DE4210603A1 - Domestic refrigerator and freezer combination - has thermostat switch monitoring external temp. in series with heating device - Google Patents

Abstract

The domestic refrigerator and freezer combination has respective freezer and refrigerator compartments (5, 6) held at different temps. The temp. within the refrigerator compartment (6) is controlled via a single heat regulating device (15, 16) allowing the required temp. to be maintained via alternate operating and resting phases of the refrigeration circuit. A thermostat switch (21) for the external temp. lies in series with a heating device (17), in parallel with the thermostat heat regulating device (15, 16) for the refrigeration compartment (6). Pref. the thermostat switch (21) lies immediately adjacent the condenser (12) of the refrigeration circuit and is closed upon the measured temp. dropping below a given value. ADVANTAGE - Optimum temp. regulation; energy saving.

Description

The invention relates to a cooling device with a Device for maintaining the temperature in the preservation compartment for fresh food and for temperature compensation to maintain the desired temperature level in the preservation compartment for frozen food ver see is.

Cooling devices are known, especially for the home stop, where the cold store to conserve various which types of food on a fixed tem temperature, usually above 0 ° C, must be kept.

The regulation of this temperature is generally by means of a Thermostatic device causes the sensor inside the said cell is attached and the operation of the cooling regulates directly.

There are also "multiple" household cooling devices Temperatures "in which there are several cells in each of which is kept at a different temperature, in particular  which is kept in a cell at a temperature above 0 ° C, typical for the preservation of fresh or food funds for early consumption, and in a second At a temperature well below 0 ° C, cells become different ares conserved food (freezer or freezer) sterfach).

The devices of this second type with multiple compartments different temperature can be separate and for each Have or have specialist cooling circuits a single cooling unit that has a double circuit for Distribution of the cold, with each cycle he gives off cold only to a compartment. That kind of devices is known in numerous structural variants.

With these devices, the operation of the cooling unit is alone about the temperature of the less cold refrigerator compartment for fresh ones Food regulated. The temperature of the colder consumer Freezer and / or freezer compartment for frozen food medium is achieved using one of the refrigeration distribution circuits testifies who is assigned to this subject.

So while the temperature of the less cold compartment directly can be controlled, for example by one in this Tray built-in thermostat, the temperature of the colder The subject is not controlled directly, but results indirectly from regulating the temperature of the colder compartment as well from the insulation, the evaporation surfaces and the space temperature at which the device is located.

It is also known that the devices with a single Cooling unit regarding the optimal temperature regulation in the colder subject have the following disadvantage. It happens namely that under special but not uncommon circumstances, for example if the room temperature is rather low, at an optimal temperature and at any rate with the fixed law temperature in the less cold compartment is higher than that  desired temperature in the colder compartment. This after part is particularly severe when the room temperature is drops dramatically because in this case the cooling unit, the controlled by the thermostat of the less cold compartment releases very little cold, and this means that the tem the temperature of the colder compartment increases considerably, causing the Frozen food contained therein cannot be saved spoil.

To remedy this disadvantage, is known to be inside of the less cold compartment mentioned a small heat source arranged, usually a resistor that is in the ready Intervals of the compressor is fed.

In this way, the temperature of the less cold Keep the fan artificially at a certain level so that it is sufficient that the respective thermostat, the cooling unit gat switches on, more often or for a longer period is active with the purpose of generating a sufficient amount of cold to let the temperature of the colder compartment on the ge wished to keep low level.

However, the installation of the resistor causes an additional Chen consumption of the device in electrical energy. This Consumption is mainly due to that for heating Resistance energy consumed. There is also a another reason for additional consumption is that the cooling device, which brings a greater amount of cold to the cell the time in which the compensation resistance in Be is driven to the heat generated by the resistance compensate.

Some solutions known in the prior art provide the resistance always in the standby intervals of the Keeping the cooling circuit on, however, causes this the additional energy consumption that is in use today the increased efforts to save energy always a  less acceptable solution.

Another type of known solution provides a hand to install the switch on the supply circuit of the off DC resistance acts, the system as follows works. If the outside temperature is below a fixed set value drops, to approximately + 18 ° C, the switches User a switch on, the balance resistance with the Power supply connects, which ultimately makes it the on switch the thermostat and thus the compressor and that subsequent decrease in the temperature of the freezer compartment works.

The system mentioned, which is theoretically completely functional is not very practical in actual use effective because the user tends to turn on and off switching of the external switch very often depending on the room temperature fig to forget. Furthermore, in periods in which the loading the user is absent, the operation of such devices is not can be controlled entirely according to room temperature.

It is therefore the object of the invention to provide a cooling device to create, which is able to automatically on the ver to act on the compensation resistor, and the is simple, reliable and economical.

This task is characterized by the features of the main claim solved.

In the invention is advantageously by a Outside temperature sensor arrangement or the like. The course of the Outside temperature constantly monitored, and the result of this Monitoring is included in the regulation of the cooling device. This eliminates the disadvantages mentioned above.

Advantageous refinements of the invention result from the subclaims.

An embodiment of the invention is described in the following Description with reference to the drawings tert. Show it:

Fig. 1 shows an embodiment of the cooling apparatus according to the invention,

Fig. 2 shows an embodiment of the circuit of the cooling device,

Fig. 3 shows the diagrams of the opening and closing of the contacts 15 and 21 as a function of time.

