KR100218390B1 - Cool air circulating structure for open type showcase - Google Patents

Abstract

The present invention relates to the cold air circulation structure of the open showcase to install the air circulation duct for the air curtain by installing the rear inner plate only on the upper half and the lower half is formed by the center frame plate of the evaporator to configure the air circulation duct for the air curtain The amount of steel sheet can be reduced, and the material is saved by ensuring that the air circulation duct for cooling and the cold air circulation duct for cooling are blocked without inserting a filler between the air circulation duct for the air curtain and the cooling air circulation duct for cooling. Since the rear end of the fan housing constituting the air distribution means is assembled in direct contact with the front surface of the rear inner plate, the amount of steel plate used can be reduced as much as the iron plate constituting the air inlet that was assembled between the rear end of the fan housing and the rear inner plate. Will be.

Description

Showcase cold air circulation structure

1 is a longitudinal side view showing a cold air circulation structure of a conventional open showcase.

2 is a cross-sectional view taken along the line A-A of FIG.

3 is a cross-sectional view taken along the line B-B in FIG.

4 is a plan view showing the installation state of the circulation fan.

Figure 5 is a longitudinal side view showing an embodiment of the cold air circulation structure of the open showcase according to the present invention.

6 is a perspective view of an evaporator used in the present invention.

7 is a cross-sectional view taken along the line C-C of FIG.

8 is a cross-sectional view taken along the line D-D of FIG.

9 is a perspective view showing the relationship between the upper portion of the vertical portion and the horizontal portion of the air circulation duct.

10 is a perspective view showing the configuration of the air distribution means.

* Explanation of symbols for main parts of the drawings

10: showcase body 20: air circulation duct for air curtain

21: vertical part 22: horizontal part

23: rear intermediate plate 24: air inlet for air curtain

30: cold air circulation duct 31 for cooling

32: horizontal portion 33: rear inner plate

34: cooling air inlet hole 41, 43: fan housing

42, 44: Blowing fan E: Evaporator

F1: frame plate on both sides F2: center frame plate

The present invention relates to a cold air circulation structure of an open showcase, and in particular, an open showcase is provided in a cold air circulation structure so that the cost can be reduced by reducing the amount of steel sheets constituting the duct, while the cold air circulation and the air curtain air circulation are smoothly performed. It is about.

In general, an open showcase is used to display and sell refrigerated foods while the front is not opened or closed by a door.

In this open showcase, since the front is open, the outside air is circulated and the air curtain is formed outside the front side in order to prevent outside hot air from entering the showcase or leaking the cool air to the outside. Air to circulate is done.

FIG. 1 shows an example of a conventional open showcase, and 50 is a showcase body. The front surface is made of a double iron plate and an external insulation panel loaded with insulation (usually a foam or glass wool, etc.) interposed therebetween. It is formed so as to open, and a constant space portion 53 is formed on the bottom insulating panel 51B of the insulating panel between the inner bottom plate 52.

Inside the upper insulation panel 51B and the rear insulation panel 51R, an air curtain duct 60 for cooling and a cold air circulation duct 70 for cooling are provided in double.

The air curtain air circulation duct 60 and the cooling air circulation duct 70 for cooling are respectively the rear vertical portion 61 and 71, the upper horizontal portion 62 and 72, and the lower air inlet portion 63, 73).

The rear vertical portion 61 of the air circulation duct 60 for the air curtain is formed by the rear intermediate plate 64 disposed at a predetermined interval inside the rear insulation panel 51R, and the upper horizontal portion ( 62 is partitioned by an upper intermediate plate 65 disposed at a predetermined interval inside the upper insulating panel 51T, and the lower air inlet 63 has a predetermined interval inside the lower insulating panel 51B. It is partitioned by the bottom intermediate plate 66 which is placed and disposed.

In addition, the rear vertical portion 72 of the cooling air circulation duct 70 for cooling is partitioned by a rear inner plate 74 disposed at a predetermined interval inside the rear middle plate 64, and the upper horizontal portion 72 is partitioned by an upper inner plate 75 disposed at a predetermined interval inside the upper middle plate 65, and the lower side air inlet 73 is the lower middle plate 66 and the inner bottom surface. It is partitioned by plate 76.

An air discharge port 62a and a cold air discharge port 72a for discharging air and cold air downward are formed at the front ends of the upper horizontal parts 62 and 72. These discharge ports 62a and 72a have a so-called honeycomb lattice to discharge the discharged air and cold air in a desired direction.

The evaporator 77 of the refrigerating cycle for cooling the air is built in the lower portion of the vertical portion 71 of the cooling air circulation duct 70.

