KR950003074B1 - Cooling air circulating apparatus of open showcase - Google Patents

Abstract

The device comprises circulating pathes (15a,16a) for the cooling air on the inner sides (1a,1b) and the bottom of the show case, a blaster honey-comb (6) at the upper side of the showcase; a central divider (12) seperating the inner space into two space (1A,1B); an evaporator (14) and a blast fan (11), and a air suction port (7) connected to the central circulating path (12a) at the top of the central divider (12).

Description

Cooling air circulator in open showcase

1 is a longitudinal cross-sectional view of a conventional open showcase.

2 is a longitudinal sectional view of the open showcase to which the cooling air circulation system according to the present invention is applied.

* Explanation of symbols for main parts of the drawings

4: evaporator 6: air blowing honeycomb

7: suction port 11: blower fan

13, 18: honeycomb guide 15, 16: cooling air guide plate

17: air distribution plate 19, 20: air blower

21: Air suction stand 22: Blowing guide

23, 24: air film

The present invention relates to a cooling air circulator of a flat open showcase, and in particular, cooling air is blown downward from the center of the interior to inject in both directions and circulated by suction to the center to increase the efficiency of the air membrane and to make the best use of the high effective contents. An open showcase cooling air circulator.

A typical embodiment of a conventional flat open showcase is shown in FIG. 1, in which 1 is a heat insulating body, 2 is a compressor, 3 is a condenser, 4 is an evaporator, and 5 is an expansion valve. Among the components constituting the cooling system, the evaporator 4 is installed inside the main body 1, and other parts are provided outside the main body 1.

The inside of the main body 1 is provided with a central separator 12 in the middle portion, a blower fan 11 is installed on one side of the evaporator 4, the air guide plate 8 is provided on both sides. A split plate 10 is installed below the air guide plate 8 on both sides, and an air blowing honeycomb 6 is installed above the air guide plate 8, and an intake port 7 is provided on the other side of the air guide plate 8. ) Is installed.

In the figure, reference numeral 13 denotes a honeycomb guide, 14 shows a cover, and "P" shows a refrigerant pipe.

When the compressor 2 is operated by applying power to the conventional flat open showcase configured as described above, the evaporator 4 absorbs the surrounding heat to cause cooling, and the blower fan 11 rotates to start blowing. do.

At this time, the circulation of the cooling air flows through the air guide plate 8 when the blowing fan 11 rotates, the blowing air passes through the evaporator 4, passes along the air guide plate 8 and passes the blowing honeycomb 6, wherein the cooling air It changes from a turbulent air flow to a laminar flow, and flows while forming an air film in the opening of the open showcase body 1 and is sucked into the inlet 7.

Cooling air sucked into the suction port 7 flows down the partition plate 10 along the air suction plate 9 and is repeatedly sucked by the suction force of the blower fan 11 and circulated to the evaporator 4 again. Done.

However, the cooling structure of the conventional open showcase has a large volume occupied by the cooling unit and the blower unit by performing the cooling and blowing operation by placing the evaporator 4 and the blower fan 11 on the lower side of the main body 1 of the heat insulating material. Since the effective contents of the actual product becomes smaller, the loading capacity of the product is reduced, and the air membrane of the cooling air must be formed from the blown honeycomb 6 installed at one upper end of the main body to the inlet 7 installed at the other side. In the vicinity of the inlet 7, it was rapidly weakened, causing intrusion of heat from the outside, resulting in a decrease in cooling performance. Also, as indicated by the arrow, a cold air leak occurred at the upper right part of the main body 1, resulting in a cooling effect. There was a problem that was antagonized.

In addition, open showcases such as Japanese Laid-Open Utility Model Publication No. 58-47086 are known in the art, but by forming an air membrane divided into both sides from the upper side of the showcase body, the air membrane efficiency can be increased to improve cooling performance. Since it is installed in the cooling chamber below the bottom of the storage space, there is a problem that the actual content is reduced, as in the conventional technique described above.

It is an object of the present invention to improve the cooling performance by forming separate air membranes on both sides of the center separator, and to increase the effective content of the inside of the refrigerator to increase the loading capacity of the actual product. To provide an air circulation system.

In order to achieve the object of the present invention, the cooling air circulation passage formed on both the inner side wall and the bottom surface of the showcase main body, the blowing honeycomb formed on both upper end portions of the cooling air circulation passage, and installed in the center of the inner space of the main body A central separator defining a storage space on both sides and a central circulation passage formed therein; an evaporator and a blower fan respectively installed on the lower and upper sides of the central circulation passage of the central separator; An open showcase cooling air circulation device is provided, which communicates with the central circulation passage and has an air suction port formed at both sides of the air suction port opposite to both side blowing honeycombs.

