DE102011113477A1 - Cooling and freezing appliance for cooling interior space, has unit for measuring property of defrosted water, and contact element, which is provided directly or indirectly with measuring unit - Google Patents

Abstract

The cooling and freezing appliance has a unit for measuring the property of defrosted water, and a contact element is provided directly or indirectly with the measuring unit. An evaluation unit is provided with the measuring unit in connectionless or connectable manner. The evaluation unit is designed to determine from the measuring unit, the extent to which the defrosting of an evaporator is completed. A temperature sensor is arranged to measure the temperature of the evaporator, where the evaporator is defrosted by a defrosting heater. An independent claim is provided for a method for determining the extent of the evaporator of a cooling or freezing appliance.

Description

The present invention relates to a refrigerator and / or freezer with at least one cooled interior and at least one evaporator, which serves to cool the interior and is at least temporarily flowed through by refrigerant during operation of the device, wherein the device in a preferred embodiment of the invention at least one defrost heater is designed to defrost the evaporator.

From the prior art, it is known to subject the evaporator of refrigerators and / or freezers, if necessary or at regular intervals a defrosting process.

In known devices is a temperature sensor, d. H. an evaporator probe mounted directly or close to the evaporator. For free-hanging evaporators, the sensor attachment is designed primarily as a sensor pocket, in which then the sensor is inserted. In foamed evaporators, the evaporator probe is either foamed with the evaporator or fixed in the interior of the device to the rear wall. Preferably, this sensor is located near or at the coldest point of the evaporator.

During the compressor run time, that is, during the evaporation of the refrigerant in the evaporator, it may happen that builds up on the evaporator, an ice sheet. This is undesirable for efficiency, so that a defrost of the evaporator is necessary. If, for example, an air duct closed by the ice formed, it can also lead to a total failure of the evaporator.

With the aid of the mentioned temperature sensor, which is arranged on or in the vicinity of the evaporator, a reliable defrosting of the evaporator can be ensured in known devices in the compressor downtime. The compressor does not switch on again until the evaporator sensor reaches a temperature that ensures complete defrosting of the evaporator.

The problem is that said temperature sensor, d. H. the evaporator sensor may come into contact with moisture, in particular during defrosting of the evaporator, which may lead to damage or failure of the temperature sensor.

The present invention has the object of developing a refrigerator and / or freezer of the type mentioned in such a way that the problem of impairment of the function of the evaporator sensor is eliminated by accumulating water.

This object is achieved by a refrigerator and / or freezer with the features of claim 1. Accordingly, it is provided that means are provided for measuring at least one property of the defrosted water and / or at least one element in direct or indirect contact with the same, and further that evaluation means are provided which are in communication or connectable to said means; wherein the evaluation means are designed such that they determine based on the property measured by the means, whether and / or to what extent the defrosting of the evaporator is completed or advanced.

The present invention is therefore based on the idea, by measuring at least one property of the defrosted water and / or at least one with this directly or indirectly in contact element, such as a condensation gutter, the condensation water outlet, a condensed water, etc. to be able to draw conclusions whether the defrost of the evaporator is complete or how far it has progressed.

The property of the defrosted water or of said element, such as the defrost channel, etc., may be its temperature. For example, it is conceivable that the means comprise at least one temperature sensor.

Due to the fact that, due to the measurement of said property, a conclusion can be drawn about the state of the evaporator with regard to its defrosting, it is possible to refer to an evaporator sensor, i. H. be completely dispensed with a arranged on the evaporator temperature sensor, which is a particularly preferred embodiment of the invention.

In one embodiment, it is possible to proceed in such a way that the temperature of the thawed water and / or of the condensation water or of another element associated with the condensate is measured, and it is determined by the evaluation means that the evaporator is completely defrosted when the measured temperature has the value> 0 ° C. If the evaporator is not completely defrosted, the condensation water / thawing water outlet should have a temperature <or = 0 ° C. As soon as the evaporator is ice-free, the condensation water or the element associated with it is heated so that the temperature curve rises during the defrosting phase. This can be an indication of this be used, that the defrost of the evaporator is completed.

It should be noted at this point that the mentioned temperature value of 0 ° C is only exemplary in nature. Other temperature values are conceivable and encompassed by the invention.

In a further embodiment of the invention it is provided that the property of the thawed water is its quantity and / or flow rate and / or its presence and / or that the means is a moisture sensor. Conceivable it is therefore also alternatively or additionally z. As to determine the flow rate, amount or the presence of defrosted water. Thus, it is conceivable, for example, that it is determined via a moisture sensor whether condensation water still accumulates. This moisture sensor can be arranged, for example, in the region of the condensation water outlet. As long as the evaporator is not completely defrosted, the evaporator is still coming from defrosted water, which is discharged through the condensation water outlet and the moisture sensor. When defrosting of the evaporator is complete, no more water will come from the evaporator and there will be less or no condensation on the humidity sensor. This result or a corresponding signal can then be transmitted to the evaluation means, whereupon they make the determination as to whether and / or how far a defrost of the evaporator has occurred.