The space 53 has air for distributing the air sucked from the air intake port 54 formed at the upper end of the lower front panel 51F to the air curtain air circulation duct 60 and the cooling air circulation duct 70 for cooling. Distribution means are installed.

The air distribution means includes an air circulation fan housing 81 and a cold air circulation fan connected to the air intake ducts 60 for air curtains and the air intakes 63 and 73 of the cooling air circulation ducts 70, respectively. It consists of the housing 83 and the blowing fan 82 and 84 provided in the inside of these fan housings 81 and 83, respectively.

Here, the fan housings 81 and 83 may include a fan mounting plate 85 in which the air circulation air intake hole 85a and the cold air circulation air intake hole 85b are drilled, as shown in FIG. Comprising a diaphragm 86 is fixed between the mounting plate 85 and the bottom insulating panel 51b, the back side of the air circulation fan housing 81 is completely blocked by the blocking plate 87 for air circulation The air supplied by the blowing fan 82 and the air circulated by the cold air circulation fan 84 are not mixed, and are respectively distributed to the air circulation duct 60 for the air curtain and the cold air circulation duct 70 for cooling. And the back side of the cold air circulation fan housing 83 is open.

In addition, the air circulation fan housing 81 has a back side blocked as shown in FIG. 4, and the air blown from the air circulation blower 82 is perforated in the bottom plate 66. It is configured to flow into the air inlet 63 through.

In the conventional cold show circulation structure of the open showcase configured as described above, when the blower fans 82 and 84 are operated, the outside air is sucked from the air intake port 54 so that the air by the blower fan 82 for air circulation is used for the air curtain. The air is supplied to the air inlet 63 of the air circulation duct 60, and the air by the cold air circulating blower fan 84 is supplied to the air inlet 73 of the cold air circulation duct 70 for cooling.

The air flowing into the air inlets 63 and 73 rises through the rear vertical portions 61 and 71, respectively, and flows to the upper horizontal portions 62 and 72, and the honeycomb-type air discharge ports 62a and 72a at the ends thereof. Is discharged downward through the air), wherein the air circulating in the air circulation duct 60 for air curtain is relatively hot air and the air circulating in the cooling cold air circulation duct 70 is in the vertical part 71. It is cold air of low temperature cooled in contact with the built-in evaporator 77.

The air discharged from the air discharge port 62a forms an air curtain in the front opening of the showcase body 50 to block outside air from entering the inside or leaking cold air from the outside to the outside, and the cold air discharge port 72a. The air discharged from is introduced into the refrigerator to cool the refrigerated food.

However, in the conventional cold air circulation structure, the length of the bottom intermediate plate 66 and the bottom inner plate 76 partitioning the air inflow units 63 and 73 is long, resulting in a cost increase.

The reason for this is that the cold air circulating blower fan 84 is disposed at both sides, and the evaporator 77 is disposed at the lower end of the vertical part 71, so that the lengths of the air inlet parts 63 and 73 are shortened. When the blower fan 84 is disposed close to the evaporator 77, the air blown from the blower fan for cold circulation 84 is supplied directly to both sides of the evaporator 77 without spreading evenly over the entire width, and once on both sides Since the supplied air rises along the air passage formed by the cooling fins of the evaporator 77, the heat exchange with the air is not performed in the middle portion of the evaporator 77, but only on both sides, thereby decreasing the cooling effect. Therefore, in the related art, by inevitably lengthening the length of the air suction unit 73, while the air introduced from both sides is generally spread while passing through the air suction unit 73, there is no choice but to make heat exchange in the center of the evaporator 77.

Also, in the case of the air circulation duct 6 for the air curtain, the air blown by the air circulation blower 82 is drilled in the upper surface of the bottom intermediate plate 66 partitioning the air inlet 63 ( Since it is introduced through 63a), its length should be the same as the length of the air inlet 73 of the cold air circulation duct 70 for cooling.

On the other hand, the width of the vertical portion 61 and the air inlet portion 63 of the air circulation duct 60 for the air curtain is installed in the width corresponding to the full width of the showcase body 50, the air circulation duct for the air curtain The use of the back intermediate plate 64 and the bottom intermediate plate 66 that divides the 60 increases, resulting in a cost increase.

In order to solve this conventional problem, the applicant has developed a cold air circulation structure such as Korean Patent Application No. 96-17019.

