Refrigeration – Cooled enclosure
Reexamination Certificate
2002-05-30
2003-12-02
Tapolcai, William E. (Department: 3744)
Refrigeration
Cooled enclosure
C062S442000, C062S447000, C062S503000
Reexamination Certificate
active
06655170
ABSTRACT:
BACKGROUND OF THE INVENTION
Field of the Invention
The invention relates to a refrigerator with a heat-insulating housing, within which are provided at least two refrigerating compartments that are separated from one another in a heat-insulating manner, have a different freezing-compartment temperature, and that are in each case cooled by an evaporator of corresponding refrigerating capacity. Each of the evaporators has a preceding throttle device on the inflow side. Each of the evaporators are acted upon by at least one activating device, in each case separately, with refrigerant that is positively circulated by a refrigerant compressor having on the suction side preceding refrigerant collector and that, when the refrigerant compressor is in the standstill phase, is collected, at least for a particular part, in a refrigerant routing portion of the evaporator having a higher refrigerating capacity.
In cooling and freezing combinations with a single compressor, existing prior art refrigerators, for example, cool their cooling and freezing compartment respectively by evaporators interlinked in a series connection, the cooling-compartment evaporator preceding the freezing-compartment evaporator in the series connection. However, such an interconnection of the evaporators does not allow separate regulation of the two refrigerating compartments. Accordingly, there has been a move, in the case of cooling and freezing combinations equipped with a single compressor, toward placing the cooling-compartment evaporator and the freezing-compartment evaporator in a parallel connection with one another. Although such a configuration allows separate temperature regulation of the compartments cooled by these evaporators, nevertheless, the result of such an interconnection is that, during the standstill time of the refrigerant compressor in the freezing-compartment evaporator, a particular displacement of refrigerant toward the freezing-compartment evaporator commences due to the temperature and pressure difference in relation to the cooling-compartment evaporator. Consequently, when there is a demand for cold in the cooling compartment, only reduced refrigerant quantity is available for cooling the cooling-compartment evaporator and, therefore, either delay times or even malfunctions may occur.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide a refrigerator that overcomes the hereinafore-mentioned disadvantages of the heretofore-known devices of this general type and that, by simple structural measures, is configured such that, on one hand, the disadvantages of the prior art are avoided and, on the other hand, separate temperature regulation of the refrigerating compartments becomes possible.
With the foregoing and other objects in view, there is provided, in accordance with the invention, a refrigerator including a heat-insulating housing having at least two refrigerating compartments separated from one another in a heat-insulating manner, each of the compartments having a different compartment temperature, evaporators each respectively cooling one of the compartments, and each having a given different refrigerating capacity and containing a liquid refrigerant, at least one of the evaporators having a relatively higher refrigerating capacity and a refrigerant routing portion having a refrigerant reception volume, throttles each respectively fluidically connected upstream of one of the evaporators with respect to a refrigerant flow direction, a refrigerant compressor having a suction side and a standstill phase, the compressor fluidically connected to the throttles and to the evaporators for circulating the refrigerant through the throttles and the evaporators, a refrigerant collector fluidically connected to the suction side of the refrigerant compressor, the refrigerant collector collecting an amount of the refrigerant when the compressor is in the standstill phase, more than a majority of the reception volume of the refrigerant routing portion being filled with the refrigerant in the standstill phase of the compressor, and at least one activating device fluidically connected to each of the evaporators, the activating device positively and separately controlling circulation of the refrigerant through each of the evaporators.
According to the invention, the refrigerant routing portion is constructed, in terms of its refrigerant reception volume, for at least substantially filling with liquid refrigerant in the standstill time of the compressor, in particular, for at least approximately completely filling with liquid refrigerant in the standstill time of the compressor.
To avoid disadvantages of the prior art, the invention proposes that the refrigerant routing portion of the freezing-compartment evaporator, the refrigerant routing portion serving for collecting the liquid refrigerants, be dimensioned, in terms of its reception volume, such complete filling with liquid refrigerant in the standstill time of the compressor is achieved. What is achieved thereby is that, when there is a demand for cold by the cooling compartment, the liquid refrigerant is available immediately for the refrigerating circuit of the cooling compartment.
By configuring the freezing-compartment evaporator according to the invention, when there is a demand for cold in the cooling compartment, during the start-up of the refrigerant, compressor pressure is exerted on the liquid refrigerant that has accumulated in the refrigerant routing portion during the standstill time of the refrigerant compressor. As a result, directly after the start-up of the compressor, such refrigerant is transported out of the freezing-compartment evaporator into a refrigerant collector and is available from the collector for cooling the cooling-compartment evaporator. Due to the complete filling of the evaporator portion of the freezing-compartment evaporator, the evaporator portion serving for collecting liquid refrigerant during the standstill phase of the refrigerant compressor, a pressure difference acts on the accumulated liquid refrigerant during the start-up of the compressor. As a result, the liquid refrigerant is then “entrained” out of the freezing-compartment evaporator and is, therefore, fed extremely quickly to the refrigerating circuit serving for cooling the cooling-compartment evaporator.
In accordance with another feature of the invention, the refrigerant reception volume of the refrigerant routing portion is dimensioned smaller than the quantity of liquid refrigerant that accumulates during the standstill time of the refrigerant compressor in the evaporator having a higher refrigerating capacity. Such a configuration gives cost-effective rise to extremely reliable operation for the separate regulation of the freezing compartment and the cooling compartment that, moreover, can also be switched off individually due to their separate regulatability.
The evaporator having a higher refrigerating capacity is configured particularly advantageously when, in accordance with a further feature of the invention, the evaporator of higher refrigerating capacity is configured as a freezing-compartment evaporator, of which the refrigerant routing portion lying lowest in the operating position of the refrigerator is dimensioned smaller, in terms of its refrigerant reception volume, than the refrigerant quantity accumulating there in the standstill time of the refrigerant compressor. With regard to an evaporator manufactured from a composite plate structure, complete filling of the refrigerant routing portion can be achieved, for example, by a corresponding reduction in the duct cross section.
In accordance with an added feature of the invention, the evaporator of higher refrigerating capacity is configured as an evaporator system with a plurality of evaporator levels disposed at a distance one above the other. Preferably, one of the evaporator levels is a lowest evaporator level at the lowest point. For such evaporators, both plate-like evaporator levels and what are referred to as wire-tube evaporators have pro
Holz Walter
Maier Roland
Nuiding Wolfgang
Ali Mohammad M.
BSH Bosch und Siemens Hausgeräte GmbH
Greenberg Laurence A.
Locher Ralph E.
Stemer Werner H.
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