LT5246B - Valve refrigerating system - Google Patents

Abstract

The invention relates to refrigerator, which comprises two refrigerating sections. A valve refrigerating system comprises a compressor (1), a condenser (2), a filter draining device (3), an evaporator of a storage section (7) and an evaporator of refrigerating section (6), a recuperative heater (5), a valve (4) and separator (8) of liquid. A recuperative heater (5) comprises two capillary pipes and a tailpipe (9). A separator (8) of liquid is vertical vessel in which is separated overstock of refrigerant from a storage section (7). A overstock streams to a refrigerating section (6).

Description

The invention relates to the field of technology of refrigerators having at least two compartments.

Known valve refrigeration system for refrigerators and freezers (see US 2002/0148241 Al, Oct. 17, 2002, F25 B 5/00). The system consists of a compressor, a condenser, a filter dehumidifier, a evaporator for the storage and freezing compartments, two capillary tubes and a valve. The refrigeration system operates in such a way that one of the evaporators is operated alternately with the help of a valve. This lowers the temperature of one or another refrigerator compartment. Such a refrigeration system is not efficient and functional enough. The inefficiency is due to the fact that the excess refrigerant dose after the storage compartment evaporator passes the entire freezer compartment evaporator. In this way, only one of the evaporators operates only relatively alternately, because when the storage compartment evaporator is in operation, about half of the freezer compartment evaporator is also working. Meanwhile, the other side of this evaporator is not working. The refrigerant vapor passing through the channels on this side of the evaporator creates hydraulic losses. This results in reduced system efficiency. Such a refrigeration system also limits the functionality of the refrigerator. For example, it is impossible to completely disengage the freezer compartment. If the user disconnects it, the temperature remains below it, which only partially reduces electricity consumption.

Another valve refrigeration system is known. It is a refrigerator for two non-synchronous evaporators (see US005465591A, 14.11.1995, F25 D 11/04, F25 B 5/00). The system consists of a compressor, a condenser, a filter dehumidifier, a evaporator for the storage and refrigeration compartments, two capillary tubes, which together with the suction tube form a recuperative heat exchanger and a valve. The system provides a second valve to close the freezer evaporator refrigerant volume while the storage compartment evaporator is operating. This avoids the problem of overdose and allows the system to work effectively. However, after a longer period of disconnection of the freezer compartment, some of the refrigerant in the closed compartment of this compartment will drain into the evaporator of the storage compartment. This is due to allowable leaks in this type of valve. As a result, the amount of freezing in the storage chamber evaporator eventually becomes too large and the system is inefficient and noisy.

The object of the invention is to increase the efficiency and functional capabilities of the refrigerator valve refrigeration system. The object is achieved by the fact that the system consisting of a compressor, a condenser, a filter drier, a valve, a storage chamber evaporator, a freezer chamber evaporator, has a liquid separator installed between the two evaporators consisting of a vertical vessel with a downstream tube communicating with the freezer compartment evaporator.

The invention is explained in Figures 1 and 2.

Fig. 1 is a schematic diagram of a refrigerated valve system and a freeze movement bus when only the storage chamber evaporator is operating.

Fig. 2 is a schematic representation of the same system and freeze movement bus when only the freezer compartment evaporator is operating.

The refrigerated valve system consists of storing a compressor [1], a condenser [2], a filter drier [3], a valve [4], a heat exchanger [5] consisting of capillary tubes of both evaporators together with a suction tube, a freezer chamber evaporator [6] The chamber evaporator [7], the liquid separator [8], and the vapor suction pipe [9] to the compressor, the liquid separator [8] are a vertical or almost vertical vessel having three nozzles (not shown). Two openings are at the top, one at the bottom. A tube soldered to one of the upper nozzles connecting the separator [8] to the storage chamber evaporator [7], A tube soldered to the other upper tube connecting the liquid separator [8] to the suction tube [9], A near vertical tube soldered to the lower tube which connects the separator [8] to the freezer compartment evaporator [6], the valve [4] is connected after the filter drier [3],

The valve refrigeration system works as follows. In the compressor [1], the compressed refrigerant vapor is directed to a condenser [2] where it is condensed as the condensation heat is removed to the environment. The refrigerant condensate passes through the filter dehumidifier [3] from which it enters the valve [4], Fig.1 shows a case where the refrigerant condensate passes through a respective capillary tube to a storage compartment evaporator [7] in which it is cooled by steam flowing through a suction tube [9]. The refrigerator in the storage compartment vaporizer [7] does not completely translate because its dose is too high for this evaporator. The excess liquid refrigerant is separated in the liquid separator [8], the vapor separated from the liquid is removed from this separator to the compressor [1] and the liquid drains into the freezer compartment evaporator [6], the vapor is pumped into the recuperative heat exchanger [5], the evaporator [6] has excess liquid refrigerant, does not boil or almost boils due to low temperature in the freezing compartment. In the event that this compartment is disconnected, said excess liquid refrigerant will boil, as the compartment temperature will then be close to ambient temperature. In this way, the compartment maintains the basement compartment temperature. Refrigerant boiling is based on the principle of a heat pipe whereby, under gravity, the liquid flows down the thin film and the vapor rises upwards due to the differential pressure. In this way, not only is the valve refrigerated system able to shut down any of the two refrigerator compartments for an extended period of time, but it can be used as a basement compartment when the freezer compartment is disconnected.

FIG. Fig. 2 schematically shows the same as the refrigeration system of Fig. 1, but in this case the evaporator of the freezing compartment operates [6]. Compressor [1] suppresses refrigerant vapor which is directed to condenser [2], From here condensate enters filter drier [3] and valve [4], Valve directs refrigerant by another capillary tube to freezing compartment evaporator [6], As in the first case the refrigerant passes through the recuperative heat exchanger [5], the refrigerant dose being such that the evaporator [6] operates over its entire heat exchange area. When fully boiled, the liquid is converted into steam, which is pumped through the liquid separator [8] and heat exchanger [5] to the compressor [1].

The invention is realized by conventional technological means and does not substantially increase the cost of the refrigerator. The liquid separator [8] is an almost vertical vessel of three cubic centimeters in volume with three plugs. The tubes are usually soldered to them. The refrigeration system, like conventional valve refrigeration systems, comes with two capillary tubes. One capillary tube directs the freezer to the storage compartment evaporator [7], the other to the freezer compartment evaporator [6]. Both capillary tubes together with the suction tube form a recuperative heat exchanger [5], which is also conventional and technological in design. The vapor sucked in the heat exchanger [5] cools the condensate flowing in the capillaries.

Claims (1)

DEFINITION OF INVENTION A refrigerated valve system consisting of a compressor, a condenser, a filter drier, a valve, a heat exchanger, a storage chamber evaporator, a freezer chamber evaporator, characterized in that a liquid separator is provided between the two evaporators, consisting of a vertical vessel with a downwardly connected condenser .