In the cold air circulation structure of the present invention, in the cold air circulation structure, an air inlet hole is formed at the tip of the air inlet portion of the air inlet duct for air curtain duct and connected to the fan housing to connect the air circulation duct for the air curtain. In addition to shortening the length of the air inlet part of the cold air circulation duct, and reducing the width of the vertical part of the air circulation duct for the air curtain, the structure is used to reduce the amount of steel plate required for the duct configuration.

However, in the cold air circulation structure of the present invention, since the air inlet portion at the bottom of the air circulation duct for the air curtain is extended to the fan housing side, the amount of steel plate used is increased as much as the iron plate required for constructing the air inlet portion, and the air circulation duct for the air curtain is vertical. Iron plate usage was to be increased as much as iron plate needed to construct wealth. In addition, the filling member must be filled in order to partition the vertical portion of the air circulation duct for the air curtain and the vertical portion of the cold air circulation duct for cooling, thereby resulting in deterioration of workability and cost increase.

An object of the present invention is to form a vertical portion of the air circulation duct for a curtain as an evaporator as a center frame itself to reduce the number of parts and to reduce the amount of iron plate used in the duct. It is another object of the present invention to directly connect the fan housing and the air circulation duct for cooling and the cold air circulation duct for cooling without installing the air inlet of the air circulation duct for the air curtain and the cooling air duct for cooling. The aim is to provide an open showcase air circulation structure that can be further reduced.

It is still another object of the present invention to divide the air circulation duct for cooling and the cold air circulation duct for cooling without using a filling member for partitioning the vertical portion of the air circulation duct for air curtain and the vertical portion of the cold air circulation duct for cooling. This is to improve assembly and reduce cost.

In order to achieve the object of the present invention is connected in communication with the vertical lower half and the upper end of the vertical lower half by the space between the pair of central frame plate constituting the evaporator installed in the lower space between the rear insulation panel and the rear inner plate The vertical upper half extending to the upper portion, and is installed on the top of the center frame plate of the evaporator, the air rising from the vertical lower half portion is formed as a space between the upper and lower insulation panels and the upper surface middle plate to allow only the vertical upper half flows into the vertical upper portion. An air curtain duct for a curtain having a horizontal portion in communication with the upper half; a vertical portion limited to a space excluding a vertical portion of the air circulation duct for the air curtain in the space between the rear insulation panel and the rear inner plate, and the upper middle plate And a horizontal portion formed between the upper surface inner plate and a rear end portion communicating with the vertical portion. Cooling air circulation duct having a: and through the air inlet hole and the air inlet hole for the air curtain perforated in the lower center and both sides of the rear inner plate to the air circulation air circulation duct for the air curtain and the cooling air circulation duct for cooling Air distribution means for distributing; Provided is a cold air circulation structure of an open showcase characterized in that it comprises a.

The air distribution means is installed in a state in which the rear end is in direct contact with the rear inner plate is connected to the air inlet hole for the air curtain and the cooling air inlet hole for the air curtain and cooling fan housing, and installed in each fan housing It consists of a blowing fan for sucking the outside air to distribute the air to the air inlet hole for the air curtain and the air inlet for cooling, respectively.

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

In FIG. 5, 10 is a showcase body, the front surface of which is opened by an external insulation panel filled with a double iron plate and an insulation (usually a foam or glass wool, etc.) between the bottom and the bottom insulation panel ( On 11B), a constant space 13 is formed between the bottom plate 12 in the refrigerator. An air inlet 14 is formed at the upper end of the lower front panel 11F. Inside the rear insulation panel 11R and the upper insulation panel 11T, an air curtain duct 2 for cooling and a cold air circulation duct 30 for cooling are provided in double, and the air is provided in the space 13. Air distribution means for sucking air from the inlet 14 and distributing it to the air curtain air circulation duct 20 for cooling and the cold air circulation duct 30 for cooling is provided.

The air curtain air circulation duct 20 and the cooling air circulation duct 30 for cooling are respectively composed of rear side vertical parts 21 and 31 and upper side horizontal parts 22 and 32.

The vertical portions 21 and 31 of the air circulation duct 20 for the air curtain and the cooling air circulation duct 30 for cooling are formed between the rear insulation panel 11R and the rear inner plate 33, and the rear insulation panel. The evaporator E is provided in the lower part of the space between 11R and the back inner side plate 33. As shown in FIG.

As the heavy-duty machine E, as shown in FIG. 6, a meandering type of evaporating tube P is used between a pair of both side frame plates F1 and a pair of center frame plates F2.

The vertical portion 21 of the air circulation duct 20 for the air curtain is a vertical lower half (21a) formed by a space formed between the center frame plate (F2) of the evaporator (E), and the rear insulation panel ( A cross section attached to the inner side of 11R is constituted by a vertical upper half portion 21b defined by a rear side intermediate plate 23 having a substantially c-shape.

