NL8104565A - REFRIGERATOR. - Google Patents

Description

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V- J

PHN 10.163 1 N.V. PHILIPS 'HEATING LIGHTS FACTORIES.

"Refrigerator"

The invention relates to a refrigerator with a freezer compartment and a cooling space, which refrigerator is provided with a cooling medium containing a primary cooling system with a primary evaporator arranged in the freezer space, and with a secondary cooling system also containing a cooling medium, just one in the cooling space. installed secondary evaporator and a secondary condenser in heat-exchanging contact with the primary evaporator, on which secondary cooling system a reservoir is connected containing an adsorbent for the cooling medium.

Such a refrigerator is known from United States Patent Specification 2,433,188. In this, a mineral oil is used as adsorption (in fact absorption) agent. The amount of absorbent and the amount of cooling medium is hereby chosen such that the temperature in the cooling space is constant at different temperatures of the space in which the refrigerator is placed. The drawback of this refrigerator is that the absorbent is a liquid, so that the position of the reservoir and thus the position of the refrigerator can only be changed within limited limits.

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Particular care is taken during transport of the refrigerator. In any case, it should be avoided that the oil or oil vapor enters the cooling system, since this oil no longer comes out of the cooling system, as a result of which both the absorption capacity and the heat transfer capacity of the cooling system decrease. Another drawback is that the cooling capacity of the cooling system is adapted via the ambient temperature to the required cooling capacity. The speed of this adjustment is small. In fact, there is no real regulation.

The object of the invention is to provide a refrigerator in which the reservoir is independent of position, an installation of a desired temperature as well as a rapid temperature control is possible.

To this end, the refrigerator according to the invention is characterized in that a solid TOrd is used as adsorbent, which is heatable by means of an electrical heating element incorporated in an electrical control circuit, which control circuit is used. a temperature-sensitive element arranged in the cooling space, which supports the heating element to maintain a specific temperature level in the cooling space.

The advantage of using a solid as an adsorbent is that one is free to choose the position of the reservoir.

In combination with the control circuit, one is also free to choose the placement of the reservoir in or outside the refrigerator.

Silica gel is preferably used as adsorbent and CF2C12 as a cooling medium for the secondary cooling system.

Other cooling media and adsorbent combinations which can be used in such a refrigerator are: CG1F2-CC1F2 (freon R114) in zeolite type MS 13 X, CC1P2 “CF3 (freon R115) in zeolite type MS 13 X or in activated aluminum oxide, CH (CH 2) 2 (isobutane) in zeolite type MS 13 X, NH 2 in. zeolite MS type 4A, 5A or 13X.

To apply. of the combination CF2C12 (freon R12) and the solid silica gel has the further advantage that the adsorption capacity of silica gel for CP2C12 is high at a temperature of approx. 0 ° C and the desorption capacity is high at a temperature of approx. 100 ° C . Also, the adsorption / desorption rate of CP2Cl2 in silica gel is high throughout the temperature range. No hysteresis occurs for adsorption / desorption. The combination is also well chemically stable up to 180 ° C.

Also said other combinations are chemically stable and have sufficient adsorption / desorption capacity.

With good and fast control of the cooling system, it is important that a heating element is used for heating the adsorbent in order to bring more cooling medium into the circuit and to participate in the heat transport. When an oil 30 is used as an adsorbent, this presents difficulties, because when the oil is heated above about 150 ° C, the oil becomes chemically unstable. This temperature of 150 ° C is reached at least as a spot temperature when the heating element is arranged in the oil, which is desirable for good and fast control.

Although it is known from European patent application EP 0 000 217 a refrigerator for which the temperature of the secondary condensation wall surface is varied for the temperature control using a control gas 8104565 t EHN 10.163 which is desorbed in a solid, zeolite / adsorbed, however, requirements must be set for this refrigerator during manufacture, which adversely affect the cost of such a refrigerator. 2o all fouling substances, especially water, must be removed from the zeolite. This so-called activation does not take place by means of evacuation at a relatively high temperature and

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for a long time (7.10 Δ Torr, 450 ° C, at least 4 hours). The activation -2 of silica gel is much faster and at a lower temperature (7.10 Torr, 200 ° C and 6 min.). This means that this process could even take place in the production line of the refrigerator. Another requirement is that the filling of the cooling medium is subject to fairly strict limits.

Too much cooling medium gives an impermissibly high pressure in the system during insulation of the refrigerator, which is heated to approx. 75 ° C. Too little cooling medium means that the evaporator is not completely fae-15 so that the cooling capacity will be low. In the refrigerator according to the invention these limits are broader because a larger amount of cooling medium does not lead to higher pressures, since the adsorbent silica gel retains the cooling medium and thus keeps the dripping voltage low. The control gas filling also measures within narrow tolerances. Too much means that the cooling capacity becomes too low, too little means that the secondary cooling system cannot be turned off. The control gas is missing in the refrigerator according to the invention.

