DE102009000665A1 - Refrigeration appliance, in particular domestic refrigeration appliance, and method for controlling a refrigeration appliance - Google Patents

Abstract

The invention relates to a refrigeration appliance, in particular domestic refrigeration appliance, with a refrigerant circuit (11), in which an evaporator (9) and a compressor (13) are connected, a control device (17), with the one in a cooling chamber (3) einbringbare cooling capacity Switching on and off of the compressor (13) is controllable, and a fan (21) for generating an air flow (23) in the cooling space (3), which control device (17) is an actual temperature (T _is ) in the cooling space (3) in a first mode (I) to a first target temperature (T _S1 ) controls and in a second mode (II) for accelerated cooling of refrigerated goods to a second reduced target temperature (T _S2 ) controls. According to the invention, in the second operating mode (II), a transit time interval (Δt _L2 ) of the fan (21) at least partially overlaps in time a stopping time interval (Δt _S1 ) of the compressor (13).

Description

The The invention relates to a refrigeration device, in particular Household refrigerator, after the preamble of claim 1 and a method of control such a refrigerator after to claim 9.

at the evaluation of refrigeration appliances by consumer organizations plays the cooling power that is called the needed Time to re-introduced in the refrigerator Food from an ambient temperature to the storage temperature to cool, one increasingly important role. To increase the cooling capacity have electronic regulated refrigerators one so-called super-cooling function, at a normal refrigeration compartment temperature for one given time to the coldest Regulator setting is lowered and then back to normal operation he follows.

With Help a control device of a generic refrigerator, which introduced into the refrigerator cooling capacity be controlled by switching on and off of the compressor. Additionally points the generic refrigerator a Refrigerator compartment fan on, the air flow in the fridge can generate. The control device can in a first mode be controlled to a first target temperature and in a second Operating mode, such as the above-mentioned super-cooling function on a second reduced target temperature can be controlled.

Around a further increase in the cooling capacity of the To reach refrigeration unit, can its performance-relevant device components larger dimensions become; For example, a compressor with greater power be used. This would however, to a permanent increase the energy absorption of the refrigerator lead.

The The object of the invention is a refrigeration device and a method for control to provide such a refrigerator, at which the cooling capacity is increased without mentioning the overall energy consumption to increase.

The The object of the invention is characterized by the features of claim 1 or of claim 9 solved. Advantageous developments of Invention are in the subclaims disclosed.

According to the characterizing one Part of claim 1 is the fan controlling the control device designed so that in the second mode of operation a runtime interval the fan at least partially a Stehzeitintervall of the compressor temporally overlapped. This takes place during the compressor stop a more intense heat transfer from the warm Areas of the refrigerator to a refrigerator sensor, the actual temperature in the fridge detected. While The compressor standstill time can therefore be the actual temperature detected by the refrigerator compartment sensor accelerated to reach a predetermined switch-on, at the controller turns the compressor back on. Compared to The prior art can therefore be the compressor in the second mode early be switched back on, causing the newly introduced in the refrigerator Goods accelerated cooled become.

With the control of the invention Fan and compressor during the second mode can be targeted only in the second mode, this means when activating the super-cooling function, the cooling capacity be increased while the cooling capacity remains the same in normal operation. This means that in normal operation no additional increase the energy consumption of the refrigerator is done.

According to the invention the cooling capacity increase only in the second mode, while in normal operation of Fan in the compressor idle time can remain off. The additional run times according to the invention restrict the fan Therefore, only on the second mode, so that a permanent increase the energy consumption of the refrigerator avoided can be.

The Runtime interval of the fan can during the second mode be sized larger as the runtime interval of the compressor. This ensures that that the runtime interval of the fan both the transit times as well as idle times of the compressor overlaps.

control engineering considered the refrigerator makes of the refrigerator together with the introduced refrigerated goods a controlled system whose actual temperature by means of the cold room sensor recorded and routed to the control device. As soon as the captured Actual temperature is greater than is a predetermined by the control device switch-on is, switches the control device the compressor, creating a cooling capacity from the evaporator into the refrigerator is introduced. falls the actual temperature below a predetermined switch-off temperature, so the controller switches off the compressor.

The response of the controlled system formed by the cold room and chilled goods is accelerated by connecting the fan, that is, the inertia of the controlled system is reduced. This means that when goods are introduced through the airflow generated by the fan, the heat transfer from the newly introduced product to the cold room sensor is intensified, which consequently results in a long time it is shortened until the compressor is switched on again.

