SU1657885A1 - Device for utilization of heat energy of exhaust air - Google Patents

Abstract

The invention relates to the technique of ventilation and air conditioning. The aim of the invention is to increase the degree of heat utilization and reduce energy costs. The device for utilization of thermal energy contains blocks 2 and 3 of supply and exhaust air located in housing 1 with

Description

The invention relates to a technique of ventilation and air conditioning.

The aim of the invention is to increase the degree of heat utilization and reduce energy costs.

Fig. 1 is a schematic diagram of a device for disposing of heat energy from exhaust air; figure 2 - section a - a in figure 1. on fig.Z - section b - b in figure 1.

The device for utilization of heat energy of exhaust air contains blocks of supply 2 and exhaust 3 air located in housing 1 with corresponding inlet 4 and 5 and outlet 6 and 7 nozzles.

The blocks of supply air 2 and exhaust air 3 are separated by a horizontal partition 8 and are communicated through an annular pouring channel 9 formed in the latter, which encloses a vertical pipe 10, in cavity 11 of which is placed on a vertical shaft 12 auger 13.

Inside the blocks of supply 2 and exhaust 3 air dispersed nozzle 14 is located. In the lower part of case 1, a pallet 15 is installed with a permeable cover 16 located above it. In blocks 2 and 3 of supply air and exhaust air between pipe 10 and case 1, there are two vertical multi-outlet screw guides 17 and 18 connected to pipe 10.

The screw drive 13 is made in the form of two impellers 19 and 20 rigidly mounted on the vertical shaft 12 opposite the inlet of one of the units (for example, inlet 5 of the exhaust air unit 3) and the outlet of the other unit (for example, outlet 6 of the air handling unit 2 air).

The device works as follows.

Exhaust and intake air flows are simultaneously supplied through the inlets 4 and 5 to blocks 2 and 3. When entering the unit 2, the exhaust air flow acts

- on the impeller 20, and causes the screw screw 13 to rotate. At the same time, the impeller 19 is used for the same purpose. It interacts with the supply air flow.

The rotation of the screw 13 ensures the movement of the dispersed nozzle 14 through the pipe 10 from the exhaust air unit 3 to the supply air unit 2. Upon receipt of the dispersed nozzle 14 in block 2 supply

air is evenly distributed over the surface of the multiple screw guide 17 and is cooled as it moves towards the horizontal partition 8 as a result of heat exchange with heated intake air.

The heated intake air through the outlet 6 is supplied to the consumer.

Cooled dispersion nozzle 14

through the filling channel 9 enters the exhaust air unit 3, where it is also evenly distributed over the surface of the multiple winding guide 18 and is heated as it moves towards

permeable overlap of 16 pallet 15 as a result of heat exchange with cooled exhaust air.

The cooled and dried exhaust air as a result of its cooling below

the dew point temperature is vented to the atmosphere, and the condensate through the permeable overlap 16 is collected in the pan 15. The dispersed nozzle 14 is heated again by the screw 13 through the pipe 10 and fed to block 2

fresh air.

Claims (1)

Apparatus of the Invention A device for utilizing exhaust air heat energy, comprising located in the case of supply and exhaust air blocks with corresponding inlet and outlet nozzles, separated by a horizontal partition and communicated through a ring-shaped filling channel made in the last, which encloses a vertical pipe, in the cavity of which a screw dispersed nozzle, actuator and mounted in the lower part of the case with a permeable overlapping located above it, This is so because, in order to increase the degree of heat utilization and reduce energy costs, the device additionally contains two vertical multiple-entry helical guides connected to the pipe in the supply and exhaust air blocks between the pipe and the body, and in the form of two impellers rigidly mounted on the vertical shaft of the screw opposite the inlet of one of the blocks and the outlet of the other block. ten FIG. 2 Yu Editor I.Gorn Compiled by M.Rashepkin Tehred M. Morgenthal 12 J2 Fi.Z Corrector M; Kucher Wa