WO2017157523A1

WO2017157523A1 - Refrigerator and/or freezer device

Info

Publication number: WO2017157523A1
Application number: PCT/EP2017/000341
Authority: WO
Inventors: Martin Kerstner; Jochen Hiemeyer; Michael Freitag
Original assignee: Liebherr-Hausgeräte Lienz Gmbh; Liebherr-Hausgeräte Ochsenhausen GmbH
Priority date: 2016-03-16
Filing date: 2017-03-16
Publication date: 2017-09-21
Also published as: RU2018136208A3; RU2731573C2; EP3430333A1; RU2018136208A; CN109196291A; US20190056167A1; DE102016003223A1

Abstract

The invention relates to a refrigerator and/or freezer device having at least one body and at least one cooled inner chamber arranged inside the body, said device comprising at least one coolant circuit which cools the inner chamber, and the coolant circuit comprising at least one condenser, at least one heat pipe being provided that is in direct or indirect thermal contact with the condenser and is arranged such that it forms at least one part of a frame heating system for the device and/or is in thermal contact with the outer skin of the device.

Description

Fridge and / or freezer

The present invention relates to a refrigerator and / or freezer with at least one body and at least one arranged in the body cooled interior, the device having at least one refrigerant circuit, which serves to cool the interior, wherein the refrigerant circuit has at least one condenser.

Such refrigerators or freezers in many different embodiments are known from the prior art.

In the condenser, the condensation of the refrigerant takes place, during which heat is released.

In known devices, this heat is usually released to the environment via free or forced convection. The present invention has the object of developing a refrigerator or freezer of the type mentioned in such a way that the Verflüssigerabwärme is used efficiently.

This object is achieved by a refrigerator and / or freezer with the features of claim 1.

Thereafter, it is provided that at least one heat pipe is provided, which is in direct or indirect thermal contact with the condenser and which is arranged such that it forms at least part of the frame heating of the device and / or in thermal contact with the outer skin of the device stands.

The present invention thus uses the heat generated in the region of the condenser and indeed for operating a frame heating and / or for heating at least part of the outer jacket of the device according to the invention.

Under a frame heater is a heater to understand that heats a certain part of the body of the device, namely the directed to the closure element and the open side of the body surrounding area.

This frame heating can be performed circumferentially or the opening only partially, for example, U-shaped surrounded and has the purpose to prevent icing of the device in the region of the opening and thus in the region of the closure element, such as a door, flap or drawer.

The heating of the outer skin of the device has the advantage that an undesirable formation of condensate on the outer skin of the device is prevented. Preferably, the heating of the outer skin is thus designed such that the temperature of the outer skin is kept above the dew point of water. By means of the present invention, it is possible to make sensible use of the waste heat produced at the condenser anyway and not simply to conduct it into the environment of the device. This use consists in one or both alternatives in the form of the frame heating or the heating of the outer skin of the device.

The heat pipe can be filled with water or with a water-containing solution as a heat transport medium. Such a heat pipe or heat pipe is based on the principle that on one side of the heat pipe evaporation of a heat transfer medium takes place and at another point and preferably in the other end of the heat pipe condensation takes place. As a result, heat is supplied in one area of the heat pipe and in the other area in which the condensation takes place, heat is released by the heat pipe. This amount of heat released can now be used according to the invention to form a frame heating or to heat the outer skin of the device.

On a separate frame heating, which forms part of a refrigerant circuit, for example, can thus be dispensed with according to the invention, as well as a separate heating of the outer skin, for example by a heating foil.

Instead of water or an aqueous medium, any other heat transfer media come into consideration, by means of which the heat pipe is filled.

In a further embodiment of the invention it is provided that the heat pipe is designed as a vitreous thermal heat pipe.

This means that the backflow of the heat transport medium in the region in which the evaporation is carried out by gravity and not by other effects, such as a capillary action. The heat pipe thus preferably has no capillaries for transporting the heat transport medium. In a further embodiment of the invention, it is provided that the condenser communicates with at least one heat accumulator and is preferably arranged in a liquid bath, in particular in a water bath.

This embodiment of the invention utilizes the fact that the heat energy of the heat accumulator charged by the condenser with heat can be used to operate the heat pipe and thus to transfer the heat to another location of the apparatus.

The condenser may be arranged, for example, in the heat storage, such as in a liquid bath or with a heat storage in other ways in connection. The present invention thus relates not only to the case where the at least one heat pipe is in thermal contact with the condenser, but also to the case where the at least one heat pipe is in thermal contact with the heat accumulator, which in turn is in thermal contact with the condenser ,

Also, it is not mandatory that the heat pipe is in direct contact with the outer skin. It is sufficient if a thermal connection between the outer skin of the device is so far that a condensation on the outer skin can be reliably prevented.

In a further embodiment of the invention, exactly one heat pipe is arranged. The device may also have a plurality of heat pipes, which are directly or indirectly in thermal contact with the condenser or with the heat storage of the condenser.

