WO2021024047A1

WO2021024047A1 - Refrigeration unit

Info

Publication number: WO2021024047A1
Application number: PCT/IB2020/054513
Authority: WO
Inventors: Юрий ХАРЧЕНКО
Original assignee: Юрий ХАРЧЕНКО
Priority date: 2020-05-13
Filing date: 2020-05-13
Publication date: 2021-02-11
Also published as: RU2762803C1

Abstract

The invention relates to refrigeration units, in a refrigeration compartment of which a curtain of cooled air is formed in front of food products which are on display and are arranged on shelves of the refrigeration compartment. The essence of the proposed invention consists in that a recess is formed in the lower part of a rear, thermally insulated wall of a housing, in which recess the rear, thermally insulated wall of the housing faces the rear wall of a refrigerated display case, wherein a supporting surface is formed in the lower part of the recess and projects out of the recess, and on said supporting surface is mounted a compressor, above which an inlet port of an air manifold is arranged. The technical result of the proposed invention is to prevent heat from being transferred from the compressor to the refrigeration compartment, while at the same time producing the forced cooling of the compressor, and to increase the volume in which the compressor is arranged, for use of piston-type or hermetically sealed scroll compressors.

Description

REFRIGERATION UNIT

Technology area

The invention relates to refrigeration units in the refrigerating chamber of which a curtain of cooled air is formed in front of the exposed food products located on the shelves of the refrigerating chamber.

In more detail, the invention relates to commercial refrigerated display cases, refrigerated cabinets, commercial refrigerators (hereinafter referred to as the refrigeration unit) in which a curtain of cooled air is formed in front of the food products being exposed.

Prior art

A refrigeration unit is known, see Belarusian patent for utility model N ° BY10232, see FIG. 1, containing a vertically oriented housing 1, inside of which there is a refrigerating chamber 2 with shelves 2i, while between the rear wall 2g of the refrigerating chamber 2 and the rear thermally insulated wall 1i of the housing 1 there is an evaporator 3, and in the upper part of the housing there is a condenser 4 with a fan 4i , while the condenser 4 is adjacent to the air collector 5, located on the outer surface of the rear heat-insulated wall 1i of the housing 1 and containing the inlet port 5i of the air collector 5, and the compressor 6 is located in the lower part of the housing 1.

The design feature of the known technical solution is that the compressor 6 is located between the rear wall 2g of the refrigerating chamber 2 and the rear heat-insulated wall 1i of the housing 1 cm. FIG. 1. A casing 6i is installed on the compressor 6, which is attached to the rear heat-insulated stack 1i of the casing 1. The casing 6i is located between the rear wall 2g of the refrigerating chamber 2 and the rear insulated wall 1i of the casing 1. The insulated rear wall 1i of the casing 1 is a "sandwich" panel, made of steel sheets between which a heat-insulating layer is formed.

As compressor 6, hermetic scroll compressors are used, which are not required to be forcedly cooled, as for reciprocating compressors. At the same time, access, technical inspection, repair and replacement of the compressor 6 is carried out as follows - the rear wall 2g of the refrigerating chamber 2 is dismantled and the casing 6i, which is fixed on the rear heat-insulated wall 1i of the housing 1, is removed.

The use of a known technical solution allows you to increase the volume of the refrigerating chamber 2.

The peculiarity of the known technical solution is that in the refrigerating chamber 2 a curtain of descending cooled air flow is formed in front of the exposed products located on the shelves 2i of the refrigerating chamber 2.

In the known technical solution, the refrigerant circulates in a closed loop from the compressor 6 through the condenser 4 to the evaporator 3 and back. The air flow is cooled in the evaporator 3 located between the rear wall 2g of the refrigerating chamber 2 and the rear heat-insulated wall 1i of the housing 1. The disadvantage of the known technical solution is the removal of all heat from the compressor 6 into the refrigerating chamber 2 through the protective casing 6i and the rear wall 2g of the refrigerating chamber 2. This reduces the efficiency of the known refrigeration plant and increases the consumption of electrical energy.

Also, the disadvantage of the known technical solution is the limited space formed between the rear wall 2g of the refrigerating chamber 2 and the rear thermally insulated wall 1i of the housing 1, which complicates access and increases the time during the maintenance, repair and replacement of the compressor 6.