Hereinafter, the cooling air circulation system of the open showcase according to the present invention will be described in detail according to the embodiment shown in the accompanying drawings.

2 is a longitudinal cross-sectional view of the open showcase to which the cooling air circulation system according to the present invention is applied, in which 1 is a planar open showcase body having a space therein by side walls 1a, 1b and bottom 1c.

Cooling air circulation passages 15a and 16a are formed by the first and second cooling air guide plates 15 and 16 over the inner side of the sidewalls 1a and 1b and the upper surface of the bottom face 1c. At the upper ends of the walls 1a and 1b, the blowing honeycomb 6 opened inwardly is provided to face each other.

A central separator 12 is installed at the central portion of the main body 1 and partitioned into an inner space of the main body 1 and both storage space portions 1A and 1B.

The central separator 12 has a cooling air central circulation passage 12a communicating with the cooling air circulation passages 15a and 16b therein by both air blowers 19 and 20. An evaporator 4 constituting a cooling means is provided at a lower side of the circulation passage 12a, and a blowing fan 11 is provided at an upper side thereof, and an air intake 7 facing the blowing honeycomb 6 at both sides thereof at an upper end thereof. Is formed air suction stand 21 is provided.

A blowing path 22 in which air membranes 23 and 24 are formed is formed between the both side blowing honeycomb 6 and the two side air suction openings 7.

Distributing the cooling air blown from the blower fan 11 through the evaporator 4 to both side circulation passages 15a and 16b while dividing the cooling air circulation passages 15a and 16a under the evaporator 4. An air distribution plate 17 is provided.

In the drawings, reference numeral 2 denotes a compressor, 3 a condenser, 5 an expansion valve, 13 and 18 a honeycomb guide, and P represents a refrigerant pipe, respectively.

When power is applied to the open showcase of the cooling air circulator of the open showcase of the present invention configured as described above, when the compressor 2 operates, the evaporator 4 absorbs the surrounding heat to cause a cooling action, and the blower fan 11 The rotation is started to blow in the direction of the arrow shown.

At this time, the circulation of the cooling air is caused by the rotational force of the blower fan 11 when the blower fan 11 rotates, and the blower air is lowered below the central circulation passage 12a formed inside the middle trench separator 12. Cooling air (15a) formed by the first and second cooling air guide plates (15) and (16) by being blown into the cooling air while being in contact with the evaporator (4) and distributed to both sides by the air distribution plate (18). Blows to both sides along (16a), and blows inwardly through the blowing honeycomb (6) to reach the upper end of the circulation passage (15a) (16a) of the air intake (21) installed on the top of the central separator (12) It flows toward both air intakes (7).

At this time, the cooling air is blown to form a turbulent flow in the process of blowing along the circulation passage (15a) (16a) before reaching the blowing honeycomb (6), in the process of blowing through the blowing honeycomb (6) In the laminar flow, the air membranes 23 and 24 are formed between the air inlets 7 formed on both sides of the air intake honeycomb 6 at the upper end of the central separator 12 from the honeycomb 6. The air membranes 23 and 24 have air flow distances of the air membranes 23 and 23 respectively formed in both sections from both side blowing honeycombs 6 to the central air intake opening 7 so that air is shorter than that of the conventional air. The air inlet efficiency is improved by maintaining a stable state in all sections without rapidly deteriorating to the intake port 7 side, thereby reducing the outflow of cold air to a minimum, thereby increasing cooling efficiency and contributing to energy saving. .

The air that flows while forming the air film and is sucked through the air inlet 7 is again blown through the evaporator 4 by the blower fan 11 and cooled again to continue the above-described circulation process.

In addition, since the air distribution plate 17 is installed below the evaporator 4, that is, at the boundary portions of both cooling air circulation passages 15a and 16a, the cooling air passing through the evaporator flows at the boundary portion. It distributes and circulates smoothly without any congestion.

Meanwhile, since the central circulation passage 12a is formed inside the central separator 12 and the evaporator 4 is installed below the central separator 12, and the blower fan 11 is installed on the upper portion thereof, the conventional evaporator and the blower fan are installed in the main body. Compared to the floor, the contents can be greatly increased, so that many products can be stored.

Claims (1)

Cooling air circulation passages formed on both side walls of the showcase body and above the bottom surface, a blowing honeycomb formed at upper ends of both sides of the cooling air circulation passage, and installed in the central portion of the inner space of the main body to define storage spaces on both sides thereof. Cooling in an open showcase, characterized in that the air inlet is formed in the central separator having a central circulation passage formed therein, the blower fan and the evaporator is installed up and down inside the central circulation passage of the central separator. Air circulator.