Furthermore, it can be provided that by means of the at least one heat pipe, a large part of the heat quantity accumulating in the condenser is dissipated. It is conceivable, for example, that more than 50% and preferably more than 80% of the liquid accumulating heat quantities are removed by means of at least one heat pipe.

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

The embodiment relates to a refrigerator and / or freezer with a full vacuum insulation. This is an insulation to understand in which the body consists of at least 90% of the insulating surface of a contiguous Vakuumdämmraum. The vacuum insulation chamber has at least one vacuum insulation body, which preferably has a foil bag which serves as a covering of the vacuum insulation body and in which a core material, for example perlite, is located. The film bag is vacuum-tight welded and has a vacuum inside, so that the heat transfer is correspondingly difficult.

Typically, the envelope of the film bag is a diffusion-tight enclosure, by means of which the gas input in the film bag is so greatly reduced that the gätragtrag-related increase in the thermal conductivity of the resulting Vakuumdämmkörpers is sufficiently low over its lifetime away.

The life span is, for example, a period of 15 years, preferably 20 years and more preferably 30 years. Preferably, the increase in the thermal conductivity of the vacuum insulation body due to the introduction of gas is <100% and particularly preferably <50% over its service life.

Preferably, the area specific gas transmission rate of the cladding is <10-5 mbar * 1 / s ^* m ^2, and more preferably <10-6 mbar ^* 1 / s ^* m ² (measured according to ASTM D-3985). This gas passage rate applies to nitrogen and oxygen. For other types of gas (especially water vapor), low gas flow rates are preferably in the range of <10-2 mbar ^* I / s ^* m ² and more preferably in the range of <10-3 mbar ^* I / s * m ² (measured according to ASTM F - 1249-90). Preferably, the above-mentioned small increases in the thermal conductivity are achieved by these low gas passage rates.

The above values are exemplary, preferred indications which do not limit the invention.

The vacuum insulation body can be arranged in the body and / or in the closure element, by means of which the body can be closed.

However, the present invention is not limited to such full vacuum refrigerators or freezers.

The invention also includes the case that a conventional thermal insulation, for example in the form of PU foam is present.

The refrigerator or freezer according to the invention has a refrigerant circuit, the at least one compressor, at least one downstream of this condenser, at least one downstream throttle, in particular capillary and at least one evaporator, in which enters the capillary leaving the refrigerant.

After flowing through the evaporator, the refrigerant passes back to the compressor via a suction line.

The evaporator absorbs heat from the cooled interior, with the refrigerant evaporating. The condenser is used to condense the refrigerant, whereby heat is generated. The condenser is according to the embodiment in a heat storage, such as in a water bath. During operation of the refrigerant circuit, ie during operation of the compressor, at least part of the heat accumulating in the condenser is transferred to this heat accumulator. The heat accumulator communicates with one or more heat pipes, ie heat pipes. These are filled with water and designed such that the heat transfer medium therein is vaporized during operation of the heat medium circuit within the heat pipe. The heat pipe is at its other end with the outer skin, which is preferably designed as a sheet metal jacket, in conjunction. In this area of the heat pipe, the condensation of the heat transfer medium takes place, whereby heat is released, which is transmitted to the outer skin of the device. Furthermore, a heat pipe runs from the condenser or from the heat storage mentioned to a frame heating of the device, which extends around the open side of the body of the device and which serves to heat the door stop surface. This heat pipe thus also causes a heating of a certain area of the device and serves as a frame heating in this case.

By the present invention, the Verflüssigerabwärme is used meaningfully, which can be dispensed with according to the use of separate heaters accordingly. Neither a separate frame heating is necessary, nor a separate heater for heating the outer skin for the purpose of condensate avoidance.

The heatpipes can transport the heat to a larger area of the outer skin or into the area of said frame, in order to be able to selectively effect a heating there.

Claims

claims

1. refrigerator and / or freezer with at least one body and with at least one arranged in the body cooled interior, wherein the device has at least one refrigerant circuit, which serves to cool the interior, wherein the refrigerant circuit comprises at least one condenser, characterized in that at least one heat pipe is provided which is in direct or indirect thermal contact with the condenser and which is arranged such that it forms at least part of a frame heating of the device and / or is in thermal contact with the outer skin of the device.

2. Cooling and / or freezing appliance according to claim 1, characterized in that the heat pipe is filled with water or with a water-containing solution as a heat transport medium.

3. Cooling and / or freezing appliance according to claim 1 or 2, characterized in that the heat pipe is designed as a gravitative heat pipe.

4. Cooling and / or freezing appliance according to one of the preceding claims, characterized in that the condenser is in communication with at least one heat storage and is preferably arranged in a liquid bath, in particular in a water bath.

5. Cooling and / or freezing appliance according to claim 4, characterized in that the at least one heat pipe is in thermal contact with the heat storage.

6. Cooling and / or freezing appliance according to one of the preceding claims, characterized in that exactly one or more heat pipes are provided, which are in thermal contact with the condenser.

7. Cooling and / or freezing appliance according to one of the preceding claims, characterized in that the at least one heat pipe is designed such that more than 50% and preferably more than 80% of the amount of heat accumulating on the condenser are removed by means of the at least one heat pipe.