JP2020125889A - Freezing/cold storage show case - Google Patents

Abstract

To provide a freezing/cold storage show case which prevents generation of dew condensation of a translucent panel without adverse effect on products requiring cooling within a cooling room.SOLUTION: In a freezing/cold storage show case 1 in which cooling air is circulated in a cold storage room 20, there is arranged air blowing means 40 capable of blowing the outdoor air along an outer surface of a translucent panel 50 constituting at least one side plate body 4 surrounding the cold storage room 20.SELECTED DRAWING: Figure 5

Description

The present invention relates to a frozen/refrigerated showcase.

Frozen/refrigerated showcases are installed in food stores such as supermarkets, convenience stores, department stores, etc., and daily foods and fresh foods that require cooling are displayed on the shelves provided in the product display section. The inside of the freezing/refrigerating showcase is kept at a low temperature by circulating cold air to the part.

Such frozen/refrigerated showcases have translucent panels with good visibility on the side plates so that consumers can see the products in the product display section from the side of the frozen/refrigerated showcase, and There is a freezer/refrigerator showcase that has a rear door with a translucent panel so that employees can take out products from the rear side. In a freezing/refrigerating showcase having such a translucent panel, condensation occurs on the translucent panel of the rear door or the side plate in the summer or warm regions where the temperature difference between the cooling chamber and the outside air is large. There is a problem that the dew condensation water stains the floor and surrounding items.

As a technique for suppressing the occurrence of such dew condensation, there is a technique disclosed in Patent Document 1. In the freezing/refrigerating showcase shown in Patent Document 1, air in the machine room is directed upward from a machine room provided below a cooling case part that has a display room capable of displaying goods and keeping cold. Equipped with an exhaust port for exhausting, warm air after cooling the condenser in the machine room is passed to the back side of the cooling case section, and the rear door made of a translucent panel provided on the back side of the cooling case section is installed. By heating, the generation of dew condensation can be suppressed.

Japanese Unexamined Patent Publication No. 10-23080 (page 2, FIG. 2)

However, in the technique of Patent Document 1 as described above, by applying warm air from the machine room to the rear door of the cooling case, the rear door can be heated and the occurrence of dew condensation can be suppressed. The warm air discharged toward the door raises the temperature of the internal space of the cooling case portion, which may adversely affect the products requiring cooling.

The present invention has been made in view of these problems, and provides a freezing/refrigerating showcase that prevents the occurrence of dew condensation on a light-transmitting panel without adversely affecting products that require cooling in a cooling chamber. The purpose is to

In order to solve the above problems, the freezing/refrigerating showcase of the present invention is
A freezing/refrigerating showcase in which cold air is circulated in the product display section,
An air blower capable of blowing outside air is arranged along the outer surface of the translucent panel that constitutes at least one side plate surrounding the product display section.
According to this feature, since the outside air is constantly blown from the blower along the outer surface of the translucent panel, the outside air flowing along the outer surface of the translucent panel is not condensate on the outer surface of the translucent panel. Further, it is possible to prevent the occurrence of dew condensation on the transparent panel by separating from the transparent panel. As described above, since the outside air is used to prevent dew condensation, the translucent panel is not heated and the product requiring cooling in the cooling chamber is not adversely affected.

The outside air outlet of the blower unit is characterized in that it is widely extended along the translucent panel.
According to this feature, it is possible to suppress the occurrence of dew condensation over a wide range of the translucent panel.

The blower is characterized in that an impeller is axially supported in a casing of the blower, and the impeller is formed so as to extend in the width direction with respect to the translucent panel.
According to this feature, since the impeller extending in the width direction can uniformly blow air over a wide range of the translucent panel, the occurrence of dew condensation can be suppressed evenly over the wide range of the translucent panel. You can

A translucent panel is attached to the side plate via a step portion that is recessed inward, and outside air can be blown from the blowout port of the blower unit along the side plate.
According to this feature, the outside air flowing along the side plate becomes a vortex at the step portion that is recessed inward, and since the outside air is constantly drawn toward the light transmitting panel side, the air can be blown by being brought close to the outer surface of the light transmitting panel. it can.

The blower means is provided with a wind direction directing mechanism capable of changing the blow direction.
According to this feature, it is possible to blow air toward a portion of the translucent panel where dew condensation is likely to occur.

