WO2022148988A1 - Combined refrigeration unit - Google Patents

Abstract

The invention relates to combined refrigeration units, the upper part of the body of which is in the form of a display cabinet, and the lower part of the body of which is in the form of a display chest, the display cabinet and display chest being connected to one another by a circulating manifold. The essence of the invention consists in the fact that the combined refrigeration unit additionally comprises a bypass channel for cooled air from the display cabinet into the display chest, wherein the inlet side of the bypass channel is arranged along the front end wall of the bottom shelf of the display cabinet, and the outlet side of the bypass channel adjoins the display chest at the rear wall thereof. The technical result of the proposed invention is that of simplifying the structure, increasing the circulation of cooled air and also simplifying the loading and unloading of goods.

Description

COMBINED REFRIGERATION UNIT

Technical field

The invention relates to combined refrigeration units, the upper part of the body of which is made in the form of a cabinet-showcase, and the lower part of the body is made in the form of a cabinet-showcase, which are interconnected by a circulating manifold.

Prior Art

At the present stage, refrigerated display cabinets N2N2 PCT/UA2020/000026, RU69722 U, RU22230 U and refrigerated medium and low temperature cabinets N2N2 DE3047327, US251 8242, DE1 02007047305, GB631681, RU152882 are widely used in retail stores for demonstration and implementation goods. In general, a refrigerated display cabinet (vertical open multi-deck with transparent front) is a vertically oriented case with a transparent front surface (doors) for displaying goods. Medium- and low-temperature refrigerated cabinets are (horizontal open single-deck with transparent front) a horizontally oriented case with top and side transparent surfaces for displaying goods.

Subsequently, in order to increase the use of the retail space and increase the demonstration of goods, combined refrigeration units appeared, the upper part of the body of which is made in the form of a display cabinet, and the lower part of the body is made in the form of a cabinet-showcase, which are connected between a circulating collector located along the rear wall of the housing.

Thus, Carrier Commercial Refrigeration has developed a technical solution for a combined refrigeration unit under the Vantis® trademark, model N° SG4-AF-GL +.A8 (L), containing a housing, the upper part of which is made in the form of a display cabinet, and the lower part of the housing is made in in the form of a cabinet-showcase connected to the cabinet-showcase by means of a circulating collector located along the rear wall of the case.

With such an arrangement, the circulating collector is divided along the length of the combined refrigeration unit into outlet and inlet channels, to which, respectively, an injection or exhaust fan is adjacent to ensure the circulation of cooled air in the cabinet-showcase and bonnet-showcase. The evaporator and supply or exhaust fans are located in the space under the bottom shelf and the bottom wall of the case.

The evaporator is connected to the evaporator refrigerant supply system, which usually consists of a condenser and a compressor. The evaporator is designed to remove heat from the cooled air circulating in the housing of the combined refrigeration unit.

The disadvantages of this solution are:

- the complexity of the design caused by the need to use the supply and exhaust fans in the supply and exhaust manifolds formed as a result of the separation of the circulating manifold along the length of the refrigeration unit, - low uniformity of the cooled air outlet to the shelves of the cabinet-showcase and the cabinet-showcase along their length and height, caused by the need to divide the circulating manifold along the length into inlet and outlet manifolds, - the presence of supply and exhaust fans requires maintaining their joint operation, which reduces the efficiency of work combined refrigeration unit.

The essence of the invention The objective of the proposed invention is to simplify the design.

Also the objective of the proposed invention is to increase the efficiency of circulation of cooled air.

Also, the objective of the proposed invention is to increase the efficiency of the use of cooled air.

Also, the objective of the proposed invention is to increase the uniformity of the distribution of cooled air along the height and length of the combined refrigeration unit.

Also, the objective of the proposed invention is to expand the design of the combined refrigeration units.

Also, the objective of the proposed invention is to eliminate the shortcomings of the prior art.

Other objectives and advantages of the proposed invention will be disclosed below as the presentation of the present description and figures.

