RU2084785C1 - Household cold producing complex - Google Patents

Abstract

FIELD: refrigerating engineering; household refrigerators with forced circulation of air in cooled volume. SUBSTANCE: household cold producing complex has heat insulated chamber, cooling set with evaporator and fan, air distributing panels with louvers installed along walls to form vertical channels for passing cooled and warm air communicating with evaporator zone. Heat insulated chamber is made up of several independent unified detachable modules manufactured of rigid heat insulating material. Number of modules and, consequently, useful volume of complex can be changed as required. Modules are detachably interconnected and connected to cooling set which is also made in form of separate unified module, by means of common channels made to pass cooled and warm air and sealing members. Non-azeotropic mixture of coolants (khladons) is used as working agents in cooling set. One of modules is made as air distributor and that is why cold producing complex can be used as air conditioner. EFFECT: enlarged operating capabilities. 3 cl, 3 dwg

Description

 The invention relates to refrigeration, and more specifically to a device intended for use in household refrigerators with forced circulation of air in a refrigerated volume and air conditioners.

 Known household refrigerators with forced air circulation, for example, the company "TOMBA" (Japan) and the company "KOLDEPOT" (USA). Small refrigeration units and refrigeration transport. Reference book (under the editorship of A.V. Bykov M. Food industry, 1978, p. 54-56).

 Common signs of this type of refrigerator: the presence of a fan and air ducts; the finned evaporator and fan are outside the effective volume of the chamber; the fan feeds cold air through the channels into the chamber to ensure the necessary temperature values; the chamber has an air distribution system.

 The main advantage of this type of household refrigerators is the complete elimination of the subsidence of hoarfrost on products and the walls of the chamber. The moisture contained in the air falls on a finned evaporator, separated by a partition from the main volume of the chamber, into which dry, cooled air enters. Evaporator heating during thawing has little effect on the air temperature in the chambers and the temperature of the frozen food. Therefore, it becomes possible to carry out automatic thawing several times a day without removing frozen foods from the low-temperature chamber. This improves the storage mode of chilled products in the refrigerator, reduces its losses, and also eliminates the additional energy consumption for the compressor drive of the refrigeration unit, caused by the need to cool the chamber (compartment) and the products stored in it after defrosting.

 As a prototype, a refrigerator is selected by autosvid. USSR N 943501, class F 25 D 17/06, comprising a thermally insulated chamber, a refrigeration unit with an evaporator and a fan, air distribution panels with openings installed along the walls with the formation of vertical channels for the passage of chilled air in communication with the area of the evaporator.

The disadvantages of this type of refrigerator are:
the fixed usable volume of the refrigerator, as well as the ratio of the volumes of low- and medium-temperature chambers do not make it possible to change these parameters at the request of the consumer and leads to the need to produce a standard number of refrigerators with different values of the useful volume,
significant material consumption of the refrigerator due to the fact that thermally insulated chambers (chamber) have a common (usually metal) body,
the need for enterprises to produce a fairly wide range of refrigerators with different volume chambers leads to an increase in production costs, and hence the cost of refrigerators,
the cost of the refrigeration unit is 20-30% of the cost of the refrigerator, and therefore, reducing the standard sizes in the direction of greater cooling capacity cannot significantly increase, ceteris paribus, the cost of refrigerators, and taking into account an increase in their productivity (instead of small machines), the influence of this factor decreases,
transportation of household refrigerators from the places of their production to the place of consumption is 50% transportation of “air” of heat-insulated chambers, which increases transport costs,
Separate production of domestic refrigerators and air conditioners leads to duplication of their cooling units, which worsens their adaptability to the conditions of limited living space of apartments and increased costs for their purchase.

 The objective of the present invention is to improve the consumer properties of household cold-generating complexes, reducing material consumption and production costs for their manufacture.

 To solve this problem, in a domestic cold-producing complex having a heat-insulated chamber, a refrigeration unit with an evaporator and a fan, air distribution panels with louvre holes installed on the walls of the heat-insulated chamber with the formation of vertical channels for the passage of cooled and warm air in communication with the evaporator's location zone, a heat-insulated chamber composed of several independent removable modules. Each module has its own door. The modules are interconnected and with the refrigeration unit, also performed as a separate module, through common channels for the passage of cooled and warm air and sealing elements.

