RU1361U1 - cooling chamber - Google Patents

Abstract

1. A refrigerator containing a heat-insulated casing with a door, made in the form of a transport container, and a refrigerator, consisting of an evaporator equipped with a fan for blowing its surface and a tray for collecting melt water, a cold accumulator, a compressor, a condenser, a fan for cooling the latter and control valve, characterized in that the refrigeration unit is located inside the chamber, and the compressor, condenser and fan for cooling them are installed in the unit compartment formed by olnennoy chamber thermally insulated cubicle adjacent to at least one of the vertical walls of the housing and having a cover, with its outer side facing the inner volume kamery.2. The chamber according to claim 1, characterized in that the evaporator is equipped with an aerodynamic pressure sensor. The camera on pp. 1 and 2, characterized in that the cold accumulator is made in the form of a container connected to a tray for collecting melt water. 4. The camera on pp. 1-3, characterized in that it is provided with a partition made in the form of a curtain, forming two different-temperature compartments inside the chamber.

Description

COLD SHERA

The utility model relates to refrigeration and can be used at trade enterprises, public catering, in farms, as well as transporting perishable products.

Known cold chamber in the form of k | a multi-tonnage geriatric container, which consists of a housing in which a thermally insulated cargo compartment is formed with an air cooler placed in it and gas-tightened from the ends of the cargo compartment — an aggregate compartment equipped with a removable lid with openings for access to the fire air, in which a compressor and condenser unit is installed (Reference Small refrigeration unit installations and refrigerated transport edited by A.V. Zykov, M., Food Lromishennoe, 1978, p.). However, this structural embodiment of the device, in which the removable deerets of the aggregate compartment is made 1zBdaoy from the walls of the corus of the chamber, leads

J- J to reduce structural rigidity.

As a prototype, a refrigerator was selected that contains a thermally insulated one with a door, made in the form of a transport container, with an evaporator and a tray of melt water placed in it, as well as an aggregate compartment with a compressor, condenser and fan installed in it, located on the outside of the camera on the platform, g attached to kortsuou-and supply) ё |: folding EShm (see the advertising and technical description of the refrigerating chamber of JSC ENEKOS, g, St. Petersburg, attached to the application materials).

ШШ Р25Д 11/00

that is due to the placement of the aggregate compartment on the outside of the container and its fastening on the corps X / oo / v / c-z ghA / in g / -7 // glz / e / H OS о С Э & риз6об1 € 1б о7ь

The problem to which the claimed utility model is directed is to create 1L refrigeration chambers, with robust structural design, convenient transportation and high cold-productivity |

The technical result that can be achieved while using the inventive cooling chamber is to ensure ease of transportation, to maintain structural rigidity, and also to increase cold production.

The indicated technical result is achieved by the fact that in a refrigerator containing a thermally insulated corsus with a door, made in the form of a transport container with an evaporator and a water collection tray placed in it, and an aggregate compartment with a lid with a combs} condenser and a fan installed in it, according to the claimed utility model, the aggregate compartment is made in the form of a thermally insulated partition placed in the container and adjacent to at least one of the vertical walls of the corse, in which are made tverstiya gzhnogo for access to said service module. The achievement of the specified technical result is also facilitated by the fact that the evaporator is equipped with a fan for blowing its surface and an aerodynamic pressure sensor

% Moreover, the specified technical result is achieved by the fact that the camera is equipped with a storage battery connected by a sub-collector for collecting melt water ...

- /;

The implementation of the aggregate compartment in the form of a thermally insulated partition, which is located inside the container and flies to at least one of the vertical walls of the housing, in which openings are made for access of external air to the aggregate compartment, provides the convenience of transporting the chambers while maintaining the effective operation of refrigeration equipment. This is due to the fact that the aggregate compartment does not go beyond the overall dimensions of the short / ca and thus does not create inconvenience during loading and unloading operations and stacking associated with the transportation of chambers.

Fulfillment of the condition according to which, the cover of the aggregate compartment with its outer side facing into the morning volume contributes to maintaining the integrity of the walls of the corus of the chamber and thereby ensuring the fulfillment of the conditions for maintaining structural rigidity while increasing ease of transportation.

The supply of the chamber with a fan and an aerodynamic pressure sensor, which is used to control the freezing of the evaporator surface and contributes to the timely thawing process, leads to the intensification of the heat exchange process, thereby increasing the cooling capacity of the device. The presence of an akk-lyatvra tank connected to a tray for collecting melt water leads to an additional increase in the cooling capacity of the inventive device due to the beneficial use of the cold, which is water coated during thawing of the evaporator and flowing from the sump into the tank. Sleeping and measuring a partition made in the form of a curtain, forming two different temperature compartments inside the chamber allows one of the compartments, with a lower temperature, to be used to freeze food, and the other to store them, and the 1FI curtain can be easily removed. % ome addition for

the canopy helps reduce heat production, which also leads to increased cold performance.

