SU1746555A1 - Heat-sink for cooling of semiconductor devices - Google Patents

Abstract

The invention relates to electrical engineering and can be used to create powerful power static converters with semiconductor elements. The invention: the radiator contains a spacer unit, made in the form of a pressure nut and spacer sleeve 13 with a conical outer surface and slot 14 in the internal cavity, placed in a groove 15, made under slot 14 on the outer surface of the cylinder along its generatrix, and wedge-shaped crackers 10 made of a material with a thermal linear expansion coefficient exceeding the thermal linear expansion coefficient of the base material 1.13p. f-ly, 2 ill. Yo

Description

The invention relates to electrical engineering and can be used to create powerful power static converters with semiconductor elements.

The purpose of the invention is to increase the efficiency of heat exchange and enhance operational capabilities.

Figure 1 shows the radiator section, figure 2 - section aa in figure 1.

The radiator contains a base 1 with openings 2 and solid bundles of 3 flexible wires mounted on it. The base 1 is made in the form of a glass with two cylinders 4 and 5, made as one piece and located coaxially one relative to the other with the formation of an annular groove. On the outer cylindrical surface of each of the cylinders 4 and 5, thread 6 and 7 are made, respectively, and

on the inner cylindrical surface 8 of the outer cylinder 5 uniformly made longitudinal wedge-shaped protrusions 9. Parallel to the protrusions 9 between cylinders 4 and 5 there are continuous bundles of 3 flexible wires, between which and the inner cylinder 4 in the ring groove along the ring there are wedge-shaped crackers 10, and from their side the top 11 on the thread 6 of the inner cylinder is installed expansion unit in the form of a pressure nut 12 and a conical sleeve 13 with the slot 14 in the internal cavity, placed in the groove 15 of the inner cylinder 4 The sleeve 13 has the possibility to interact with the outer conical surface with the bevels of the wedge-shaped crackers 10 when tightening the nut 12 on the threaded surface of the cylinder 4 cylinder Slit 14 does not allow the sleeve 13 of the proXJ

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return, which excludes the random arrangement of the wedge-shaped crackers 10, their misalignment, ensures uniform distribution of the bundles of flexible wires 3 and their uniform compression, reduces the required tightening force of the pressure nut 12.

Crackers 10 are made of a material with a coefficient of thermal linear expansion exceeding the coefficient of thermal linear expansion of the base material 1, which creates an additional compression of the bundles of 3 flexible wires when the entire device is heated, improves heat transfer. A semiconductor device 16 is installed at the bottom of the base 1.

The radiator works as follows.

A bundle of 3 flexible wires, wedge-shaped crackers 10 and a conical sleeve 13 are installed in the radiator between the wall of the cup 5 and the inner cylinder 4. When tightening the nut 12, the crackers 10 move apart and press the wires 3 to the inner surface 8 of the cup 5 (outer cylinder), while the projections 9 contribute to a better sealing of the wires 3. Since the conical sleeve 13 does not turn, the wires 3 are evenly crimped, the crunches 10 are skewed, the required tightening torque of the nut 12 is reduced.

Claims (2)

1. Radiator for cooling semiconductor devices containing a base0 five 0 five 0 R built in the form of a glass with coaxially fixed on its bottom, inside it, a cylinder with a threaded outer surface, bundles of flexible wires and wedge-shaped crackers placed between the walls of the glass and cylinder with the possibility of thermal contact between them, and a node located on external threaded surface of the cylinder with the ability to interact with bevels wedge-shaped crackers, characterized in that, in order to increase the efficiency of heat exchange and expand operational capabilities, expansion space It was made in the form of a push nut and a spacer with a conical outer surface and a spline on its inner cylindrical surface, along its generatrix, and a groove was made on the outer cylindrical surface of the cylinder along its core, and the spacing bush was placed with its spline in the said cylinder slot. the nut of the spacer assembly is installed with the possibility of interaction with the end face of the spacer sleeve to ensure mechanical contact of the conical surface of said sleeve with bevels of wedge-shaped crackers. 2. A radiator according to claim 1, characterized in that the wedge-shaped crackers are made of a material with a thermal linear expansion coefficient exceeding the thermal linear expansion coefficient of the base material. 12V / .. iO Schi.1