DE102008051748B4 - Method for dehumidifying the air in the interior of a device - Google Patents

Abstract

Method for dehumidifying the air in the interior (100) of a device (10), in which:
the value of the humidity in the interior (100) of the device (10) or a value correlated therewith is determined,
the determined value is compared with a limit value, and
when the limit value is reached or exceeded, an increase in the relative duty cycle of the compressor (110) is made,
characterized in that
between the dehumidified interior (100) and the evaporator chamber (26) of the device (10) is a closable opening (24, 25) which is opened after a period of time after switching on the compressor (110), wherein
the length of the period is fixed or depends on the humidity in the evaporator chamber (26) of the device (10).

Description

The present invention relates to a method for dehumidifying the air in the interior of a device.

In refrigerators and / or freezers, fluctuations in humidity may occur due to the non-continuous operation of the compressor. In this case, values of atmospheric humidity may occur which are undesirable, in particular, when the stored product is sensitive to changes in humidity or to relatively high humidities, as applies, for example, to cigars or pharmaceutical products.

From publication DE 102 28 334 A1 a method is known which is used for dehumidification in the interior of a device. The value of the humidity in the interior of the device, or a value correlated with it, is determined and compared with a limit value. When the limit value is reached or exceeded, the relative duty cycle of the compressor is increased, which reduces the humidity inside the device.

From the publication DE 102 35 781 A1 a cooling device is known in which there is a sensor for detecting the humidity in the interior of the device. If the humidity rises above a value specified by the user, then a heater is switched on to reduce the humidity again.

From the publication DE 34 06 678 A1 Coolant circuits are known in which at least one evaporator of the coolant circuit is located in the interior of the refrigerator. When there is a need for dry air, the evaporator is switched on at the same time as a blower, so that the air near the evaporator is cooled down strongly and the resulting condensation water runs off via a drain bend. The dehumidified air then passes to the condenser and is strongly heated there. Finally, the heated and dry air is introduced via the fan back into the interior of the refrigerator.

From the publication DE 10 2007 018 787 A1 a dryer is known in which the process air for drying the objects located in the interior of the dryer is first cooled, so that the condensed water can be removed, and then re-introduced by means of a blower via a radiator in the interior of the dryer.

From the publication DE 20 2006 012 158 U1 a cooling device is known in which the humidity is dissipated from the interior of the device by a flapper valve. As a result, the moisture-laden air comes into a gap and the resulting condensation is dissipated. The now dry air is cooled by an evaporator and re-introduced into the interior of the device by means of a flapper valve.

The present invention has the object, a method of the type mentioned in such a way that a reliable dehumidification of the interior of the device, in particular a refrigerator and / or freezer or a humidor is achieved.

This object is achieved by a method having the features of claim 1.

Thereafter, it is provided that the value of the humidity in the interior of the device or a correlated with this value is determined that the determined value is compared with a limit and that an increase in the duty ratio of the compressor is made when reaching or exceeding the limit.

The invention is therefore based on the idea to increase the relative duty cycle of the compressor of the refrigerant circuit for the purpose of dehumidifying the interior of the device. With the start of the compressor, the evaporator of the refrigeration cycle of the device is cooled, which means that the humidity of the air bound to the evaporator and the relative humidity in the space in which the evaporator is located (evaporator chamber) to relatively low values, for example to approx 15% drops. If the relative duty cycle of the compressor is thus increased, this leads to an efficient dehumidification of the air at the evaporator and thus also to a dehumidification of the interior air of the device.

For example, it can be provided that the (absolute or relative) humidity in the interior is determined by a suitable sensor for measuring moisture. It is also conceivable that not directly the humidity in the interior of the device, but a value is determined, which is representative of the humidity in the interior of the device. Considering, for example, the determination of the humidity in the evaporator, in particular in an evaporator chamber of the device. It is conceivable that the device has two inner containers, of which one inner container surrounds the other inner container, and wherein the evaporator chamber is formed by an area between these two inner containers. In this respect, we refer to the DE 20 2006 012 158 , which is hereby made the subject of the present invention.