The blower means is detachably arranged on the outer surface of the side plate through a locking means.
According to this feature, the blowing means can be attached to the season when dew condensation occurs, or to the freezing/refrigerating showcase where dew condensation occurs.

The blower means is attached above the side plate.
According to this feature, the blowing unit can be installed without deteriorating the aesthetic appearance of the freezing/refrigerating showcase, and the dew condensation on the translucent panel can be suppressed.

It is a perspective view which shows the refrigerating showcase in Example 1 of this invention. It is the sectional side view seen from the side which shows the structure of a refrigerating showcase. It is an exploded perspective view of an air blower. It is a side view which shows the ventilation range of a ventilation means. It is a schematic diagram which shows the ventilation path to a translucent panel by the cross section of the refrigerating showcase to which the ventilation means was attached. It is a schematic diagram which shows the ventilation path to a translucent panel by the cross section of the refrigerating showcase in which the ventilation means in Example 2 of this invention was incorporated.

A mode for carrying out a freezing/refrigerating showcase according to the present invention will be described below based on Examples.

The freezing/refrigerating showcase according to the first embodiment will be described with reference to FIGS. 1 to 5. Hereinafter, the left side of FIG. 2 will be referred to as the front side (front side) of the freezing/refrigerating showcase, and the vertical and horizontal directions when viewed from the front side will be described as a reference. In the first embodiment, an open type refrigerating showcase whose front side is open will be described. The showcase may be a closed type or a frozen one.

The refrigerated showcase 1 of the present embodiment is installed to display products such as daily foods and fresh foods in a cold state in supermarkets, convenience stores and the like. As shown in FIG. 1, a refrigerating showcase 1 is mounted on both sides of a case body 2 having a cold storage chamber 20 provided above and for cooling and storing products (not shown). The side plate bodies 3 and 3'and the blower means 40 and 40' that are detachably attached to the upper portions of the side plate bodies 3 and 3'are mainly configured. The side plate 3 includes a window 5 to which a translucent panel 50 (glass plate), which will be described later in detail, is attached, and the inside of the refrigerator can be viewed from outside the refrigerator through the window 5. Since the side plate 3'and the blower 40' (not shown) have substantially the same configuration in which the side plate 3 and the blower 40 are formed in a substantially left-right inverted manner, detailed description thereof will be omitted.

Furthermore, a plurality of refrigerating showcases 1 can be arranged side by side, and in this case, the side plate 3 and the blowing means 40 at the facing portions of the refrigerating showcases 1 are omitted. That is, when a plurality of refrigerating showcases 1 are arranged side by side, the side plate 3 and the blowing means 40 are attached to one side portion of the refrigerating showcases 1 arranged at the left and right ends, respectively. In the case of the arrangement, the side plate bodies 3 and 3'and the blowing means 40 and 40' are attached to both sides of the refrigerated showcase 1.

As shown in FIG. 2, the case main body 2 has an outer box 21 having a heat-insulating structure having a substantially U-shape in a side view whose front side (left side in the figure) is open, and an inner box, and the front side is also open. The inner box 22 has a substantially U-shape in a side view, and a space inside the inner box 22 serves as a cold storage chamber 20. Rear ends of the brackets 20b, 20b,... That extend in the front-rear direction are attached to the rear surface portion 22a of the inner box 22, and the shelf boards 20a, 20a,. .. Products (not shown) are displayed on the upper surfaces of the shelf boards 20a, 20a,... And the bottom portion 22b of the inner box 22.

A cold air circulation path 23 is formed between the outer box 21 and the inner box 22, and an evaporator 24a and a blower 24b are installed at the vertical portion and the horizontal bottom portion of the cold air circulation path 23, respectively. The evaporator 24a can cool the air around it. Further, a heat insulating material 24c is provided on the front side of the evaporator 24a, and heat exchange between the evaporator 24a and the cold storage chamber 20 side via the inner box 22 is suppressed. At the front end of the upper part of the case body 2, a cold air outlet 23a communicating with the cool air circulation path 23 is formed obliquely forward and downward, and at the front end of the lower part of the case body 2, a cool air suction port 23b opening upward. Has been formed.

When the blower 24b is operated, the cold air cooled by the evaporator 24a flows upward in the cold air circulation path 23 as shown by the arrow, and is blown out from the cold air outlet 23a toward the lower suction port 23b. It As a result, an air curtain 25 of cool air is formed on the open surface of the front surface of the case body 2, and a part of the cool air flows into the cold storage chamber 20, whereby the displayed products are kept cold.