The air rising from the vertical lower half 21a of the vertical portion 21 at the top of the center frame plate F2 of the evaporator E is introduced into the vertical portion 31 of the cooling air circulation duct 3 for cooling. A blocking plate 25 is attached for blocking and raising only to the vertical upper half 21b.

The left and right widths of the blocking plate 25 correspond to the interval between the center frame plates F2 and the front and rear depths coincide with the front and rear depths of the vertical portion 31 of the cold air circulation duct 30 for cooling.

The vertical portion 31 of the cooling air circulation duct 30 for cooling is a vertical portion 21 of the air circulation duct 20 for the air curtain in the space between the rear insulation panel 11R and the rear inner plate 33. Limited to spaces except

The lower half of the cooling air circulation duct 31 for cooling is formed in a state divided into two by the space between the frame plates F1 and the center frame plate F2 of the evaporator E. In the upper half, the rear middle plate 23 ), The front and rear depth is smaller than the front and rear depth between the rear heat insulating panel 11R and the rear inner side plate 33, so that the front and rear depths are formed in a state of passing through the entire width.

In the center of the lower end of the rear inner plate 33, an air inlet hole 24 connected to the air circulation fan housing 41 of the air distribution means, which will be described later, is drilled, and both sides of the fan housing 43 for the cold air circulation. The air inlet hole 34 to be connected is drilled.

The horizontal portion 22 of the air circulation duct 20 for the air curtain is limited to a space formed between the upper insulation panel 11T and the upper intermediate plate 26 installed on the lower side thereof, and the air outlet 22a is provided at the front end thereof. Is formed.

The horizontal part 32 of the cooling air circulation duct 30 for cooling is limited to a space formed between the upper middle plate 26 and the upper inner plate 35 installed at the lower side thereof, and the cold air discharge port 32a at the distal end thereof. ) Is formed.

The air discharge port 22a and the cold air discharge port 32a hold a so-called honeycomb lattice to discharge the discharged air and cold air in a desired direction.

The air distribution means is a fan housing 41 for the air circulation and the cooling connection connected to the air inlet hole 24 of the air circulation duct 20 for the air curtain as shown in FIG. It consists of a cold air circulation fan housing 43 connected to the air inlet hole (34) of the cold air circulation duct 30 and blower fans (42, 44) installed in these fan housings (41, 43).

The fan housings 41 and 43 include a fan mounting plate 45 in which air circulation holes 45a for air circulation and air suction holes 45b for cold circulation are perforated, and an fan mounting plate 45 and a bottom insulating panel ( It consists of a diaphragm 46 fixed between 11B). In addition, the fan housings 41 and 43 are installed with their rear ends directly in contact with the rear inner plate 33.

As shown in FIGS. 5 and 9, the air diffusion piece 23a extends upwardly at the upper end of the rear intermediate plate 23 constituting the vertical portion 21 of the air circulation duct 20 for the air curtain. Formed. This air diffusion piece 23a is formed to extend to a height reaching the middle height of the horizontal portion 22 of the air circulation duct 20 for the air curtain as shown in FIGS. Horizontal portion 22 formed by air for the air curtain raised in the vertical portion 21 formed to be narrowed than the width of the showcase is distributed in such a way that the air raised through the diffuser (23a) over or back to both sides. ) To be supplied completely evenly. In addition, the air diffusion piece (23a) is preferably made to smoothly flow the air to the side by forming the cutouts (23b) on both sides thereof.

Hereinafter, the assembly process according to the present invention will be described.

In the present invention, in assembling the air circulation duct 20 for the air curtain, the rear inner plate 23 is not installed over the whole height from the top to the bottom, but is installed only in the vertical upper half 21b, and the vertical lower half 21a is an evaporator. Since it is formed by the center frame plate (F2) of (E) it is possible to reduce the amount of iron plate constituting the vertical portion 21 of the air circulation duct 20 for air curtain.

In addition, the air circulation duct 20 for cooling and the cold air circulation duct for cooling 30 are reliably inserted without inserting a filler between the air curtain air circulation duct 20 and the cooling air circulation duct 30 for cooling. Blocking can result in material savings by excluding fillers.

In addition, since the rear end portions of the fan housings 41 and 43 constituting the air distribution means are assembled in direct contact with the front surface of the rear inner plate 33, the rear end portions and the rear inner plate of the conventional fan housings 41 and 43 ( It is possible to reduce the amount of iron plate used as much as the iron plate constituting the air inlet portion assembled between 33).