Prefers the control device in the second mode, the fan so control that its runtime interval not only the idle time interval the compressor, but at least partially the runtime interval the compressor overlaps in time. In this way, even when the compressor is on, the inertia of the out of fridge and imported goods existing control system can be reduced. The is called the cooling off the new in the fridge Goods brought in are also accelerated during the cooling phase.

The second mode may be the type of known super-cooling function by manual operation an input element are activated by a user. A such activation can usually after a goods entry, in which in a shorter time the newly introduced goods from ambient temperature to the refrigerator temperature chilled shall be.

to Increase in during The cooling capacity provided in the second operating mode may be the transit time interval the fan substantially the entire operating life of the second Operating mode correspond. The control device can according to a predetermined Operating time, the second mode automatically back to the first Operating mode, that is in the Normal operation, switch over. Particularly preferably, the fan runs in the second Operating mode in continuous operation.

in the Unlike the second mode, in the first mode to such a continuous operation of the fan in favor of a reduced Energy consumption can be dispensed with. In the first mode the fan can only with activated compressor, that is in the Cooling phase, be switched on to the fan runtime for the sake of Energy saving possible to keep low. In the first mode, therefore, the fan operation with coupled to the compressor operation. In contrast, in the second mode the fan is independent in time of standing / running times of the compressor controlled by the control device be.

following is an embodiment the invention with reference to the attached Figures shown.

It demonstrate:

1 in a side sectional view of a refrigerator; and

2 the time course of the actual temperature of the cold room with the operating conditions of the compressor and the fan.

In the 1 is roughly schematically in a schematic representation of a refrigerator with a refrigerator 3 shown, which by means of three horizontal floors 5 in four cooling compartments 6 is divided. The fridge 3 is with a door 7 closed at the front. Both the appliance door 7 as well as the refrigerator 3 delimiting walls are constructed in a heat-insulating manner in a known manner.

The refrigeration device is a refrigerant circuit known per se 11 assigned in which an evaporator 9 , a compressor 13 and a liquefier 15 is switched. The refrigerant circuit 11 is by means of a control device 17 electronically controlled. This is the control device 17 with a refrigerator sensor 19 and the compressor 13 in signal connection.

The fridge sensor 19 detects an actual temperature T _is in the refrigerator 3 and forwards them to the control device 17 , In the control device 17 the actual temperature T _{ist is} compared with the user-specifiable target temperatures T _S1 , T _S2 . On the basis of this comparison, the controller switches 17 the compressor 13 on or off.

To increase the cooling capacity during a cooling phase, the refrigeration device is equipped with a fan 21 fitted. This is according to the 1 inside the refrigerator 3 at the top of the evaporator 9 provided and generates in the on state an air flow 23 ,

For further, temporary increase in cooling capacity, the refrigeration device of a in the 2 designated I first mode in which the refrigerator is running in normal operation, temporarily switched over to a second mode II, in which a so-called super-cooling function is activated. The second operating mode II can in particular after a goods entry into the refrigerator 3 user side by manual operation of an input element 25 the control device 17 be activated for a predetermined operating time .DELTA.t _SC .

Like from the 2 shows, regulates the control device during the second mode II 17 the actual temperature T _is at a reduced compared to the first mode I target temperature T _S2 . Thus, the target temperature T _S1 in the first mode I, for example, in a range of 4 to 6 ° C. In the second mode 11 For example, the set temperature T _S2 may be 1 ° C. In this way, the cooling capacity of the refrigerator is increased when activated super-cooling function.

Like from the 2 can further be seen, the illustrated target temperatures T _S1, T _S2 respectively turned on and switch-off temperatures T _a and T are associated _from. The control device 17 switches the compressor 13 as soon as the actual temperature T _is the respective On off temperature T _a exceeds. In contrast, the control device switches 17 the compressor 13 as soon as the actual temperature T _is below the _cut-off T.

In the in the 2 shown first mode I controls the control device 17 the compressor 13 and the fan 21 such that the operation of the compressor 13 and the operation of the fan 21 is coupled. This means that the runtime intervals Δt _{S1 of} the compressor 13 with the transit time intervals Δt _{S2 of} the fan 21 coincide in time.

According to the 2 At time t _0, the user presses the input element 25 , causing the control device 17 the refrigeration device for the operating time .DELTA.t _SC controls in the second mode II. In the second operating mode II, the fan is running 21 according to the invention in continuous operation.

