DE552455C - Cooling device built into a refrigerator - Google Patents

Description

Refrigerating apparatus built into a refrigerator The invention relates to based on refrigerators built into refrigerators with a plurality of evaporators or heat sinks of different temperatures, especially those at which a Evaporator used as an ice maker and another evaporator used to cool the room air will. If you want to make ice cream quickly in such apparatus, it is advisable to to prevent the relatively warm cupboard air from turning the cold, ice-making Evaporator flushed while circulating in the cabinet. It has therefore already been suggested the cold evaporator by isolating the contact with the warmer cabinet air to withdraw. The invention aims to provide a particularly simple design of a refrigeration apparatus to find in the cold evaporator the circulation of the circulating in the refrigerator Air has been withdrawn. It consists essentially in the fact that the evaporator or heat sink, in which the lowest temperature prevails, on four of its surfaces of cabinet insulation is so closely surrounded that it is withdrawn from air circulation, and that on --one the inside of the cabinet facing surface of this evaporator or a heat sink Evaporator or heat sink is arranged higher temperature.

The invention will be described in more detail with reference to the accompanying drawings are described, with further characterizing features of the invention will. In the figures, an embodiment of the invention is at one example with water as the absorbent, ammonia as the refrigerant and hydrogen as the pressure equalizing agent Gas absorption chiller shown, namely Fig. I shows the arrangement seen from the front, partly in section. Fig. 2 shows, also partially in section, the arrangement seen from above.

The apparatus consists essentially of the arbitrarily heated cooker io, the condenser ii, cooled for example by a cooling coil, the cold evaporator 12, the warmer room cooler 13, the gas temperature changer 1q., The absorber 15, for example cooled by a cooling coil, the liquid temperature changer 16 and a pump spiral 17. The mode of operation of such apparatus is well known and therefore does not need to be described further.

According to the invention, the cold evaporator 12, which supplies the auxiliary gas coming from the absorber 1 5 via the temperature changer 1q. and line 1 8 first receives and into which the liquid refrigerant coming from the condenser ii enters through a line i9, arranged in the barrier in such a way that it is close to the side wall 2o of the refrigerator insulation and the top wall 21, as can be seen from the figure. As can be seen from FIG. 2, it is also arranged close to the rear wall of the cabinet 22 and the cabinet door 23. The cold evaporator 12 is surrounded by a cooling body 24, for example made of cast aluminum or the like, and has compartments 25 for holding boxes for making ice. The gas mixture created inside the evaporator 12 enters the evaporator 13 with the rest of the not yet evaporated liquid refrigerant through line 26, which is provided with cooling flanges 27 for room cooling and in which the remainder of the refrigerant evaporates. The gas mixture produced in the evaporator 13 goes in a known manner via the gas temperature changer i.4, which passes through the cabinet insulation wall 2o, to the absorber 15. As can be seen from the figure, the cold evaporator 12 is arranged laterally above the room cooler evaporator 13. The cooling ears 2q surrounding the two evaporators. and 27 are, however, arranged laterally from one another at almost the same height. This has the advantage that the cold evaporator is protected from contact with warm air circulating in the cabinet by the heat sink of the room cooler evaporator 13 inside the cabinet, and offers the further advantage of a favorable use of the space used for storing food in the cabinet. The overall arrangement is particularly advantageous and simple if the gas temperature changer 14 is designed as a support for the two evaporators, in such a way that the part of the gas temperature changer located inside the cabinet insulation engages under the evaporator. In this case, the cold evaporator is also partially protected from contact with the cabinet air by the gas temperature changer.

Claims (3)

hA'J'EN'fANSL'KÜC111 ?: i. Refrigerator built into a refrigerator with a number of evaporators or heat sinks of different temperatures, thereby characterized in that the evaporator or heat sink in which the lowest temperature prevails, is so closely surrounded on four of its surfaces by cabinet insulation that he is withdrawn from the circulation of the air circulating in the closet, and that on one the surface of the evaporator or heat sink facing the inside of the cabinet is an evaporator or heat sink is arranged at a higher temperature. 2. Built into a refrigerator Refrigerator with a plurality of evaporators provided with heat sinks of various types Temperatures, one of which is used to make ice and another to cool the room, according to claim i, characterized in that the evaporator serving to make ice laterally above the room cooler evaporator, the heat sink surrounding the evaporator but are arranged laterally from one another at substantially the same height. 3. Absorption refrigeration apparatus built into a refrigerator and working with pressure-equalizing gas with a plurality of evaporators or heat sinks of different temperatures Claim i, characterized in that the inside of the cabinet insulation Part of the gas temperature changer, in which the pressure equalizing flowing to the evaporator Gas enters into heat exchange with the gas mixture flowing to the absorber, which occurs laterally evaporators or heat sinks located in the cabinet in the manner of a carrier reaches under.