DE29620350U1 - Refrigerator and / or freezer - Google Patents

Description

.'•..'!L. .: .: »KS-.1996/084

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AEG Hausgeräte GmbH D-90429 Nuremberg

Description

Refrigerator and/or freezer

The invention relates to a refrigerator and/or freezer with a refrigeration machine arranged in the base area.

Such a refrigerator and/or freezer is usually used as a built-in appliance or under-counter appliance, whereby the refrigeration machine arranged in the base area must be cooled by forced ventilation. In a device operated with a circulating coolant, the refrigeration machine usually has a coolant compressor, a coolant condenser and a coolant evaporator, whereby only the first two components are arranged in the base area.

According to the European patent specification EP 0 383 221 Bl, a cooling device is disclosed which has a U-shaped cooling air flow channel in the base area, in which the compressor and the condenser as well as the fan for air circulation are arranged. The remaining space in the base area not taken up by this U-shaped flow channel is used as a vegetable compartment by means of a corresponding shape in the device. Due to the U-shaped design of the flow path, the air inlet and outlet points on the front of the device are spatially separated from one another by a comparatively large distance. This also largely prevents the air already flowing through the grain

components of the refrigeration machines and thus warmed air is sucked back in via the air inlet. However, it cannot be completely ruled out that a hydraulic short circuit will still occur.
5

The invention is therefore based on the object of specifying a refrigerator and/or freezer which has an element for separating the incoming ambient air and the outgoing exhaust air in the base area.

This object is achieved according to the invention in a refrigerator and/or freezer of the type mentioned above in that the element is designed in such a way that the inflowing ambient air and the outflowing exhaust air are directed apart at an angle. In this way, the inflowing ambient air and the outflowing exhaust air are directed apart to opposite sides, so that a hydraulic short circuit is reliably avoided.

For structural reasons and in terms of the manufacturability of the element, it is particularly advantageous if the incoming ambient air and the outgoing exhaust air are directed at approximately a right angle. Alternatively, it may be sufficient if only the outgoing exhaust air is blown out diagonally downwards.

Basically, with a modern household appliance, such as a refrigerator and/or freezer, there is a desire to make the operating noise of the appliance as quiet as possible. In contrast, the air flowing in the base area and the

_# «KS _# -il996/084 ·2&thgr;"·&idiag;&idiag;.1996

Air circulators are in principle such an undesirable source of noise. In order to reduce noise emissions, a further development of the invention provides that the element is opaque. This means that there is no direct air path parallel to the surface normal on the front of the element. Instead, the outgoing exhaust air must enter the element by redirecting its flow direction and is guided in the element according to the intended separation of supply and exhaust air.

For flow reasons and to generate a comparatively quiet, laminar flow, the element is designed to be honeycomb-like, with the honeycombs having a largely circular cross-section and running at an angle of 30 to 60 degrees, preferably 40 to 50 degrees, to the surface normal on the front side of the element.

To reduce noise emissions and to better guide the incoming ambient air and the outgoing exhaust air, it is particularly useful if the ratio of the length 1 to the diameter d of the honeycomb is greater than 2. Even further improvements can be achieved if the ratio is greater than 5, preferably even greater than 10.

Even further noise reductions can be achieved if the incoming ambient air and/or the outgoing exhaust air are diverted at least once within the element, preferably by 6 0 to 12 0 degrees. In this way, at least one of the two air flows is diverted at least once within the element in the manner of a labyrinth chicane.

20>11.1996

Embodiments of the invention are explained in more detail with reference to a drawing.

Fig. 1 in side view a section of a

Longitudinal section through a built-in refrigerator; and

Fig. 2 shows a cross-section through an element for separating incoming ambient air and outgoing exhaust air.

Fig. 1 shows a side and partial view of a longitudinal section through a built-in cooling device 2. The cooling device 2 comprises a cooling chamber 4 and a chamber 6 arranged in the base area for use as a vegetable compartment. The device 2 is closed at the front by means of a door 8 with an integrated door seal 10 and is also covered with a furniture door 12. Between the floor 14 and the base area of the device 2 an exhaust air flow can be seen guided in a flow channel as indicated by arrows 16. The exhaust air flow is guided through an element 18 to separate the incoming ambient air and the outgoing exhaust air, with the element 18 filling a gap between the furniture base 20 and the lower edge of the device. The air flow circulating in the device base is used to cool the compressor and the condenser, whereby the refrigeration components and the fan are not shown here.

Fig. 2 shows the element 18 for separating incoming ambient air and outgoing exhaust air in a cross-section. The element 18 is constructed like a honeycomb and has 'circular flow

.'KS _- -Ji 996/084 •'2*0* »11.1996

ventilation channels 22, which are deflected once by 90 degrees in terms of their flow direction on both the inflow and outflow sides. Both on the user side and on the device side, the flow directions of the inflowing ambient air and the outflowing exhaust air are at approximately a right angle to each other. The air flows are guided away from each other at this angle, so that a hydraulic short circuit, which would result in the heated exhaust air being sucked in again, is safely avoided.

So that this element 18 also contributes to noise reduction, the flow channels 22 have, on the one hand - as already mentioned at the beginning - a 90-degree deflection of the flow direction within the channels 22. However, this deflection can also be designed as a deflection in the manner of a labyrinth chicane, in which the air can be guided parallel to the front surface. However, an element designed in this way is considerably more complex in terms of construction and production technology than the element shown in the exemplary embodiment.

As a further noise reduction measure, the element 18 is opaque, which means that there is no direct flow path parallel to a normal vector N. Rather, in the present embodiment, the incoming or outgoing air must flow through the element 18 with a single deflection. This deflection is not absolutely necessary, but has a beneficial effect on reducing noise emissions.

Claims (7)

• · .•KS.-1996/084 *2&thgr;*.#&idiagr;&Iacgr;.1996 AEG Hausgeräte GmbH D-90429 Nürnberg Claims 1. Refrigerator and/or freezer (2) with a refrigeration machine arranged in the base area, for the cooling of which ambient air is sucked in from the front, guided over the refrigeration components of the refrigeration machine and the exhaust air is blown out again from the front, wherein an element (18) for separating the incoming ambient air and the outgoing exhaust air is provided in the base area in such a way that the incoming ambient air and the outgoing exhaust air are guided apart at an angle. 2. Refrigerator and/or freezer according to claim 1, characterized in that the incoming ambient air and the outgoing exhaust air are directed at an approximately right angle. 20 3. Refrigerator and/or freezer according to claim 1 or 2, characterized in that the element (18) is opaque. 4. Refrigerator and/or freezer according to claim 3, characterized in that the element (18) is constructed in a honeycomb manner, wherein the honeycombs have a largely circular cross-section and run at an angle of 30 to 60°, preferably 40 to 50°, to the surface normal (N) on the front side of the element (18). 5. Refrigerator and/or freezer according to claim 4, characterized in that the ratio of length 1 of the honeycomb to diameter d of the honeycomb is greater than 2. 6. Refrigerator and/or freezer according to claim 5, characterized in that the ratio is greater than 5, preferably greater than 10. 10 7. Refrigerator and/or freezer according to one of claims 1 to 6, characterized in that. the incoming ambient air and/or the outgoing exhaust air is deflected at least once within the element (18), preferably by 60 to 120°.