DE482504C - Chiller working according to the absorption process - Google Patents

Description

Refrigerating machine operating according to the absorption process The invention relates to a refrigeration machine operating according to the absorption process, which is particularly important for making ice in the home or in small businesses and mainly consists of interconnected cooking and condensation vessels, which during the cold generation work as an absorber or as an evaporator.

According to the invention. is the refrigeration machine with a directly above the useful cooling surface passed through the condensation evaporator vessel and located in the cooker absorber vessel continuing cooling water line.

This arrangement of the cooling water line makes it possible even with the Relatively warm cooling water available in tropical regions a violent initiation of the absorption period and thus rapid ice making to reach.

An example embodiment of the subject matter of the invention shows the drawing, namely Fig. i is a vertical section through the whole machine, Fig.2 a side view of the machine in the position in which it generates cold, Fig. 3 is a side view of the machine in the position it was in before it was put into operation necessary emptying of the condensation vessel, and Fig. q. a side view the machine in the position in which, with the help of heat, the gas is removed from the Solution is driven out.

The machine mainly consists of the cooking vessel i, the condensation vessel 2, a connecting pipe 3, which one end of the condensation vessel 2 with the opposite end of the cooking vessel i and the ice bucket 29. During the generation of cold, the cooking vessel serves as an absorber and the condensation vessel as a vaporizer. The tube 3 is approximately in the plane of the center of gravity of the whole machine attached to an axis 2i, which in a supported by a frame 22 bearing 2o is mounted, so that the whole machine about this axis 21 in the Fig. 2, 3 and q. positions shown can be pivoted.

While the cooker absorber vessel i consists of a simple cylinder, the condensation evaporation vessel 2 consists of a cylinder io, a cylinder of larger diameter 12 with cover 13 and a conical middle part ii connecting the cylinders io and 12. A tube 1q, which is open at both ends, passes conaxially through the cylinder 12, the central part ii and the cylinder io. through. The surface of the cylinder io and of the conical middle part i i forms the useful cooling surface of the M 'ä-' which is located inside the ice vessel 29 during the cold generation. A cooling water pipe 16 is passed through the condensation evaporator vessel 2 transversely to the longitudinal axis, which passes through the connecting pipe 3 and finally enters the cooker absorber vessel. There the tube continues in the form of a snake running through the entire vessel and, after having passed through the vessel wall at the opposite end of the vessel, opens out freely at 17. The pipe 16 is not connected to the interior of the vessels i and 2.

There is also a small container inside the cooker absorber vessel 4 arranged with a filling pipe 7, which is to be closed by a screw 8 is, and a blow-off nozzle 5 is in communication. Before the machine is put into operation the container 4 is filled with water which evaporates during the boiling period. The blowing off of the steam through the nozzle 5 then indicates with certainty that the The cooking period has ended.

The machine works like this: After getting into the machine If a liquid solution of ammonia gas has been filled in, the whole arrangement is brought up first in the position shown in Fig. 3, about in the condensation evaporator vessel to remove existing liquid from this. Then you turn the whole thing in the position of Fig.4 and puts in the pipe 14 of the condensation evaporation vessel 2 a water distributor 27 to which water is supplied through a nozzle 28, which cools the condensation evaporator vessel during the heating season.

Then the heating of the cooker absorber vessel i is put into operation. As the temperature increases, the ammonia gas is driven out of the solution. That Gas flows through the pipe 3 and finally condenses under pressure in the Vessel 2, which fills up to a certain height with liquid ammonia.

When the temperature has reached about 110 ° C, the out of the Nozzle 5 escaping steam indicates the end of the heating season. One turns then, after having removed the water distributor 27, the whole arrangement in the position shown in Fig.2. Finally, you connect the mouthpiece 15 of the Pipe 16 with the water supply line allows the cooling water to flow through this pipe and hangs the ice container 29 on the holding lugs i8 and i g.

Since the filling of the machine is dimensioned so that the level of the liquid Refrigerant in the condensation evaporator vessel 2 at the beginning of the cooling period is above the pipe 16, a very strong cooling of the cooling water - occurs, by which in turn a violent initiation of the absorption in the cooker absorber vessel i is brought about. After a certain time, the liquid level of the coolant will be In the vessel 2, however, sunk so far that the pipe 16 is no longer of the coolant is wetted. It is then only washed around by the exhausting vapors, which however, the pipe 16 and the cooling water flowing therein still have so much heat withdraw to the once initiated absorption in the vessel i in sufficient strength maintain.

Claims (1)

PATENT CLAIM: Chiller working according to the absorption process, especially for making ice, consisting of interconnected cooking and condensation vessels, which work as absorbers or evaporators during cold generation through a condensation evaporator vessel just above the useful cooling surface cooling water line passed through and continuing in the digester absorber vessel.