The increase in the relative duty cycle of the compressor is preferably effected by activating a heat source, by means of which the air in the interior of the device or in a space communicating with the interior of the device is heated.

This heat source may be, for example, an Innraumflächenheizung or the like.

In a particularly preferred embodiment of the invention, it is provided that there is an opening between the dehumidified interior and the evaporator chamber of the device, which connects these two spaces. The opening is closable and is preferably but not necessarily after a predetermined period of time after switching on the compressor, d. H. not opened at the same time as compressor start.

Such an opening delay of the flap has the advantage that an immediate opening and thereby possibly a further additional moistening of the interior is prevented. In principle, it is also conceivable to open the flap before or with activation of the compressor.

The length of this period, d. H. The switch-on delay may be fixed or depend on the humidity in the evaporator chamber of the device. It is conceivable, for example, that the flap is opened when the humidity in the evaporator chamber has reached or fallen below a certain limit.

It is also conceivable that the duration of the opening delay is fixed.

In principle, it is conceivable that the length of the time span or the air humidity in the evaporator space at which the flap is opened can be adjusted by the user of the device.

It is particularly advantageous that the closable opening is closed when the compressor is switched off. As a result, a renewed moistening of the interior from the evaporator or from the evaporator chamber can be avoided.

The present invention further relates to a device having an interior for receiving the goods, in particular the refrigerated and / or frozen goods, which is characterized in that the device has a control unit, in particular an electronically controlled unit which is designed such that they operates the device according to a method according to one of claims 1 to 8. The device may be, for example, a humidor or a refrigerator and / or freezer.

• 1: eine schematische Längsschnittdarstellung durch ein Kühlgerät gemäß der vorliegenden Erfindung,
• 2: einen Verlauf der relativen Luftfeuchtigkeit im Verdampferraum sowie im Geräteinnenraum ohne Öffnungsverzögerung einer Entfeuchtungsklappe und
• 3: einen Verlauf der relativen Luftfeuchtigkeit im Verdampferraum sowie im Geräteinnenraum mit Öffnungsverzögerung einer Entfeuchtungsklappe.

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

• 1 FIG. 2 is a schematic longitudinal sectional view of a refrigerator according to the present invention. FIG.
• 2 : a profile of the relative humidity in the evaporator room and in the interior of the device without opening delay of a dehumidifying flap and
• 3 : a profile of the relative humidity in the evaporator compartment and in the interior of the unit with an opening delay of a dehumidifying flap.

1 shows a schematic longitudinal sectional view of a cooling device 10 according to the present invention. The refrigerator 10 has an inner container 12 on. At the rear wall is in a known manner an evaporator 14 foamed.

To the first inner container 12 around a foaming extends 16 , which is used in a known manner for heat insulation.

In the through the inner container 12 limited space is a second inner container 18 that the actual refrigerator 100 limited.

The device is front with a door 20 closable.

In between the two inner containers 12 . 18 limited space is a fan 22 which causes an air movement in this space, which is indicated by arrows.

With the reference number 24 There is a flap which can be opened and which has an opening 25 releases the interior 100 with the room 26 connects, located between the two inner containers 12 and 18 at the height of the evaporator 14 extends. Basically, it is also possible to use the evaporator 14 to arrange so that it is not foamed, but in the room 26 is arranged hanging.

The device 10 according to 1 has an electronically controlled dehumidifier that works as follows:

Is due to a made by one or more sensors moisture measurement in the interior 100 or in the evaporator room 26 arranged a dehumidification, an in 1 Interior surface heating not shown, which causes a temperature increase, which in turn leads to an increase in the duty ratio of the compressor 110 leads. With commissioning of the compressor 110 becomes the evaporator 14 the refrigerant circuit cooled and thereby all or part of the moisture at the evaporator 14 or on the adjacent wall of the inner container 12 bound. This will decrease depending on the running time of the compressor 110 the relative humidity in the evaporator room, for example, about 15%.

With a predetermined switch-on delay after compressor start now the dehumidification flap 24 opened, an opening 25 between the interior 100 and the evaporator room 26 manufactures. This allows moist air from the interior 100 to the evaporator 14 or to the evaporator room 26 and there will be a dehumidification of the air of the interior 100 performed.

