DE1589977A1 - Radiator for cylindrical, electrotechnical elements - Google Patents

Description

The invention relates to a heat sink for cylindrical

of the form, electrotechnical elements, in particular for Transistors and other semiconductor devices, as well as for electric discharge tubes. These are common built into a cylindrical shell, the cooling of which is necessary or desirable.

The invention is based on the object of creating a heat sink for this purpose which is used in manufacture and is easy to use.

The inventive heat sink has at least two cylinder jacket segments which together form an at least almost complete cylinder jacket. These segments are intended to lie on the cylindrical, electrotechnical element. They are with axially parallel cooling fins Mistake. The cooling fins have recesses on the outer edge on that in a diameter plane of the cylinder jacket lie. An open spring ring is arranged in these recesses, which presses the segments together in the radial direction.

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Each cylinder jacket segment is purposefully wet extruded from one piece together with its cooling fins Materials »preferably made of aluminum. At least the outside of the cylinder jacket segments and the Cooling fins are preferably blackened.

The spring ring is expediently an open wire ring.

t) he axial length of the heat sink can be at least approximately equal to the axial length of the cylindrical, be electrotechnical element, in which case the recesses expediently in the middle of the axial length the cooling fins are arranged. To improve the cooling effect, the axial length of the heat sink can also be greater than the axial length of the cylindrical, electrotechnical element, in which case the recesses are appropriate are arranged in such a way that the spring ring in the case of the heat sink attached to the electrotechnical element a plane of the diameter of the element lying in the middle of the axial length of the element.

An exemplary embodiment is shown in the drawing an application example of the subject matter of the invention and a variant of this example are shown. Show it:

Flg. 1 shows a plan view of a transistor with a heat sink, FIG. 2 shows a section along the line II - II in FIG. 1, 3 shows a variant of FIGS. 1 and 2 in a representation corresponding to FIG.

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In Fig. 1 and 2, 1 denotes the cylindrical shell of a transistor, for the cooling of which the heat sink described below is used. This heat sink consists of two cylinder segments 2 with cooling fins 3 and one. open spring ring 4. DIg segments 2 together form an almost complete cylinder jacket) they rest on the cylindrical shell 1 of the transistor, for which purpose their inside has the same radius of curvature, ie the outside of the jacket 1. Since the segments only form an almost complete cylinder jacket , they are separated from one another by narrow gaps 5. The cooling ribs 3 run parallel to the geometric axis 6 of the segments. Each of the segments 2, together with its cooling ribs, consists of one piece of extruded allminium and is blackened to improve the heat radiation. The cooling fins 3 each have a recess 7 on the outer edge. These recesses 7 lie in a diameter plane of the cylinder jacket in the middle of the axial length of the segments 2, which corresponds to the axial length of the shell 1. The spring ring 4 is an open wire ring which is arranged in the recesses 7 and compresses the segments 2 with the cooling fins 3 in a radial direction, whereby they are pressed against the shell of the transistor, u.7. to establish thermal contact with them.

- The variant of Fig. 3 differs from that in fl. 1 and 2 shown embodiment in that the axial length of the segments 12 and cooling fins 13 is greater

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than the axial length of the shell 1 of the transistor and the diameter plane in which the recesses 17, in which the spring ring 4 is arranged, not in the middle of the axial length of the segments 12, but in the Areas of half this length is, namely such that the spring ring 4 is in a plane in the middle of the axial Length of the envelope 1 is. The one off the middle of the length of the segments 12, but in the middle of the length of the shell engaging spring ring 4 exercises a constant in the area of the contact surface between the segments and the shell 1 Pressure off. This variant according to FIG. 3 has a larger one Cooling capacity than the embodiment shown in FIGS. 1 and 2.

The heat sink described is simple and appropriate inexpensive to manufacture because it only consists of parts that can be easily extruded, and a spring washer consists. This heat sink is easy to use; it is easy to adapt to a cylindrical, electrotechnical Element can be attached and removed again, ZrB. when replacing this element with another. because the heat sink described consists of two elements held together resiliently, is a reliable thermal contact also ensured if the diameter of the cylindrical, electrotechnical element deviates from the nominal diameter within outlined tolerances, which the Segments of the heat sink are adapted.

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Claims (7)

P A T E N T A N S P R Ü E C II E 1. Heat sink for cylindrical, electrotechnical Elements characterized by at least two cylinder barrel segments (2), which together make up almost complete Form cylinder jacket, are intended to be attached to the zyllnda - fb'rraigen, electrotechnical element (1) to lie flat, and with ac ^ senparallel cooling fins (3) are provided, the aai external hand in a diameter plane of the cylinder jacket lying recesses (7) in which an open Spring ring (4) is arranged, which compresses the segments in the radial direction. 2. - Heat sink according to claim 1, characterized in that each of the cylinder jacket segments (2) together with its cooling fins (3) consists of a piece of extruded material. 3. Heat sink according to claim 1, characterized in that the cylinder jacket segments (2) with the cooling fins (3) Consist of aluminum. 4. Heat sink according to claim 1, characterized in that that at least the outer side of the cylinder shell (2) and the cooling fins (3) are blackened. 5. Heat sink according to claim 1, characterized in that the spring ring (4) is an offensive wire ring ¹ . 009849/0376
BATH ORIGINAL 6. Heat sink according to claim 1, characterized in that the recesses (7) at the edge the cooling fins (3) of the cylinder jacket segments (2), which are intended with their entire inner surface to rest on the cylindrical, electrotechnical element (1), are arranged in the middle of the axial length of the heat sink (Fig. 2). 7. "Heat sink according to claim 1, characterized in that the recesses (17) at the edge the cooling fins (13) of the cylinder inner surface segments (12), who are beetiiiat, in the range one? Part of her axial length on the cylinder-shaped, electrotechnical Element (1) to lie against, are arranged at least approximately in the middle of this part (Fig. 3). Patent attorney Dr «AndreJeweki K / Jß - 2906 3227/29 1Z.10. 1967 009949/0376 LOCAL BATHROOM ■