DE102011006951A1 - Method for controlling a refrigeration device - Google Patents

Abstract

The method according to the invention for controlling a refrigeration device (10) comprises the following method steps:
a. Determining the temperature (T) prevailing in a cold room (14);
b. Comparing the temperature (T) with a maximum temperature (T _max );
c. Comparing the temperature (T) with a minimum temperature (T _min );
d. Switching on a compressor (22), a refrigeration circuit (20) of the refrigeration device (10) when the temperature (T) exceeds the maximum temperature (T _max );
e. Switching off the compressor (22) when the temperature (T) falls below the minimum temperature (T _min );
f. alternately switching on of the compressor (22) during a duty cycle (t _on) and switching off the compressor (22) during an off-time (t _off) when the temperature (T) below the maximum temperature (T _max) and the minimum temperature (T _min) lies;
G. Control of the switch-off duration (t _off ) depending on the temperature (T).

Description

The present invention relates to a method for controlling a refrigeration device. The refrigeration device comprises at least one cold room, which can be closed by at least one door. Furthermore, the refrigeration device comprises a refrigeration cycle which has a compressor and a control device which is suitable for switching on or off the compressor.

Such a method for controlling a refrigeration device is off DE 10 2009 001 678 A1 known. In the known method, the temperature prevailing in the cold room is first determined and compared in each case with a maximum temperature and a minimum temperature. The compressor is switched on when the temperature exceeds the maximum temperature and switched off when the temperature falls below the minimum temperature. If the temperature is below the maximum temperature and above the minimum temperature, ie between maximum and minimum temperature, then the compressor will be switched on alternately during a switch-on period and during a period Off duration switched off. In the known method, the duty cycle and the switch-off are predetermined, that is, the switching on of the compressor and the switching off of the compressor is time-controlled. This refinement has the disadvantage that the switch-on duration and the switch-off duration for a refrigeration device must be predetermined. This can lead, in particular, when the prevailing conditions deviate greatly from the conditions that are foreseen for the refrigeration appliance, that uneven cooling cycles arise. This has the consequence that the temperature in the cold room often exceeds the maximum temperature or falls below the minimum temperature, whereby the efficiency of the refrigerator decreases. In addition, the prediction of the switch-on duration and the switch-off duration has the disadvantage that the switch-on duration and the switch-off duration are to be determined in advance by lengthy test series.

The object of the present invention is to overcome the disadvantages of the known from the prior art method, and thus to improve the known method for controlling a refrigeration device.

To solve this problem, a method according to claim 1, and a device according to claim 10 is proposed.

Advantageous embodiments of the method according to the invention are described in claims 2 to 9. Advantageous embodiments of the device according to the invention are described in claims 11 and 12.

The inventive method for controlling a refrigeration device is characterized in particular by the fact that the control of the refrigeration device is dynamically adjusted by the temperature-dependent control of the switch-off. This means that longer test series for setting the control behavior can be dispensed with.

The inventive method further has the advantage that the control behavior is optimized in particular for different ambient and compartment temperatures. Furthermore, the method according to the invention achieves an efficiency optimization of the operated device.

Preferably, the difference between the maximum temperature and the minimum temperature is between 0.1 ° and 10 °, preferably between 0.2 ° and 2 °, more preferably between 0.5 ° and 1 °.

In a preferred embodiment of the method according to the invention, the temperature-dependent control of the switch-off only takes place in the presence of constant conditions. This embodiment has the advantage that the control behavior of the refrigeration device is not adapted to short-term changing conditions, whereby the control behavior is optimized in the presence of these constant conditions.

Preferably, the method according to the invention is characterized in that the presence of constant conditions comprises that, over a time interval, the door remains closed and / or an ambient temperature remains approximately constant and / or no defrosting phase occurs. This embodiment has the advantage that disturbing external influences are not included in the adaptation of the control of the refrigeration device, whereby the control behavior for long-term conditions is improved. Such external influences may be, for example, a strongly changing ambient temperature or an internal temperature which, in the cooling compartment, adjusts itself briefly to the outside temperature by opening the door. A defrosting phase can also influence the temperatures in the interior of the refrigeration device in such a way that a sensible temperature-dependent adaptation of the control can not take place. For this reason, it is advantageous to make no temperature control during a defrosting phase.

