JP4183976B2 - Storage body environment improvement device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a storage body such as a movable shelf, a fixed shelf, a storage shelf, a display shelf, a closet, a shoe box, a storage compartment, and the like, and relates to an environment improvement device for a storage body having a function of purifying air inside the storage body. is there.
[0002]
[Prior art]
Storage units such as mobile shelves, fixed shelves, storage shelves, display shelves, closets, shoeboxes, storage doors, etc. Widely used in supermarkets.
As the storage body, an open type storage body having a configuration in which at least an opening for putting in and out the storage in the storage portion is always open, and a closed type having a configuration in which a door for opening and closing the opening is provided. A container is known.
[0003]
In an open-type storage body, particulates such as spider spores, bacteria, pollen, dust, and dead mites floating in the atmosphere, and insects such as spiders and spiders are stored through an opening that is always open. It is easy to invade the inside.
On the other hand, in the closed type storage body, it is possible to prevent the entry of the fine particles, pests and the like from the opening of the storage portion by closing the door, but even in this storage body, It is difficult to prevent the entry of the fine particles, pests, and the like into the storage portion when opening and closing and when taking in and out the storage items. Further, in the closed type storage body, when the door is closed, the exchange between the air in the storage portion and the fresh outside air is blocked, so that the air in the storage portion is easily contaminated.
[0004]
For this reason, in this type of conventional storage body, the quality of the stored items stored in the storage unit deteriorates due to the influence of the fine particles and pests that have entered through the opening of the storage unit, or contaminated air in the storage unit, In addition, there is a problem that the air in the storage section and stored items emit a bad odor.
[0005]
Therefore, the applicant of the present invention has an intake path having an intake port for sucking air in the storage unit, an air supply path having an air supply port for discharging air introduced into the intake path from the intake port, and An air circulation means for circulating the air in the storage section through the intake path and the air supply path, and an air filter for purifying the air in the storage section circulated by the air circulation means, at the opening of the storage body A storage body with an air purifying function formed by forming the discharge port so that air flows along the surface was filed for a patent earlier. Japanese Patent Application No. 2001-161559 (JP 2002-80106) This is the invention according to the present invention.
[0006]
According to the invention relating to the above application, the air in the storage part introduced into the intake path from the intake port by the air circulation means is purified by the air filter, and the purified air passes through the air supply path from the air supply port. It is discharged along the opening surface of the opening of the storage body. Thereby, the air curtain which consists of the flow of the air purified by the said air filter is formed along the opening part of a storage body. That is, in this storage body with an air purification function, particulates such as spore spores, bacteria, pollen, dust, and dead mites floating in the storage section of the storage body are collected by the air filter, The air in the storage unit is purified. Moreover, in this storage body with an air purification function, intrusion of pests such as moths and moths into the storage portion is prevented by the air curtain.
[0007]
[Problems to be solved by the invention]
As described above, according to the invention according to the above application, the air in and around the storage portion of the storage body is purified, and the storage environment of the stored articles is improved, so that valuable documents, works of art, cultural assets, etc. It is suitable for preservation.
This type of container is based on a new idea, and there is still room for improvement. The biggest issue to be improved is air circulation efficiency. On the other hand, it is desired that the amount of air flow is abundant, but in order to keep the humidity of the stored articles at a moderate level, it is desired to be controlled at a moderate wind speed.
[0008]
SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide an environment improvement device for a storage body that can increase air circulation efficiency and can be controlled to an appropriate wind speed.
Another object of the present invention is to provide an environment improvement device for a container that can improve the environment of an article storage unit to a neutral environment.
[0009]
[Means for Solving the Problems]
The present invention relates to an environment improvement device for a storage body having an air duct composed of an air supply path and an intake path, and an air cleaning means for purifying air sucked from the intake path. Horizontally It is a single continuous air passage, and the middle of the air duct in the length direction is divided into an air supply path and an intake path by an air blocking plate, and the air cleaning means is directly connected to the air supply path. , Horizontally It has a plurality of air inlets formed side by side, and the intake path is Horizontally It has a plurality of air inlets formed side by side, and air that has been supplied from a plurality of air inlets and circulated through the inside of the container is sucked from the air inlets to purify the air by means of air purifying means. It is characterized by supplying air from the mouth.