 A non-azeotropic mixture of freons was used as the working agent of the refrigeration unit, and the number of vertical channels for the passage of chilled air in communication with the separated zones of the evaporator is equal to twice the number of temperature levels of cooling.

 A separate module contains external air distribution panels for the release of cold and intake of warm air from the room. In this case, the refrigerating complex can be used as an air conditioner.

 Such a technical solution of a domestic refrigeration-producing complex, having the common advantages inherent in units with forced air circulation, allows you to get a new technical result: the ability to change the useful volume of the complex, expand its functionality.

 The consumer, changing the number of modules, can, at his discretion, assemble the refrigerator so that it possesses the required volumes of both the entire complex and individual heat-insulated chambers. In addition, the ratio of the useful volumes of low and medium temperature chambers during operation can be changed, for example, depending on the number of processed products.

 The layout of the household refrigerator, based on the needs of each specific consumer, allows to reduce the overall material consumption of the unit.

 It is possible to specialize enterprises for the production of only a unified refrigeration unit. The production of heat-insulated chambers only can be organized at specialized enterprises, which will significantly reduce storage and transportation costs.

 The presence of a door for each module allows you to reduce heat gain when opening, reduce the load on the compressor, and reduce power consumption.

 It is possible to significantly improve the consumer properties of a household refrigerator, as well as to facilitate its management, if a non-azeotropic mixture of refrigerants (for example, refrigerant P601 (P 12-P 22-P 142) TU 6-02-1226- is used as the working substance of the refrigeration unit 82) Dremmoh T.S. Silina L.B. Ilchenko L.I. "An experimental study of the properties of a solution of HF-12-16 oil and R 601 refrigerant." Refrigeration, 1984, I- p. 18-20).

 The boiling of such a refrigerant in a wide temperature range makes it possible to organize separate flows of chilled air into insulated chambers with an optimum temperature for each volume. This will protect against freezing of products in the medium temperature chamber (vegetables, fruits), facilitate the management of the domestic refrigerator due to the presence of independent air flows, and reduce energy costs by choosing the optimal working substance and the percentage of individual components in it. In such a technical solution, the number of vertical channels for the passage of chilled air communicated with the divided zones of the evaporator is equal to twice the number of temperature levels of cooling.

 The presence of separate vertical channels connected to their zone of the evaporator allows a separate module to constructively perform as an air conditioner. At the same time, the air distribution panels with holes are made external with the release of cold and the intake of warm air from the room.

 This eliminates duplication of refrigeration units, increases the unification of refrigeration equipment (compressors, heat exchangers, etc.), thereby reducing material consumption and manufacturing costs for manufacturing, and improving the consumer properties of household refrigeration complexes.

 When analyzing well-known technical solutions, no objects with similar characteristics were found, therefore, the proposed solution has a novelty and inventive step and can improve the consumer properties of household cold-producing complexes, reduce material consumption, production costs, and therefore their cost.

 In FIG. 1, 2 and 3 show the technical solutions of the proposed domestic refrigeration complex, respectively, according to claim 1, 2 and 3 of the formula of the invention (general view of the refrigeration complex and its variants).

 Figure 1 shows the proposed household refrigeration complex, consisting of separate modules (refrigeration unit 1, low-temperature chambers 2 and 3) and a cover 4 mounted on top of each other and connected by common channels for the passage of cooled and thermal air (respectively, 5 and 6) and sealing elements 7. The refrigeration unit 1, in turn, contains a compressor 8, a condenser 9 and a throttle tube 10, a finned evaporator 11, a fan 12, connected by air ducts with channels 5 and 6 for passage oh freezed and heated air, as well as a fan 13 that provides heat removal from the condenser 9. The module of the heat-insulated chamber structurally consists of a housing 14 made of rigid heat-insulating material (for example, fiberglass plastic) of the air channels 6 and 7 with the air distribution panels 15 and 16 installed on them , with louver openings for air passage. The movement of the door 17, made of heat-insulating material with a seal 18 is limited by arcs 19, which are connected with the louver holes 15, 16 and block the channels 5 and 6 when the door 17 is opened.

 In FIG. 1 shows the refrigeration unit 1 of a domestic refrigeration complex according to claim 2 of the claims of the present invention, comprising a compressor 8, a condenser 9, a throttle tube 10, and a fan 12 (20-21 cm. 12 in FIG. 1). In this case, the fans 20, 21 are connected by air ducts with channels 22, 23 for the passage of air and the divided zones of the fin evaporator (in this case 24, 25) by several air ducts (in this case, two) with vertical channels for the passage of cooled air 26 and 27 .