To solve the tasks set, a well-known combined refrigeration unit, containing, a housing, the upper part of which is made in the form of a display cabinet, and the lower part of the case is made in the form of a cabinet-showcase connected to the cabinet-showcase by means of a circulating cooled air collector located along the rear wall of the case; the unit additionally contains a bypass channel of cooled air from the cabinet-showcase to the cabinet-showcase, while the inlet side of the bypass channel is located along the front end wall of the lower shelf of the cabinet-showcase, and the outlet side of the bypass channel is adjacent to the cabinet-showcase from the side of its rear wall.

The presence of a bypass channel allows for uniform removal of cooled air along the entire length of the lower part of the showcase, ensuring a uniform supply of cooled air to the back of the showcase from the side of the circulating collector.

At the same time, when using the proposed invention, a uniform downward flow of cooled air is formed from the upper part of the cabinet-showcase to the lower part of the cabinet-showcase along the entire length and height of the combined refrigeration unit. In the island-showcase there is a uniform removal of cooled air throughout it into a circulating collector along the entire length of the lower shelf of the refrigerating chamber.

Also, according to the proposed invention, under the lower shelf of the cabinet, near the rear wall of the case, there is a blower fan for intake and subsequent supply cooled air from the bottom of the island cabinet to the circulating collector.

This makes it possible to reduce the resistance in the supply of cooled air from the bottom of the cabinet to the circulating collector, and also allows organizing a uniform removal of cooled air along the entire length of the circulating collector, which increases the efficiency of the combined refrigeration unit, the efficiency of circulation of cooled air and allows you to quickly maintain the set temperature values.

Also, according to the proposed invention, the evaporator is installed on the inlet side of the circulating manifold, after the blower, in the direction of the cooled air.

As a result, the evaporator is located in the zone of the highest possible overpressure generated by the blower fan, which allows to increase the working surface of the evaporator, and also allows better flow of cooled air through the evaporator. At the same time, the evaporator has aerodynamic resistance, which leads to equalization of the cooling air flow after the evaporator along the entire length of the circulating collector, which is also an advantage of the proposed invention.

The location of the evaporator along the rear wall of the case from the inlet side of the circulating manifold after the blower, which is installed under the bottom shelf of the island showcase, makes it possible to reduce the cavity formed between the bottom shelf of the island showcase and the bottom wall of the case, which makes it possible to increase the useful volume of the island showcases, which is also an advantage of the proposed invention.

Also, according to the proposed invention, a distribution channel is formed between the wall of the circulating collector and the rear wall of the cabinet-case, connected to the bypass channel and having a blank partition on the side of the blower.

The presence of a distribution channel makes it possible to thermally insulate the evaporator from the rear wall of the cabinet, which increases the efficiency of maintaining the temperature across the width of the cabinet. At the same time, the presence of a blind partition in the distribution channel on the side of the blower fan prevents the cooled air from slipping through the distribution channel to the blower fan.

Also, according to the proposed invention, the connection of the distribution channel with the island showcase through the passage holes made in the back wall of the island showcase ensures the removal of cooled air along the entire height of the back wall of the island showcase, which improves the convection of cooled air in the island showcase, which in in general, allows you to increase the efficiency of the use of cooled air. And also, in the case of using a sliding shelf in the design of the island showcase, it facilitates the removal of cooled air along a short path to the blower fan, which ensures stable operation of the combined refrigeration unit and less dispersion of cooled air during the extension of the lower shelf from the island showcase, which is also an advantage of the proposed inventions. Also, according to the proposed invention, a cavity is formed in the bypass channel, located above the bonnet showcase in its rear part between the wall of the circulating collector and the front wall of the housing.

The presence and location of the cavity above the cabinet-showcase allows you to equalize the flow of cooled air entering the bypass channel from the bottom of the cabinet-showcase, which ensures a uniform supply of cooled air to the cabinet-showcase from the back. Also, the presence of a cavity acts as a cooled air accumulator, which makes it possible to increase the efficiency of the island showcase, and also allows you to increase the volume of circulation of cooled air, which increases the temperature difference and improves the efficiency of the combined refrigeration unit during extreme loads caused by a high degree of loading of goods, work during high positive temperature values of the ambient air. Also, an increase in the volume of circulating cooled air increases the efficiency of the combined refrigeration unit as a whole.

