DE556801C - Periodic absorption refrigeration machine - Google Patents

Description

Periodic absorption chiller is the subject of the main patent an intermittent refrigeration machine that works with special absorption materials, which is cooled with air. So that the refrigerator compartment is not too high during the heating season Assumes temperatures, it can be adjusted in a manner known per se from the evaporator through adjustable Air flaps are separated. The cooling air to the absorber cooker can also be passed through air flaps being controlled.

The task of the additional invention is to avoid excessively high temperatures of the cold room without moving air flaps. To this end is an opening at the bottom of an air chamber in which the absorber cooker is enclosed provided and connected to the top of an air line, which initially looks like a [) pipe turns downwards and is then guided upwards like a chimney. With similar means an air flow is generated automatically in an evaporator chamber in which the evaporator is located generated, which either the outside air or the air of the cold room through the evaporator chamber leads.

An exemplary embodiment is shown in the accompanying schematic drawing shown. The cooling space i is through channels a and 3 with the heat-insulated evaporator chamber 4 connected. The channels 5 and 6 lead from this chamber to the outside. The absorber cooker 14 is arranged in a space 7 which is also insulated against the passage of heat. This is through the channel 8 with the lower part of the heating cabinet 9 in connection. From the upper part of this cupboard a chimney-like channel leads upwards into the open. The lower part of the space 7 is through the channel i i with the outer Air connected. Both channels can be embedded in the insulating material of the cabinet so that they are not visible from the outside, which is shown in the schematic figure is not specifically shown. It can be between the channel io and the isolation an air gap that is open at the top and bottom can also be formed in the refrigerator compartment. In this way, there is a loss of cold energy due to the heating space 9 upwards Avoid flowing warm air.

A thermostat 12 sets either one located in the heating cabinet 9 Auxiliary heating device 13 or the heating device of the absorber cooker 14 in operation. The absorber cooker is surrounded by a corrugated metal sheet 15 for the purpose of better heat dissipation. The evaporator 16 is provided with ribs 17.

The evaporator 16 is anhydrous magnesium bromide ammonia cat and iron wool filled. This material absorbs the in the absorber cooker ammonia gases expelled during the heating season. The resulting in the evaporator 16 The resulting absorption heat heats the evaporator chamber 4. This creates an upward air flow through the duct 6, and through the duct 5 becomes cold air sucked in from outside. It arises. but no flow through the canals : 2 and 3. In room 7 there is no air flow at all, because the air that collects here hot air cannot flow downwards. As soon as the thermostat 12 turns on the heating device of the absorber cooker off and the auxiliary heater 13 turns on, the air heated in the heating cabinet 9 and flows up through the channel io. Consequently cold air is sucked in through opening i i, room 7 and duct $. This cold air stream cools the corrugated sheet metal 15 surrounding the absorber cooker 14 and thus the absorber cooker. This is filled with lithium chloride and iron wool, the binds the ammonia gases again as a result of the cooling. The vaporizer comes into operation and cools the air in the evaporator chamber 4 through its ribs 17. The cold one Air sinks through the pipe: 2 into the refrigerator compartment i. This is done through the canal 3 air is sucked into the chamber 4, and in this way an automatic one is created Air circuit that cools the refrigerator compartment i. No cold can be lost to the outside world go, since the openings of the channels 5 and 6 are above the evaporator 16, where the colder air cannot escape.

The apparatus can also be modified in such a way that it can be used for transport the cold in the cold room uses a different medium. So you can z. B. the evaporator provided with a device that by two pipe connections with one in the The container located in the refrigerator is in communication and with this a self-contained System educates. The container is partly filled with an easily evaporating liquid filled, such as B. liquid ammonia. As soon as the vaporizer gets colder than the Cold room, the ammonia vapor condenses in the part of the device that is in is located in the evaporator, and flows through one of the tubes to the container in the Down the fridge. In this container causes the caused by the condensation Pressure reduction evaporation that produces cold. In this way too the cold is conducted to the refrigerator compartment without heating during the cooking period of the cold room would be to be feared. The medium used to transmit cold is used In addition to ammonia, it is best to use liquids with a boiling point below room temperature lies, such as B. sulfur dioxide, methyl chloride etc.

The heat can be sent to the cooker absorber 14 instead of an electrical one Heating element also fed by heated air, heated gases or condensing steam will. This is particularly recommended when a heating source is used that a flame forms as the heat is transferred through the heated intermediate medium then avoids harmful partial heating.

Instead of ammonia, amines or other refrigerants can also be used use suitable materials.

Claims (6)

PATENT CLAIMS: i. Periodic absorption refrigeration machine according to patent 554766, characterized in that the absorber cooker is enclosed in an air chamber which has an opening at the bottom and to which an air line is connected at the top, which initially turns downwards and is then guided upwards like a chimney. 2. Refrigerating machine according to claim i, characterized in that below the upward leading part of the air duct an auxiliary heater for the flowing through Air is arranged. 3. Refrigerating machine according to claim 2, characterized in that a part (preferably the lower one, containing the auxiliary heater) of the upward leading Air line is expanded and designed as a heating cabinet. 4. Periodic absorption chiller according to patent 554 766, in which the evaporator in a chamber (evaporator chamber) above of the cold room, which is separated from the cold room by heat-insulating walls is, characterized in that air lines between the evaporator chamber on the one hand and the cooling space and the outside air are arranged on the other hand in such a way that automatically an air circuit is created through the evaporation chamber, which depends on the temperature of the evaporator either between the evaporator chamber and outside air or between the evaporator chamber and cold room runs. 5. refrigeration machine according to claim 4, characterized in that that an air line leads from the bottom of the evaporator chamber to the bottom of the refrigerator. 6. Refrigerating machine according to claim 4 and 5, characterized in that the upper part of the cold room to the upper part of the evaporator chamber a [J-tube leads, whose knee reaches down to the level of the lowest point of the evaporator. j. Refrigerating machine according to claim 4, characterized in that between the Evaporator chamber and the cooling space resulting air circulation in the cooling space located cold storage is cooled. B. refrigeration machine according to claim 4, at which in place of the air the vapor of a liquid the heat from the cold room in carries the evaporator, characterized in that a liquid, e.g. B. sulfur dioxide, Methyl chloride, is used whose boiling point at atmospheric pressure is below the room temperature. G. Refrigerating machine according to claims i to 3, characterized in that that the absorber cooker below and the evaporator above in a two-chamber cabinet is installed, and that between the two chambers a laterally open air space and an air shaft is arranged in the lower chamber.