SU1179084A2 - Heat exchanger - Google Patents

Abstract

1. HEAT EXCHANGER on author. St. No. 787865, characterized in that, in order to improve the uniformity of cooling of the heat exchange surfaces, the opposed surfaces are additionally connected by means of two parallel radially arranged walls forming a channel connected at one end to the outlet of the medium and opposite to the diametrically opposite cavity its cut, with the axis of both fittings are located on the same line. 2. A heat exchanger according to claim 1, characterized in that the fins on both sides are provided with protrusions located radially. phi.1

Description

The invention relates to heat exchangers, can be used in systems of liquid and evaporative cooling, in particular for cooling electronic components, and is an improvement of the heat exchanger according to the main author. St. No. 787865.

The aim of the invention is to improve the uniformity of cooling of heat transfer surfaces.

FIG. I schematically depicts the described heat exchanger, longitudinal section; in fig. 2 shows section A-A in FIG. one.

The heat exchanger contains a composite case with flat walls 1 and 2, fitted on the opposite surfaces with ribs 3 concentrically located one relative to the other and having notches 4 made in the same diametrical plane, and the notches 4 in the adjacent edges 3 are offset from each other by 180 °. The heat exchanger housing is equipped with fittings 5 and 6 for the supply and removal of heat exchange medium, the first of which is located along the central axis of symmetry of the housing. Opposite surfaces of walls 1 and 2 are additionally connected by means of two parallel radially arranged walls 7 and 8, passing between the notches 4 of the ribs 3 and forming a channel connected at one end to the outlet 6 of the heat exchange medium, and the other to the cavity of the central edge 9 on the side diametrically opposite its notch 4, and the axis of both fittings are located on the same line.

The ribs 3 on both sides are provided with protrusions 10 located radially.

The heat exchanger operates as follows.

The cooled heat exchange medium through the medium inlet 5 is supplied to the first heat exchanger channel formed by the cylindrical part of the body and the first edge 3. The first heat exchange medium in the form of two streams reaches walls 7 and 8 and through the notches 4 enters the second channel formed by the first 3 and the next ribs. The heat exchange medium through the second channel reaches the notch 4 of the rib 3 and passes through it into the next channel. Similarly, the heat exchange medium passes through all the other channels and reaches the central rib 9. The heat exchange medium is heated through the cavity

the central rib 9 enters the channel formed by the walls 7 and 8 and is discharged through the fitting 6 of the outlet from the heat exchanger. The heat exchange medium at the outlet of the feed inlet 5 is divided into two streams, the trajectory of which is symmetrical

relative to the center of the heat exchanger. This presupposes that the temperatures of the areas of heat exchanging surfaces equidistant from the center of the heat exchanger are equal. As the channels move along the heat exchange medium, alternating confuser and diffuser sections of the channels pass through the heat exchange medium. The confused areas are formed by radially arranged cylindrical protrusions 10, diffuser sections are smooth parts of adjacent ribs 3. When the heat exchange medium moves along such a path, an alternating pressure gradient arises in its flow. Since the protrusions 10 are located radially, the distances between alternating confused-diffuser sections decrease as the heat exchange medium approaches the center of the heat exchanger. As a result of this, the pressure gradient of the flow as it approaches the center of the heat exchanger increasingly changes its sign, which contributes to turbulence in the flow, destruction along the boundary layer and improved washing of the projections 10 and ribs 3. As a result, the heat exchange intensifies in the direction from the periphery to the center, which leads to equalize the temperature of the heat exchange surfaces in the radial direction.

The described heat exchanger can provide another mode of operation: more intense removal, heat from its central region as compared with the peripheral one. This is required, for example, when cooling electronic devices, in which the working

the body - the heat source is concentrated mainly in the central part of the instrument case.

In this case, the refrigerant is supplied to the heat exchanger through fitting 6, and

via cable 5.

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Claims (2)

1. HEAT EXCHANGER by ed. St. No. 787865, characterized in that, in order to increase the uniformity of cooling of the heat exchange surfaces, the opposed surfaces are additionally connected by two parallel radially arranged walls forming a channel connected at one end to the medium outlet fitting and the other to the cavity of the central rib from the side diametrically opposite its cut, and the axes of both fittings are located on the same line. 2. Heat exchanger according to π. 1, characterized in that the ribs on both sides are provided with protrusions arranged radially. figure 1