Also, according to the proposed invention, the rear wall of the island-showcase in the upper part has a slope, expanding from the distribution channel to the front wall of the housing. This makes it possible to increase the area of the rear wall of the cabinet, through which the cooled air is supplied, and also makes it possible to increase the volume of the cavity formed in the bypass channel.

Also, according to the proposed invention, the inlet side of the bypass channel is formed between the lower shelf showcase cabinet and front wall of the case. This makes it possible to simplify the design and reduce the material consumption of the refrigerated display case, and also allows to reduce the compactness of the bypass channel, which does not lead to a decrease in the useful volume of the display cabinet or cabinet display case, and also allows to increase the efficiency of maintaining temperature on the lower shelf of the display cabinet.

Also, according to the proposed invention, the rear wall of the display cabinet is formed by the wall of the circulating collector, in which the through holes are made. This makes it possible to simplify the design and reduce the material consumption of the combined refrigeration unit, and also allows for a uniform supply of cooled air along the height and width of the display case.

Also, according to the proposed invention, in the lower shelf of the island-showcase, a cooled air passage is made under the lower shelf, while the passage is located along the front wall of the island-showcase. This ensures uniform circulation of cooled air over the entire depth and width of the cabinet.

Also, according to the proposed invention, the lower shelf of the island-showcase contains a front reflective plate located along the front wall of the island-showcase, while the passage channel is located between the front wall and the front reflective plate. The presence of a front reflective shield allows you to increase the height of the volume of cooled air, which is located on the lower shelf of the cabinet. Also, according to the proposed invention, in the circulating collector there is a throughput throttle of the cooled air. This allows you to equalize the distribution of cooled air along the length of the circulating collector, which ensures a uniform supply of cooled air to the shelves of the display cabinet through the through holes of its rear wall, and also allows you to increase the uniformity of the supply of cooled air to the upper part of the display cabinet to form a falling flow of cooled air in front of shelves located in the display cabinet.

Also, according to the proposed invention, a throughput throttle of cooled air is installed on the inlet side of the bypass channel. This allows you to align the cooled air outlet along the length of the cabinet-display case into the bypass channel.

Also, according to the proposed invention, in the passage channel of the lower shelf of the cabinet showcase, a throughput throttle of cooled air is installed. This makes it possible to equalize the circulation of cooled air in the cabinet, and also allows to equalize the outlet of cooled air to the blower for subsequent supply.

Also, according to the proposed invention, the lower shelf of the island-showcase is made retractable and the front wall of the island-showcase adjoins the front side of the lower shelf. This allows you to simplify the loading, the arrangement of goods in the bonnet-showcase, and also simplifies its cleaning.

Also, according to the proposed invention, the lower shelf of the island-showcase contains a rear reflective shield located along the rear wall of the island-showcase. it allows you to keep the height of the cooled air on the lower shelf during its extension from the cabinet.

Also, according to the proposed invention, the bottom shelf of the island-showcase is made retractable and the front wall of the island-showcase adjoins the front side of the bottom shelf, while in the bottom shelf of the island-showcase there is a cooled air passage channel under the lower shelf, which is located along the front wall of the island showcases, also the lower shelf of the caset-showcase contains front and rear reflective plates, while the front reflective plate is located along the front wall of the caset-showcase, and the passage channel is located between the front wall and the front reflective plate, and the rear reflective plate is located along the back wall of the caset showcases.

Also, according to the proposed invention, guide rollers are adjacent to the lower part of the front wall of the island showcase, which simplifies the movement of the island showcase.

Also, according to the proposed invention, the front reflective plate is made higher in height than the rear reflective plate.

figures

In the implementation of the proposed invention, narrow terminology is used, however, the proposed invention is not limited to 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. 1 is a schematic side view in section of a combined refrigeration plant according to the invention. Fig.2 - fragment I of Fig.1.

