DE102019121874A1 - Fridge and / or freezer - Google Patents

Abstract

The invention relates to a refrigerator and / or freezer with a device body, a door and an interior space enclosed by the device body and covered by the door, a refrigerant circuit with an evaporator located in the interior being provided for cooling the interior space, and a mechanical air inlet valve being provided is in order to be able to compensate for a negative pressure occurring in the interior through the inlet of ambient air.

Description

The invention relates to a refrigerator and / or freezer with a mechanism that enables pressure equalization in the interior of the device.

After the door of a refrigerator and / or freezer has been opened, a negative pressure arises in the interior due to the cooling of the warmer air that penetrated during the opening phase. This negative pressure must be compensated so as not to hinder the door from opening again. An exchange of air with the environment that goes beyond the necessary air intake should be avoided for energy reasons.

In the prior art, it has become known in this context to seal the passage for a condensation water pipe leading from the interior of the device to the outside using a sealing lip which is permanently slightly raised when the device is in operation by the arrangement on the suction side of the freezer section fan. The problem with this solution, however, is the tendency for the condensate drain to freeze, since air is introduced gradually while the device is in operation. Furthermore, it has become known in the prior art to provide a separate ventilation opening sealed with a ball. However, this solution may result in the development of a rattling noise.

The object of the invention is to provide a solution for pressure compensation which overcomes these disadvantages from the prior art.

Against this background, the invention relates to a refrigerator and / or freezer with a device body, a door and an interior space enclosed by the device body and covered by the door, a refrigerant circuit with an evaporator arranged in the interior being provided for cooling the interior space, and a Mechanical air inlet valve is provided in order to be able to compensate for a negative pressure arising in the interior through the inlet of ambient air.

The mechanical ventilation valve prevents warm and humid air from entering the interior during operation, which minimizes the problem of icing caused by frozen condensation water. The negative pressure due to a door opening leads to the mechanical valve opening and rapid ventilation of the interior.

It is preferably provided that a condensation water drain is provided in order to direct condensation water occurring at the evaporator out of the interior, and that the air inlet valve is arranged at the condensation water drain. Due to the arrangement at the condensate drain, the entered air humidity condenses directly on the evaporator and not, as would be the case with separate ventilation systems, in the interior of the refrigerator and / or freezer.

In this context, it can be provided in particular that the air inlet valve is integrated into a component which furthermore comprises a condensate drainage opening and, if necessary, additionally a condensate collection funnel. The component can, for example, be a plastic component with latching means for attachment to the device body. The component is typically integrated in the device base or in an intermediate base between the interior space and a device base in which the machine room with the compressor of the refrigerant circuit is arranged.

The air inlet valve is preferably designed such that it opens automatically when a minimum pressure difference is present and automatically closes again when the minimum pressure difference is not reached. When closed, the valve is tight so that no air can penetrate during operation and no icing, for example of the condensate drain, can occur. In particular, the valve body can be preloaded against its closed position by means of a mechanical spring. With such a solution, a continuously high precision in response behavior can be achieved.

• 1: eine Ansicht eines Tauwasserabflussteils mit einer Entlüftungslösung aus dem Stand der Technik;
• 2: eine Ansicht eines Tauwasserabflussteils mit einer Entlüftungslösung gemäß der Erfindung; und
• 3: eine schematische Darstellung eines mechanischen Ventils zum Einsatz in einer erfindungsgemäßen Entlüftungslösung.

Further details and advantages of the invention emerge from the exemplary embodiment discussed below with reference to the figures. In the figures show:

• 1 : a view of a condensation drainage part with a venting solution from the prior art;
• 2 : a view of a condensate drainage part with a deaeration solution according to the invention; and
• 3 : a schematic representation of a mechanical valve for use in a venting solution according to the invention.

1 shows a plan view of a plastic component known from the prior art 110 for attachment to the bottom of a device inner container. The component 110 includes a condensation area 120 with a funnel-shaped collecting tray for condensation water, which can drip off from an evaporator arranged above in the interior of the device during a defrosting cycle. At the bottom of the tub is a condensate drainage hole 121 formed, to which a condensate hose, not shown in the figure, can connect. The component also includes 110 an air inlet area 130 who made a breakthrough 131 includes for ventilation of the interior. The breakthrough is with a membrane lip 132 closed, which, however, can already be raised slightly by operating a cold air fan arranged in the device, in order to enable air to be exchanged with the environment to a small extent and thus to enable pressure equalization between the interior and the environment.

