DE1151261B - Device in a refrigerator to regulate the temperature of a cooling chamber independently of the temperatures in the other cooling chambers - Google Patents

Description

The invention relates to a device for controlling the temperature of a cooling chamber independently of the temperatures in the remaining cooling chambers, preferably with a compression refrigeration machine Equipped refrigerator, for whose cooling chambers different, the same throttle capillary downstream evaporators with essentially the same internal pressure are provided by those of the evaporator of the cooling chamber to be regulated in temperature to the other evaporators is connected in parallel.

It is known in compressor-operated refrigerators with two or more isolated from each other Evaporators or evaporator coils for cooling different chambers from one another independent temperatures within one and the same refrigerator in a supply line for refrigerant condensate to arrange a controllable valve to an evaporator, with which the refrigerant supply to the connected evaporator by closing the valve to a desired value below of the amount that can be reduced by the compressor to the evaporator The amount of refrigerant provided is determined. For this purpose is in the known design a solenoid valve is provided, but which has moving parts and therefore not in the desired Way works silently. In addition, such valves are relatively expensive.

In the case of a compressor-operated refrigeration unit with two cooling chambers connected in series, each with one associated evaporator coils has also already been proposed to reduce the refrigerant supply to influence the two cooling chambers in different ways that the second evaporator snake in addition from a gas separator arranged in front of the two evaporator coils Refrigerant is supplied by means of a thermosiphon pump, which is controlled by a thermostat from the temperature of the first chamber controllable electrical heating element is operated. These However, the control device described is expensive and has the disadvantage that an increase in the refrigerant supply to the evaporator coil of the second cooling chamber with a reduction in the refrigerant supply is connected to the evaporator coil of the first cooling chamber.

In a further known refrigeration apparatus with evaporator coils connected in series for two cooling chambers, the last part of the throttle capillary is before entering the first evaporator coil with an electrical heating device for the purpose of a device in a refrigerator
for regulating the temperature of a cooling chamber independently of the temperatures in the other cooling chambers

Applicant:
Aktiebolaget Electrolux, Stockhohn

Representative: Dipl.-Ing. E. Jourdan, patent attorney,
Frankfurt M., Kronberger Str. 46

Claimed priority:
Sweden of July 1, 1957 (No. 6169)

Rune Emanuel Lysen, Hässelby (Sweden),
has been named as the inventor

to be able to defrost the evaporator coils. Between the non-heatable and the. In the heatable part of the throttle capillary, a collector is switched on, from which gaseous refrigerant accumulating there is fed directly to the second evaporator coil via a further throttle capillary. As a result, a considerable pressure difference occurs over the heatable part of the first throttle capillary, which, depending on the prevailing compressor pressure and the ambient temperature, can amount to ^{several kg / cm 2.} It is as good as impossible to achieve a complete closure of the capillary tube with the aid of heat in such a device. Even with a large supply of heat, some of the refrigerant, which has been heated by the heating device, still circulates through the first evaporator, which is also desirable there in order to obtain faster defrosting after the heating device has been switched on.

In order to control the temperature of a cooling chamber independently of the temperatures in the remaining cooling chambers in one preferably equipped with a compression refrigeration machine To obtain refrigerator that is independent of the refrigerant supply to the cooling coils of the rest

309 620/31

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Cooling chamber takes place and is without the use of mechanical exchange with the condensate line 18, back

nically moving parts in the desired manner to the compressor 12.

works noiselessly in a device of the The system described so far would result in the aforementioned type according to the invention, a two chambers 10 and 11 approximately the same Tempe capillary tube in the supply line to the evaporator 5 temperature, with minor differences from that in the Temperature to be regulated cooling chamber load and insulation as well as brought by the flow, which would be generated in lines 20 and 22 with a temperature to be regulated cooling chamber with a temperature to be regulated cooling chamber provided regulation is provided by the heating device. Since at an ^x ° the supply line 22 to the high-temperature chamber 11 of such a device is provided in the capillary with a controllable vapor lock, which the larrohr should have essentially the same internal pressure as the supply of refrigerant condensate to the evaporator in the evaporator, is periodically closed by the invention . Part of the line 22 is the proper design of the device, an effective steam closed for this purpose by a short capillary tube 27, in which the ¹ S replaces the steam generated with an electric heating cartridge 28 with a low heat output of about 15 W heat capillary tube remains and the penetration of is conductively connected. The cartridge 28 is prevented from an electrical refrigerant, while the refrigerant flow tric network 30, which remains unchanged with the electrical network 13 through the remaining heating coils. to which the compressor 12 is connected, in a further embodiment of the invention that can be connected with 2 °, enclosed by lines 29, 31 provided with angeder heating device capillary tube, which is arranged over a sensor body half of the distributor point which the 33 thermally controlled refrigerant condensate in the cooling chamber 11 after leaving the common switch 32 are performed.