Hereinafter, the air and cold air circulation process according to the present invention will be described.

When the air circulation blower fan 42 and the cold air circulation blower fan 44 are operated, external air is sucked into the space 13 through the air suction port 14, and the sucked air is perforated in the fan mounting plate 45. It enters into the fan housing (41, 43) through the air suction holes (45a, 45b), where the air circulation air duct 20 for the air curtain and the cold air circulation duct (30) through the air inlet holes (24, 34) Flows into.

At this time, the air circulation fan housing 41 and the vertical lower half (21a) of the vertical portion 21 is connected to the vertical lower half (21a) through the air inlet hole (24) perforated in the lower center of the rear inner plate 33 And, the cold air circulation fan housing 43 is connected to the vertical portion 31 through the air inlet hole (34) perforated on both sides of the lower end of the rear inner plate 33 by the air circulation blower fan 42 The blown air is blown independently without being mixed with the air blown by the cold air circulation blower 44.

The air flowing into the air inlet hole 24 of the air circulation duct 20 for the air curtain is formed on the vertical portion 21, that is, the vertical lower half portion 21a formed by the center frame plate F2 of the evaporator E and the rear surface. It flows upward through the vertical upper portion 21b formed by the intermediate plate 23 and flows from the top to the horizontal portion 22 and discharges downward through the honeycomb-type air discharge port 22a at the tip of the horizontal portion 22. By forming an air curtain on the front of the showcase, the outside hot air is prevented from invading the inside of the showcase or cooling air from the inside.

Here, at the upper end of the vertical portion 21 of the air circulation duct 20 for the air curtain is introduced into the horizontal portion 22 while the air rises by the air diffusion piece 23a is diffused into the horizontal portion 22 of the tip of the horizontal portion 22 Since it is discharged downward through the air discharge port (22a) will be able to form an air curtain over the front of the showcase.

On the other hand, the air introduced into the air inlet hole 34 of the cooling air circulation duct 30 for cooling is located between both frame plates F1 and the center frame plate F2 of the evaporator E installed in the vertical part 31. Cooled while being in contact with the evaporation tubes (P) and then flows upward and flows from the top to the horizontal portion 32 and discharged downward through the honeycomb-type cold air discharge port (32a) at the tip of the horizontal portion 32 to be displayed in the showcase It is to cool the frozen foods.

Here, the vertical portion 31 of the cooling air circulation duct 30 for cooling is divided into a space between the two frame plates (F1) and the center frame plate (F2) of the evaporator (E) in the lower half, and in the upper half Since the upper part of the vertical part 31 and the horizontal part 32 communicate with each other over the full width, the cold air discharged through the discharge port 32a of the horizontal part 32 is discharged evenly over the full width of the showcase.

According to the present invention as described above, while the circulation of the cold air and the circulation of the air is made smoothly, the amount of steel sheet used to construct the duct and the like is reduced, and the use of the filler is excluded, thereby improving assembly performance and reducing cost.

In addition, according to the present invention, since the vertical lower half of the air circulation duct is formed by the intermediate frame plate constituting the evaporator, it is possible to further reduce the amount of iron plate used.

Claims (2)

A vertical lower half portion and a vertical upper half portion connected to an upper end of the vertical lower half portion by a space between a pair of central frame plates constituting an evaporator provided under the space between the rear insulation panel and the rear inner plate and extending upward; Installed on the top of the center frame plate of the evaporator, the air rising from the vertical lower half is formed as a space between the blocking plate and the upper insulation panel and the upper middle plate and the horizontal part connected in communication with the vertical upper half. An air circulation duct for the curtain; A vertical portion defined by a space excluding a vertical portion of the air circulation duct for the air curtain in the space between the rear insulation panel and the rear inner plate, and formed between the upper middle plate and the upper inner plate to have a rear end communicating with the vertical portion. A cooling air circulation duct having a horizontal portion connected thereto; An air distribution means for distributing air to the air circulation air duct for the air curtain and the cold air circulation duct for cooling through the air inlet hole for the air curtain and the cooling air inlet hole which are perforated in the lower center and both sides of the rear inner plate; Cold show circulation structure of the open showcase. The air curtain and cooling fan housing of claim 1, wherein the air distribution means is installed in a state in which the rear end portion is in direct contact with the rear inner side plate and is connected to the air inlet hole for cooling and the air inlet hole for cooling. And a blower fan installed in each fan housing and configured to suck external air to distribute air to the air curtain air inlet hole and the cooling air inlet hole, respectively.