[0010]
The air duct extends in the horizontal direction and has a simple structure that is divided into an air supply path and an intake path by an air blocking plate. Therefore, the air purified by the air purifying means is efficiently supplied with abundant airflow. Guided by the air route. The purified air is discharged from a plurality of air supply ports arranged in the horizontal direction, and is sucked in from the plurality of air intake ports arranged in the horizontal direction around the article storage part of the storage body and the periphery of the storage body. It reaches the cleaning means, is purified, and is discharged again from the plurality of air supply ports.
[0011]
The present invention also provides: In an environmental improvement device for a storage body having an air duct composed of an air supply path and an intake path, and an air cleaning means for purifying air sucked from the intake path, the air duct is a single air passage that is continuous in the vertical direction. The middle of the air duct in the length direction is divided into an air supply path and an intake path by an air blocking plate, and the air cleaning means is directly connected to the air supply path, and the air supply path is formed side by side in the vertical direction. The air intake path has a plurality of air inlets formed side by side in the vertical direction. Air is sucked from the air intake port, air is purified by the air purifier, and air is supplied from multiple air supply ports. It is characterized by that.
Further, the present invention is characterized in that the air supply port of the air duct is formed in a direction to supply air obliquely downward, and the intake port is formed in a direction to intake air from obliquely below.
[0012]
The present invention also provides: The air duct is incorporated in the shelf board or the top board. Further, according to the present invention, the shelf board or the top board has a ridge including a vertical wall on the loading / unloading surface side of the stored article, and the air supply port is formed in a direction to supply air in the horizontal direction. The flow of air discharged in the direction is bent downward by the ridge. The air bent downward by the ledge of the shelf board or the top board is changed in the direction of the flow toward the plurality of air inlets arranged in the horizontal direction. As a result, the purified air is stored in the storage section and the storage body. The environment around the storage unit and the storage body is efficiently improved.
[0013]
The present invention also provides: The storage body is a multiple-type storage body having a support column that divides the storage article loading / unloading side into a plurality of storage articles when viewed from the loading / unloading surface side of the storage article, and the air duct spans the shelf boards or top plate of each series. It is characterized by being formed continuously. Even in the case of a multi-unit storage body, the amount of air is abundant, so that the purified air is sufficiently distributed to the end stations.
[0014]
The present invention also provides: The air cleaning means has a photocatalytic titanium oxide filter. By having the photocatalytic titanium oxide filter, it is possible to enhance the sterilization effect, the sterilization effect and the decomposition effect of fine dust in the air. The present invention also provides: It has a humidity control device together with an air cleaning means.
[0015]
The present invention also provides: In an environment improvement device for a storage body having an air duct including an air supply path and an intake path, and an air cleaning means for purifying air sucked from the intake path, the air duct extends in a vertical direction and is supplied by an air blocking plate. The air supply path has a plurality of air inlets arranged in the vertical direction, and the air intake path has a plurality of air inlets arranged in the vertical direction, and air is supplied from the plurality of air inlets. Storage body internal The air that has passed through the air is sucked in from a plurality of air intakes, the air is purified by an air purifying means, and the air is supplied from the air supply ports.
[0016]
The present invention also provides: The air duct is incorporated in the side panel of the shelf. The present invention also provides: The air duct is characterized in that it is incorporated between columns arranged in the depth direction of the shelf. The present invention also provides: The plurality of air supply ports of the air duct air supply path are formed so as to supply air in a direction perpendicular to the shelf front surface, and have a direction changing member that bends the air supply in a direction parallel to the shelf front surface. It is characterized by.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of an environment improvement device for a storage body according to the present invention will be described with reference to the drawings.
1 to 6, a shelf 10 as a storage body is based on a frame 12. Between the frame 12, a plurality of columns 14 standing on the frame 12, and the upper ends of the columns 14. The top frame 16 connecting the two forms a shelf frame. In the illustrated example, four columns 14 are set up at equal intervals when viewed from the article loading / unloading surface side of the shelf 10 to form a so-called triple-type shelf 10 in which three article loading / unloading surfaces are formed. Further, when viewed from the side, three support columns 14 are erected, and the article storage space is divided by a center support column 14, and an article loading / unloading surface is formed on a double-column type shelf formed on both sides in the depth direction.
