DE801098C - Small cooling device - Google Patents

Description

With the cooling devices and systems that have been used up to now, the cooling is mostly carried out by direct `` '' er <lanipftuig of a refrigerant in a nerdanipfer, whereby the heat conversion either after <learning absorption processes in the presence of cheap energy sources, such as gas or electricity, for smaller devices or according to the Linde compression principle for all sizes. In the case of: absorption systems, the cold is generated continuously; in the case of compressor systems, it is usually generated periodically. With both types of refrigeration appliances, however, the production costs and the running costs of fuel consumption cannot be reduced to below a certain financial limit, so that their acquisition is usually not possible for less well-off people.

It is also used for ice making, deep freezing and in dairies, chemical factories etc. the more balanced cooling effect of indirect cooling known from brine, often in connection with economic brine storage.

The eutectic (krvohydrate) brine is used for special purposes Application, the temperature of which remains constant in the frozen state until everything eutectic ice has melted. This may be very low Temperatures are bound to large \\ 7 low levels.

The new combination of the advantageous compressor principle with the benefits of the system of cold storage and ice cooling through use Liquids to be frozen out enables the creation of a small cooling device with such low production and consumption costs that its acquisition and operation Finder funds are also possible.

The diagram of this cooling system is shown in the figure.

The arbitrarily constructed compressor K, which by hand or in any is driven in another way, compresses the gas (vapors) of the refrigerant, which is then a condenser, for example represented as a counterflow condenser G flows in and dissolves by cooling. Through the injection and control valve E, in which the cooling medium expands and nebulises, it reaches the for example Evaporator V shown as a coil, which is located in the refrigerator housing S built-in container RK is located, which serves as a room cooler and with a liquid, for example brine, is completely or partially filled. Here the cooling medium is withdrawn four liquid absorbs the heat contained in it until it is frozen out. Of the The compressor must be operated until this state is reached. this can either be through a in the liquid connection line or in the wall of the The viewing window SF I or SF 1I located in the room cooler is observed or through a . \ nPointing device .-? be determined.

Due to the height adjustable outside of the refrigerator Container F, which is coupled to the room cooler by the liquid connection line is, the filling and thus also the cooling surface of the latter can be changed and can be controlled by the cooler during a certain period of time, for example 12 hours to adjust the amount of heat absorbed to the outside temperature of the refrigerator. The setting is made in that the liquid level in the regulator tank F with a scale T according to the outside temperature. This will ensures a constant temperature in the refrigerator housing and the The amount of energy to be supplied to the compressor, for example muscle work, is reduced to the lowest possible level Reduced level to produce the ice required for a given cooling period. A temperature level required for certain purposes (e.g. for laboratory experiments) is achieved by using a certain Kryohvdratischen brine, whereby this Temperature can be kept constant with great accuracy.

In order to achieve the necessary cooling effect in the condenser, this chilled with water. It can be designed as a countercurrent or evaporation condenser will. The water supply can either be through direct water line connection I. to a fixed pipe or a tap, or in the absence of a water supply pipe by attaching a water tank W made possible «ground.

The assembly of the individual units can be done with the refrigerator as a unit can be distributed in any arrangement or in individual arrangements.

Claims (3)

PATENT CLAIMS: i. Small cooling device, characterized in that the amount of ice required for a very uniform and economical cooling of stored objects is itself produced in a room cooler located in the refrigerator housing. 2. Small cooling device according to claim i, characterized in that the Cooling surface and the amount of ice in the room cooler by filling control with the outside temperature of the refrigerator is tuned to ensure a uniform temperature and minimal energy consumption to enable. 3. Small cooling device according to claim i or 2, characterized in that that the water needed to cool the condenser in one to the refrigerator associated container is provided.