As shown in FIG. 1, the side plate body 3 includes a side plate body 4 having a D-shaped notch portion 4a that is opened to the front side of the refrigeration showcase 1 and has a horizontal lower end in a side view. And a translucent panel 50 which is made of a glass plate, an acrylic plate or the like and is fitted into the cutout portion 4a of the side plate body 4, and a blower 40 is attached to the upper end of the side plate body 4. The portion where the translucent panel 50 is provided is the window 5, and the inside of the refrigerator can be visually recognized from the outside of the refrigerator through the window 5. Further, since the side plate body 4 is formed to be thicker than the translucent panel 50 in the width direction, a step portion D described later is formed at the boundary between the side plate body 4 and the translucent panel 50. Hereinafter, the blower unit 40 will be described in detail.

As shown in FIG. 3, the blower unit 40 mainly includes a cover 41, a fan 42, and a back plate 43. The cover 41 is made of resin, and has a substantially U-shaped cover main body 41a, side plates 41b and 41b' arranged to sandwich the cover main body 41a from the left and right, and laterally attached to the cover main body 41a. It is mainly configured by a substantially L-shaped partition member 41c attached to the lower side of the back surface of the main body 41a. In the cover body 41a, a large number of slits S extending in the vertical direction are provided as a whole at the center position from above the front plate portion of the cover body 41a and in the curved portions of the front surface, the front plate portion and the lower surface plate portion in the left-right direction. It is formed like a strip of a book.

The fan 42 is mainly configured by an impeller 42a, a casing 42c that pivotally supports the impeller 42a, and a drive unit 42b that includes a motor that rotates the impeller 42a and a power supply cord. The impeller 42a includes a shaft 42d that is axially supported by the casing 42c, and fins 42e that are formed by radially extending from the shaft 42d. The drive unit 42b is activated by pressing the power button P provided on the cover body 41a, and the impeller 42a is rotated clockwise.

The back plate 43 is mainly composed of a louver 43a as a wind direction directing mechanism and a gap adjusting plate 43b. The louver 43a is formed in a substantially L shape and is attached to the lower end of the back plate 43 on the front side. Arc-shaped holes are formed in the gap adjusting plate 43b so as to be arranged in a row in the width direction. The arc adjusting holes are attached above the louver 43a and come into contact with the partition member 41c to measure the length of the outlet F in the lateral direction. The gap is adjusted so that the user's fingertip does not come into contact with the fan 42. Attaching/detaching members 44, 44 are attached to the back side of the back plate 43, and are attached detachably by fitting the blower means 40 to a receiving member (not shown) attached to the outer surface of the side plate body 4. It is like this. An outlet F is formed below the rear plate 43, and is formed so as to extend in the width direction with respect to the translucent panel 50. The cover 41 is not limited to being made of resin and may be made of metal.

The blower 40 is a cross-flow fan that blows the outside air uniformly in the width direction, and rotates the impeller 42a extending in the width direction to suck the outside air sucked from the slit S of the cover body 41a into the rear plate. An air passage is formed in the cover 41 so that the air is discharged from the outlet F below 43. The louver 43a is accessible from below the back plate 43, and the end portion on the upper side (see the partially enlarged view) of the louver 43a is pivotally supported by a screw so that the louver 43a can be rotated left and right about the screw. .. By adjusting the direction of each louver 43a, the direction of the wind discharged from the impeller 42a can be adjusted, and the direction and range of the air blown from the blower unit 40 to the outside can be adjusted.

FIG. 4 shows a view in which the power supply button P of the blower unit 40 attached above the side plate body 4 of the refrigerated showcase 1 is pressed to activate the blower unit 40. The outside air blown from the outlet F is discharged in a fan shape from the upper side to the lower side because the outlet F is formed so as to spread in the width direction and the louver 43a diffuses the outside air more in the width direction. It is supposed to be done. Further, by operating the louver 43a, it is possible to intensively guide the blown air toward a place where dew condensation occurs. In addition, a vortex U that rotates inward when external air is blown from above by a blower 40 to a step D that is formed in the boundary between the side plate body 4 and the translucent panel 50 and that is recessed inward. Is to occur.

