SU896364A1 - Heat exchanging apparatus - Google Patents

Description

(54) HEAT EXCHANGER

I

The invention relates to heat exchange equipment.

A heat exchanger is known that contains a package of heat exchanger plates fixedly mounted in frames, each of which has at least three holes that, when combined with the holes of the adjacent frames, form flow channels 1.

A disadvantage of the known heat exchanger is the low coefficient of heat transfer.

The purpose of the invention is to increase the heat transfer coefficient.

The goal is achieved by the fact that the plates are made corrugated, and every third in the course of the flow, the hole of the flow channels is provided with a hollow partition, which forms a turning chamber with the walls of this hole.

FIG. 1 shows a heat exchanger, side view; in fig. 2 - the same, top view; in fig. 3 - frames with corrugated 20 plates (frames are conventionally depicted at a greater distance from each other); in fig. 4 - frame of the first type with a corrugated plate and with channels for passage of heat exchanging media; in fig. 5 is a section A-A in FIG. four; in fig. 6 shows a section B-B in FIG. four; in fig. 7 - frame of the second type; in fig. 8 is a C – C section of FIG. 7; in fig. 9 is a section DD in FIG. 7. The frame of the first type differs from the frame of the second type by the arrangement of the input and output channels for heat-exchange media.

The heat exchanger consists of a nozzle 1 for introducing a refrigerant, a lid 2 with ribs on the inside, a nozzle 3 for introducing gas, a non-through channel 4 for introducing refrigerant into the frame frame 5, in which the corrugated plates 6 are fixed, the channels 7 formed by the corrugated plates 6 the first and subsequent frames 5, the holes 8, made in the first frame 5, and the channels 9-13, formed in the subsequent frames 5 for the refrigerant passage, 14-18 - conditional numbers of the frames 5, with corrugated plates 6, considered from the side of the refrigerant input and gas); channels 19-25 for the passage of coolant to adjacent alternating frames 5, gaskets 26, tie rods 27, covers 28, pipe 29 for refrigerant outlet, pipe 30 for gas.

The heat exchanger works as follows (on the principle of the pr motorcycle).

The refrigerant is introduced into the pipe 1, the gas in the pipe 3. From the pipe 1, the refrigerant is supplied to the non-through channel 4 of the frame 5. The refrigerant passes in the first chamber formed between the lid 2 of the apparatus and the corrugated plate 6 through channels 7. The refrigerant passes the first chamber through the opening 8 of the first frame and channel 9 of the second frame through the channel 10 with a partition in the third frame are inserted into the next chamber formed by corrugated plates 6 of the 15th and 16th frames. From this chamber, the refrigerant enters channel 11 of the 16th frame, and, after passing channel 12 of the 17th frame, passes into channel 13 with a partition, and from there into interframe space formed by 17th and 18th frames, etc.

The gas is fed to the nozzle 3 and through the channel 19 of the 14th frame, it passes into the channel 20 with a partition, then into the frame frame formed by the plates 6 of the 14th and 15th frames, where the gas is cooled to a certain temperature. Then the steam through channel 21 of the 15th frame, channel 22 of the 16th frame and channel 23 with a blank partition of the 17th frame passes into the space between the 16th and 17th frames, where it is cooled to a lower temperature and then through channels 24 and 25

gets into the next camera, etc. until it gets the right temperature.

The supply of steam into successively alternating interframe spaces is cooled to a lower temperature than in known apparatuses with refrigerant inlets into each section separately without passing through the subsequent sections.

The execution in the corrugation plates increases the heat exchange area and reports the rigidity of the apparatus design.

Claims (1)

Invention Formula A heat exchanger containing a package of heat exchanger plates fixedly mounted in frames, each of which has at least three openings, which, when aligned with the openings of the adjacent frames, have flow channels, characterized in that, in order to improve the heat transfer coefficient, the plates are corrugated, and every third in the course of the flow, the opening of the overflow channels is provided with a hollow partition, which forms a noBopOTHyib chamber with the walls of this opening. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 516894, cl. F 28 D 9/02, 1976. . 1 nineteen L Jfi S-SG) -T nineteen