The cooling device according to Fig. 1 comprises an insulated housing 4 with two separate compartments 5 and 6 as a freezer or refrigerator fresh food compartment. The compartments are provided with independent doors 7 and 8 , and an evaporator 9 and 10 is connected to each of them. The evaporators are connected one behind the other in a cooling circuit which also has a compressor 11 , a condenser 12 , a water separation filter 13 and a throttle part 14 for the cooling flow.

The cooling device is further provided with a control device 15 , which is preferably accommodated in the interior of the cooling compartment 6 and is controlled by a single thermostat control device, for example a sensor 16 .

The controller 15 turns on the compressor 11 when the sensor 16 indicates a temperature that is above a first set value A and turns off the compressor when the sensor 16 indicates a temperature that is below a second set value B, where A is greater than B.

It is known that compartments 5 and 6 are usually kept at a temperature on the order of -18 ° C and + 5 ° C, respectively.

The cooling device also has a heating device 17 , typically an electrical resistance, for the heat from the cooling compartment 6 . The heating device 17 is regulated by the control device 15 .

The apparatus of Fig. 1 includes a thermostat 21 which can normally be installed in the rear cavity of the tung Kühlvorrich. The thermostat 21 is connected by the supply circuit 22 to the compensating resistor 17 and can therefore fulfill its function effectively.

However, this device described so far can still be improved in practice. The use of a conventional thermostat with gas expansion can mean additional costs and complicated installation. Furthermore, the response to temperature differences of a thermostat of industrial use is too low for the temperature fluctuation at the place where the thermostat is installed, especially if the thermostat is installed inside the compartment of the compressor. The temperature that the thermostat 21 would measure there would deviate significantly from the room temperature, so that the thermal behavior of the device can become unbalanced.

An improvement can be achieved here if a bime tall thermostat is used. Also normal bimetal thermo However, state are unable to respond to the small tempera to address door differences in which the cooling devices have to work according to standards.

The above problems can be as follows be overcome. Instead of measuring the room temperature directly the temperature at a certain point outside of the cooling circuit, which measures the behavior of the internal temperature less cold subject through constant monitoring "ver strengthens ", producing such a signal that, although with  the room temperature is related, but the advantage indicates to amplify the fluctuations in room temperature where by using the Ther available on the market mostate enables.

This signal can therefore be used easily and effectively to supply current to resistor 17 or to interrupt the supply. If the bimetallic thermostat is installed in the immediate vicinity of the condenser 12 , it is exposed to much greater temperature fluctuations, which are definitely much greater than the normal room temperature fluctuations.

In practice, the thermostat 21 with a certain delay time, as shown in Fig. 3, both turn on and turn off the cooling system and can therefore, depending on the temperature reached, if it corresponds to the response temperature, the supply of the compensation resistance 17 switch on or off.

Referring to Fig. 2 of the compensating resistor 17, the operation of thermostat 15 in the refrigerating compartment, the compressor 11 and the automatic control thermostat 21 will be described.

When the temperature in the vicinity of the thermostat 21 drops below a certain fixed threshold, the thermostat closes and connects the poles A and B. In this case, the resistor 17 is supplied with current and ensures that the compartment in which the operating thermostat 15th attached, is kept at a certain temperature. During this period, the thermostat 15 is open, but the temperature of the compartment in which the thermostat 15 is located has a rising tendency and the thermostat 15 closes at a fixed value, starting the compressor 11 .

When the compressor is switched on or when the room temperature rises, the thermostat 21 opens and the resistor 17 is switched off.

If the room temperature is always kept at sufficiently high values, the thermostat 21 never closes and the overall control of the temperatures of the device depends on the operation of the thermostat 15 .

Fig. 3 shows a representation of the mutual function of the thermostats 15 and 21 in time. It can be seen that when the operating thermostat 15 switches itself off by a drop in the temperature in the corresponding compartment (OFF), when at the same time the external room temperature also shows a tendency, after a certain delay T the thermostat 21 turns to regulate the temperature externally for the time T 1 turns ON, that is, for the time necessary for the compressor 11 to start up.

As a result, the temperature in the refrigerator compartment rises again by the action of the resistor 17 to such a value that the operating thermostat 15 is caused to close (ON).

At this point, the thermostat 21 interrupts, since it no longer measures an increase in the outside temperature in the vicinity of the capacitor, with a delay T 2 the power supply of the resistor 17 .

From this moment on the operation continues normally until a possible subsequent interruption of the thermostat 15 with a concomitant decrease in the room temperature measured by the thermostat 21 .

Claims (4)

1. Cooling device, in particular for the household, with a control device and a plurality of compartments ( 5 , 6 ) with un different temperatures, controlled by a single heat control device ( 15 , 16 ) for the temperature inside a compartment with a higher temperature (6) are to keep the compartment by means of changing operating and resting phases of a cooling circuit at a medium, fixed temperature, the control device controlling a heating device ( 17 ) for the heat balance of the compartment ( 6 ) and having a switch ( 21 ) which in Row with the heating device ( 17 ) is arranged, the devices ( 21 and 17 ) being connected in parallel with the thermostatic heat control device ( 15 , 16 ), characterized in that the switch ( 21 ) is a thermo stat, which is in the exterior is arranged. 2. Cooling device according to claim 1, characterized in that the thermostat ( 21 ) closes its own circuit when the measured temperature drops below a predetermined value. 3. Cooling device according to claim 2, characterized in that the thermostat ( 21 ) is arranged in the vicinity of a region of the device which heats up during its operation. 4. Cooling device according to claim 3, characterized in that the thermostat ( 21 ) is arranged in the immediate vicinity of the condenser ( 12 ).