SU456430A3 - Diffusion-type absorption cooling unit - Google Patents

Description

one

The invention relates to refrigeration.

Diffusion-type absorption chillers are known and are particularly suitable for obtaining low temperatures in the home. There is a refrigerator with a heat exchanger-regenerator between a rich and a poor mixture of inert gas with a refrigerant.

The purpose of the invention is improving the efficiency of the unit.

This is achieved by the fact that the heat exchanger regenerator is made in the form of sections connected in parallel along an inert gas, each of which serves as an evaporator on the lean mixture side. The sections of the heat exchanger regenerator are connected in series with a liquid refrigerant. Sections of the heat exchanger-regenerator are connected in parallel. The sections of the heat exchanger regenerator are made smooth-tube. The sections of the heat-recovery regenerator are plate-shaped, for example, from the flat and corrugated sheets the heat exchanger-regenerator is partially enclosed in a casing through which the secondary refrigerant circulates.

FIG. 1 schematically shows the described unit; in fig. 2 - the same, sections on liquid refrigerant are connected in series; in fig. 3 - the same, sections on liquid refrigerant are connected in parallel; in fig. 4 - heat exchanger regenerator, made of flat sheets; in fig. 5 - heat exchanger regenerator, made of corrugated sheets; in fig. 6 - heat exchanger regenerator,

partially encased, through which the secondary coolant circulates.

The refrigerant vapor is evaporated from the strong solution in thermosyphon 1 (see Fig. 1) and transferred to the condenser 2. L is a cool refrigerant.

The pipeline 3 is directed to a heat exchanger-regenerator 4, in which it is supercooled with a rich mixture of inert gas and a refrigerant and then boils at a low temperature. The mixture from the heat exchanger of the regenerator enters the collection 5 of the strong solution and from here to the absorber 6. The weak solution flowing through the pipeline 7 absorbs the refrigerant from the strong solution and thus depletes the latter. Strong

the solution from the collector 5 through the pipeline 8 is sucked into the thermosyphon 1, and the poor mixture enters the heat exchanger-regenerator through the pipeline 9, which ends the working cycle of the unit.

In the heat exchanger-regenerator, in addition to cooling the lean mixture, there is simultaneous evaporation of the liquid refrigerant, i.e., this apparatus acts as an evaporator. For more efficient operation, the heat exchanger-regenerator is made of several sections connected in parallel along an inert gas (see Fig. 2). Through the internal pipes 10, 11, 12 a poor gas mixture is supplied, through the external pipes 13, 14, 15 a mixture of inert gas with a refrigerant flows in countercurrent. Liquid refrigerant enters through pipe 16, partially evaporates in pipe 13, flows through pipe 17 into pipe 14 and through pipe 18 into pipe 15. A mixture of inert gas with refrigerant vapor is rich and discharged from collector 19 to the absorber.

In the heat exchanger-regenerator (see Fig. 3), a liquid refrigerant is supplied via parallel pipes 20, 21 and 22 to each two-pipe section. The poor mixture is supplied to a collector 23.

FIG. 4, the liquid refrigerant is supplied to the inlet 24 and flows along the inner side of the sheet 25. The poor mixture of inert gas with refrigerant vapor passes through the channel 26 and enters the channel 27 through the window 27.

The poor mixture enters the cavity 30 (see Fig. 5) formed by the corrugated sheets 31 and 32, passes through the opening 33 and is directed into the cavity 34 formed by the corrugated sheet 32 and the flat sheet 35. Liquid refrigerant flows along the inner surface of the sheet 35.

On the outer casing 36 of the heat exchanger of the regenerator there is a casing 37 (see Fig. 6),

through which the secondary refrigerant circulates, to transfer the cold to the consumer.

Subject invention

Claims (6)

1. Absorption diffusion type cooling unit mainly for obtaining low temperatures in a domestic refrigerator with a heat exchanger-regenerator between rich and poor inert mixtures gas with refrigerant, characterized in that, in order to increase efficiency, the heat exchanger-regenerator is made in the form of sections connected in parallel in an inert gas, each of which is from the side of a poor mixture serves as an evaporator. 2. An assembly according to claim 1, characterized in that the sections of the heat exchanger-regenerator are connected in series through the liquid refrigerant. 3. An assembly according to claim 1, characterized in that the sections of the heat exchanger-regenerator are connected in parallel by a liquid refrigerant. 4. The unit according to claim 1, characterized in that the sections of the heat exchanger-regenerator are smooth-tube. 5. The unit according to claim 1, characterized in that the sections of the heat exchanger-regenerator are made of lamellar, for example, from flat and corrugated sheets. 6. The unit according to claim 1, characterized in that the heat exchanger-regenerator is partially enclosed in a casing, through which the secondary refrigerant circulates. epui 24 21 t / 26 ftui 3 25 23 fig