If the opening of the flap 24 with the time of switching on the compressor 110 increases the relative humidity in the interior 100 of the device 10 defies the start of the dehumidification process. This has the disadvantage that this considerably lengthens the dehumidification process. This situation is in 2 played. The line 200 indicates the time course of the relative humidity in the evaporator chamber 26 and the line 210 the time course of the relative humidity in the interior of the device 100 , At the time 220 becomes the compressor 110 put into operation and the Enfeuchtungsklappe 24 open. Like this 2 is apparent, although by switching on the compressor 110 a rapid drop in relative humidity in the evaporator compartment 26 , but temporarily, ie still after the time 220 an increase in the relative humidity in the interior of the device 100 ,

At a set value of relative humidity of 70% in the interior 100 of the device 10 the relative humidity in the evaporator compartment fluctuates 26 between 85% and 15%.

Is the temporary increase in relative humidity in the interior of the device 100 after switching on the compressor 110 be prevented, an opening delay of the dehumidifying flap 24 made, which has the meaning, an immediate opening of this flap 24 To prevent and thereby further additional humidification of the air in the interior 100 to prevent. This situation is in 3 shown.

When the compressor is switched on (time 220 ) is the relative humidity in the evaporator room 26 is highest with approx. 85% and is above the adjusted setpoint of the relative humidity.

In the example shown, about 60 seconds (time 221 ) after switching on the compressor 100 the relative humidity in the evaporator room 26 reduced to a value of about 65%. With this value is already a dehumidification of the interior 100 possible.

In this case, after 60 seconds, the flap 24 be opened, allowing a dehumidification of the air in the interior 100 of the device can be made.

Will the switch-off value of the compressor 110 reached, but the dehumidification has not ended, the door will shut 24 still closed, to re-humidify the interior 100 from the evaporator 14 or from the evaporator chamber 26 to prevent.

Claims (9)

Method for dehumidifying the air in the interior (100) of a device (10), in which: the value of the air humidity in the interior (100) of the device (10) or a value correlated therewith is determined, the determined value is compared with a limit value , and upon reaching or exceeding the limit value, an increase in the relative duty cycle of the compressor (110) is performed, characterized in that between the dehumidified interior (100) and the evaporator chamber (26) of the device (10) has a closable opening (24 , 25), which is opened after a period of time after switching on the compressor (110), wherein the length of the period is fixed or dependent on the humidity in the evaporator chamber (26) of the device (10). Method according to Claim 1 , characterized in that the value correlated with the humidity in the interior (100) is the air humidity in the area of the evaporator (14), in particular the humidity in an evaporator space (26). Method according to Claim 1 or 2 , characterized in that for the purpose of increasing the relative duty cycle of the compressor (110), a heat source is activated, through which the air in the interior (100) of the device (10) or in a is heated with the interior (100) in communicating space. Method according to Claim 3 , characterized in that for the purpose of increasing the relative duty cycle of the compressor (110) a surface heating is activated, through which the air in the interior (100) of the device (10) is heated. Method according to Claim 1 , characterized in that the length of the period of time or the humidity in the evaporator chamber (26) at which the opening (24, 25) is opened, by the user of the device (10) can be predetermined. Method according to one of Claims 1 or 5 , characterized in that the closable opening (24, 25) is closed when the compressor (110) is turned off. Device (10) having at least one interior space (100) for receiving the goods, wherein the device (10) comprises a compressor (110), a sensor for measuring moisture in the interior (100) and an evaporator chamber (26), one through a flap closable opening (24, 25) is provided which connects the interior space (100) and the evaporator space (26) to each other, wherein the apparatus (10) further comprises a control unit which is designed such that the device (10) according to a Method according to one of Claims 1 to 6 operates. Device (10) after Claim 7 , characterized in that the device (10) has a heating device which is arranged such that by means of the heat source, the air in the interior (100) of the device (10) or in a room with the interior (100) communicable space heated is. Device (10) according to one of Claims 7 or 8th , characterized in that the device (10) is a humidor or a refrigerator and / or freezer (10).

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