DE8424330U1 - Refrigerator or the like - Google Patents

Description

3 16, Aug. 198 ^ t _z ± B 5608 Refrigerator or the like with a cooling system that can be operated differently for the freezer and for the refrigerator compartment.

The invention relates to a refrigerator or to a refrigerator or the like. With a different usable cooling system for the freezer compartment and for the refrigerator compartment. In addition, the invention further relates to a cooling device, in which a single coolant circulation divides or differentiates the Conditions within the freezing and refrigerant storage should be achievable, so where a means Fan ignited (NO-FROST) and a static (FROST) cold generation is brought about.

It is well known that the use of indifferentiated The cooling system, which has so far been most widely used in practice, is not free from drawbacks as it is do not make it possible to reduce conditions in any of the cold rooms, which experience has shown to be the best should apply.

For example, there are problems with the freezer compartment in refrigerators with a statically programmable refrigeration system (FROST) difficult freezing with a tendency for food to stick together or to stick to the walls or stick, etc.

In contrast to this, with uniform cooling air formation (NO-FROST), the problems described above are encountered in more detail in the case of freezers, the presence of a drying room within the coolant generation zone is deemed to be resolved cause dehumidification of the refrigerated goods, so

that the organ-preserving qualities of the refrigerated goods are impaired.

It has been found that the actuatable by fan coolant system (NO-FROST) constructive _{g (-} requires solutions and constant, but suitable, more typically devices that continued require high energy efficiency, therefore, to solve the problems, on the one hand to the formation of Frost or condensate

or precipitation within the evaporator and on the other hand also within the discharge system for defrosted Due to water, it is necessary to have a large number of electrical resistors of higher capacity to set up for the defrosting process, which has a considerable wear and tear, high costs and a result in an increased amount of dubious switching operations or processes.

In order to address these disadvantages that arise in facilities, including FROST and NO-FROST devices encounter is already a solution in the form of a "dry cool room" within the freezer and a "wet cool room" has been proposed within the cooling system that trigger two different coolant flows, which at two groups of compressors are connected, so that a device structure is achieved, which is functional is considered safe, but is associated with just as high costs as with power consumption.

It is therefore necessary and unavoidable to strive for a technically redesigned solution, which the equipment and brings about the advantages in the arrangement of a differentiated cooling system, such as set out above, consists. The aim is to exclude the existing disadvantages or to reduce them to the lowest possible level Measure to reduce that in terms of high cost and on the high expense of having the arrangement of two different refrigerant circulations are created, which are controlled by two separate compressor units have to.

The present invention solves the problems - as above executed - by the arrangement of a differentiable coolant generation, namely through a single coolant circulation, which is generated by a single compressor.

The finished product is essentially in the Forr. of a device, in the upper part of which the refrigerator compartment and in the lower part of which the cold or freezing compartment is arranged. The arrangement can also be reversed or also be made so that the two rooms are placed side by side.

For this purpose, it is proposed to arrange the invention in such a way that there is a uniform coolant circulation to achieve, in which a static evaporator and an evaporator operated by means of a fan are used and in a reversed or reversible order below a lamellar Flow element, e.g. a capillary tube or a thermostatic valve, the surfaces of the static evaporator as well as the fan-operated evaporator with such dimensions are which the two rooms, namely the refrigerator or the refrigerator compartment and the freezer or the To supply the freezer compartment with the optimal temperature.

These failure possibilities allow the construction of the refrigerator or the refrigerator in an advanced form To simplify the cooling device, especially since it is no longer necessary is, in contrast to the NO-FROST refrigerators of conventional design, using an undifferentiated To arrange cooling system breakthroughs or openings in the partition between the freezer compartment and the refrigerator compartment, so that consequently dispenses with the previous devices for a refrigeration control that can be generated by means of cooling air can be.

Another advantage of this is that two rooms or subjects are completely independent of one another. Such Independence allows one of the device doors to be opened at a time without having to worry about the temperature of the other room or Expert influence.

• · 4 ·

In fact, the temperature control within the two rooms or compartments is based on direct influence the flow of the cooling fluid and not through cut-off devices for the cooling air flow generated by the fan performed.

Another advance is emphatically the lack of any spatial connection between the Freezer and refrigerator compartment or between the freezer and refrigerator compartment, so that the fan-controlled evaporator

the freezer compartment is not exposed to the moist airflow from the refrigerator compartment, which consequently reduces the frost

'' formation on the evaporator and also a shorter defrost time

^; span is necessary, which ultimately also generates energy

is saved (see Figures 1, 2a and 2b).

Another improvement in the facility is the possibility of temperature control within the with the freezer compartment provided by the fan by the effect of the speed caused by the fan Air flow or air circulation, which has no influence on the temperature in the refrigerator compartment in the refrigerator compartment.

It is a preferred embodiment of the invention to provide a To create a refrigerator or the like, which consists of a mutually switchable cooling unit or cooling system for a freezer compartment or a freezer compartment or for a refrigerator compartment or a refrigerated compartment, the characteristics of which are therein consists in that the two chambers or compartments are independent of one another and by means of an insulating wall of one another are arranged separately, with different cooling systems being created in the two chambers or compartments, namely once in a static form and once by means of a fan flow and that a single coolant circulation by a compressor and downstream equipment such as a condenser, by a fanned out resp. by a simple flow device, by a statically arranged one and by one operated by means of a fan

ΠΙ (I Il ·· * · ·

Evaporator or in a reverse order is effected.

