GB545525A - Improvements in or relating to absorption-refrigerating apparatus - Google Patents

Abstract

545,525. Refrigerating. ELECTROLUX, Ltd. Nov. 14, 1940, No. 16469. Convention date, Feb. 3, 1940. [Class 29] Absorption systems.-A continuous-cycle inert gas system for a storage cabinet 36 has a divided generator, a part 13 of which is connected with a condenser 39 supplying only a low temperature ice-making evaporator 41 while the other part 10 is connected with a condenser 32 supplying a higher temperature air-cooling evaporator 34. The heat supply to the generator is divided and arranged so that either generator portion alone or both may be heated, or heat may be supplied only to a "pumping" coil 68 for maintaining liquor circulation. The part 10 of the generator surrounds a heating flue 11 extending downwards through the pumping coil, and is provided with semi-circular baffles 15, 14 located one below and the other above the connection of the part 13 with the part 10. Electric heating elements a, b, c, d are arranged in the flue at the positions shown corresponding with the pumping coil, the space below the lower baffle, the space between the baffles and the space above the upper baffle. The main current supply is controlled by a manual switch 19 and a thermostatic switch 18 responsive to the temperature of a thermal element 71 in the cabinet, the separate heating elements being controlled by a rotary manual switch 27. When the element b is switched in generated vapour is diverted by the baffles 15, 14 into the part 13 and is condensed in condenser 39 and supplied to evaporator 41, and little or no refrigerant is supplied to the other evaporator. When the element d is in action orly the cabinet cooling evaporator 34 is supplied with refrigerant by conduit 30 and condenser 32, whereas when the element c is in action part of the vapour flows through the part 13 of the generator to the condenser 39 and part to the condenser 32, and thus both evaporators are supplied. The inert gas flows from the absorber 61 through the usual heat exchanger 46 to the low temperature evaporator 41 and the mixture of vapours returns through the exchanger jacket. The upper higher temperature evaporator is connected with the gas heat exchanger jacket by supply and return pipes 53, 54. Refrigerant unevaporated in the upper evaporator flows through a conduit 56 into the lower evaporator.