Alternatively, the presence of constant conditions can be determined from the control behavior of the control device. In particular, a cyclical recurrence of the regulation behavior over time indicates the existence more constant conditions. It does not matter whether the control behavior is optimized with regard to the existing environmental conditions or not. If the control behavior over the time interval is constant and / or cyclically recurrent, conclusions about the existence of constant conditions can be drawn.

Advantageously, the method according to the invention is further characterized in that the time interval is between 10 minutes and 12 hours, preferably between 30 minutes and 6 hours, more preferably between 1 hour and 5 hours. This embodiment has the advantage that it is excluded that short-term changes in temperature are used as a basis for adapting the control of the refrigeration device. Thus, for example, when filling the refrigerator with a relatively large amount of comparatively warm liquid, such as uncooled beverages, the temperature within the refrigerator increases for a certain period of time. Would now adapt the control behavior of the refrigerator to these conditions, so the efficiency of the refrigerator would be less adapted in the case of constant conditions present Accordingly, the adjustment of the control of the refrigerator is performed only at present constant conditions.

In a preferred embodiment of the method according to the invention, the regulation of the switch-off duration takes place in that the switch-off duration is reduced when the maximum temperature is exceeded. Furthermore, the method is preferably characterized in that the regulation of the switch-off duration takes place in that the switch-off duration is increased when the minimum temperature is undershot.

This embodiment has the advantage that the temperature in the interior of the refrigeration device as possible within the temperature interval, which is limited by the minimum temperature and the maximum temperature remains. This increases the energy efficiency. The embodiment further offers the advantage that the switch-off duration is automatically selected so that the temperature inside the refrigeration device remains as long as possible within the temperature interval at constant and constant conditions. In addition, it is thus possible to dispense with the time-consuming predetermination of the switch-off duration for the given refrigeration appliance.

As an alternative to the embodiment described above, it would also be possible to increase the switch-on duration instead of reducing the switch-off duration. This would also lead to an improved control behavior of the refrigerator. However, this embodiment has the disadvantage that the optimal duty cycle, or running time, of the compressor, which can be determined in advance for a given refrigeration cycle, is left. In this respect, to optimize the control of the refrigeration appliance, the change of the switch-off duration with respect to the change in the switch-on duration is to be preferred.

In a preferred embodiment, the method according to the invention is characterized in that, after reducing and / or increasing the switch-off duration, a flag is set in order to prevent the switch-off duration from being reduced and / or increased once again and that the flag after expiration a blocking period is cleared to allow the off period is reduced again and / or increased. Preferably, the lockout time may be determined by a number of compressor run times. A compressor running time results from the sum of the switch-off duration and the switch-on duration.

This embodiment has the advantage that the control is better adapted to long-term changes in the environment.

The blocking time is preferably at least two transit times. Further preferably, the blocking time is between two and twenty terms. Further preferably, the blocking time is between two and ten terms.

In a preferred embodiment, the method is characterized in that the duty cycle is between 30 seconds and 30 minutes, preferably between 1 minute and 10 minutes, more preferably about 4 minutes. Furthermore, the switch-off duration is preferably between 1 minute and 60 minutes, preferably between 2 minutes and 20 minutes, more preferably about 8 minutes.

Advantageously, when the maximum temperature is exceeded, the switch-off duration is reduced by a constant amount, and increased by the constant amount when the minimum temperature is undershot. The constant amount is between 5 seconds and 5 minutes, preferably between 10 seconds and 2 minutes, more preferably about 0.5 minutes.

The device according to the invention for carrying out the method according to the invention comprises at least one refrigerating space, which can be closed by at least one door, a refrigeration circuit having a compressor, a control device which is suitable for switching the compressor on or off and a temperature sensor which is suitable. to determine the temperature prevailing in the cold room.

The device according to the invention makes use of the advantages of the method according to the invention. Preferably, the device according to the invention comprises means suitable for determining whether constant conditions prevail.

Further preferably, the device comprises an outside temperature sensor which is suitable for measuring an ambient temperature. Preferably, the device comprises a door sensor adapted to determine if the door is open.

Further preferably, the device is adapted to determine whether a defrost phase occurs.