[0019]
However, the shelf to which the present invention can be applied is not limited to a multi-column shelf, and may be a shelf in which an article loading / unloading surface is provided only on one side. In the illustrated embodiment, a movable shelf that can be moved by a traveling wheel that is rotatably provided in a portion of the underframe 12 is provided, but the shelf to which the present invention is applicable is installed so as not to be movable. It may be a fixed shelf.
[0020]
Four struts 14 that are adjacent to each other and are at positions corresponding to square corners when viewed from the plane direction support one shelf board 18. Although the support structure of the shelf board 18 is arbitrary, for example, a sleeve board is hung between the columns arranged in the depth direction, and the shelf board 18 is supported by a sleeve board paired on the left and right when viewed from the article loading / unloading surface side. There may be. The shelf board 18 is hooked up and down in a plurality of stages, is the uppermost shelf board 18, and an air purifier 30 as an air purifier is attached to the leftmost shelf board 18 in FIG. 1. .
[0021]
The shelf board 18 to which the air purifier 30 is attached and the other shelf boards 18 that are at the same height as the shelf board 18 span the shelf boards 18 and the air supply path 26 and the intake path. An air duct 24 composed of 28 is incorporated. The air duct 24 is originally a single air passage continuous in the horizontal direction. As shown in FIGS. 4 and 8, the air duct 24 is a part of the shelf plate 18 to which the air purifier 30 is attached. 28. A plurality of air supply ports 36 aligned in the horizontal direction are formed in the air supply path 26, and a plurality of air intake ports 38 aligned in the horizontal direction are formed in the intake path 28. In FIG. 1, the symbol E indicates the formation range of the air supply port 36, and the symbol I indicates the formation range of the intake port 38.
[0022]
The air purifier 30 purifies the air sucked from the intake port 38 of the intake path 28, sends it to the air supply path 26, and discharges it from the air supply port 36. The air cleaner 30 has, for example, a photocatalytic titanium oxide filter, adsorbs and decomposes fine dust floating in the air, sterilizes bacteria in the air, and sterilizes them. 3, 4, and 8, reference numeral 46 indicates an intake port of the air cleaner 30, and the intake port 46 communicates with the intake path 28. Reference numeral 48 denotes an air supply port of the air cleaner 30, and the air supply port 48 communicates with one end of the air supply path 26.
[0023]
In the illustrated embodiment, a double shelf is used as described above, and the air duct 24 and the air purifier 30 are individually incorporated in two rows of shelf boards 18 arranged side by side in the depth direction. . Then, on each front surface of the two shelves 18, that is, on the article take-out surface side, the purified air is discharged from the plurality of air supply ports 36 of the air supply path 26 toward the front in the horizontal direction, and the plurality of intake paths 28 Surrounding air is drawn in horizontally by the intake port 38.
[0024]
The shape of the air duct 24 is shown in FIG. In FIG. 7, the shelf board 18 into which the air duct 24 is incorporated has a flange 34 including a vertical wall at least on the side of the stored article. An air duct 24 having a rectangular cross section formed by fitting a flat cross-section hat-shaped member 44 and a flat channel-shaped member 45 is fixed to the lower surface side of the shelf board 18. The portion shown in FIG. 7 is a portion of the air supply path 26, and the air duct 24 is formed with an air supply port 36 on the side where the stored article is put in and out. A plurality of the air supply ports 36 are formed side by side in the horizontal direction as described above. The air supply port 36 is formed in a direction in which the air in the air supply path 26 is supplied in the horizontal direction, and the flow of air discharged from the air supply port 36 in the horizontal direction is bent downward by the flange 34. It is like that.
[0025]
The portion of the intake path 28 has a cross-sectional shape similar to that of the air supply path 26, and an intake port 38 similar to the air supply port 36 is formed.
