with the receiving body and with the attached discharge tube can be pulled out together and in this way easy access to all parts is ensured.

In a further development of the invention, the cooling body can be positioned on its free one facing away from the discharge tube Have surface cooling fins. Between the heat sink and the housing can be a Air seal be arranged so that the housing, as with the housings previously used, remains closed. An electrical seal can be placed between the heat sink and the housing.

809 638/1340

Claims (1)

3 4 be orderly. Furthermore, according to the invention, they can isolate the receiving body 6 against between the heat sink and the receiving body the heat sink 9, between which z. B. a Spanein electrically well insulating and the heat well voltage in the order of about 3000V exist be arranged conductive intermediate body. This can. To avoid an electrical short circuit across the Intermediate body can be made of a boron nitride, aluminum 5 to prevent fastening screws 10, these are nium oxide or beryllium oxide plate. The screws passed through insulating bushes 11, The use of such materials is known per se in the corresponding bores of the receptacle, So far, however, has led to difficulties, since 6 are fitted in the body. the internal assembly in the housing by special The heat sink 9 now points to its the elek measures this known and often quite complicated discharge tube 1 facing away from the surface adorned formed intermediate body in their position ge cooling fins 12 and 13, the z. B. against each other had to be held until, for example, the fastenings are offset. A cooling flow in countersunk screws for the receiving body attracted right direction to the plane of the drawing runs through was. This disadvantage does not apply to the construction of these ribs 12 and 13, according to the invention, because now the compact 15 The heat sink 9 is on the housing 14 over Assembly outside of the housing fully assembled screws 15 attached. To better fit in can be. of the screws 15 and an interception of heat The receiving body has a special set-up to enable it in the housing 14 Pick-up device for fastening the holes 16 of sufficient size in the housing 14 charge tube. This recording device is provided. The fastening of the heat sink 9 according to the invention from one to the discharge follows by screwing the nuts 17 on the tube adapted and screw 15 into the receiving body, if necessary using slidable and radially expandable, in washers. axial direction slotted clamping ring, the one The attachment of the heat sink 9 on the conical Has outer circumferential surface over which a housing 14 can adapt to the various requirements conical inner circumferential surface of a to be adapted in the recording, z. B. can be an electric sealing body screw-in terminal nut is slidable. tungl8, e.g. a wire mesh, an air seal Such a fastening ensures a fast 19, which is also referred to as a pneumatic seal Replacing the electric discharge tube at will, and another air seal 20 with a at the same time secure electrical and heat-conducting 30 tight fit on the screw 15 are arranged, the contact; to increase the thermal conductivity. This provides a dust-tight seal for the housing 14 can be guaranteed between the individual sliding on each other. One of the known contact and heat surfaces be taken, both of which are formed a good one. The advantage of the compact construction electrical Ensure contact as well as a 35 way is that after loosening the screws good heat transfer, which is necessary for cooling the electrical 15 of the heat sink with the receiving body 6 and tric discharge tube is particularly important. the electric discharge tube together in one On the basis of an exemplary embodiment, the work step should be deducted in one direction can be found in more detail with reference to the drawing and can be re-attached. Included to be discribed. 40 can also assemble the individual parts outside In the drawing, an electrical discharge of the housing has taken place, resulting in considerable piping denoted by 1, the outer anode of which in a simplifications also in the manufacture of such a Clamping ring 2 is inserted. This clamping ring 2 is guaranteed cooler arrangement. Here can expandable in the radial direction because it can then be simplified in the axial Rieh- the assembly that has running slots. These slots 45 of the heat sink lie horizontally with its large area is placed simultaneously in the direction of the temperature right direction and on this cooling gradient, do not hinder the dissipation of heat. body 9 then the intermediate body 8, the receiving-The Clamping ring 2 also has a conical body 6 and the electrical discharge tube 1 be-outer jacket surface 3, over which a conical interior can be fastened. The alignment of the parts against the lateral surface 4 of a clamping nut 5 is slidable. 50 each other can be controlled in a simple manner This terminal nut 5 can in turn be screwed into and also subjected to a test, so that a receiving body 6, which is also made of metal at the point of use, ultimately only the compact structure. In the thread 7 between the terminal nut 5 unit inserted in the mostly insulated housing and receiving body 6 as well as on the surfaces must be. Such simplifications are special The clamping ring 2 can contain known pastes, which is also important for the maintenance of already installed ones be worn, which have a safe electrical and equipment, in which it is therefore on a quick Röh-Wärme-contact guarantee. change arrives. The construction The receiving body 6 has a very good units for different tubes to be suitable because Thermal contact with an intermediate body 8 can be made to replace the parts in a very short time Boron nitride (BN), aluminum oxide (Al ₂ O ₃ ) or beryl-60 can. lium oxide (BeO), which in this embodiment can consist of a plate or disk. ^v On the other side of the intermediate body 8 there is 1. heat sink arrangement for contact cooling there is the actual heat sink 9, which consists of for electrical discharge tubes Fastening screws 10 with the receiving body 65 a metal receiving body with the open 6 is connected. Although the z. B. from beryllium increasing discharge tubes adapted Aufoxyd existing intermediate body 8 and the heat absorbing devices and from a one part Conductive paste have a very good thermal conductivity, a housing-forming heat sink on which the receiving body is releasably attached, characterized in that the cooling body (9) with the receiving body (6) one on the housing (14) releasably attached and through a Cutout in this housing (14) can be pulled out in one direction with the attached discharge tube (1) forms a compact unit. 2. Heat sink arrangement according to claim 1, characterized in that the heat sink (9) has cooling fins (12, 13) on its free surface facing away from the discharge tube (1). 3. Heat sink arrangement according to one or both of the preceding claims, characterized in that that between the heat sink (9) and the housing (14) an air seal (19, 20) is arranged. 4. Heat sink arrangement according to one or more of the preceding claims, characterized characterized in that between the heat sink ao (9) and the housing (14) an electrical seal (18) is arranged. 5. Heat sink arrangement according to one or more of the preceding claims, characterized characterized in that between the heat sink (9) and the receiving body (6) an electrical well insulating and heat conductive intermediate body (8) is arranged. 6. heat sink arrangement according to claim 5, characterized in that the intermediate body (8) consists of a boron nitride, aluminum oxide or beryllium oxide plate. 7. Heat sink arrangement according to one or more of the preceding claims, characterized characterized in that the receiving device for the discharge tube (1) consists of a this discharge tube adapted and inserted into the receiving body (6) and in a radial direction Direction of stretchable, axially slotted clamping ring (2) consists of a conical Has the outer jacket surface (3), via which a conical inner jacket surface (4) is inserted into the receiving body (6) screw-in terminal nut (5) can be pushed. Considered publications:
British Patent No. 953,381;
U.S. Patent No. 2,937,309. 1 sheet of drawings 809 638/1340 11.68 © Bundesdruckerei Berlin