RU8101U1 - HEAT EXCHANGER - Google Patents

Abstract

1. A heat exchanger containing packages of flat square heat exchanger plates and spacers, each even of which is rotated through 90 relatively odd, separated by transfer plates, channels for working media, in which are formed by four windows located along each side of the heat exchanger plate, two similar in shape windows located along opposite sides of the spacer, and one window located in the center of the spacer, characterized in that, in order to improve the manufacturability and repair odnosti, spacers made flat, and a central opening therein is provided with a scalloped turbulized webs arranged in the working sred.2 flow plane. The heat exchanger according to claim 1, characterized in that the transfer plates are made with two or three windows located along two or three sides of the plate, with each subsequent plate rotated 180 relative to the previous one.

Description

.LN F28F3 / 00

R28D9 / 04Author Svetlanov GB

The utility model refers to heat-exchanger equipment, and KivieHHo refers to heat exchanger-hell.

Plate-fin heat exchangers are known, customization of flat perforated heat-exchange plates separated by intermediate ribbed elemental elements - spacers / n, as well as plate heat-deformed devices, consisting of a number of parallel corrugated plates connected without additional intermediate inserts / I /. Known structural solutions are distinguished by the technological complexity of manufacturing, repairing and cleaning channels.

Closest to the proposed utility model is a heat exchanger made of a package of alternating thin rectangular perforated plates and spacers zigzag-shaped: the height of the package. Perforation for odd plates is made on both edges of the plates, and for even ones - only on one edge. The elegant even plates are rotated 180 °. The flows of the working media move along the curves., Which increases turbulization / 2 /.

The disadvantage of a ruyust constructive solution is the presence of two varieties of heat transfer plates, as well as low turbulization of flows.

The purpose of the proposed utility model is to increase the manufacturability of manufacturing and maintainability, as well as reduce material consumption.

ife FIG. I shows a heat transfer plate; in FIG. 2 - spacers; in Fig 3 - transfer plate.

The heat exchanger consists of / 7-packages of alternating heat-exchange plates and intermediate elements - spacers. The heat exchange plates are made flat, square in shape, with 4 promotional angles, or round windows (1,2,3 and 4), located along each side of the plate (Fig. 1).

TESH

intermediate elements - simplets are made in the form of flat square plates in two windows I and 3 (Fig. 2a, b) in shape coinciding with the windows of the heat exchanger plate (right angle or round) located along two opposite sides of the spacer, and one with a large window 5, whether the jumper separated / flow-forming is straight (figa 2a) or curly (fig. 26) to enhance turbulization due to periodic changes in the flow width. Spacers are made of the same material as the heat transfer plates,

Alternating heat transfer plates and grooves during assembly into the bag are oriented so that each even spacer is turned 90 ° with respect to the odd one. The flow of working media is carried out in a cross direction.

A transfer plate is mounted between the package w, which is made similar to a heat exchange plate with two (Fig. 3a) or three (Fig. 36) regrinding holes located along two or three sides of the plate, to change the directional flow of the coolant: two (3) or one (36) "

Each subsequent transfer plate is installed with a W & 180 ° turn to switch the flow of working media. Transfer plates for the route route flow patterns: the heating medium moves along t parallel to the channel., And the heated medium moves along K parallel to KaHaaaivi. The number of canaloses i) is determined from the calculation of the optimality of heat transfer depending on the physical properties of the media (liquid - liquid, gas - liquid, etc.)

Thus, in the proposed utility model, the material consumption is increased, the unification of intake elements, the manufacturability of manufacturing, assembly and maintainability are increased.

Director 000 Factor (/ ..; .K. Lakeeva

Claims (2)

1. A heat exchanger containing packages of flat square heat exchanger plates and spacers, each even of which is rotated 90 ^° relatively odd, separated by transfer plates, channels for working media, in which are formed by four windows located along each side of the heat exchanger plate, two similar in shape by the windows located along the opposite sides of the spacer, and one window located in the center of the spacer, characterized in that, in order to improve the manufacturability and repair igodnosti, spacers are made flat, and the central window in them is equipped with curly turbulizing jumpers located in the plane of the working medium flow. 2. The heat exchanger according to claim 1, characterized in that the transfer plate is made with two or three windows located along two or three sides of the plate, with each subsequent plate rotated 180 ^o relative to the previous one.