In a preferred embodiment, switching elements can be used to control the cooling fluid, specifically above the first evaporator may be provided. Such switching elements preferably consist of solenoid valves, so that a switching process only affects one of two devices.

The present invention explains only one exemplary embodiment below, and the invention is not limited to it limited to this embodiment. In particular, it relates to some device units that in the following description and ip of the attached Drawing are explained.

In these show

1 shows a longitudinal section of a cooling device operated by means of a fan (NO-FROST) in FIG

conventional, known equipment; Fig. 2a + 2b longitudinal sections of cooling devices or

Refrigerators according to the invention and Fig. 3a, 3b, 3c, 3d schematic representation of the Coolant run after the

Devices of the invention.

As can be seen in particular from FIGS. 1, 2a and 2b, it is the device according to the invention (Fig. 2a, 2b) around the freezer compartment 1 and the cooling compartment 2, which represent two independent clearing units. set, which are separated by a wall 3 made of insulating material, in Fig. 1 in the wall 3 still the necessary connection dusrchbrbruch 4 or the like.

can be seen between the freezer compartment and the refrigerator compartment.

/ i

In FIGS. 2a and 2b, the static evaporator 5 and the one operated by means of a fan 7 appear important with these connected evaporator 6, wherein according to Fig. 1 in the refrigerator compartment and in the freezer compartment only the one with the fan provided evaporator 6 is arranged, which is inside the freezer compartment together in connection with the fan 7 installed.

Purely from this device, the solution according to the present invention visibly differ by two independent air circulations (Fig. 2a, 2b), those within the cooling zone as well as within the freezing zone in the hatched area of the drawing Directional arrows are marked. 15th

The basic coolant circulation shown in outline in FIGS. 3a and 3b can be used as a starting point for the cooling device be viewed according to the invention, in which the cooling fluid from the compressor (CP) takes its exit and im Condenser is compressed. The cooling fluid is fed into a capillary tube, in which the flow rate controlled to facilitate evaporation in the evaporator.

After passing through the capillary tube, the cooling fluid reaches the evaporator, which cooperates with the fan and then in the static evaporator (Fig. 3a) or in reverse order (Fig. 3b), showing the possibilities show a different coolant production, as on the other hand to the desired temperature within the refrigerator compartment or the cooling compartment or the freezer compartment are required.

Fig. 3c shows a diagram of a coolant circuit according to the previous scheme, according to which throttle devices are arranged, which are located in a bypass line below the capillary tube. There is a Solenoid valve (EV) connected as a branch or two-way switch

1 arranges to stop the circulation of the fluid and after below as soon as the solenoid valve is switched to the open position. The cooling fluid follows accordingly lowest resistance, so that the circuit closes according to the explanation in Fig. 3b. If that Solenoid valve (EV) is closed, the coolant circuit inevitably only goes to the iPe freezer compartment or to the freezer compartment passed so that the refrigerator compartment or the refrigerator compartment is excluded from this.

According to the embodiment of Fig. 3b, the solenoid valve (EV), which now functions as a three-way switch, placed in correspondence with the branch point so that the circulation for the cooling fluid can be determined and therefore takes the course of a circulation according to Figure 3b, or otherwise determines a cycle, which only covers the freezer. It should be noted that the arrangement of a capillary tube below of the solenoid valve (EV) is provided, both in the main direction of circulation of the cooling fluid and in that of this deviating secondary line.

The present invention has been set forth with particular reference to some of the preferred device units, it is to be understood, however, that an understanding of this design makes modifications and changes possible without the To leave the scope and spirit of this invention.

Claims (1)

New protection claims 1 to 6 Refrigerator with a differentiated cooling system for a freezing chamber and for a cooling chamber, the both chambers are independent of one another and are arranged separated from one another by means of an insulating wall, and with a single refrigerant circuit with a compressor, a condenser, a laminar flow device, a static evaporator and an evaporator with fan, characterized in that the static evaporator (5) for the cooling chamber (2) and the evaporator (6) with a fan (7) is provided for the frozen caromer (1). 2. Refrigerator according to claim 1, characterized in that the laminar flow organ consists of a capillary tube or a thermostatic valve. Refrigerator according to spoke 1 or 2, characterized in that the cooling capacity of the static evaporator (5) and the evaporator operated by means of a fan (7) (6) is different to achieve the required temperature in the cooling chamber [2) and the freezing chamber (1). Refrigerator according to one of Claims 1 to 3, characterized characterized in that in the coolant circuit downstream of the laminar flow element in a parallel line one Throttle device is arranged and that after the junction of the parallel line, a two-way switch is arranged. (Figure 3c). 1 5. Refrigerator according to one of claims 1 to 3, characterized characterized in that a three-way switch is arranged in the coolant circuit downstream of the condenser and that in a parallel output from this three-way switch 5 line a throttle device is arranged. (Figure 3d) 6. A refrigerator according to claim 4 or 5, characterized in that the two-way or three-way switch is a two-way or three-way solenoid valve. 10