SU1413395A1 - Heat exchanger - Google Patents

Abstract

Invention m. used in air conditioning. The purpose of the invention is to increase the heat transfer uniformity and decrease the hydraulic resistance. The casing has sections (C) 1 of tubes (T) 2 perpendicular to the direction of the air flow. C 1 are connected in series to each other along the coolant. The last and the first C 1 are connected to the supply and drainage pipes. T 2 in each C 1 are arranged in groups of 6, placed in parallel along the course of the stream and having a variable number of T 2. 01 have a variable number of groups 6 increasing along the course of the air flow. Neighboring groups 6 are reported by a collector. The increase in viscosity of the coolant during cooling is compensated by successively increasing the number of T 2 in the course of cooling. 2 Il.

Description

Raw bozdukh

Odraboshannya fi. $. 2

tL

Odd

one

The invention relates to heat engineering and can be used, in particular, in air conditioning.

The aim of the invention is to increase the uniformity of heat exchange and reduce the hydraulic resistance along the coolant.

Figure 1 presents the principal on the scheme of the heat exchanger, a perspective view; figure 2 - heat exchanger, cross section.

The heat exchanger contains sections 1 of tubes 2, installed in the housing 3 one after the other perpendicular to the direction of the air flow and sequentially connected one to another along the coolant.

The latter and the first along the air flow of the section 1 of the tubes 2 are connected to the inlet 4 and the outlet 5, respectively, of the coolant nozzles.

Tubes 2 in each section 1 are arranged in groups of 6, which are arranged in parallel along the course of the air flow and have a variable number of tubes 2 that grow along the heating medium.

Section 1 has a variable number of groups of 6, enlarged along the air flow.

Neighboring groups of 6 sections 1 can be communicated among themselves using, for example, collectors 7.

The heat exchanger operates as follows.

The coolant enters the last section 1 along the air path through the inlet pipe 4, which successively passes through tubes 2 in each, from groups 6 of this section with reversal of the direction of movement of the coolant and its flow from one group 6 to the other through collectors 7.

After the passage of the latter along the course of the air section 1, the coolant flows into the next section 1 next to it, in which it also successively passes through the tubes 2 in each of the groups 6 of this section with the turning direction of the coolant and its flow from one group 6 to another collectors 7.

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thirty

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After the passage of the first section along the air path, the coolant is discharged through the discharge pipe 5.

The air flow is initially heated in the first downstream sections (or sections) 1 at lower (as a result of reducing the number of groups 6 in section 1 and increasing the number of tubes 2 in groups 6) temperature and coolant velocity.

Finally, the air flow is heated in the latter sections along the air. (Or sections) 1 at higher (as a result of an increase in the number of groups 6 in section 1 and a decrease in the number of tubes 2 in groups 6) and temperature of the heating element.

When using viscous liquids, such as oil, as a coolant, the viscosity of the coolant increases as its temperature decreases and, consequently, the increase in hydraulic resistance to the coolant flow is compensated for by a successive increase in the number of tubes 2 in the 6 sections of sections 1.

Claims (1)

Invention Formula A heat exchanger, tubes sections installed in the housing one after the other perpendicular to the air flow direction and connected in series with one another along the heat carrier, the last and the first along the air flow of the tube section that are connected to the heat transfer pipe so that, in order to increase the uniformity of heat exchange and decrease the hydraulic resistance along the coolant, the tubes in each section are arranged in groups parallel to the size ennymi by the air flow and have a variable number of tubes The increasing during the heating medium, wherein the sections have a variable number of groups The increasing of the air flow. fi. $. 1