In a further embodiment of the invention it is provided that the device has at least one condensation water outlet and that the means comprise at least one temperature sensor which is arranged such that it the temperature of the condensation water outlet and / or therein and / or flowing into and / or measures the effluent from this and / or flowing through this defrosted water. As stated above, it can be determined from this temperature measurement (s) whether the evaporator has defrosted and / or how far the defrost of the evaporator has progressed.

As also stated above, it is conceivable that the means comprise at least one moisture sensor, which is arranged such that it measures the presence and / or the amount of thawed water in a condensation water outlet. It is conceivable to conclude a defrosted evaporator if no condensation water flows in or if the flow velocity of the condensation water, for example, in a condensation gutter or the like is zero or falls below a limit.

Accordingly, the evaluation means can be designed such that they determine that the evaporator is defrosted when the temperature of the defrosted water and / or the thawing water outlet is> 0 ° C or at least> 0 ° C for a certain period of time and / or that the temporal temperature increase exceeds a certain limit. It is also true for this embodiment of the invention that the temperature value of 0 ° C. is only of an exemplary nature and that other temperature values can also be used.

Furthermore, it can be provided that the evaluation means are designed such that they determine that the evaporator is defrosted when the flow rate of the defrosted water and / or the amount of defrosted water is below a limit or is zero. The latter is the case when due to the completely defrosted evaporator no more defrosted water flows.

The present invention further relates to a method for determining whether and / or to what extent the evaporator of a refrigerator and / or freezer, in particular a refrigerator and / or freezer according to one of claims 1 to 8, defrosted. The method is characterized in that it comprises the step of measuring at least one property of the thawed water and / or at least one element in contact with it and determining on the basis of this measured property whether and / or to what extent the evaporator is defrosted is. Preferably, it is provided that the evaporator temperature is not measured, that is dispensed with an evaporator probe.

It is conceivable that the property is the temperature of the defrosted water and / or of an element in contact therewith, in particular of a condensation water outlet, and it is determined that the evaporator is defrosted when the temperature of the defrosted water and / or the condensation water outlet is> 0 ° C or for a certain period of time is> 0 ° C and / or that the temporal temperature increase exceeds a certain limit. As already stated above, when the temperature of the defrosted water or, for example, also the condensation gutter is raised to a value of> 0 ° C., it can be concluded that the defrosting of the evaporator has been completed. It is also conceivable to measure the gradient of the temperature increase and to determine based on whether or in how far the evaporator is defrosted. It is also true for this embodiment of the invention that the temperature value of 0 ° C. is only of an exemplary nature and that other temperature values can also be used.

In a further embodiment of the invention it is provided that the property of the thawed water is its quantity and / or flow rate and / or its presence and that it is determined that the evaporator is defrosted when the flow rate of the thawed water and / or the amount of defrosted water is below a threshold or zero, or when defrosted water is no longer present.

Further details and advantages of the invention will be explained in more detail with reference to an embodiment shown in the drawing.

The single figure shows the time course of the temperature of the water flowing through a condensation gutter or the condensation water and / or the temperature of the condensation water drainage or the condensation gutter itself.

If the evaporator has not yet completely defrosted, the condensation water or the condensation gutter has a temperature <or = 0 ° C. Other, in particular larger values than 0 ° C are conceivable. As soon as the evaporator is ice-free, that is to say in the defrosted state, the condensation water or the condensation gutter and / or the condensation water outlet heats up.

This temperature profile of the condensation during the defrosting phase is shown in the single figure.

Once the temperature at one point of the evaporator is greater than 0 ° C, the ice begins to defrost on the evaporator.

The defrosted water drips into the condensation gutter or through the condensation water drain into a condensation water basin. Since the evaporator is not completely defrosted, the condensation water or the element associated therewith, in particular the condensation gutter or the condensation water outlet, has a temperature close to 0 ° C.

Only when the evaporator is completely defrosted and ice-free and no condensation water from the evaporator flows more, the temperature of the condensation water or the condensation gutter / the condensation water outlet rises to a value of for example above 0 ° C or over another value. This point indicates the time of the complete defrost of the evaporator. Thus, if the temperature of the condensation water or an element related to it> 0 ° C, it can be concluded that the evaporator is completely defrosted.

Basically, other values or limit values than 0 ° C are conceivable.

It is preferably provided that during the defrosting process, the compressor of the refrigerant circuit is turned off, wherein the evaporator forms a part of this refrigerant circuit. It is then switched on again after defrosting the evaporator.

As an alternative or in addition to this procedure, it is possible to use the amount, the flow rate and / or the presence of the condensation water as a parameter for whether or in what way the evaporator is defrosted.

