DD293638A5 - KUEHLMOEBELGEHAEUSE - Google Patents

Abstract

The invention relates to the design of Kuehlmoebelgehaeuse. According to the invention, the coolant capacitor is arranged in a Gehöuse gehoerenden Speicherbehaelter that only at the site with a liquid storage mass, z. B. water, is filled. Fig. 1 {Coolant condenser; Speicherbehaelter; Casing; Storage mass; Water}

Description

For this 2 pages drawings

Field of application of the invention

The invention is used in refrigerators and freezers.

Characteristic of the known state of the art

Refrigerators and freezers use the refrigeration process, wherein the circulating refrigerant from the refrigerated goods within the device absorbs heat and generally emits the heat at a higher temperature to the outside on the outside of the device through the condenser. The control of cooling in refrigerators and freezers is generally a discontinuous process. It is known that the energy efficiency of the refrigeration process is favorably influenced when the condensation of the refrigerant takes place at a low temperature. For the heat transfer from the coolant in the condenser to the ambient air, a temperature difference of 10 .. 20 K is necessary. In order to reduce the temperature difference between the coolant and ambient air, surface enlarging components are attached to the condenser.

It is also known that an improvement of the heat transfer can be achieved by increasing the air velocity on the outside of the capacitor.

In the patent DD 257 290 a household refrigerator is described in the compressor and condenser form a compact unit and are enclosed with a heat-storing medium. This is intended to achieve vibration damping and continuous heat transfer. The disadvantages of this design consist in a much larger manufacturing and transport mass and low heat transfer surfaces.

In discontinuous operation, high condensation temperatures and high condensation pressures occur at the beginning of the operating cycle, which adversely affect the energy consumption of the refrigerator and freezer. By using heat-storing additional masses on the coolant condenser, it is possible to reduce the temperature and pressure spraying. The application of additional masses are limited, since the total mass of the refrigerators and freezers for economic reasons can not be increased arbitrarily in terms of production and transport.

Object of the invention

The aim of the invention is to provide an energy and material-economical solution for heat emission at the condenser of the refrigerator, in which the disadvantages described are avoided.

Explanation of the essence of the invention

The invention has the object to arrange the coolant condenser so that an advantageous heat transfer via a storage mass is possible.

According to the invention the object is achieved in that the coolant condenser, in which the refrigerant condenses, is laid in a housing belonging to the storage container, the only at the site with a specific liquid storage mass, the z. B. water can be filled. Within the discontinuously regulated operation of a refrigerator or freezer initially only this water is heated and then released during the stoppage phase of the device, the heat from the water through the container wall in the ambient air. If the storage mass is sufficiently large, the condensation temperature can be lowered considerably and large energy savings during operation of the refrigerator or freezer can be achieved in this way.

Furthermore, by enlarging the heat transferring surface between the storage medium and ambient air, for. B.

improved by roughening, folding or additional vortex cell elements, heat transfer and thus increases the energy efficiency of the cooling process.

It is conceivable integration of the compressor capsule in the storage medium with the aim to reduce the compression end temperature.

To prevent corrosion and formation of unwanted chemical products, inhibition of the storage liquid is proposed.

embodiment

The invention will be explained in more detail below by exemplary embodiments.

Fig. 1: shows the arrangement of a storage container to the insulated housing of a refrigerator or freezer. Fig. 2: shows the storage container and the compressor on the insulated housing of the refrigerator or freezer.

The basic building unit refrigerators and freezers is a storage housing with an associated container, which serves to receive a corresponding storage liquid 3 and arranged in this liquid coolant condenser 4. It is advantageous to perform the rear wall of the refrigerator or freezer double-walled. The storage container 2 is designed so that there is the possibility to introduce the storage liquid 3 only at the final location of the cabinet in the storage container. This storage liquid 3 should preferably be water. In order to obtain a constant quality of the storage liquid 3, corresponding inhibitors are incorporated therein, and the storage container is sealed to prevent evaporation accordingly.

According to Figure 1, a storage container 2 is mounted on the insulated housing 1, which simultaneously forms the rear wall of the cooling furniture housing. The intended for the storage container 2 storage liquid 3 is filled only at the installation of Kühloder freezer to avoid an unnecessarily large transport weight in production and delivery. Within the storage container 2, the capacitor 4 is arranged. In this embodiment, the refrigerator can not be placed directly against a wall. It is a distance required for the heat of the compressor 5 and the storage container 2 is discharged to the environment.

Another embodiment is shown in FIG 2. The peculiarity of this embodiment is that the storage container 2 and the compressor 5 is placed on the insulated housing of the refrigerator or freezer 1. This makes it possible to place the refrigerator or freezer directly on a wall.

Claims (2)

Characterized in that the coolant condenser (4) and optionally the refrigerant compressor (5) in the part of the housing (1) is arranged, in which a liquid heat-storing mass (3) is introduced and whose outer wall (2) simultaneously forms the outer wall of the cooling-furniture housing. 2. refrigerator cabinet according to claim 1, characterized in that the filling of the storage liquid (3) can be carried out both during manufacture and only at the site.