The operation of the fan 21 is therefore in the second mode II - in contrast to the first mode - decoupled from the operation of the compressor 13 , Accordingly, the fan 21 in the second mode II also during the idle time intervals .DELTA.t _{S1 of} the compressor 13 in operation.

In this way, therefore, takes place in the second mode during the Stehzeitvervalle .DELTA.t _{S1 of} the compressor 13 an intensive heat transfer from new to the cold room 3 goods brought to the refrigerator sensor 19 , As a result, during the idle time intervals .DELTA.t _{S1 of} the compressor 13 the actual temperature T _is accelerated to reach the switch-on temperature T _a , at which the control device 17 the compressor 13 turns back on.

According to the invention is therefore in the second mode of the compressor 13 - compared to the prior art - earlier switched back on, so new to the refrigerator 3 can cool imported goods faster. In contrast to other ways to increase performance (such as the use of a larger-sized compressor or the basic continuous operation of the fan 21 ), the solution according to the invention does not lead to a permanent increase in the energy consumption of the refrigerator, but is the cooling performance when needed, that is, upon actuation of the input element 25 , increased.

3

refrigerator

5

Horizontal ground

6

refrigerated compartment

7

door

9

Evaporator

11

Refrigerant circulation

13

compressor

15

condenser

17

control device

19

Refrigerator sensor

21

fan

23

airflow

25

input element

T _is

Actual temperature

T _S1

first Target temperature

T _S2

second Target temperature

T _a, T _from

One- and switch-off temperature

t ₀

time the operation of the input element

Δt _SC

operating time the second mode II

Δt _L1

Running time interval of the compressor

Δt _L2

Running time interval of the fan

Δt _S1

Standing time interval of the compressor

Δt _S2

Standing time interval of the fan

I

first operating mode

II

second operating mode

Claims (9)

Refrigerating appliance, in particular household refrigerating appliance, with a refrigerant circuit ( 11 ), in which an evaporator ( 9 ) and a compressor ( 13 ), a control device ( 17 ), with one into a cold room ( 3 ) einbringbare cooling capacity by switching on and off of the compressor ( 13 ) and a fan ( 21 ) for generating an air flow ( 23 ) in the cold room ( 3 ), which control device ( 17 ) an actual temperature (T _ist ) in the cold room ( 3 ) in a first operating mode (I) to a first setpoint temperature (T _S1 ) and controls in a second mode (II) for accelerated cooling of refrigerated goods to a second reduced setpoint temperature (T _S2 ), characterized in that the second operating mode (II) a running time interval (At _L2 ) of the fan ( 21 ) at least partially a Stehzeitintervall (At _S1 ) of the compressor ( 13 ) overlapped in time. Refrigerating appliance according to claim 1, characterized in that in the second operating mode (II) the transit time interval (Δt _L2 ) of the fan ( 21 ) at least greater than a running time interval (Δt _L1 ) of the compressor ( 13 ). Refrigerating appliance according to claim 1 or 2, characterized in that in the second operating mode (II) the running time interval (Δt _L2 ) of the fan ( 21 ) additionally at least partially the transit time interval (Δt _L1 ) of the compressor ( 13 ) overlapped in time. Refrigerating appliance according to one of the preceding claims, characterized in that in the second operating mode (II) the running time interval (Δt _L2 ) of the fan ( 21 ) substantially coincides with the total operating time (Δt _SC ) of the second operating mode (II), which operating time (Δt _SC ) is in particular of the order of 4 to 6 hours, and within which operating time the fan ( 21 ) in particular runs in continuous operation. Refrigerating appliance according to one of the preceding claims, characterized in that the fan ( 21 ) in the second operating mode (II) independent of the standing / running times of the compressor ( 13 ) of the control device ( 17 ) is controllable. Refrigerating appliance according to one of the preceding claims, characterized in that in the first operating mode (I) the fan operation is coupled to the compressor operation, and in particular the transit time intervals (At _L1 ) of the compressor ( 13 ) and the running time intervals (Δt _L2 ) of the fan ( 21 ) coincide in time. Refrigerating appliance according to one of the preceding claims, characterized in that the control device ( 17 ) an input element ( 25 ) associated with the control device ( 17 ) switches to the second operating mode (II), and / or the control device ( 17 ) switches from the second mode (II) back to the first mode (I). Refrigerating appliance according to one of the preceding claims, characterized in that the control device ( 17 ) a cold room sensor ( 19 Is assigned), which _is the actual temperature (T) (in the refrigerator 3 ) detected. Method for controlling a refrigeration device according to one of the preceding Claims.