DE620172C - Process for the operation of absorption refrigerators - Google Patents

Description

Method of Operating Absorption Chillers The invention relates to a method and an apparatus for operating absorption refrigerators with pressure equalizing gas. It is already known in such apparatus a Provide gas temperature changer in which the poor warm gas coming from the absorber heat exchanges with the rich, cold gas coming from the evaporator. This gas temperature changer were previously arranged entirely or partially outside of the cold room to be cooled. It is also already known in such a gas temperature changer in the evaporator introducing excess condensate and allowing it to evaporate into the rich gas, in order to use this secondary cold to remove the warm gas coming from the absorber before it enters to subcool better in the evaporator. It is finally already known in apparatus the various partial pressure stages occurring in the evaporator with pressure-equalizing gas of the refrigerant to use evaporators of different temperatures for ice making purposes and train them for room cooling purposes. The invention aims at a particularly simple one and the production of a substantially cheaper solution to the above-mentioned problems create and consists essentially in that the gas temperature changer within of the refrigerator arranged, provided with cooling fins and with so much liquid Refrigerant is charged that it also acts as a useful cooling room cooler and serves as a heat exchanger for the poor gas.

It is also already known to use the gas temperature changer as a tubular or to form a cylindrical body and insert a spiral into it, which is held in the tube by natural springiness. Especially with temperature fluctuations but this suspension is not sufficient to prevent leakage. Although the contact surfaces and thus the heat exchange of the means is much more favorable with such an arrangement are as if the means were in two adjoining tubes or something like that Such arrangements have so far not been able to be used in systems in which no leakage may occur.

According to a further invention, the last-mentioned device is improved, essentially in that the tubular or cylindrical heat exchanger Metal plate with the walls of the heat exchanger dividing it into several flow paths is connected, so that hermetically sealed flow paths are created. Here, the plate is used in a manner known per se to enlarge the heat exchanger surfaces corrugated or with grooves in which the partially useful cooling and partially the poor gas undercooling liquid refrigerant is conducted.

The invention is intended in more detail with reference to the adjacent Figures are described, with further characterizing features of the invention will.

In the figures, a heat exchanger is shown as it is in particular as a gas temperature changer for absorption refrigerators that work with pressure-equalizing auxiliary gas suitable is. The heat exchanger shown consists of two tube or cylinder halves io and ii, which can be obtained, for example, by cutting a pipe or cylinder receives. A plate 12 is inserted between the two tube parts io and ii, which is expediently provided with grooves 13 running in the longitudinal direction of the tube. These groove-shaped bulges enlarge the contact surfaces with which the come into contact with heat exchanging agents. The ends of the plate 12 are with the ends of the tube halves io and ii metallic, expediently by welding or also connected to one another by soldering, metal baths or other known means, so that a transfer of one agent into the space of the other is definitely ruled out is. It is assumed that in the space 14 between the upper tube half io and of the plate 12 the rich, coming from an evaporator of an absorption chiller Gas is led. This gas coming from the evaporator is often not in the evaporator mixed with evaporated refrigerant. This refrigerant flows into the grooves 13 of the plate 12 and thereby occurs with that in the lower space 15 of the temperature changer flowing poor gas in particularly intimate contact. The liquid refrigerant residues are caused to evaporate and therefore contribute significantly to pre-cooling of the poor gas. One or more lines are expediently placed on the grooves 13 16, which lead the liquid refrigerant to the evaporator of the device. These Lines 16 are expediently arranged over the grooves 13 that they of touched the liquid refrigerant contained in the grooves.

The arrangement is advantageously made so that there is always some refrigerant runs from the actual evaporator of the apparatus onto the plate 12, where the liquid refrigerant collects in the grooves 13, and where it is due to the heat of the poor gas flow comes to evaporation. The liquid refrigerant running in the grooves 13 comes into contact while the lower part of the tubes 16, so_ that at the same time in these lines contained liquid refrigerant going to the evaporator is cooled.

You can also train the system so that a larger amount of refrigerant passes from the evaporator into the heat exchanger, so that, for example, a liquid layer is from i to 2 mm on the plate 12. About the evaporation cold of this refrigerant to use, the heat exchanger io can be provided with cooling flanges 17, see above that the resulting cold in the exchanger through these cooling fins to the cabinet air is transmitted. By an overflow, not shown in the drawing, on the Plate 12 can be used to ensure that the liquid level in the heat exchanger io can never attain an altitude that adversely affects gas circulation.

Claims (3)

PATENT CLAIMS: i. Procedure for operating absorption refrigerators with pressure equalizing gas, whose flows between evaporator and absorber in one Gas temperature changer exchange heat, characterized in that in the evaporator Non-evaporated refrigerant in waves or grooves in the temperature changer inside dividing plate is performed, so d'ass the refrigerant in heat exchange evaporates with the poor gas and generates useful cooling in the process. 2. The method according to claim i, characterized in that flowing from the condenser to the evaporator, there refrigerant to be evaporated by the gas temperature changer in one or more Lines are routed from the standing in the corrugations or grooves of the plate Refrigerant are wetted. 3. Consisting of a tubular or cylindrical body, Temperature changer for absorption chillers with pressure equalizing gas, for Execution of the method according to claim i, characterized in that in it one metallically connected to the body wall in the longitudinal direction of the temperature changer running plate is arranged, which is corrugated or grooved. q .. as After-evaporator serving temperature changer according to one of the previous claims, which with outer cooling fins and is arranged inside a refrigerator.