seed throttle capillary to the evaporators of the one because it is assumed that the refrigeration requirement in the individual cooling chambers is branched off, so that in the 25 low-temperature chamber 10 is larger than in the high between the distributor and that with the Heizvorrich- temperature chamber, the compressor 12 is through Device provided capillary tube existing line the thermostats 14, 15 divided a longer time during the shutdown of the refrigerant supply remains switched than for the supply of a sufficient a certain amount of refrigerant above that by amount of refrigerant condensate to evaporator 23 this capillary tube formed steam lock would be required. But this supply is from the is collected. The temperature in the high-temperature chamber 11 depends. Finally, in a further development, the invention is · If the temperature in the high-temperature chamber the capillary Hunter provided with the heating device in the tube from the thermostat 32,33 should decrease with a value set by a thermostat with a sensor, the current is sent to the radiator In the chamber in question, the dependent electronic cartridge 28 is switched on, whereby the refrigerant is controlled Heating cartridge connected in a thermally conductive manner. densate evaporated in the capillary tube 27 and a An embodiment of the invention is in the steam lock forms that the further supply of Kon-drawings shown. Therein shows the block to the evaporator 23 by the liquid fig. 1 the diagram of a compressor-operated speed dfen steam in the narrow pipe 27 in the case of the in the refrigeration apparatus for a refrigerator with the zone according to the invention, the pressure prevailing as a result of the arrangement according to the invention Device, voltage of the capillary line 18 to the evaporator pressure ent-Fig. 2 according to the arrangement of the refrigeration apparatus, cannot happen. The capillary tube 27 is 1 in a perspective representation in the refrigerator, also at a lower level than the distributor 19 ment, which is why a certain Fig. 3 shows a detail from Fig. 2. 45 Amount of refrigerant condensate above the steam lock In Fig. 1 a with a compressor is accumulated, which is then when the steam-refrigerating apparatus is opened working refrigerator with two von locks is immediately available, provided cooling chambers that are insulated from one another. Simple- In Fig. 2 the practical implementation of a For the sake of safety, only those with a refrigerator with a refrigeration device according to FIG. 1 are of the refrigerator Refrigeration chambers indicated in rectangles are shown, and 50 shown, the various parts being the same although a low-temperature chamber 10 and a high reference number as in FIG. 1. temperature chamber 11. A compressor 12 is connected to the. The compressor 12 is connected to the condenser 17 electrical network 13 arranged by a switch 14 on the rear of the refrigerator, and closed, the through a in the cooling chamber 10, the outgoing from the condenser capillary arranged heat sink is thermally controllable. 55 18 for the refrigerant condensate is at the rear From the compressor 12 a pressure line 16 goes up wall into the upper part of the cabinet a condenser 17, and of this one leads, where it extends up to the one on the right in front of the capillary line 18 extends for refrigerant condensate to a distributor 19 arranged at the corner thereof, from Distributor 19, from which the refrigerant passes through one of the refrigerant to the two cooling coils 21 Line 20 is distributed in an evaporator coil 21 for cooling 60 and 23. The line 20 runs from Development of the low temperature chamber 10 and parallel there- distributor 19 back to the rear of the refrigerator to through a second line 22 in an evaporator and down to the cooling coil 21, which is at the bottom of the snake 23 for cooling the high temperature chamber 10 is located low temperature chamber. In the further U is directed. The course is this line to the ceiling of the Hoch-Der Evaporator 21 is led to a collector 24 at 65 temperature chamber 10 and forms one there closed, in which the evaporator 23 via a second coil 21 '. With the other end is a line 25 opens. The pipe coil 21 ′ goes from the collector 24 to the collector 24 Suction line 26, which expediently closed in the heat. The second branch line 22 extends from

Claims (3)

PATENT CLAIMS: 1. Device for regulating the temperature of a cooling chamber independently of the temperatures in the other cooling chambers in a refrigerator preferably equipped with a compression refrigeration machine, for the cooling chambers of which different, downstream evaporators of the same throttle capillary are provided with essentially the same internal pressure, of which the evaporator is in the temperature to be controlled cooling chamber the remaining evaporators is connected in parallel, Ge characterized by a capillary tube (27) in the supply line (22) to the evaporator (23) of the temperature to be controlled cooling chamber which with itself when it falls below a certain Temperature in the temperature to be regulated in the cooling chamber (11) switching on the heating device (28) is provided. 2. Apparatus according to claim 1, characterized in that the with the heating device (28) provided capillary tube (27) is arranged below the distribution point (19) at which the Refrigerant condensate after leaving the common throttle capillary (18) to the evaporators (21, 23) of the individual cooling chambers (10, 11) is branched off, so that in between the manifold (19) and the capillary tube (27) provided with the heating device (28) (22) over a certain amount of refrigerant while the refrigerant supply is switched off the vapor lock formed by this capillary tube (27) is collected. 3. Apparatus according to claim 1 or 2, characterized in that the with the heating device (28) provided capillary tube (27) with a thermostat with a sensing element (33) in the relevant chamber dependent electrical heating cartridge is connected in a thermally conductive manner. Considered publications:
U.S. Patent Nos. 2,692,482, 2,697,331;
"Excerpts from German patent applications", Vol. 9, 1948, application S 155203 I a / 17 a. 1 sheet of drawings © 309 620/31 7.63