SU603830A1 - Heat exchanger - Google Patents

Claims (1)

(54) HEAT EXCHANGER of the disk of discs 6, into compartments 11, of which in the air guide 9 and Through in the air distribution 8 sections are further separated by walls 12, perpendicular to the partitions 10 and passing through the shaft 7, into the cells 13, and the compartments of the air-distribution section, in which there are no walls, are divided by additional partitions 14 into sections, in each of which, at the ends, there are plugs 15 arranged in a checkerboard pattern to the height of adjacent cells. The heat exchanger works as follows. The raw exhaust air through the inlet 2 is supplied to the air distribution section 8, in which it is divided into parts parallel to the partition walls 1O, forming a dimi jointly with 12 cells 13, and together with an additional partition 14 and caps 15 rotary branches. In the cells 13, the air passes without a change of direction, in the branches it passes into the anti-collapsing cells. After the air distribution section, the air enters the air guide section, where the air flows are fixed in strictly defined cells according to the diagram shown in 4G, S, where the letters A and B respectively indicate remote and external air, and in this order the air enters the rotating disks . When air escapes from the disk zone, the air flow enters again into the air guide section 9 and then into the air distribution section 8, after which the removed air leaves through the pipe 4 from the heat exchanger. The raw outside air enters the pipe 3 and passes through the distribution valve 8 and the air guide section 9 in succession, the rotating disks 6 and out of the heat exchanger through the outlet pipe 5. The use of sections 8 and 9 allows to obtain movement of the exhaust and outside air streams according to the scheme shown in FIG. five . 201 Flushing discs with air flow ensures that heat transfer processes occur simultaneously due to mechanical heat transfer by rotating the nozzle (regenerative principle) and heat conduction processes in partitions and discs 6, which leads to an intensification of heat exchange and increase the effect of the heat recovery process. Compared with existing heat exchangers of both recuperative and regenerative types, the use of the proposed heat exchanger makes it possible to obtain a certain technical and economic effect. Claims 1. A heat exchanger, preferably for heat recovery and cold in air conditioning systems, comprising a housing with inlet and outlet connections for warm and cold air flows, and 1; 1 in the housing disks mounted on a rotating shaft in parallel with the flows, characterized in , in order to intensify the heat exchange between the streams, before the casing and after it, there are installed air distribution and air flow sections, divided by partitions passing through the planes of the disks on The compartments, each of which in the air guide and - through one in the air distribution section, are additionally separated by walls perpendicular to the partitions and passing through the shaft into the cells, and the air distribution section sections into which. there are no walls, divided by additional partitions into parts, in each of which the ends of the section are on you-. a cell of adjacent cells is installed in staggered stubs. Sources of information taken into account in the examination; 1. For the UK of UK number 1426971, cl. P4 K, 1976. 7v3  ..