On knock € 1san section of a cold chamber

Figure 1 is a top view of a refrigerator without a ceiling.

The refrigerator compartment is made in the form of a transport container, consisting of a metal all-welded corusus I with a door 2. In the 1st part of the housing I, longitudinal grooves 3 are provided for transporting the container using a forklift. At the top of the container, rods 4 are made for gripping and under; lifting the container with hooks of hoisting cranes

The inner surface of the container I of the container is covered with thermal insulation 5 with a metal lining 6,

Inside the container, in its upper corner part, there is an aggregate compartment made in the form of a thermally insulated partition 7 adjacent to the walls of the housing. The aggregate compartment is equipped with a lid 8, which with its outer side faces the inner chamber. This arrangement is brief does not violate the integrity of the walls of the corusus, contributing to this fulfillment of the conditions for maintaining structural rigidity. In the aggregate compartment are placed kom1Ts] essor 9, a capacitor with a receiver 10 and fan II. In the vertical walls adjacent to the septum of the corseus I, openings 1 are made for access of external air to the aggregate compartment. the container contains an evaporator 13, under which a shddon 14 is fixed for collecting melt water. To increase the cooling capacity of the chamber, the evaporator 13 is equipped with a fan 15 for blowing its surfaces and an aerodynamic pressure sensor 16 located downstream of the evaporator.At the same time, the compressor, condenser and evaporator are connected by a piping to form a closed circulation circuit. Inside the container, a storage tank is also installed in the form of a 17 "tank connected via a pipe to ACR 14 to collect melt water. The refrigerator compartment is equipped with a partition 18 made in the VID9 curtain, which forms two different temperature compartments inside the compartment. As a refrigerant can be used -.

The work of the refrigerator is as follows. To achieve a predetermined temperature in the chamber, the chiller is switched on. In this case, the refrigerant vapor that is sucked in by the compressor 9 from the evaporator 13 is compressed in it and pumped into the condenser 10, where due to cooling of its surface with gun air entering the aggregate compartment through openings 1 made in the vertical walls of the housing I, their condensation occurs. Further, the refrigerant after the condenser is throttled “passing through the regulating valve (not shown in the drawing) after which its pressure decreases, and the vapor-liquid mixture of refrigerant formed after throttling is directed to the ХЗ evaporator whose outer surface is blown by the fan 15, in which the refrigerant is boiling, to intensify heat transfer, lowering the temperature in the chamber, resulting in cooling or freezing of the products loaded into it. % and operation of the refrigerator, it may be necessary to quickly cool or freeze the products. For such a situation, 1 partition 18, which is filled in the form of a curtain, dividing the kame into d $ a compartment is provided. 6 compartment, in which the evaporator 13 with the fan 15 is located, the temperature will be much lower than in the corner compartment due to more intensive cooling and mixing of air in it. During operation of the chiller, after some time, frost forms on the surface of the evaporator, which leads to an increase in aerodynamic drag / lhtg

Lziya passes air, as a result of which its consumption is reduced. In order to achieve a certain minimum air flow rate, the aerodynamic pressure sensor 16 instructs the chiller to operate in defrost mode. The melt water generated from the surface of the evaporator flows into the tray 14 and then flows through the pipeline to the storage tank 17. After the evaporator is completely defrosted, the flow air reaches its maximum value and the aerodynamic pressure sensor 16 instructs the chiller to operate in cooling mode. Melt melt collected in the tank-regulator 17 has a rather low temperature and freezes during the cooling of the chamber. The ice that has formed} and this ice is used for laying shpvtsshs I QTKTOB and cooling them during the transportation of the refrigeration chamber in automobile or other types of transport.

Thus, M} claimed refrigerating chamber preserving the rigidity of the structure is more convenient in comparison with the shchutotype during transportation and has a higher cooling capacity.

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Claims (4)

1. A refrigerator containing a heat-insulated casing with a door, made in the form of a transport container, and a refrigerator, consisting of an evaporator equipped with a fan for blowing its surface and a tray for collecting melt water, a cold accumulator, a compressor, a condenser, a fan for cooling the latter and control valve, characterized in that the refrigeration unit is located inside the chamber, and the compressor, condenser and fan for cooling them are installed in the unit compartment formed by olnennoy chamber thermally insulated cubicle adjacent to at least one of the vertical walls of the housing and having a cover, with its outer side facing the inner volume of the chamber. 2. The chamber according to claim 1, characterized in that the evaporator is equipped with an aerodynamic pressure sensor. 3. The camera according to paragraphs. 1 and 2, characterized in that the cold accumulator is made in the form of a container connected to a tray for collecting melt water. 4. The camera according to paragraphs. 1-3, characterized in that it is provided with a partition made in the form of a curtain, forming two different-temperature compartments inside the chamber.