Also, the disadvantage of the known technical solution is the impossibility of using reciprocating compressors, the price of which is significantly lower than the price of hermetic scroll compressors.

The impossibility of using reciprocating compressors in the known technical solution is due to the need for forced cooling. In the known technical solution, it is impossible to organize forced cooling of the compressor 6, since it is located between the rear wall 2g of the refrigerating chamber 2 and the rear heat-insulated wall 1i of the housing 1. Piston compressors also have a large transverse diameter (dimensions) compared to hermetic scroll compressors. Therefore, when trying to use a piston compressor in the known solution, it will be necessary to increase the space between the rear wall 2g of the refrigerating chamber 2 and the rear thermally insulated wall 1i of the housing 1, which automatically leads to a decrease in the useful volume of the refrigerating chamber 2, and also violates aerodynamic parameters of the cooled air curtain in the refrigerating chamber 2.

The essence of the invention

The object of the proposed invention is to eliminate the removal of heat from the compressor to the refrigerating chamber.

It is also an object of the proposed invention to provide forced cooling of a compressor.

It is also an object of the proposed invention to increase the compressor cooling efficiency.

It is also an object of the proposed invention to use scroll hermetic and reciprocating compressors without reducing the useful volume of the refrigerated display case.

It is also an object of the proposed invention to expand the design of refrigeration units.

It is also an object of the proposed invention to eliminate the disadvantages of the prior art.

Other objects and advantages of the proposed invention will be disclosed below as the present description and figures are presented.

To solve this problem in a known refrigeration unit containing a vertically oriented housing, inside which there is a refrigerating chamber with shelves, while an evaporator is located between the rear wall of the refrigerating chamber and the rear thermally insulated wall of the body, and a condenser with a fan is located in the upper part of the body, while the condenser is adjoined by an air collector located on the outer surface of the rear a thermally insulated wall of the housing and containing an inlet window of the air manifold, and in the lower part of the housing there is a compressor, according to the proposed invention, that in the lower part of the rear thermally insulated wall of the housing a niche is formed in which the rear thermally insulated wall of the housing is directed to the rear wall of the refrigeration display part of the niche, a support surface is made, which protrudes from the niche, and a compressor is installed on the said support surface, above which the inlet window of the air manifold is located.

Also, according to the proposed invention, the support surface protrudes from the recess to the outer surface of the air manifold.

Also, according to the proposed invention, the rear heat-insulated wall of the housing of the niche is made in the form of a removable heat-insulated cover, hermetically connected to the rear heat-insulated wall of the housing.

Also, according to the proposed invention, the refrigeration unit additionally contains a protective screen of the niche, containing through holes and installed on the rear heat-insulated wall of the housing.

Also, according to the proposed invention, a fan is installed in the through hole of the protective screen of the niche, directed towards the compressor.

Also, according to the proposed invention, a hermetic scroll compressor is used as the compressor.

Also, according to the proposed invention, a piston compressor is used as the compressor. Also, according to the proposed invention, the installation further comprises a condensate evaporator for the refrigerating chamber and an evaporator located in the lower part of the housing.

When using the proposed invention, the compressor is located behind the casing in a niche made in the rear heat-insulated casing wall, which allows to eliminate heat removal from the compressor to the refrigerating chamber, and also allows you to create forced cooling of the compressor.

Since the supporting surface protrudes from the niche, this allows an increase in the volume in which the compressor is located, and this makes it possible to install both reciprocating compressors and hermetic scroll compressors, as well as this makes it possible to simplify installation, technical inspection, repair and replacement of the compressor.

Since the support surface protrudes from the niche to the outer surface of the air manifold, this allows, in the existing dimensions of the refrigeration unit, to displace the compressor from the rear heat-insulated wall of the housing, which improves the surface cooling of the compressor, and also simplifies the technical inspection, repair and replacement of the compressor.

The presence of a removable heat-insulated cover for the rear wall of the niche housing provides access to the compressor from the rear wall of the refrigerating chamber. In this case, the removable heat-insulated cover of the rear heat-insulated wall of the housing is attached hermetically to prevent possible air exchange between the refrigerating chamber and the niche formed in the rear heat-insulated wall of the housing.

The use of a protective screen limits access to the compressor by third parties, which reduces the possibility theft and damage to compressor elements, especially during transportation of the refrigeration unit, which is also an advantage of the proposed invention.