Details and further advantages of the method and the device according to the invention will become apparent from the preferred embodiment described below. In the drawings, which only schematically illustrate the exemplary embodiment, illustrate in detail:

1 a schematic view of a refrigerator according to the invention;

2 a graph showing the course of the measured in the cold room of the refrigerator and the course of the power provided by the compressor, over time for a conventional refrigeration appliance;

3 a diagram showing the course of the temperature measured in the cold room of the refrigerator and the course of the power provided by the compressor over time for a refrigeration device according to the invention.

1 shows a schematic view of a refrigerator 10 , The refrigeration device 10 includes a cold room 14 that from a door 12 is closable, a refrigeration cycle 20 and a control device 30 , The refrigeration cycle 20 includes in particular a compressor 22 , A temperature sensor 32 the control device 30 is inside the cold room 14 arranged and measures the temperature T in the cold room 14 air.

In a preferred embodiment, the control device 30 of the refrigeration device 10 a door sensor 34 on, who determines if the door 12 of the refrigeration device 10 is open or closed. Accordingly, the door sensor 34 Determine if it is in the cold room 14 Air is prevented from being with the outside of the refrigerator 10 mixing air. A closed door 12 thus contributes to constant temperatures inside the cold room 14 at.

The control device 30 of the refrigeration device 10 can be an outside temperature sensor 36 exhibit. Suitably, the outside temperature sensor 36 on the outside of the refrigerator 10 arranged. Preferably, the outside temperature sensor 36 the control device 30 arranged such that a possible heat emission of an evaporator of the refrigeration cycle 20 the measurement of the outside temperature is not affected.

2 shows a diagram showing the temperature profile and the performance of a compressor 22 a refrigeration device 10 the control behavior is not yet optimally adapted to the prevailing environmental conditions. In the lower part of the diagram, the course of the temperature T is within the cooling space 14 of the refrigeration device 10 played. The temperature T has strong fluctuations due to the irregular control behavior.

If the temperature T is within the interval T _min to T _max , then the compressor 22 the refrigeration device according to the invention 10 alternately during a switch-t _a turned on and while a turn-off _of t off.

If the temperature T exceeds the temperature T _max , then, if no flag is set yet, the flag is set and the switch-off duration t _off is reduced for future cycles. If a flag has already been set, the switch-off duration t _{off is} retained. Markers are cleared after a predefined number of cycles.

If the temperature T falls below the minimum temperature T _min , then the compressor 22 is turned on and the turn-off duration t _out is increased by the same constant value if no flag is set, and such a flag is then set. The flag is cleared after a run of a predetermined number of cycles.

If the temperature T decreases from a temperature above the maximum temperature T _max , so that the temperature T is again in the interval between T _min and T _max , then first the compressor 22 the duration of a switch-off duration t _{off is} switched off. If the temperature T from a temperature below the minimum temperature T _min to a temperature, which is within the range defined by the minimum temperature T _min and the maximum temperature T _max interval, then for the duration of the off time t _off of the compressor 22 switched off.

As can be seen in particular from the curve representing the compressor performance, the existing constant conditions for the exemplary embodiment are expressed by a regular and recurring control behavior (3 short peaks followed by a long peak power).

3 gives an optimized control behavior of a refrigeration device according to the invention 10 again. With the optimized control behavior, the duty to remain _a t and the off time t _from the passage of time equal in length. Also, the temperature T remains relatively constant, and moves within the interval between the minimum temperature T _min and the maximum temperature T _max .

This in 3 reproduced control behavior has been adjusted according to the invention itself, so that the predetermined temperature interval is not left and the switch-off t _off and the _switch-ta remain constant for a long time.

Like that in 2 reproduced diagram becomes the compressor 22 three times in succession for a duration t _a is turned on and off for a switch-off t _off. This is followed by a longer switch-on of the compressor 22 What t have a duty _one goes. This is due to the fact that the temperature T has increased beyond the maximum temperature T _max . As the 2 can be seen further, the control pattern described follows again after a prolonged switch-off. This regular and recurring control behavior thus indicates the existence of constant conditions. Also in 3 The reproduced diagram shows a repetitive control behavior of the control device 30 , Accordingly, can be from the in 3 also deduce that constant conditions prevail. A regulation of the switch-off duration t _off can therefore be used to improve the control behavior of the controller 30 respectively.

