SU1307204A1 - Sheet-tube heat exchanger - Google Patents

Abstract

The invention relates to heat exchangers and can be used for cooling electronic equipment. The aim of the invention is to intensify heat transfer. In the double plates (P) 1, holes 4 and coaxial holes 5 are made, connected in adjacent C cylindrical shells 6. In shells 6, fans 7 are installed at the extreme P level. Slotted channels (ASC) 3 are formed between pairs P, C are covered with a layer of capillary-porous material (CIM) 8. Due to the dilution created by the fans 7 in the SC 3, heated air rushes in them, which ensures intensive evaporation of condensate from warmer areas of KTOi 8. In KPM 8 condensation occurs and retention of moisture from zduha when passing through the openings 4 and 3. The flow area OA OA 3 is controlled by changing the distance between the AP 1 yl. and SS (L 4 ff th

Description

1130

The invention relates to plate heat exchangers and can be used to cool radio-electronic equipment.

The purpose of the invention is to intensify the heat exchanger.

The drawing shows the proposed heat exchanger, a cross-section.

The heat exchanger contains twin plates 1 with tubular channels 2, connected in a package with the formation of slotted channels 3 between them. The plates 1 have holes 4 and 5, and the coaxially located holes 5 of adjacent pairs are united by cylindrical shells 6, in which fans 7 are installed at the level of the last plates 1, Plates 1 are covered with a capillary-porous material layer 8 on the side of slotted channels 3, and plates 1 are separated by threaded spacing elements 9. Extreme pairs of plates 1, in which fans 7 are fixed, facing the cooled equipment (not shown in the drawing).

The heat exchanger operates as follows.

The fans 7 create in the channels 3 a local rarefaction where the heated air flows around the warmer regions of the 1 heated air. At the same time, from the warmer areas of the capillary material 8

A sheet tube heat exchanger containing double plates with tubular channels between them, connected into a package with the formation of slot channels between the plistin pairs, characterized in that, in order to intensify heat exchange, holes are made in the plates, and the coaxially arranged openings of the adjacent pairs are combined by cylindrical shells in which at the extreme plate level

more intensive evaporation of condensate flows, additionally cooling 35 fans are installed, plates with heat transfer plates. When passing through the slotted channels, they are covered with a research institute layer through a labyrinth formed by a non-capillary-porous material, and with axial holes 4 and slotted channel pairs of plates are separated by means of lamas 3, the air is cooled, and the discharge is threaded spacer elements

Compiled by Y. Karpenko Editor T. Parfenova Tehred I. Popovich Corrector I. Muska

Order 1616/36 Circulation 612 Subscription

VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

Production and printing company, Uzhgorod, st. Project, 4

O

The moisture is condensed and retained in the capillary-porous material 8, with which the plates 1, which represent the pole of cold, are covered. The heat given off to the heat exchanger carries away the liquid refrigerant passing through the cable channels 2. In order to ensure a sufficiently flexible performance of the heat exchanger so that it is applicable to various types and sizes of devices, the flow cross section of the channels 3 is adjusted by changing the distance between the plates 1. At the same time, the nature of heat exchange varies considerably. The optimal value of the exposed gap 3 is determined by the degree of heat release of the cooled equipment and the features of its arrangement.

The invention allows to intensify heat exchange.

Claims (1)

Invention Formula A sheet tube heat exchanger containing double plates with tubular channels between them, connected into a package with the formation of slot channels between the plistin pairs, characterized in that, in order to intensify heat exchange, holes are made in the plates, and the coaxially arranged openings of the adjacent pairs are combined by cylindrical shells in which at the extreme plate level fans are installed, the plates on the side of the slotted channels are covered with a layer of capillary-porous material, and the pairs of plates are separated by means of threaded spacing elements