Note that an air filter is mounted in the air purifier 30. This air filter may be provided with a door for attaching / detaching the air filter on the front side wall surface of the air cleaner 30 so that maintenance such as replacement can be performed periodically.
[0026]
According to the air supply path 26 configured as shown in FIG. 7, the purified air sent from the air cleaner 30 and passing through the air duct 24 is discharged from the air supply port 36 toward the front in the horizontal direction. However, since the vertical wall of the ledge 34 of the shelf 18 exists in front of the discharge direction, the air discharged forward in the horizontal direction is bent downward by the inner surface of the ledge 34. For this reason, the exhaust air flows downward along the front surface of the shelf 10. On the other hand, since the plurality of intake ports 38 of the intake path 28 are configured in the same manner as the air supply port 36 of FIG. 7, air is sucked from the lower front portion of the shelf board 18. As a result, the direction of the air discharged downward from the air supply port 36 is gradually changed, and in the vicinity of the air intake port 38, the air is directed upward and is sucked from the air intake port 38. In this way, the air that has traveled around the front surface of the shelf 10 is sucked from the air inlet 38, purified by the air cleaner 30, and discharged from the air inlet 36 again.
[0027]
In addition, in embodiment shown in FIG. 1 thru | or 7, the air duct 24 is formed in the shelf board 18 which continues in the horizontal direction at the same height, and the air cleaner 30 is attached to one of these shelf boards. However, the air duct 24 and the air cleaner 30 may be incorporated in the top plate 16. The shape of the air duct incorporated in the top plate 16 may be the same as the shape shown in FIG.
Further, the air duct 24 and the air purifier 30 may be incorporated in the underframe 12. In this case, it is preferable that the air supply port discharges air upward and the air intake port sucks air downward.
[0028]
1 to 6, reference numerals 20 and 22 denote side panels attached to the side surface of the shelf 10. Reference numeral 40 denotes a humidity control apparatus. The humidity control apparatus 40 is attached to the side panel 20 and has an air intake port 42 and a discharge port 43 on the inner surface side of the side panel 20. The air intake 42 sucks and dehumidifies a part of the air in the shelf collected around the intake path 28, and humidifies it depending on the case. The air conditioned by the humidity control device 40 is sent to the intake path 28 from the communication path 45 through the discharge port, and is purified by the air purifier 30 together with the air taken in from the intake port 38 to the air supply path 26. The humidity environment of the shelf 10 is kept moderate. Whether or not the humidity control device 40 is provided is arbitrary.
[0029]
According to the embodiment described above, the air duct 24 extends in the horizontal direction, and has a simple configuration in which the air blocking plate 32 is divided into the air supply path 26 and the intake path 28, and the air cleaner 30. Is directly connected to the air supply path 26. Therefore, the air purified by the air purifier 30 is efficiently guided to the air supply path 26 of the air duct 24 with abundant air volume and discharged from the air supply port 36. In this way, the air around the shelf 10 and the article storage unit can be efficiently circulated, the number of air circulations per unit time can be increased, and the environment around the shelf 10 and the article storage unit can be quickly improved.
[0030]
The air duct 24 is integrally incorporated by adding the plate 44 to the shelf board 18 and does not need to be individually formed as a duct. Therefore, there is an advantage that the number of parts is small, and one continuous duct 24 is air-operated. Since the air supply path 26 and the intake path 28 are divided by the blocking plate 32, the configuration is simple, and an environment improvement device for the storage body can be obtained at low cost. Further, even if the air duct 24 is integrated into the shelf board 18 or the top board 16 to form a multiple-type storage body in which the storage / extraction surface of the stored articles is divided into a plurality of columns 14, Since the air duct 24 can be continuously formed across the top plate 16, there is an advantage that the air duct 24 can be easily formed.
[0031]
Next, effects obtained by the present invention will be described together with various measurement data when the present invention is adopted.