2a-2c show views of such a component modified according to the invention 10 . 2a shows a side view, 2 B a view from below and 2c a top view.

Also the component according to the invention 10 is made of plastic and is intended to be placed on the bottom of the inner container of a refrigerator and / or freezer. Particularly preferred is the arrangement on a partition between the interior and a machine room of the device, in which, in addition to a compressor of the refrigerant circuit, there is also a condensate tray for evaporation of condensate, which is arranged in thermal connection with the compressor. The perspective from the interior of the component 10 is indicated in the figure with the arrow I and the perspective from the engine room with the arrow M, the perspective of the arrow M being the view of FIG 2 B and the perspective of arrow I of the view of the 2c corresponds. Locking elements are provided on both sides of the component for a positive connection with the device inner container or a suitable counter-locking means of the device 40 intended.

The component 10 essentially divides into a condensation area 20th and an air inlet area 30th on.

The condensation area 20th comprises, as already known from the prior art, a funnel-shaped collecting pan for condensation water, which is used to collect condensation water that drips off from an evaporator arranged above it in the interior of the device during a defrosting cycle. At the bottom of the tub is a condensate drainage opening 21st formed to which a condensate hose 22nd which ultimately leads to an evaporation tray in the machine room of the device.

The air inlet area 30th includes, as in principle also the template from the prior art, a breakthrough 31 for ventilation of the interior, but this opening is smaller and circular. Instead of a cover with a membrane lip, there is a mechanical valve 50 sealing in the breakthrough 31 inserted and fixed there by means of a locking connection.

A detailed view of the mechanical air intake valve 50 is in 3 shown. It includes a sleeve-shaped jacket 54 , the outside of which has a circumferential recess for a sealing ring 55 has that the valve against the breakthrough 31 should seal. Also on the outside of the jacket 54 Not shown in the figure, locking means arranged around the valve 50 form-fitting in the opening 31 to be able to fix, the breakthrough 31 has counter-locking means, which are likewise not visible in the figure. Inside the coat 54 is an axially displaceable valve body 51 arranged by means of a spiral spring 53 against a valve seat in the form of a projection on the inner surface of the shell 54 is biased. The valve head comprises for sealing 51 a circumferential recess in which a sealing ring 52 is inserted.

This in 3 shown valve 50 is so in the in 2a-2c shown component 10 built in that the valve head 51 pointing downwards, i.e. in the direction of the engine room, and is prestressed. The valve 50 opens when there is a negative pressure in the device interior compared to the machine room and therefore the environment and the pressure difference is caused by the bias of the spring 53 exceeds the specified threshold.

The component 10 has been modified compared to the state of the art in such a way that warm air can no longer continuously penetrate into the condensation drainage area during normal operation. Rather, the valve opens 50 only when there is a defined negative pressure and closes again automatically after pressure equalization is reached. Thanks to the valves, which are available in various opening resistances, nominal diameters and consequently flow rates, the air exchange can be tailored to the size of the device in order to minimize the time interval for a door to be opened again. The mechanical valve ensures optimal sealing during operation.

Claims (5)

A refrigerator and / or freezer with a device body, a door and an interior space enclosed by the device body and covered by the door, a refrigerant circuit with an evaporator arranged in the interior space being provided for cooling the interior space, characterized in that a mechanical air inlet valve is provided, in order to be able to compensate for a negative pressure occurring in the interior by the inlet of ambient air. Refrigerator and / or freezer Claim 1 , characterized in that a condensation water drain is provided in order to guide condensation water occurring at the evaporator out of the interior, and that the air inlet valve is arranged on the condensation water drain. Refrigerator and / or freezer Claim 2 , characterized in that the air inlet valve is integrated into a component which further comprises a condensate drainage opening and optionally additionally a condensate collecting funnel. Cooling and / or freezing device according to one of the preceding claims, characterized in that the air inlet valve is designed such that it opens automatically when there is a minimum pressure difference and automatically closes again when the minimum pressure difference is not reached. Refrigerator and / or freezer Claim 4 , characterized in that the valve body is biased against its closed position by means of a mechanical spring.

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