DE29606407U1 - Refrigerator and / or freezer - Google Patents

Description

:..::··. KS-93/08

Fs-fr 13.06.1996

1 AEG Household Appliances GmbH

2 D-90429 Nuremberg

3 ■ · 4

6 Refrigerator and/or freezer

8 The invention relates to a refrigerator and/or freezer with a

9 Device for adjusting the temperature in the refrigerator and/or freezer compartment,

10 wherein the device comprises means for adjusting the running time of a compressor

11 includes.

13 In older models of refrigerators, it is common for an automatic

14 Refrigerator temperature control according to the temperature of the evaporator

15. This is the switch-on point of the temperature controller, usually a

16 Steam pressure regulator, usually at a temperature below 0 degrees, so that a

17 Manual defrosting of the refrigerator must be carried out as required.

18 ■ '

19 Nowadays, it is state of the art that an automatic cyclic defrost

20 is common in each temperature cycle, also called control cycle.

22 The advantage of the older method mentioned above lies essentially in

23 in that the control of the refrigerator at sub-zero temperatures of the

24 evaporator results in relatively short compressor running times. This in turn

25 leads to the evaporation temperature being relatively high, and the

26 Condensation of the circulating refrigerant largely in the condenser and

27 does not take place in the capillary tube following the condenser in the direction of flow of the refrigerant. In this way, the compressor works with

2 9 comparatively low efficiency. This advantage is offset by the disadvantage of

30 manual defrosting of the device.

KS-93/08

Fs-fr

13.06.1996

&igr; -In the refrigerator control system mentioned above, which is common today,

2 Advantage of the automatic, cyclic defrosting. In contrast, it is

3 The disadvantage is that during cyclic defrosting, the temperature rises

4 Control game results in comparatively long compressor running times, because the

5 Evaporator must have a temperature greater than ⁰ C for defrosting.

6 This results in a relatively low evaporation temperature and only

7 Insufficient condensation of the refrigerant in the condenser.

8 Accordingly, the compressor operates comparatively energetically

9 unfavorable.

11 The invention is therefore based on the object of providing a refrigerator and/or freezer

12, where automatic defrosting and operation of the

13 compressors under comparatively favourable energy conditions

14 are guaranteed.

16 This task is performed on a refrigerator and/or freezer of the type

17 is achieved in that a timer is provided

18, which can be activated or deactivated, whereby after activation or

19 Deactivation of the compressor for a predetermined time

20 is prevented. The timer can be used as a hardware component

21 particularly implemented in a hybrid component, or also in software

22 or in an equivalent form.

24 In this way, the normal setting of the temperature using the

25 Device for adjusting the temperature superimposed by a

26 predeterminable dead time during which the compressor is switched on

27 is prevented. This dead time is chosen so that the temperature at

2 8 Evaporator rises during this dead time to such an extent that defrosting of the 29 evaporator is ensured.

31 A preferred embodiment of the invention provides that a first

32 Temperature sensor the temperature in the refrigerator and/or freezer compartment and a

3 3 second temperature sensor measures the temperature at the evaporator.

::.. : ··». KS-93/&thgr;&dgr;

13.06.1996

&igr; In this way, the device for setting the temperature in normal operation

2 operate according to the air temperature in the refrigerator and/or freezer compartment without relying on a

3 Defrosting of the evaporator must be observed.

5 This regulation is usually designed so that the running and idle times

6 of the compressor for each compressor and each cooling and/or

7 freezer are selected according to requirements. Depending on the appliance and

8 Depending on the compressor type, compressor running times are between about 2 and

9 6 minutes at an ambient temperature between approximately 18 and 25 ⁰ C

&iacgr;&ogr; is provided. This means that the compressor operates at comparatively

11 high evaporation temperatures, good liquefaction of the refrigerant in the

12 condensers, low temperature amplitudes and low temperature differences

13 in the refrigerator and/or freezer and because of the relatively high

14 Evaporator temperatures a comparatively low

15 Moisture condensation on the evaporator.

17 According to an individual and needs-based criterion, the

18 Evaporator, preferably after completion of a compressor run,

19. The signal from the second temperature sensor is then used

20 during activation of the timer to determine the time duration and if necessary.

21 to correct a given activation period of the timer.

22 The timer can be deactivated, for example, if the temperature at

23 Evaporator has reached a specified maximum temperature.

25 To determine the above-mentioned criterion for activating the

26 timer, it is particularly advantageous if the timer is dependent on

27 operationally relevant parameters, preferably at least one of the parameters

28 Temperature at the evaporator, humidity in the refrigerator and/or freezer compartment,

2 9 Number of door openings and number of compressor control cycles,

3 &ogr; can be activated. In particular, the parameters number of

31 door opening operations and number of compressor control cycles significantly

32 more important than the other operational parameters mentioned. The

3 3 special selection of one or both of these parameters to trigger

Fs-fr 13.06.1996

&igr; of the timer and to define the criterion for activating the timer

2 reflects the extensive experience gained regarding the dew formation of

3 evaporator are present. From this experience, for example,

4, the average amount of humidity that enters the refrigerator each time the door is opened.