The installation of an additional fan directed to the compressor on the protective screen also makes it possible to create additional forced cooling of the compressor, which is also an advantage of the proposed invention.

During the operation of the refrigeration unit, condensate forms in the refrigerating chamber and on the evaporator, which is discharged into the evaporator. In the lower part of the evaporator vessel there are heating elements for evaporating condensate. Evaporation of condensate leads to an increase in humidity, which can lead to oxidation (corrosion) of the compressor components and connections, or the supporting steel frame members. Therefore, positioning the air manifold inlet above the compressor reduces moisture in the niche in which the compressor is located, which is also an advantage of the present invention. Shapes

In the implementation of the proposed invention uses narrow terminology, however, the proposed invention is not limited to the accepted terms and it should be borne in mind that each such term covers all equivalent elements that work in a similar way and are used to solve the same problems.

Fig. 1 is a schematic side view of a showcase refrigeration unit according to the prior art. FIG. 2 is a schematic side view of a showcase refrigeration unit according to the invention.

FIG. 3 is a view of FIG. 2 from the side of the rear heat-insulated housing wall.

List of positions

1 - building.

1i - back heat-insulated housing wall 1.

1d a niche made in the rear heat-insulated wall 11 of the housing 1.

1h - support surface of the niche 1d.

2 - refrigerating chamber.

2i - refrigerator compartment shelves 2.

2d - back wall of the refrigerating chamber 2. 3 - evaporator.

4 - capacitor.

4i - condenser fan 4.

5 - air manifold.

5i - air manifold inlet 5. 6 - compressor.

7 - protective screen

7i - shield fan

8 - evaporator. FIG. 2, Fig. 3 shows an example of a refrigeration plant according to the invention. The refrigeration unit contains a vertically oriented housing 1, inside which there is a refrigeration chamber 2 with shelves 2i. Between the back wall 2g of the refrigerating chamber 2 and the back The evaporator 3 is located by the heat-insulated wall 1i of the housing 1. In the upper part of the housing 1 there is a condenser 4 with a fan 4i to which an air collector 5 is connected, located on the outer surface of the rear heat-insulated wall 1i of the housing 1.

In the lower part of the rear heat-insulated wall 1i of the housing 1, a niche 12 is formed, in which the rear heat-insulated wall 1i of the housing 1i is directed to the rear wall 2d of the refrigerating chamber 2. In the lower part of the niche 1d, a support surface 1 h is made, which protrudes from the niche 1d to the outer surface of the air collector 5 cm. FIG. 2.

A compressor 6 is installed on the support surface 1h. Above compressor 6, there is an inlet port 5i of the air manifold 5. A protective screen 7 with through holes is installed on the rear heat-insulated wall 1i of the housing 1 on the niche 1d and protects the compressor 6 from the side of the rear heat-insulated wall 1i of the housing 1.

A fan 7i is mounted on the protective screen 7 and directed towards the compressor 6. The condensate evaporator 8 is located in the lower part of the housing 1 under the inlet 5i of the air collector 5.

Refrigeration plant operation FIG. 2, Fig. 3, according to the proposed invention, is that the refrigerant is circulated in a closed loop from the compressor 6 through the condenser 4 to the evaporator 3 and back. Compressor 6 compresses the refrigerant, increasing the pressure. In the condenser 4, a phase transition of the refrigerant into a liquid state occurs and the temperature released during the phase transition is discharged by the air flow formed by the fan 4i supplied from the air collector 5. In the evaporator 3, refrigerant evaporates, as a result of which heat is taken (removed) from the circulating air in the refrigerating chamber 2.

In the refrigerating chamber 2, a curtain of a falling flow of circulating cooled air is formed in front of the products (not shown in the figures) located on the shelves 2i of the refrigerating chamber 2.

The cooling of the circulating air in the refrigerating chamber 2 occurs as a result of its interaction with the outer surface of the evaporator 3 (the figures do not show the means for forming the circulating flow of cooled air in the refrigerating chamber 2).

During the circulation of cooled air in the refrigerating chamber 2 and on the evaporator 3, condensate is formed, which is discharged into the evaporator 8 located in the lower part of the housing 1. In the evaporator 8, condensate is evaporated by means of heating elements (not shown in the figures).