Fig.Z - fragment II of Fig.1. Fig.4 - fragment III of Fig.1.

Fig.5 - fragment IV of Fig.1.

Fig.6 - combined refrigeration unit of Fig.1 with extended lower shelf from the cabinet showcase.

Fig. 7 is a front view of Fig. 1 of a combined refrigeration plant according to the invention.

Fig. 8 is a general view of Fig. 7 with a cross section in the side wall.

The list of positions shown in Fig.1 - Fig.8: 1 - housing;

1i - rear wall of the housing 1;

Lg - front wall of the body 1;

1h - lower wall of the housing 1;

2 - display case; 2i - rear wall of display cabinet 2;

2g - lower shelf of display cabinet 2;

2h - front end wall of the lower shelf 2g of the display cabinet 2;

24 - doors of the cabinet-showcase 2; 3 - bonet showcase;

3i - rear wall of the cabinet 3;

Zg - passage holes made in the rear wall 3i of the island showcase 3;

Зз - the slope of the upper part of the rear wall 3i island showcase 3; 34 - the lower shelf of the island-showcase 3;

35 - throughput channel of cooled air under the lower shelf З4;

3 ₆ - front wall of the island showcase 3; Z7 - front reflective shield of the lower shelf Z4 of the island-showcase 3;

3 ₈ - rear reflective shield of the lower shelf Z4 of the island-showcase 3;

Ze - guide rollers of the lower shelf Z4 of the island-showcase 3; Zyu - the upper door of the island-showcase 3;

Ei - throughput throttle of the cooled air, installed in the throughput channel Z5 of the cooled air under the lower shelf Z4;

З12 - passage holes of the throughput throttle Zp; 4 - circulating collector;

4i - wall of the circulating collector 4;

4g - passage holes made in the wall of the circulating manifold 4, forming the rear wall 2i of the display cabinet 2; 4h - throughput throttle of the cooled throttle installed in the circulating collector 4;

4 ₄ - passage holes of the throughput throttle 4z;

5 - evaporator;

6 - blower fan; 7 - bypass channel;

7i - the cavity formed in the bypass channel 7;

7g - cooled air throughput throttle installed on the inlet side of the bypass channel 7; 7z - passage holes of the throughput throttle 7g;

8 - distribution channel;

8i is a blank partition that separates the distribution channel 8 from the blower 6.

An example of the implementation of the invention

Figure 1-Figure 8 shows an example of implementation, according to the proposed invention. Case 1, the upper part of which is made in the form of a cabinet-showcase 2, and the lower part of the case 1 is made in the form of a island-showcase 3.

The circulating collector 4 of the cooled air is located along the rear wall 1i of the housing 1 and connects the cabinet-showcase 2 with the cabinet-showcase 3. The evaporator 5 is installed on the inlet side of the circulating collector 4, after the blower 6, in the direction of the cooled air.

The bypass channel 7 for supplying cooled air from the cabinet-showcase 2 to the cabinet-showcase 3 is located along the front wall 1g of the body 1. The inlet side of the bypass channel 7 adjoins along the front end wall 2c of the lower shelf 2g of the cabinet-showcase 2, and the outlet side of the bypass channel 7 adjoins the island-showcase 3 from the side of its rear wall 3i.

Under the bottom shelf 3 _{4 of} the island showcase 3, near the back wall 1i of the case 1, there is a blower fan 6 to remove cooled air from the bottom of the island showcase 3 to the circulating collector 4. The blower 6 is located in the cavity formed between the bottom shelf Z4 of the island showcase 3 and bottom wall 1z of body 1. The inlet side of the bypass channel 7 is formed between the bottom shelf 2g of the showcase 2 and the front wall 1g of the case

one.

In the bypass channel 7, a cavity 7i is formed, located above the island-showcase 3 from the side of its rear wall 3i between the wall 4i of the circulating collector 4 and the front wall 1g of the housing 1.

Between the wall 4i of the circulating collector 4 and the rear wall 3i of the island showcase 3, a distribution channel 8 is formed, connected to the bypass channel 7. The distribution channel 8 of the cooled air has a blank partition 8i on the side of the blower 6. The blank partition 8i prevents the flow of cooled air through the distribution channel 8 to blower 6.