Although the experimental data is not abundant, when the wind speed of about 0.5m / sec or more directly hits the stored item, the response of the moisture content of the stored item to the relative humidity change becomes faster, which is not desirable. It is said. Therefore, it was developed and designed with the aim that the wind speed when the wind hits the stored items would be 0.5 m / sec or less. Therefore, as shown in FIGS. 1 and 5, the speed of the air discharged from each discharge port 36 is reduced by increasing the number of discharge ports 36. Further, as described with reference to FIG. 7, the air discharged from the air supply port 36 in the horizontal direction is applied to the flange 34 of the shelf board 18 to reduce the wind speed, and the wind direction is directed downward so that the strong wind is directly applied to the stored items. It was configured to avoid hitting. As a result, it is possible to avoid wind damage caused by stored items.
[0032]
Next, the ventilation frequency per unit time when the technical idea according to the present invention was adopted was measured in comparison with the case where the invention according to the previous application was adopted. The result is shown in FIG. Measurements were made at 2 stations, 4 stations, 6 stations, 8 stations, 10 stations, and 12 stations where the number of stations in the frontage was 12. In FIG. 9, a curve A indicates a case where the technical idea according to the present invention is adopted, and a curve B indicates a case where the invention according to the previous application is adopted. As is apparent from the curves A and B, by adopting the technical idea according to the present invention, the number of ventilations per unit time is about 10 times that in the case of the invention according to the previous application at any measurement point. It can be seen that the environmental improvement efficiency is high.
[0033]
The wind speed from the air supply port 36 when the technical idea according to the present invention was adopted was measured while changing the number of the air supply ports 36. The shelf to be measured has a 10-unit configuration, and measurement was performed at each continuous position. The diameter of the air supply port was 10 mm. In FIG. 10, curve a has 15 air supply ports in each station, curve b has 20 air supply ports in each station, curve c has 40 air supply ports in each station, and curve d has The number of mouths is 10 in the 2nd and 3rd station, 40 from the 4th to the 10th station, and the curve e is 15 in the 2nd and 3rd station and the 4th to 10th station. The curve f indicates the measurement results of the number of air supply ports of 20 in the 2nd and 3rd stations and 40 in the 4th to 10th stations. The air source, that is, the air purifier is installed in the first station. As can be seen from this result, the closer to the wind source, the faster the wind speed. In particular, when the number of air supply ports is small as a whole, the wind speed increases, and the closer to the wind source, the higher the wind speed is, which is not desirable. Moreover, it was found that a uniform wind speed can be obtained as a whole by reducing the number of air supply ports at a position close to the air source and increasing the number of air supply ports at a position far from the air source. Among the measured values, the number of air supply ports for which the curve e was obtained was 15 in the 2nd and 3rd stations and 40 from the 4th to 10th stations. It is most desirable because it achieves sec or less.
[0034]
Then, next, what measured the number of air supply mouthpieces 15 and 40 was measured by changing the number of stations. The result is shown in FIG. Curve a is for 10 series, curve b is for 9 series, curve c is for 6 series, and curve d is for 3 series of shelves. The wind speed of 0.5 m / sec or less is almost achieved in any specification shelf.
[0035]
FIG. 12 shows the test results regarding the sterilization effect. A petri dish with a diameter of 90 mm containing a mold medium was placed in and out of the shelves, and the falling bacteria test was conducted intentionally under adverse conditions. Falling bacteria were collected at certain time intervals after the air cleaner was operated, and culture was detected. The result is shown in FIG. In FIG. 12, curve a is detected inside the shelf incorporating the inventive idea, curve b is detected inside the shelf incorporating the inventive concept of the previous application, and curve c is detected outside the shelf. Each one is shown. The horizontal axis is the operating time, and the vertical axis is the attenuation rate. As can be seen from FIG. 12, it can be seen that those incorporating the inventive idea of the previous application are also excellent in sterilizing effect, but the shelf incorporating the inventive idea is further excellent in sterilizing effect. I understand.
[0036]
Further, according to the shelf incorporating the idea of the present invention, it was found that what was in a strongly acidic environment before operation is improved to a neutral environment, that is, a clean environment after 24 hours of operation. In this acid / alkali environment measurement method, an environmental monitor was installed in the article storage block of each shelf, and the color change was judged by comparing with the color scale. As a result of measuring also about what incorporated the inventive idea concerning the earlier application, the environmental improvement effect was recognized, but the strong acidity before operation became weak acid after 24 hours of operation, and the inventive idea was incorporated. The shelf was found to have a higher environmental improvement effect.
