DE588566C - Cooling system, the cold use points of which are supplied with cold from a cold generating point by a cold carrier and in which a cold storage unit is available for all cold use points - Google Patents

Description

Cooling system whose cold use points are from a cold generating point can be supplied with cold by a refrigerant and with one for all cold use points common cold storage exists There are establishments in which a large number of refrigeration points is available, which is supplied with cold from a main point will. In larger department stores such. B. Often the rooms to be cooled are due to many Places are scattered and are quite far away from each other and from the engine room. For safety reasons, cold transfer through brine is always chosen. The rooms are often extremely different in size, and the temperature to be maintained often fluctuates within wide limits; also the cooling requirements of the individual rooms often changes very strongly, both in terms of its absolute value and in relation to it in addition. the other rooms, depending on the season, the days of the week, the economic situation and the resulting management resolutions. There are many cold spots in the department stores are located directly in or next to the sales rooms, the space there is extremely precious. If possible, the refrigeration machine should only be used during the day and run on weekdays while in the cold stores continuously, d. H. day and night and, too Maintain the required temperature over Sunday, even over two public holidays must become. The invention aims to provide a cooling system which, in relation to low acquisition costs, low space requirements, ease of use, operational reliability, Economy and adaptability to all requirements of a large department store enough.

There are already cooling systems with several cooling points and with one common cold storage known, in which the contained in the cold storage Brine is cooled by the evaporator of a refrigeration machine and the inflow of the brine zu .den individual cooling points regardless of the running of the refrigeration machine and the Brine pump is automatically controlled thermostatically.

The arrangement of a common cold store, which is located away from the sales rooms, frees up space in the individual cooling points; However, not only is the space required relocated to another, less valuable place, but space is also saved in absolute terms; because the ratio of useful content to space requirement becomes more favorable, the larger the memory itself is. The common cold storage should also be built as compactly as possible, because here, too, it is an expensive space in the middle of the big city, and what can be saved in terms of space for technical equipment benefits the storage room; In addition, the refrigeration requirement of a modern department store is so great that the weight of the cold store already plays a role. If you wanted to operate a common cold store for a large department store without changing the state of aggregation, only with the help of the temperature change of the refrigerant, you would come across weights and floor loads; which already cause difficulties for the civil engineer. The cold storage with the aid of a freezing solution, by means of which a further saving of space is achieved, is already known and is used in the invention.

The invention relates to a cooling system with common cold storage and several cold use points, and it consists in that the brine cold storage contains a substance that changes its physical state and this substance; the refrigerant and the coolant are in heat exchange with each other in pairs. Through this The new arrangement is a particularly favorable adaptation to the respective operational requirements of the cooling system.

An embodiment is shown in the invention.

The evaporator is subdivided into several coiled tubes, of which those designated in the figure with b1 are located in special vessels k which are filled with a substance that changes its physical state, e.g. B. with a deep-freezing solution; another part of the evaporator coils, in the picture with. b2, is located in the brine cooler a. The two parts of the evaporator can also be connected to different compressors or to different cylinder sides of a compressor. The freezing solution in the vessels k is in heat exchange with the brine, be it that these vessels, never shown, are located within the brine container a, or that the brine can flow through pipes arranged within the vessels k. The cold brine is directed by the pump c to the individual cooling points dl, d @ etc. There it flows through pipes e1, e2 etc. absorbs heat and flows from there back to the brine cooler a. Shut-off devices t> 1, t> 2 etc. or g1, 92 etc., of which one, for example g1 etc., can remain open permanently in a certain position in regular operation and are located in the supply and discharge lines to the cooling points only when a cold store is shut down for a long period of time. or are closed during repair work, while the other, z. B. f, - etc., serve to regulate. These can be controlled by automatic organs, so-called thermostats, lt " 1t2, etc.

By suitable choice of the freezing solution in the cold store and their concentration can be adjusted to any desired freezing point, and by correct dimensioning of the heat exchange surfaces one can achieve that the temperature of the brine remains almost unchanged at all times.

In the case of conventional storage systems that work with freezing solution, cold would have to be transferred from the brine to the freezing solution during charging. If now the room temperature z. B. -to ', then the freezing point of the solution would have to be selected to be about -15', the brine would then have a temperature of about -2o ° and the evaporating refrigerant a temperature of -25 °. When arranging the "cold accumulator with heat exchange in pairs between the solution, refrigerant and refrigerant according to the invention, the brine initially only needs to have a temperature of -1 5 '; 24 hours a day, so the losses in the pipe network are very low. The refrigerant boils in those pipe coils that lie within the brine only at -20 °; at this temperature, however, the coefficient of performance of a refrigeration machine is around 2o to 30% (depending on the condensing temperature) higher than at -25 °, which would be necessary if the cold from the evaporator coil were first transferred to the solution via the brine The evaporator coils lying inside the freezing solution must have a large area anyway, taking into account the icing, so that the temperature difference does not occur needs to be so large and the refrigerant boiling in the storage evaporator coils: can have a temperature of perhaps -23 °; @ It has already been mentioned that these lines can be connected to a different compressor or to a different cylinder side than the brine evaporator lines. The described arrangement can therefore save a considerable amount of drive energy and compressor size compared to the known arrangement of stores which also work with freezing solution.

Claims (1)

PATENT-ANSPRU-CH: Cooling system, whose cold use points are controlled by a Kältegenerüngsstelle (evaporator) from by a refrigerant (Brine) are supplied with cold and are called one for all cold use points or Groups of the same common cold storage are present, characterized in that that the cold storage a substance changing its physical state, eg. B. a melting one and solidifying solution, contains and this substance, the refrigerant and the refrigerant are in heat exchange with each other in pairs.