The method according to the invention for a refrigeration device enables the efficiency of the refrigeration device to be optimized. Furthermore, the inventive method provides optimal regulator settings, regardless of the existing ambient and compartment temperatures. In addition, the trial and development effort is reduced by the inventive method. The method according to the invention can also be implemented cost-effectively, on a software basis.

LIST OF REFERENCE NUMBERS

10

The refrigerator

12

door

14

cold room

20

Refrigeration circuit

22

compressor

30

control device

32

temperature sensor

34

door sensor

36

Outdoor temperature sensor

T

temperature

T _max

maximum temperature

T _min

minimum temperature

_ta

duty

t _off

off time

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102009001678 A1 [0002]

Claims (12)

Method for controlling a refrigeration device ( 10 ) comprising at least one cold room ( 14 ), which is accessible from at least one door ( 12 ) is closable, a refrigeration cycle ( 20 ), which is a compressor ( 22 ) and a control device ( 30 ), which is suitable for the compressor ( 22 ) to turn on or turn off, characterized by the following method steps: a. Determination of in the cold room ( 14 ) prevailing temperature (T); b. Comparing the temperature (T) with a maximum temperature (T _max ); c. Comparing the temperature (T) with a minimum temperature (T _min ); d. Switching on the compressor ( 22 ) when the temperature (T) exceeds the maximum temperature (T _max ); e. Switch off the compressor ( 22 ) when the temperature (T) falls below the minimum temperature (T _min ); f. alternately switching on the compressor ( 22 ) (T during a _switch-on) and switching off the compressor ( 22 during a switch-off period (t _off ) when the temperature (T) is below the maximum temperature (T _max ) and above the minimum temperature (T _min ); G. Control of the switch-off duration (t _off ) depending on the temperature (T). A method according to claim 1, characterized in that the temperature-dependent control of the switch-off (t _off ) takes place only in the presence of constant conditions. A method according to claim 2, characterized in that the presence of constant conditions comprises, over a time interval, the door ( 12 ) remains closed and / or an ambient temperature remains approximately constant and / or no defrosting occurs. A method according to claim 3, characterized in that the time interval between 10 minutes and 12 hours, preferably between 30 minutes and 6 hours, further preferably between 1 hour and 3 hours. Method according to one of claims 1 to 4, characterized in that the control of the switch-off (t _off ) takes place in that the switch-off (t _off ) is reduced when the maximum temperature (T _max ) is exceeded. Method according to one of claims 1 to 5, characterized in that the regulation of the switch-off (t _off ) takes place in that the switch-off (t _off ) is increased when the minimum temperature (T _min ) is exceeded. Method according to one of Claims 1 to 6, characterized in that, after reducing and / or increasing the switch-off duration (t _out ), a flag is set in order to prevent the switch-off duration (t _out ) _from decreasing and / or increasing once more and that the flag is cleared after expiration of a lock-time to allow the turn-off duration (t _out ) to be further reduced and / or increased. A method according to any one of claims 1 to 7, characterized in that the duty cycle (t _a) between 30 seconds and 30 minutes, preferably between 1 minute and 10 minutes, further preferably about 4 minutes is. Method according to one of claims 1 to 8, characterized in that the switch-off (t _off ) between 1 minute and 60 minutes, preferably between 2 minutes and 20 minutes, more preferably about 8 minutes. Apparatus for carrying out the method according to one of claims 1 to 9, comprising: at least one cold room ( 14 ), which is accessible from at least one door ( 12 ) is closable; a refrigeration cycle ( 20 ), which is a compressor ( 22 ) having; a control device ( 30 ), which is suitable for the compressor ( 22 ) or turn off, and a temperature sensor ( 32 ), which is suitable in the cold room ( 14 ) to determine the prevailing temperature (T). Apparatus according to claim 10, characterized by means adapted to determine whether constant conditions prevail. Device according to claim 11, characterized in that the device comprises an outside temperature sensor ( 36 ), which is suitable for measuring an ambient temperature and / or a door sensor ( 34 ), which is suitable for determining whether the door ( 12 ), and / or that the device is suitable for determining whether a defrosting phase occurs.

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