5 and/or freezer room is entered or how much humidity and heat

6 per refrigerated goods input, which causes a temperature increase in the refrigerated and/or

7 freezer compartment and is therefore significant for the compressor control, in

8 funds are entered.

10 To achieve a particularly short compressor running time and a particularly

11 short defrosting time, it is advantageous if an evaporator in the inner container is

12 is provided that an air channel between the evaporator and

13 of the rear wall of the inner container. Furthermore, it is

14 Achieving the above-mentioned advantages is advisable if the

15 evaporator, especially in a tall device, is divided into sections,

16 so that only short closed air flow paths result.

18 To avoid an unnecessarily high temperature rise in the cold room during

19 of the time interval in which the timer is activated and switching on the

20 compressor is prevented, a correction element is provided, which

21 predetermined time periodically checked and, if necessary, the timer deactivated.

23 The correction term can, for example, contain the same operationally relevant

24 Evaluate and evaluate parameters that cause the activation of the timer

25. For example, there is the possibility that

26 Compressor shutdown by activation of the timer and simultaneous

27 Storage of warm refrigerated goods a comparatively quick

28 Temperature rise in the refrigerator and thus also at the evaporator, so that

29 the evaporator defrosts disproportionately quickly and a

3 0 immediate switching on of the compressor is required.

31 This switching on of the compressor is shown in the example above.

32 is achieved by means of the correction term.

13.06.1996

&igr; Furthermore, a valve can be installed between the condenser and the evaporator

2, which is provided for the duration of the downtime of the compressor

3 is closed. In this way, the energy losses during start-up are

4 of the compressor, which due to the comparatively short cycle times of the

5 device (cycle of a rule game) frequently starts, kept comparatively small.

7 embodiments of the invention are explained in more detail with reference to a figure.

8 The figure shows a schematic representation of a longitudinal section through a

9 Cooling device 2, which in the embodiment does not have a freezer compartment.

&iacgr;&ogr; Of course, the embodiment described below can be used

11 appropriate adjustment also for a refrigerator with freezer compartment or

12 Place in a freezer.

14 The cooling device 2 has a housing 4 filled with insulating foam and a

15 appliance door 6 filled with insulating foam. Door racks 8 are provided on the appliance door 6.

16 and a door seal 10. The housing 4 has external

17 a compressor 12 and a rear-mounted condenser 14. In

18 an upper cooling chamber 16 are shelves 18 for storing refrigerated goods

19 is provided. In a lower cooling chamber 20 there is a vegetable tray 22 2 0 which is covered by a glass plate 24.

22 In the upper part of the housing 4 there is an electronics compartment 26 for accommodating a

23 Device 28 for adjusting the temperature in the cooling chamber 16, 20 is provided.

24 A magnetic sensor 30 is arranged below the electronics compartment 26, which

25 the detection of the change in position of a magnet 32 the number of

26 door openings are recorded. In the cooling chamber 16 of the cooling device 2,

2 7 a first temperature sensor 34, which is also designed as a control element,

28 and a lighting device 36. This first

29 Temperature sensor 34 and the lighting device 36 are dashed

3 0 because it is mounted on a side wall inside the housing 4

31 and are not actually visible in the cross-sectional view shown

32. Furthermore, in the rear part of the housing within the cooling chamber

33 16 a sectioned evaporator 38, 38a to 38d is arranged.

&Ggr;.'.' ^V-.. ⁵ './; K ^K s-93/08

13.06.1996

&igr; lower section 38d of the evaporator 38 is a second temperature sensor 40

2, which measures the temperature of the evaporator. By dividing

3 of the evaporator 38 in sections 38a to 38d only particularly short

4 ' closed air flow paths, so that the evaporator 38 is particularly effective

5 works.

7 The device 28 for adjusting the temperature in the cooling chamber 16, 20 comprises

8 in the embodiment a logic circuit 42, a timing element 44 and a

9 Correction term 46.

΢¢ - ■ ■ ■ ·

11 In normal operation, the temperature of refrigerator 2 is controlled according to the value set at point

12 A2. The logic circuit 42 outputs the

13 the initially deactivated timer 44 sends a signal to the input E1 of the

14 Compressor 12 to switch the compressor 12 on or off.

16 The control is designed in such a way that the compressor 12 still runs at

17 Sub-zero temperatures of the evaporator 38a to 38d can be switched on

18 and for a short duration, for example about two to six minutes at

19 an ambient temperature of approximately 18 to 25 ⁰ C. On

20 This way, an almost complete liquefaction of the refrigerant in the

21 condenser 14, so that the compressor 12 can operate at low energy

22 Working conditions are ongoing.

24 If the temperature in the refrigerator reaches 16, 20 the

25 compressor switch-off temperature, the logic circuit 42 sends a signal via the