During the operation of compressor 6, one part of the heat is dissipated into the environment, since the niche 1g is open on one side, and the other part of the heat is removed as a result of the formation of a convective air flow in the niche 1d as a result of heating the compressor 6, while the formed convective flow from the niche 1g enters the inlet port 5i of the air collector 5. Also, with a convective flow from the niche 1g, water vapor formed during the evaporation of condensate in the evaporator 8 is removed, which reduces the humidity in the niche 1g. It should also be noted that due to the fan 7i, installed on the protective screen 7 and directed to the compressor 6 and to the niche 1d, the formation of forced cooling of the compressor 6 also occurs. When using the proposed invention, the useful volume of the refrigerating chamber 2 does not decrease, but the heat removal from compressor 6 into the refrigerating chamber 2, since the compressor 6 is located behind the casing 1 in a recess 12 formed in the rear heat-insulated stack 1i of the casing 1.

Also, when using the proposed invention, an increase in the cooling of the compressor 6 occurs due to the location of the inlet port 5i above the compressor 6, due to the direction of the fan 7i of the protective screen 7 to the compressor 6, and also due to the formation of a convective air flow in the niche 1d due to the heating of the air by the compressor 6 in niche 1g.

Also, when using the proposed invention, an increase in the volume of the niche 1g occurs, in which the supporting surface 1z protrudes from the niche 1 g, which makes it possible to install piston or hermetic scroll types of compressors, which also improves the technical inspection, repair and replacement of the compressor 6, while in the case of replacing the compressor 6 , it can be replaced by another type (spiral, piston) without changing the design of the refrigeration unit, which is also an advantage of the proposed invention.

The proposed invention is not limited to the above example of its implementation.

This description provides information that is necessary and sufficient for a clear understanding of the essence the proposed invention. Information that is obvious to specialists in this field of technology and which did not contribute to a better understanding of the essence of the proposed invention were not given in this description.

For example, it will be understood that the protective shield may include locking means. On the support surface vibration isolators can be located on which the compressor is installed.

In the place of the evaporator, condensate from the refrigerating chamber and the evaporator can be discharged into the sewer. The removable heat-insulated niche cover may contain seals to provide more tightness to eliminate air exchange between the refrigerating chamber and the niche. The air manifold can be formed from a set of air manifolds or contain baffles to delimit the air flows generated by fans installed along the length of the housing.

The support surface may contain means for adjusting its extension from the niche of the rear heat-insulated wall of the housing.

It is also understood that an additional compressor cooling fan mounted on the protective shield can be activated when certain compressor temperature values are reached.

Technical result

The technical result of the proposed invention is the elimination of heat removal from the compressor to the refrigeration a chamber with the simultaneous creation of forced cooling of the compressor and an increase in the volume in which the compressor is located for the use of reciprocating or hermetic scroll compressors.

Claims

CLAIM

1. Refrigeration unit containing a vertically oriented casing, inside which there is a refrigerating chamber with shelves, while an evaporator is located between the rear wall of the refrigerating chamber and the rear heat-insulated wall of the casing, and a condenser with a fan is located in the upper part of the casing, while an air collector is adjacent to the condenser located on the outer surface of the rear heat-insulated wall of the housing and containing the inlet window of the air manifold, and in the lower part of the housing there is a compressor, characterized in that a niche is formed in the lower part of the rear heat-insulated wall of the housing, in which the rear heat-insulated wall of the housing is directed towards the rear wall of the refrigerated display case , while in the lower part of the niche there is a support surface that protrudes from the niche, and a compressor is installed on the said support surface, above which the inlet window of the air manifold is located.

2. Installation according to claim. 1, characterized in that the supporting surface protrudes from the niche to the outer surface of the air manifold.

3. An installation according to claim 1, characterized in that the rear heat-insulated wall of the niche body is made in the form of a removable heat-insulated cover, hermetically connected to the rear heat-insulated wall of the body.

4. Installation of 1, characterized in that it additionally contains a protective screen of a niche containing through holes and mounted on the rear heat-insulated wall of the case.

5. Installation of 4, characterized in that a fan is installed in the through hole of the protective screen of the niche, directed to the compressor.

6. Installation according to 1, characterized in that a hermetic scroll compressor is used as a compressor.

7. Installation according to 1, characterized in that a reciprocating compressor is used as a compressor.

8. Installation according to 1, characterized in that it additionally contains a condensate evaporator for the refrigerating chamber and an evaporator located in the lower part of the housing.