DE627927C - Compression refrigeration machine - Google Patents

Description

Compression refrigerating machine The invention relates to a compression refrigerating machine. In order to increase the cooling capacity of such machines, one usually reinforces either the compressor power or the cooling of the condenser. The invention suggests another way, which is that outside the refrigerator Ice pieces generated can be used as refrigerant in the evaporator.

Various advantages are achieved by the invention: As a result the considerable increase in the surface area of the refrigerant can be seen in the application a relatively powerful compressor with only a small evaporator high Achieve cooling capacity. The refrigerant used in the form of pieces of ice also has an effect already cooling itself, so that in some cases of use you can use weaker compressors and thus can use simpler types of compressors that have a high Have a lifespan and do not require any maintenance. Finally, the invention enables a regulation of the cooling effect within wide limits, since the one filled with the pieces of ice Evaporator cools even when the compressor is at a standstill.

Other features and advantages of the invention will be apparent from the following Description in which an embodiment of the invention with reference to the enclosed Drawing is depicted. In the drawing, r is the compressor for diesels Embodiment is a mercury vapor pump. The shell space 18 of the Compressor is with a cooling liquid, for. B. water, filled or flowed through by it, so that the propellant vapors condense. 2 is the one filled with the pieces of ice 15 Evaporator and 3 the condenser. The mercury vapor pump is heated by heating of their mercury tank set in motion, then through line 5 the evaporating Refrigerant sucked in by the compressor and via line 24 and the three-way valve 22, which is in the position shown, into line 4 and further led into the capacitor 3.

The capacitor 3 is in this embodiment to increase the cooling capacity of the machine is cooled by the fact that it is also outside the Chillers generated ice pieces is filled, on the surface of which the refrigerant condensed.

The pressure line 4 is still with the valve 23 through a line the suction line 5 of the compressor connected. This rooster in connection with the three-way neck 22 allows the system to be vented. One connects namely through the three-way cock 22 the line 24 with the line 25 and thereby blocks the line 4 from the pressure line of the compressor, on the other hand, connects the line 4 by opening the tap 23 with the suction line 5, then the compressor r acts as a ventilation pump.

Another advantage of the arrangement of the tap 23 and its connecting line consists in the fact that he is a connection ofi Evaporator to condenser creates, through which colds iitteldampf- from the v; rdainpfer directly into the condenser can get. This advantage is particularly evident when taking place the illustrated mercury vapor pump another type of compressor, z. B. a reciprocating compressor is used, which takes the way from the evaporator when it is at a standstill blocked to the condenser. When the compressor is at a standstill, this can only be used the cooling effect of the pieces of ice in the evaporator can be harnessed.

Claims (3)

PATENT CLAIMS: i. Compression refrigeration machine, characterized by the use of pieces of ice (15) generated outside the refrigeration machine as a refrigerant in the evaporator (2). 2. Compression refrigeration machine according to claim i, characterized in that that there are flow paths through the refrigerant vapors even when the compressor is switched off can flow from evaporator (2) to condenser (3) if the temperature of the evaporator rises above 0 ° C. 3. Compression refrigeration machine according to claim i or 2, characterized characterized in that the condenser (3) for the purpose of venting through a tap (22) can be shut off from the pressure line (2 ¢) by opening another tap (23) to the suction line (5) of the compressor (i.) Can be excluded, the compressor (i) initially serves as a priming pump.