As shown in FIG. 5, when the blower means 40 is activated, the impeller 42a rotates clockwise as viewed from the rear, so that the outside air is sucked in through the slit S of the cover body 41a and the translucent panel through the outlet F. It is designed to blow along 50. By continuously blowing the outside air along the translucent panel 50 by the blowing unit 40, the air staying in the vicinity of the outer surface of the translucent panel 50 is blown out below the side plate body 4 before dew condensation occurs. ..

More specifically, the outside air blown from the outlet F flows downward along the side plate body 4 and then approaches the step D formed at the boundary between the side plate body 4 and the translucent panel 50. Has a shape that is recessed inward, which is the inside of the refrigerator, so that a vortex U that rotates so as to be caught inward is generated. (See enlarged image). The generation of the vortex D causes the outside air blown down along the outer surface of the side plate body 4 to be drawn toward the transparent panel 50 side. The outside air attracted to the vortex U travels along the outer surface of the translucent panel 50 and moves to the lowermost end of the translucent panel 50. After that, it is moved to the side plate body 4 on the lower side, which projects outward, which is the outside of the refrigerator, and is blown down to the floor surface in sequence.

As described above, the blower unit 40 operates independently of the operation of the refrigeration cycle, and the outside air blown from the outlet F is constantly blown down along the transparent panel 50. Air is prevented from accumulating in the vicinity of the outer surface of 50 to cause dew condensation.

In addition, since the air blower 40 is blown downward from above, the blown air is cooled near the outer surface of the translucent panel 50 as it goes downward, and depending on the situation, it becomes moist and has a moisture content. Is increased, the specific gravity is increased, and the transparent panel 50 smoothly moves to the lower side. As a result, the blown air from the blower unit 40 is stably blown down from the upper side to the lower side of the translucent panel 50.

In addition, since the temperature of the air blown from the air blowing unit 40 is substantially the same as the outside air temperature, it does not excessively heat the translucent panel 50, and the fresh food displayed in the refrigerated showcase 1 that needs cooling. It does not adversely affect food or daily food.

As described above, since the blower means 40 capable of blowing the outside air is arranged along the outer surface of the translucent panel 50 that constitutes at least one side plate body 3 that surrounds the case body 2, the blower means 40 blows air. The generated outside air flows along the outer surface of the light-transmissive panel 50 and is separated from the light-transmissive panel 50 before dew condensation occurs on the outer surface of the light-transmissive panel 50, that is, from the blower 40 to the outer surface of the light-transmissive panel 50. Since the outside air is constantly blown along it, it is possible to prevent dew condensation on the translucent panel 50. As described above, since the dew condensation is prevented by utilizing the outside air temperature, the translucent panel 50 is not heated and the product requiring cooling in the cooling chamber is not adversely affected.

Further, since the blowout port F of the blower unit 40 is widely extended along the translucent panel 50, it is possible to suppress the occurrence of dew condensation over a wide range of the translucent panel 50.

Further, in the blower unit 40, the impeller 42a is axially supported in the casing 42c of the blower unit 40, and the impeller 42a is formed so as to extend in the width direction with respect to the translucent panel 50. Since the impeller 42a extending in the direction can uniformly blow air over a wide range of the translucent panel 50, it is possible to suppress the occurrence of dew condensation evenly over a wide range with respect to the translucent panel 50.

Further, a translucent panel 50 is attached to the side plate body 3 via a step portion D which is recessed inward, and outside air can be blown from the blowout port F of the blower means 40 along the side plate body 3. Therefore, the outside air flowing along the side plate body 3 becomes a vortex U at the stepped portion D which is recessed inward, and the outside air flowing along the side plate body 3 is always attracted to the transparent panel 50 side. Can be blown close to each other.

Further, since the air blowing unit 40 includes the louver 43a capable of changing the air blowing direction, it is possible to blow air toward the outer surface of the translucent panel 50 where dew condensation is likely to occur.

Further, since the air blower 40 is detachably arranged on the outer surface of the side plate 3 via the attachment/detachment member 44, the air blower 40 is attached to the refrigerating showcase 1 where the dew condensation occurs or when the dew condensation occurs. Can be attached.

Further, since the blower unit 40 is attached above the side plate body 3, the blower unit 40 can be installed without impairing the appearance of the refrigerated showcase 1, and the dew condensation of the translucent panel 50 can be suppressed. it can.