26 deactivated timer 44 to input E1 to switch off the compressor

27 12. In the deactivated state, the timer 44 allows any signal from the

28 logic circuit 42 unaffected to the input E1. The

29 subsequent downtime of the compressor 12 leads to a gradual

30 Rise in temperature in the refrigerator compartment 16, 20. When the upper

31 Compressor switch-on temperature then returns the logic circuit 42

32 Signal to switch on the compressor 12 to the input E1. This

33 The cycle described above is also called the rule game.

:··. KS-93/08

• Fs-fr 13.06.1996

2 In a manner not further shown here, the logic circuit 42 detects the number

3 of the control games and the number of recorded by the sensor 30

4 door opening operations. If the number of control games reaches, for example,

5 as the maximum defined number of 50 rule games or reaches the number of

6 door opening operations a maximum defined number of 100 operations, so

7 is an example defined criterion for defrosting the evaporator 38

8 is fulfilled. In this case, the logic circuit 42 activates the timer 44, which

9 then for a predetermined time, in the embodiment 30 minutes, a

&iacgr;&ogr; Switching on the compressor 12 is prevented, although the first temperature sensor

11 34 possibly at the end of this period a higher temperature than the

12 Compressor switch-on temperature detected.

14 During this "dead time" of the compressor 12, the logic circuit 42 detects

15 the output A1 of the sensor 40 the current temperature of the evaporator 38,

16 here the evaporator section 38d. The signal at output A1 is also

17 the correction element 46, which determines the predetermined "dead time" of the

18 compressor 12 is checked periodically and if necessary the timer 44 is deactivated, so

19 that the control of the refrigerator 2 is again based on the signal of the first

20 temperature sensor 34. This is the case, for example, when

21 due to the storage of warm refrigerated goods during the activation period of the

22 timer 44 the temperature in the refrigerator compartment 16, 20 and thus also of the

23 evaporator 38 rises disproportionately quickly. The evaporator 38 thaws

24 declined considerably faster than was originally expected, and the

25 normal setting of the temperature can accordingly be restored after

26 shorter "dead time" of the compressor 12.

28 In the embodiment, between the evaporator 38 and the rear wall of the

29 of the housing 4, an air duct 48 is provided, which is used to supply air to both sides 3 &ogr; of the evaporator 38 and thus to ensure particularly good heat exchange

31 is used. This allows for relatively short compressor running times

32 and, on the other hand, relatively short dead times of the compressor 12 are achieved.

13.06.1996

l The above measures will result in the

: 2 Cooling device 2 with unchanged insulation a particularly low

3 energy consumption. The compressor only works when

4 comparatively unfavourable in terms of energy if, after a defrosting process, a

5 comparatively long compressor running time, which results in low

6 Evaporation temperatures and insufficient liquefaction of the

7 refrigerant in the condenser 14.

9 It should be noted that the time element can also be designed in such a way

that the timer 44 is activated in the normal case and in the case of defrost

is deactivated. This is actually just a logical reversal of the circuit of the timer 44, which is also understood under the present main claim.

Claims (1)

.. * : :-. KS-93/08 13.06.1996 2 AEG Household Appliances GmbH 3 D-90429 Nuremberg 5 ' 7 Protection claims 8 ■ 9 1. Refrigerator and/or freezer (2) with a device (28) for adjusting &iacgr;&ogr; the temperature in the refrigerator and/or freezer compartment (16, 20), wherein the 11 Device (2) Means (42) for adjusting the running time of a compressor 12 (12), characterized in that a timing element (44) is provided 13, which can be activated or deactivated, whereby after activation or 14 Deactivation switching on the compressor (12) for a predetermined 15 time is prevented. 17 2. Refrigerator and/or freezer (2) according to claim 1, characterized in that 18 that a first temperature sensor (34) measures the temperature in the cooling and/or 19 freezer compartment (16, 20) and a second temperature sensor (40) 20 Measure the temperature at the evaporator (38). 22 3. Refrigerator and/or freezer (2) according to claim 1 or 2, characterized 23 characterized in that the time element (44) in dependence on 24 operationally relevant parameters, preferably at least one of the 25 Parameters Temperature at the evaporator (38), humidity in the cooling 26 and/or freezer compartment (16, 20), number of door openings and 27 Number of compressor control cycles, can be activated or deactivated. 2 9 4. Refrigerator and/or freezer (2) according to one of claims 1 to 3, characterized 3 0 characterized in that an evaporator (38) in the inner container is arranged 31 is provided that an air channel (48) between the 32 evaporator (38) and the rear wall of the inner container. „;···. KS-93/08 Fs-fr , 13.06.1996 1 5. Refrigerator and/or freezer (2) according to claim 4, characterized in that 2 that the evaporator (38, 38a to 38d) is divided into sections. 4 6. Refrigerator and/or freezer (2) according to one of claims 1 to 5, characterized 5 characterized in that a correction element (46) is provided which 6 predeterminable time periodically checked and if necessary the timer (44) 7 deactivated or activated. 9 7. Refrigerator and/or freezer (2) according to one of claims 1 to 6, characterized in that between a condenser (14) and a A valve is provided on the evaporator (38) which is closed for the duration of the downtime of the compressor (12).