The invention will now be further elucidated on the basis of an exemplary embodiment shown in a drawing.

Fig. 1 is a schematic representation of the two refrigeration systems in a refrigerator and

Fig. 2 shows an electrical control circuit for the refrigerator of

Fig. 1.

Reference numeral 1 designates a refrigerator, which is constructed from a freezer compartment 2 and a cooling compartment 3. The freezer compartment 2 is cooled by means of a primary cooling system consisting of a compressor 4, a primary condenser 5, a capillary serving as a restriction 6 and a primary evaporator 7. The primary refrigeration system 35 contains a normal refrigerant such as freon R12 (CF ^ C ^). The temperature in the freezer compartment 2 is thermostatically controlled and the temperature level is adjustable in a manner not known in a known manner.

8104535 a PHN 10.163 4

The cooling space is cooled by means of a secondary cooling system, the secondary condenser tube 9 of which is located in an insulated outer wall of the freezer space 2. The secondary condenser tube 9 has a condensation wall 10 which is brought into heat-conducting contact 5 with the primary evaporator 7. The secondary cooling system preferably also contains freon R12 (GE ^ Cl ^) as a coolant. The secondary, evaporator tube 8 and the secondary condenser tube 9 are formed by a single pipe. The heat transport in the secondary cooling system takes place because the liquid coolant evaporates in the evaporator 10 and then condenses on the surface of the condensation wall 10.

The condensed refrigerant flows back into the secondary evaporator tube 8 by gravity and in this way cools the cooling space 3. The liquid refrigerant flows along the inner wall of the evaporator tube and the size of the wetted evaporator surface determines the degree of cooling.

The temperature in the cooling space 3 is controlled by varying the amount of coolant in the secondary cooling system. For this purpose, the upper end 11 of the secondary condenser tube 9 debouches in a reservoir 12. However, the reservoir can be placed anywhere in or outside the refrigerator and connected to the secondary cooling system at any arbitrary location. The reservoir contains a porous adsorbent 13, preferably silica gel, which is heatable by means of a heating element 14 included in an electric control circuit. The control circuit is shown in FIG. 2 and substantially corresponds to the control circuit as described in European patent application EP 0 000 217. However, the temperature-sensitive element which is located in the cold room must be connected in another place in the control circuit, since the heating element 14 must be switched on if 30 the temperature in the cooling space 3 drops.

The temperature in the cooling space 3 is controlled as follows: Due to a heat leak, the temperature in the cooling space rises.

This is registered by the tenperatuxx-sensitive element. The heating element 14 is now switched on via the electric control circuit. The adsorbent is heated and the refrigerant adsorbed in the adsorbent is desorbed, causing more refrigerant to enter the secondary cooling system. A new pressure equilibrium is established in which more refrigerant is present in liquid form and the evaporator 8 is wetted over a larger surface area. As a result, the cooling space is cooled more and the temperature drops until the heating element is turned off again. The adsorbent 5 cools down and the coolant gradually adsorbs until the temperature in the cooling space 3 reaches a certain temperature level and the heating element is switched on again.

10 15 20 25 30 8 i 0 -1 5 o 5 35

Claims (6)

1. Fridge with a freezer compartment and a refrigerator compartment, which refrigerator is provided with a cooling medium-containing primary cooling system with a primary evaporator arranged in the freezer compartment, and with a secondary cooling system also containing a cooling medium with a secondary evaporator arranged in the refrigerator compartment. evaporator and a secondary condenser in heat-exchanging contact with the primary evaporator, to which secondary cooling system is connected a reservoir containing an adsorbent for the cooling medium, with the characteristic mark, which is used as adsorbent by means of a solid an electric heating element included in an electric control circuit is heatable, which control circuit comprises a temperature-sensitive element arranged in the cold store, which controls the heating element to maintain a certain terrperatuum level in the cold store. 2. Refrigerator according to claim 1, characterized in that silica gel is used as adsorbent and as cooling medium for the secondary cooling system. Refrigerator according to claim 1, characterized in that as adsorbent zeolite type MS 13 X and as cooling medium for the secondary cooling system one of the cooling media of the series 0C1F9-CC1F-, CCIF ^ -CF- ,,? Nzzzj CHiCH ^ ) ^ / NH3 is used. Refrigerator according to claim 1, characterized in that activated aluminum oxide is used as adsorbent and CC 2 - CF 2 is used as the cooling medium for the secondary cooling system. 5. Refrigerator according to claim 1, characterized in that zeolite type MS 4A is used as adsorbent and as cooling medium for the secondary cooling system NH 4. Refrigerator according to claim 1, characterized in that zeolite type MS 5A is used as adsorbent and as cooling medium for the secondary cooling system NH 4. 30 8104565 35