Next, the second embodiment will be described with reference to FIG. The same components as those shown in the first embodiment are designated by the same reference numerals, and the duplicated description will be omitted.

As shown in FIG. 6, the refrigerating showcase 11 of the second embodiment is changed to the side plate 14 in which the upper end of the side plate body 4 of the first embodiment is partially notched and the notch portion 14a is formed. The blower means 140 is incorporated in the notch portion 14a to form the blower means-integrated refrigeration showcase 1.

The blower unit 140 is arranged in the cutout portion 14a, so that the blowout port F is formed on the lower left side of the blower unit 140. Further, the impeller 142a of the second embodiment is configured to rotate counterclockwise when viewed from the rear by a motor and a power source (not shown), and sucks outside air from the slit S formed above the cover 141. Has become.

The outside air sucked from the slit S of the blower 140 passes through an air passage in the cover 141 and is blown down from the outlet F. The impeller 142a of the second embodiment is configured to rotate counterclockwise and the outlet F is arranged so as to project to the left side of the side plate body 14, so that air is blown along the outer surface of the translucent panel 50. It's easy to do.

Specifically, the outside air blown from the outlet F flows downward along the side plate body 14 and then approaches the step D formed at the boundary between the side plate body 14 and the translucent panel 50. Has a shape that is recessed inward, which is the inside of the refrigerator, so that a vortex U that rotates so as to be caught inward is generated. (See enlarged image). The generation of the vortex D causes the outside air blown down along the outer surface of the side plate body 14 to be drawn toward the transparent panel 50 side. The outside air attracted to the vortex U travels along the outer surface of the translucent panel 50 and moves to the lowermost end of the translucent panel 50. After that, it is moved to the outer surface of the side plate main body 14 on the lower side that projects outward, which is the outside of the refrigerator, and is blown down to the floor surface in sequence.

Although the embodiments of the present invention have been described above with reference to the drawings, the specific configurations are not limited to these embodiments, and any modifications or additions within the scope of the present invention are included in the present invention. Be done.

For example, in the above-described embodiment, the side plate body 3 is composed of the side plate body 4 and the transparent panel 50, but the transparent panel 50 may be formed on the entire side plate without using the side plate body 4.

Further, although the blower means 40 is attached to the upper side of the side plate body 4 and blows downward, the blower means 40 is attached to the lower side of the side plate body 4 and blows upward from below. May be Further, air may be blown from the rear side of the side plate body 4 to the front side, or may be blown from an oblique direction. The air may be blown toward the translucent panel 50.

Further, although the blower means 40 has been described as a cross-flow fan, it may be constituted by a propeller fan, a blower, or the like.

Moreover, although it has been described that one blower unit 40 is provided for each side plate body 4, the present invention is not limited to this, and a plurality of blower units 40 may be provided.

1 Refrigerated Showcase (Frozen/Refrigerated Showcase)
2 case body 3, 3'side plate body 4 side plate body 14a notch 40 blower 41 cover 42 blower 42a impeller 42b drive unit 42c casing (case)
43 Rear plate 43a Louver (wind direction directing mechanism)
44 Detachable member (locking means)
50 translucent panel D stepped portion F outlet S slit U vortex

Claims (7)

A freezing/refrigerating showcase in which cold air is circulated in the product display section,
A refrigerating/refrigerating showcase, in which blower means for blowing outside air is disposed along an outer surface of a translucent panel that constitutes at least one side plate surrounding the product display section. The freezer/refrigerator showcase according to claim 1, wherein the outside air outlet of the blower unit is provided so as to be wide along the translucent panel. An impeller of the blower means is axially supported in a casing of the blower means, and the impeller is formed to extend in a width direction with respect to the translucent panel. Frozen/refrigerated showcase described in. A translucent panel is attached to the side plate via a step portion that is recessed inward, and outside air can be blown from the blowout port of the blower unit along the side plate. The frozen/refrigerated showcase according to any one of 1 to 3. The refrigerating/refrigerating showcase according to any one of claims 1 to 4, wherein the blower unit includes a wind direction directing mechanism capable of changing a blower direction. The refrigerating/refrigerating showcase according to any one of claims 1 to 5, wherein the blower means is detachably arranged on the outer surface of the side plate through a locking means. The freezing/refrigerating showcase according to any one of claims 1 to 6, wherein the blower unit is attached above the side plate.

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