During the defrosting phase, the temperature on the evaporator rises above 0 ° C. The evaporator begins to defrost and it starts first condensation. This accumulating condensation water flows into the condensation gutter or into the condensation water outlet or into a condensation water basin or other receptacle. It flows as long as defrosted water until the evaporator is completely defrosted, that is free of ice.

By suitable measuring methods, such as for example by the use of a moisture sensor, the time can be determined at which no condensation water flows from the evaporator, that is, this is defrosted. One way to do this is to place the humidity sensor in a region of the thawing water flow through which defrosted water flows during the defrosting process. It is conceivable to arrange the moisture sensor in a steep area of the condensation water outlet. As long as the evaporator is not completely defrosted, water will come from the evaporator, which will be discharged through the drainage channel and the moisture sensor. When the evaporator is completely defrosted, defrosted water will stop coming, with the result that no or less condensation will be present at the moisture sensor than during defrosting. This can be determined by the humidity sensor and transmitted to the evaluation means, whereupon they determine that the defrosting process is completed.

In summary, it follows that at least one property of the condensation water and / or an element in contact with it, in particular an element of the condensation drainage system, that is, for example, the condensation drainage channel and / or a condensation water container is used to determine whether and in how far the evaporator is defrosted.

Said temperature sensor and / or said humidity sensor may be arranged and / or designed such that they are protected against ingress of water. For example, a foamed version of the sensor may be considered.

Claims (11)

Cooling and / or freezer with at least one cooled interior and with at least one evaporator, which serves to cool the interior and is at least temporarily flowed through by refrigerant during operation of the device, characterized in that means for measuring at least one property of the defrosted water and / or at least one element which is in direct or indirect contact with it and in addition that evaluation means are provided which are connected to or connectable to said means, wherein the evaluation means are designed such that they are measured on the basis of the means Property determine whether and / or to what extent the defrost of the evaporator is completed. The refrigerator and / or freezer according to claim 1, characterized in that no temperature sensor is provided, which is arranged such that it measures the temperature of the evaporator and / or that the device has at least one defrost heater, by means of which the evaporator is defrostable. The refrigerator and / or freezer according to claim 1 or 2, characterized in that it is at the property of the defrosted water or said element to its temperature and / or that the means is a temperature sensor. The refrigerator and / or freezer according to any one of the preceding claims, characterized in that it is the property of the defrosted water to its amount and / or flow rate and / or its presence and / or that the means is a moisture sensor is. Cooling and / or freezing appliance according to one of the preceding claims, characterized in that the device has at least one condensation water outlet and that the means comprise at least one temperature sensor which is arranged such that it is the temperature of the condensation water outlet and / or therein or measures in this inflowing and / or flowing out of this and / or flowing through this defrosted water. The refrigerator and / or freezer according to any one of the preceding claims, characterized in that the means comprise at least one humidity sensor, which is arranged such that it measures the presence and / or the amount of thawed water in a condensation water outlet. Cooling and / or freezing appliance according to one of the preceding claims, characterized in that the evaluation means are designed such that they determine that the evaporator is defrosted, when the temperature of the defrosted water and / or the condensation water outlet above a certain temperature, in particular at > 0 ° C or for a certain period of time above a certain temperature, in particular> 0 ° C and / or that the temporal increase in temperature of the defrosted water preferably in the condensation water outlet and / or the temporal increase in temperature of the condensation water outlet exceeds a certain limit. The refrigerator and / or freezer according to one of the preceding claims, characterized in that the evaluation means are designed such that they determine that the evaporator is defrosted, when the flow rate of the defrosted water and / or the amount of defrosted water is below a threshold value or is at zero. A method for determining whether and / or to what extent the evaporator of a refrigerator and / or freezer, in particular according to one of claims 1 to 8, defrosted, characterized in that the method comprises the step of measuring at least one property of the defrosted water and / or at least one element in contact with it and that it is determined based on this measured property, whether and / or to what extent the evaporator is defrosted, wherein it is preferably provided that no measurement of the temperature of the evaporator is made. A method according to claim 9, characterized in that it is the property of the temperature of the defrosted water and / or an element in contact therewith, in particular a condensation water outlet, and that it is determined that the evaporator is defrosted when the temperature the defrosted water and / or the condensation water outlet above a certain temperature, in particular at> 0 ° C or for a certain period of time above a certain temperature, in particular> 0 ° C and / or that the temporal temperature increase exceeds a certain limit, wherein is preferably provided that no measurement of the temperature of the evaporator is made. A method according to claim 9 or 10, characterized in that the property of the thawed water is the amount and / or or flow rate and / or presence thereof, and it is determined that the evaporator is defrosted when the flow rate of the defrosted water and / or the amount of defrosted water is below a threshold or zero, or if defrosted water is no longer present.

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