In the rear wall 3i of the island showcase 3, passage holes 3g are made, through which the cooled air enters the island showcase 3. At the same time, the distribution channel 8 is connected to the island showcase 3 through throughholes 3g, made in the rear wall 3i of the island showcase 3.

The rear wall 3i of the cabinet 3 in the upper part has an inclination 3z, expanding from the distribution channel 8 to the front wall 1g of the body 1. Above the inclination 3z there is a cavity 7i of the bypass channel 7. As a result of the inclination 3z, the volume of the cavity 7i increases, which is used in as an air cooler. On the inlet side of the bypass channel 7, a throughput throttle 7z of the cooled air is installed. The rear wall 2i of the display cabinet 2 is formed by the wall 4i of the circulating manifold 4, in which through holes 4g are made to supply cooled air from the circulating manifold 4 to the shelves of the display cabinet 2 located along its height.

In the circulating collector 4 there is a throughput throttle 4z of the cooled air.

In the lower shelf 34 of the island-showcase 3, a cooled air passage Z5 is made under the lower shelf Z4, while the passage channel Z5 is located along the front wall _3b of the island-showcase 3.

The lower shelf Z4 of the island showcase 3 contains a front reflective shield Z7 located along the front wall З _b of the island showcase 3, while the throughput channel З5 is located between the front wall З _b and the front reflective shield З7.

In the throughput channel З5 of the lower shelf З4 of the island showcase 3, a throughput throttle Зп of cooled air is installed.

The lower shelf З4 of the island display case 3 is retractable and the front wall З _b of the island display case 3 adjoins the front side of the lower shelf З4.

The lower shelf З4 of the island showcase 3 contains a rear reflective shield З _b located along the rear wall 3i of the island showcase 3.

Guide rollers Ze are adjacent to the lower part of the front wall _3b of the island showcase 3.

The depicted combined refrigeration plant in Fig.1-Fig.8 operates as follows.

Connect the evaporator 5 to the cooling system (not shown in the figures) for circulation in the evaporator 5 coolant. Typically, the cooling system consists of a condenser and a compressor (not shown in the figures).

After that, the blowers 6 are turned on, located along the length of the refrigeration unit, as a result of which air is supplied from the cavity located between the lower shelf 3 ₄ of the cabinet 3 and the lower wall 1z of the case 1 into the circulating manifold 4 on the inlet side of which the evaporator 5 is installed. as a result of the interaction of air with the surface of the evaporator 5, the air is cooled and uniformly distributed (levelled) along the length of the circulating collector 4, since the evaporator 5 creates aerodynamic resistance. After the evaporator 5, the cooled air moves through the circulating collector 4 and passes through the throughput throttle 4c of the circulating collector 4. The throughput throttle 4c equalizes the pressure of the cooled air along the length of the circulating collector 4, which increases the efficiency of supplying cooled air through the through holes 4d to the shelves of the display cabinet 2, located below the level of the throughput throttle 4h in the circulating manifold 4. From the circulating manifold 4, one part of the cooled air flow goes to form a downward curtain in front of the display cabinet shelves 2, and the other part of the cooled air through the through holes 4g of the circulating channel 4 enters the cabinet shelves - showcase 2 and the cooled air is mixed along the shelves of the display cabinet 2 from the rear wall 2i of the display cabinet 2. The cooled air in the display cabinet 2 moves to its lower part, in which the lower shelf 2g of the display cabinet 2 is located. From the bottom of the cabinet -showcases the cooled air is removed to the inlet side of the bypass channel 7, located along the front end wall 2c of the lower shelf 2g of the display cabinet 2. In the inlet side of the bypass channel 7, a throughput throttle 7c of the cooled air is installed, which distributes the uniform removal of the cooled air along the width of the bypass channel 7.

Since the inlet side of the bypass channel 7 is formed between the bottom shelf 2g of the display cabinet 2 and the front wall 1g of the housing 1, the result is additional cooling of the lower shelf 2g of the display cabinet 2.