 In FIG. 3 shows a separate module 28 of a domestic refrigeration complex according to claim 3 of the formula of the invention, structurally designed as an air conditioner and comprising external air distribution panels 29 and 30 with louver openings connected to channels 6 and 5 for passage of cooled and warm air.

 The proposed domestic refrigeration complex according to claim 1 works as follows.

 The required number of removable modules, for example, 2, 3, is installed on the refrigeration unit and closed with a lid 4 on top. All modules are interconnected by means of common channels for the passage of chilled and heated air (respectively 5 and 6) of the type “spike” and sealing elements 7. After turning on the refrigeration unit 1, the working agent pairs are compressed by compressor 8, after which they are condensed in the condenser 9 ( the heat of condensation can be removed both by convection and forcedly by air by means of a fan 13), and throttled in the throttle tube 10. A vapor-liquid mixture of low temperatures and pressure is evaporated in a ribbed and the evaporator 1, from where it is again sent for suction to the compressor 8. The air cooled in the fin evaporator 11 is pumped by the fan 12 into the air channel 5, and from there through the air distribution panels 15 into the heat-insulated chambers 2,3, where the external heat flows through the housing 14 and the heat processed products. Heated air is taken through the air distribution panels 16 and channel 6 is directed to the finned evaporator 11.

 The proposed household and refrigeration complex according to claim 2 works as follows.

 On the refrigeration unit 1, low and medium temperature chambers are installed and the modules are closed with a lid 4. All modules are interconnected via common channels for the passage of cooled 26, 27 and 22-23 heated air and sealing elements 7. The number of vertical channels for the passage of chilled air (in this case 26.27) is equal to the number of temperature levels. After turning on the refrigeration unit 1, the compressor 8 compresses the pairs of the working refrigerant, which is used as a non-azeotropic mixture of refrigerants, for example, refrigerant P501 (P 12-P 22-P 142) TU 6-02-1226-82), after which they are condensed into condenser 9 and throttled in the throttle tube 10. The vapor-liquid mixture after the throttle tube 10 is evaporated in separate zones of the fin evaporator: low temperature 24 and medium temperature 25, from where it is again sent to the suction in compressor 8. Cooled in the low temperature zone 24 of the ribbed and the evaporator, the air is pumped by the fan 20 into the air channel 26, from where it is sent to the low-temperature heat-insulated modules, (for example, 2) of the domestic refrigeration complex, and the air cooled by the fan 21 in the medium temperature zone 25 of the finned evaporator is pumped through the air channel 27 into the medium-temperature modules (for example, 3 ) The air distribution in the chambers is similar to that described above according to claim 1.

 The proposed module 25 of a domestic refrigeration complex according to claim 3, structurally designed as an air conditioner, operates as follows.

 The treated air supplied through the channel 5 for the passage of chilled air through the external air distribution panel 29 with louver openings is sent to the room, where they provide the required heat and humidity mode. Warm air is taken from the room through an external air distribution panel 30 with louvres and through channel 6 for the passage of warm air is sent to the refrigeration unit 1 for cooling.

 The analysis of the proposed design of a domestic refrigerator showed that this technical solution improves the consumer properties of household refrigeration-generating complexes, reduces material consumption and production costs for their manufacture, i.e. allows you to get a significant social and economic effect.

Claims (3)

 1. A household refrigeration complex comprising a thermally insulated chamber, a refrigeration unit with at least one evaporator and one fan, air distribution panels with louver openings mounted on the walls of the insulated chamber with the formation of vertical channels for the passage of cooled and warm air in communication with the evaporator placement area, characterized in that the insulated chamber consists of several independent removable modules interconnected and with a refrigeration unit volume, also made in the form of a separate module, through common channels for the passage of chilled and warm air and sealing elements.  2. The complex according to claim 1, characterized in that a non-azeotropic mixture of freons is used as the working agent of the refrigeration unit, while the number of vertical channels for the passage of chilled air communicated with the divided zones of the evaporator is equal to twice the number of temperature levels of cooling.  3. The complex according to claims 1 and 2, characterized in that the separate module contains external air distribution panels for the release of cold and warm air from the room.

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