[0037]
According to the shelf incorporating the idea of the present invention, the inside of the storage body is constantly air-conditioned and the temperature and humidity are controlled, so that each article storage space is maintained in stable environmental conditions. In addition, when the humidity controller is attached, the humidity condition is maintained better.
[0038]
In the embodiment described so far, the air duct extends in the horizontal direction, but the present invention is not limited to this. The air duct may extend vertically Yes. Hereinafter, an embodiment having such a configuration will be described.
[0039]
In the embodiment shown in FIGS. 13 to 15, an air duct having an air supply path and an intake path is extended in the vertical direction. 13 and 14, an air duct 24 is fixed to the side panel 22 on one side of the shelf 10 along the inner surface. The shelf 10 is a duplex shelf in which two shelf plates 18 are arranged in the depth direction, and two air ducts 24 are also arranged corresponding to the two shelf plates 18 in the depth direction. The air duct 24 is divided into an air supply path 26 and an intake path 28 by an air blocking plate. A plurality of air supply ports 36 are formed in the air supply path 26 so as to be aligned in the vertical direction, and a plurality of air intake ports 38 are formed in the intake path 28 so as to be aligned in the vertical direction. In FIG. 13, the formation range of the air supply port 36 is indicated by the symbol E, and the formation range of the intake port 38 is indicated by the symbol I.
[0040]
An air purifier 30 having a photocatalytic titanium oxide filter is attached to the lower outer surface of the side panel 22. The air inlet 46 of the air cleaner 30 communicates with the air intake path 28, and the air supply port 48 of the air cleaner 30 communicates with the air supply path 26.
[0041]
As shown in FIG. 14, the air supply port 36 formed in the air supply path 26 of the air duct 24 is formed so as to supply air in a direction orthogonal to the front surface of the shelf 10. A bent side edge portion 221 formed by bending the side edge of the side panel 22 at a right angle is positioned in the direction in which the air supply proceeds. The bent side edge portion 221 functions as a direction changing member that bends the air supply in a direction parallel to the front surface of the shelf 10. The structure in the vicinity of the air inlet 38 is the same, and the air flowing in the direction parallel to the front surface of the shelf 10 is bent at the bent side edge 221 of the side panel 22 in a right angle direction and guided to the air inlet 38. .
[0042]
Note that the air duct 24 may be incorporated between the columns 14 arranged in the depth direction of the shelf 10 as in the embodiment shown in FIG. In this embodiment, the air supply port 36 is formed on the surface on the front surface side of the support column 14 located on the front surface side of the shelf. The intake port is formed in the same manner. A space formed between the air duct 24 and the inner surface side of the side panel 22 is closed by a shielding plate 222. A direction changing member 223 that bends the air supply in a direction parallel to the front surface of the shelf 10 is disposed on the path of the air that is supplied from the air supply port 36 in a direction orthogonal to the front surface of the shelf 10. . The direction changing member 223 may be one obtained by extending the bent side edge of the side panel 22.
[0043]
The embodiment shown in FIGS. 13 to 15 differs from the embodiment shown in FIGS. 1 to 8 only in that the air duct having the air supply path and the intake path is extended in the vertical direction. The same operation and effect as the embodiment shown in FIG.
[0044]
In the embodiment shown in FIG. 16, the air duct is divided into a portion extending in the horizontal direction and a portion extending in the vertical direction, the portion extending in the horizontal direction is defined as the intake path 28, and the portion extending in the vertical direction is defined as the air supply path 26. It is a thing. More specifically, an air purifier 30 having a photocatalytic titanium oxide filter is attached to the uppermost shelf 18 of the shelf 10, an intake path 28 is provided in the shelf 18, and an air supply path 26 is provided to the side panel 22. Is provided. A part of the shelf 18 is left to be the intake port forming range I, the air supply port 48 of the air purifier 30 communicates with the remaining part, and the remaining part is connected to the air supply path 26. Communicate. The intake path 28 can be configured similarly to the intake path of the embodiment shown in FIGS. 1 to 8, and the air supply path 26 is configured similarly to the air supply path of the embodiment shown in FIGS. be able to.