The cooled air enters the cavity 7i formed in the bypass channel 7 and located above the cabinet 3 in its rear part between the wall 4i of the circulating collector 4 and the front wall 1g of the housing 1. (alignment) of the cooled air flow along the entire length of the bypass channel 7. From the cavity 7i of the bypass channel 7, part of the cooled air enters the through holes 3g made in the rear wall 3i of the cabinet 3, including the slope 33. And the other part of the cooled air from the cavity 7i enters the distribution channel 8, located between the rear wall 3i of the island showcase 3 and the wall 4i of the circulating channel 4. its height, while the blank partition 8i prevents the flow of cooled air from the distribution channel 8 to the blower 6.

Chilled air is discharged from the cabinet 3 through the cooled air passage 3s under the lower shelf Z4 in a cavity formed between the lower shelf 3 _{4 of} the island showcase 3 and the bottom wall 1c of the body 1. From under the bottom shelf H4 of the island showcase 3, the cooled air is removed by the blower fan 6 to the evaporator 5, located on the inlet side of the circulating collector 4, to remove heat from cooled air, resulting in the described circulation of cooled air.

During operation of the combined refrigeration unit, temperature sensors (not shown in the figures) register the temperature values in the cabinet-showcase 2 and the cabinet-showcase 3. The set temperature values are maintained by the speed of rotation of the blower fan 6 and the amount of coolant supply to the evaporator 5.

In the process of operation of the combined refrigeration unit, according to the proposed invention, goods are loaded (not shown in the figures) onto the shelves of the cabinet-showcase 2 and the cabinet-showcase 3. At the same time, to simplify the loading of goods into the cabinet-showcase 3, its lower shelf Z4 is pulled out beyond the front wall З _b of the island-showcase 3. The front wall З _b in its lower part contains guide rollers Ze, which reduce the load in the process of moving the lower shelf З4. The front Z7 and rear 3s baffles keep the goods on the bottom shelf Z4 as it moves.

It should be noted that when the lower shelf H4 is extended from the island showcase 3 along the back wall, a downward flow of cooled air is formed, which leaves through the through holes Zg into the lower cavity of the island showcase 3, located between the lower shelf H4 of the island showcase 3 and the bottom wall 1h housing 1. At the same time, the downward flow of cooled air, which moves along the rear stack 3i of the island showcase 3 immediately along a short path is discharged into the blower fan 7, which is located under the rear wall ₃ cooled air enters through the rear baffle plate 3 ₈ into the lower part of the cabinet 3 on the lower wall 1z of the housing 1 located between the lower wall 1z of the cabinet 1 and the lower shelf Z4 of the cabinet 3, from where the cooled air is discharged by the blower fan 6 into the circulating collector 4. This leads to an increase in the efficiency of the use of cooled air, which is also an advantage of the proposed invention.

Through the doors 2 ₄ of the display cabinet 2, goods are loaded and unloaded onto its shelves.

By means of the upper door Zu of the cabinet-showcase 3, goods are also loaded and unloaded, including by buyers.

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 of the proposed invention. Information that is obvious to those skilled in the art and that does not contribute to a better understanding of the essence of the proposed invention has not been given in this description.

For example, it is understood that the housing is thermally insulated to prevent heat loss. The figures do not show a system for draining condensate from the housing. Technical result

The technical result of the proposed invention is to simplify the design, increase the circulation of cooled air, as well as simplify the loading and unloading of goods.

Claims

CLAIM

1. Combined refrigeration unit, which contains a body 1, the upper part of which is made in the form of a display case 2, and the lower part of the body 1 is made in the form of a cabinet-showcase 3 connected to the display case 2 by means of a circulating cooled air collector 4 located along of the rear wall 1i of the housing 1, the combined refrigeration unit also contains an evaporator 5 and a blower fan 6 supplying cooled air to the circulating collector 4, characterized in that the combined refrigeration unit additionally contains a bypass channel 7 of the cooled air from the cabinet-showcase 2 to the bonnet-showcase 3, while the inlet side of the bypass channel 7 is located along the front end wall 2c of the lower shelf 2g of the cabinet-display case 2, and the outlet side of the bypass channel 7 is adjacent to the cabinet-showcase 3 from the side of its rear wall 3i.

