DE607513C - Evaporator designed as a horizontal cylinder of refrigerators that work with pressure-equalizing gas and are built into refrigerators - Google Patents

Description

Evaporator designed as a horizontal cylinder with pressure equalizing Gas-working refrigerators built into refrigerators It is already known Evaporator of absorption chillers built into refrigerators with a heat sink to be provided, which has spaces to accommodate ice boxes and with cooling fins is provided for cooling the cabinet air. It is also already known, in absorption refrigerators, who work with pressure equalizing gas because of the different partial pressures of the refrigerant in the evaporation zone of such devices arise different To use temperatures for various cooling purposes. It has also already been proposed has been carried out through a single vaporizer in apparatus with pressure-equalizing gas to form the placement of a plurality of heat sinks in such a way that the different The heat sink of the single evaporator is used for various cooling purposes.

The invention aims to be particularly simple, cheap and practical To create embodiment of such an evaporator and thereby in the evaporator entering condensate in such a way that in that evaporation zone that the should have the coldest temperature, the lowest possible temperature is created.

The invention consists essentially in that of the cabinet door facing evaporator part of the evaporator designed as a horizontal cylinder a heat sink for making ice and the evaporator part facing away from the cabinet door is provided with a heat sink for cooling the cabinet air, the line for the liquid refrigerant through the evaporator part enclosed by the room cooler is passed, so that the liquid refrigerant and the pressure equalizing gas by facing the cabinet door and enclosed by the ice maker to the meet for the first time. This has the advantage that at the point of the evaporator, which carries the heat sink used to make ice, is a special one Low temperature is generated `because the condensate is well subcooled in this evaporator part occurs in which the greatest partial pressure difference between the indifferent gas and the refrigerant. The spatial arrangement gives. still the advantage that the ice box is arranged on the side of the evaporator facing the cabinet door so that they are practically easy to use. It is already known to provide the heat sink for ice making with an insulation, and such Isolation can also easily from the front in the arrangement according to the invention Heat sink for ice making can be placed on or removed from it.

The invention is intended in more detail with reference to. the accompanying drawing to be discribed.

In refrigerator A, which can be locked to the front through door B, is a through the rear wall C into the refrigerator compartment of the - Entering the closet Evaporator G arranged. It consists of an elongated cylindrical steel vessel, which is arranged horizontally and parallel to a side wall of the refrigerator. The liquid refrigerant to be evaporated in the evaporator is released by the Line 2 supplied. It is distributed on 'distribution plates q., 5, 6. The top plate q. forms a horizontal channel with the upper evaporator wall, the closed at the back, but open at the front. It has a bar about in the middle 9 and on the front side a strip 7 and furthermore a passage opening between these strips S.

The liquid refrigerant coming through line a thus forms a small pool of liquid bounded by ridges 7 and 9, from which the refrigerant flows through the opening S to the second plate 5. This record 5 has strips 7 or i S at both ends and also one on the right-hand side Passage opening through which the refrigerant continues to flow to the third plate 6 can, which is designed in the same way as plate 5, only with the difference, that the passage opening S is at the opposite end, namely at the front. The indifferent Gas that circulates in the refrigerator flows through line i into the the plate q. formed upper canal. It flows over the top plate , l between the bars 7 and 9 standing refrigerant supply away and generates, since the gas is almost completely pure at this point, an extremely lively evaporation. The gas, which is somewhat enriched with refrigerant vapors, passes through 4. Leaving the plate formed into a channel located at the front of the evaporator Space and then flows through from the plates 5, 6 and the bottom of the evaporator channels formed i9, -> o, 21 to the rear of the evaporator to get it through here to leave the line 3, which consists of refrigerant vapors, z. B. ammonia and indifferent Gas, existing mixture leads to the absorber.

As a result of this formation of the evaporator prevails in its front, the cabinet door B facing part, but especially in the space between the strips 7 and 9 of plate 4., a larger partial pressure gradient between the indifferent Gas and the refrigerant than in the rear, the cabinet rear wall C facing space. As the condensate passes through the evaporator part facing away from the cabinet door was strongly hypothermic, the pond between the ribs 7 and 9 on the uppermost evaporator plate is sprinkled with strongly supercooled condensate, therefore occurs in this evaporator part a particularly low temperature due to the large partial pressure gradient. on this front part of the evaporator is therefore placed a heat sink, which is in essential for making ice cream. This body exists in the present embodiment from two pipe clamp-like parts i i, the free ends of which are at right angles are bent so that they form box halves. These two clamp-like Parts are clamped onto the cylindrical evaporator body by clamping screws i a. The free bent ends then form above, with their edges butting together and below the evaporator boxes of rectangular cross-section into which the known ice freezers to be filled with water are inserted. This Heat sink can be provided with removable thermal insulation if necessary.

In the embodiment shown, the heat sink is set up so that that the ice box is in contact with the Iiiihllcbody connected to the evaporator stand. However, the heat sink can also be designed in such a way that the ice box directly with their metal on the evaporator body.

The rear part of the evaporator is as shown in the picture is equipped with a space heat sink, which consists of individual cooling fins io per se known type.

Claims (1)

PATrNTANSPFUCII: Evaporator designed as a horizontal cylinder from refrigerators built into refrigerators that work with pressure-equalizing gas, characterized in that the evaporator part facing the cabinet door with the Heat sink for ice making and the evaporator part facing away from the cabinet door a heat sink for the refrigerator air is provided and the line for the liquid Refrigerant passed through the evaporator part enclosed by the room cooler so that refrigerant and pressure equalization gas in the one facing the cabinet door, the evaporator part enclosed by the ice maker meet for the first time.