2. Installation according to claim 1, in which under the lower shelf 3 ₄ of the cabinet 3, near the back wall 1i of the housing 1, there is a blower fan 6 for intake and subsequent supply of cooled air from the bottom of the cabinet 3 to the circulating collector 4.

3. Installation according to claim 1, in which the evaporator 5 is installed on the inlet side of the circulating manifold 4, after the blower 6, in the direction of the cooled air.

4. Installation according to claim 1, in which between the wall 4i of the circulating manifold 4 and the back wall 3i of the cabinet 3, a distribution channel 8 is formed, connected to bypass channel 7 and having a blank partition 8i on the side of the blower 6.

5. Installation according to claim 4, in which the distribution channel 8 is connected to the island showcase 3 through the through holes 3g made in the rear wall 3i of the island showcase 3.

6. Installation according to claim 1, in which a cavity 7i is formed in the bypass channel 7, located above the island showcase 3 in its rear part between the wall 4i of the circulating collector 4 and the front wall 1g of the housing 1.

7. Installation according to claim 5, in which the back wall 3i of the island showcase

3 in the upper part has a slope 3z, expanding from the distribution channel 8 to the front wall 1g of the housing 1.

8. Installation according to claim 1, in which the inlet side of the bypass channel 7 is formed between the bottom shelf 2g of the display cabinet 2 and the front wall 1g of the housing 1.

9. Installation according to claim 1, in which the rear wall 2i of the display cabinet 2 is formed by the wall 4i of the circulating manifold 4, in which the through holes 4d are made.

10. Installation according to claim 1, in which in the lower shelf 3 _{4 of} the bonnet showcase 3, a throughput channel Z _{5 of} cooled air under the lower shelf H ₄ is made, while the throughput channel Z ₅ is located along the front wall _3b of the bonnet showcase 3.

11. The installation according to claim 10, in which the lower shelf Z _{4 of} the casement showcase 3 contains a front reflective shield Z7 located along the front wall 3 _b of the casement showcase 3, while the passage channel Z ₅ is located between the front wall 3 _b and the front reflective shield Z7.

12. Installation according to claim 1, in which in the circulating collector

4 there is a throughput throttle 4z of the cooled air.

13. Installation according to claim 1, in which a throughput throttle 7g of cooled air is installed on the inlet side of the bypass channel 7.

14. The installation according to claim 10, in the passage channel 3s of the lower shelf Z4 of the island showcase 3, a throughput throttle Zp of cooled air is installed.

15. Installation according to claim 1, in which the lower shelf Z4 of the island-showcase 3 is retractable and the front wall _3b of the island-showcase 3 adjoins the front side of the lower shelf Z4.

16. Installation according to claim 15, in which the lower shelf H4 of the island showcase 3 contains a rear reflective shield 3s located along the rear wall 3i of the island showcase 3.

17. Installation according to claim 1, in which the lower shelf Z4 of the island display case 3 is retractable and the front wall Zb of the island display case 3 adjoins the front side of the lower shelf Z4, while in the lower shelf Z4 of the island display case 3 a throughput channel Z5 of chilled air under the lower shelf Z4, which is located along the front wall Z _b of the island showcase 3, also the lower shelf Z4 of the island showcase 3 contains the front Z7 and rear 3s reflective shields, while the front reflective shield Z7 is located along the front wall Z _b of the island showcase 3, and the passage channel _3b is located between the front wall 3b and the front reflective plate 37, and the rear reflective plate 3b is located along the rear wall 3i of the island showcase 3.

18. Installation according to claim 17, in which the guide rollers Ze are adjacent to the lower part of the front wall З _b of the cabinet showcase 3.

19. Installation according to claim 17, in which the front reflective shield Z7 is made higher in height than the rear reflective shield Zb-