[0046]
The air supply port and the air intake port are not limited to the air supply in the horizontal direction and the air intake from the horizontal direction as described with reference to FIGS. In the example shown in FIGS. 7 and 8, the air is once supplied in the horizontal direction with the intention of controlling the wind speed, and this is indirectly directed downward by applying it to a member forming a vertical surface. It was. However, as shown in FIG. 7, the air supply port 361 of the air supply path 26 may be formed downward and the air supply may be downward. In addition, as shown in FIG. 18, the air supply port 362 of the air supply path 26 may be formed obliquely downward so that the air supply is obliquely downward. Similarly, the intake port of the intake path may be formed as shown in FIG. 7 so as to intake air from the lower side or the diagonally lower side of the intake path. Alternatively, the air supply port may have the same configuration as the air supply port shown in FIGS. 17 and 18, and the intake port may have the same configuration as the configuration shown in FIG. 7. The air supply port may have the same configuration as that shown in FIG. 7, and the air supply port may have the same configuration as that shown in FIG.
[0047]
The environment improvement apparatus according to the present invention is not limited to the shelf as in the illustrated embodiment, and can be applied to general storage bodies such as a movable shelf, a fixed shelf, a storage shelf, a display shelf, a closet, a shoe box, and a storage compartment.
[0048]
【The invention's effect】
According to the present invention, the air duct extends in the horizontal direction and has a simple configuration in which it is divided into an air supply path and an intake path by an air blocking plate, and the air cleaner is directly connected to the air supply path. Therefore, the air purified by the air cleaner is efficiently led to the air duct air supply path with abundant air volume and discharged from the air supply opening. Thus, the air around the storage body and the article storage section can be efficiently circulated, the number of air circulation per unit time can be increased, and the environment around the storage body and the article storage section can be improved quickly.
[0049]
Like the present invention, In the case where the air duct is incorporated in the shelf board or top plate, the shelf board or top plate is provided with a ridge that includes a vertical wall on the side where the stored articles are put in and out, and the air supply port is formed in a direction to feed air horizontally. According to the structure in which the flow of air discharged from the air supply port in the horizontal direction is bent downward by the above-mentioned hook, the air bent downward by the hook of the shelf board or the top board is horizontally The direction of the flow is changed toward the multiple inlets arranged side by side, and as a result, the purified air circulates around the storage unit and the storage unit, and the environment around the storage unit and the storage unit is efficient. To be improved.
[0050]
Moreover, according to the present invention, By having the photocatalytic titanium oxide in the air cleaning means, it is possible to enhance the sterilization and sterilization effects and the decomposition effect of fine dust in the air.
[Brief description of the drawings]
FIG. 1 is a front view showing an embodiment of an environment improvement device for a storage body according to the present invention.
FIG. 2 is a sectional view taken along line AA in FIG.
FIG. 3 is a sectional view taken along line BB in FIG.
FIG. 4 is an enlarged cross-sectional view showing the main part of the embodiment according to FIG.
FIG. 5 is an enlarged cross-sectional view showing the main part of the embodiment according to FIG. 1;
6 is an enlarged cross-sectional view showing the main part of the embodiment according to FIG.
FIG. 7 is a perspective view showing the air duct portion of the embodiment cut away.
FIG. 8 is a perspective view showing portions of the air cleaner and the air duct of the embodiment.
FIG. 9 is a graph showing the number of ventilations per hour of a storage body incorporating the inventive concept in comparison with that incorporating the inventive concept of the prior application.
FIG. 10 is a graph showing measurement results of wind speed generated by a storage body incorporating the idea of the present invention for each specification.
FIG. 11 is a graph showing the measurement result of wind speed under specific specification conditions for each storage unit having a different number of stations.
FIG. 12 is a graph showing a test result regarding a sterilization effect of a container incorporating the idea of the present invention together with a comparative example.
FIG. 13 is a front view showing another embodiment of the environmental improvement device for a container according to the present invention.
FIG. 14 is a plan sectional view showing an air duct portion of the embodiment.
FIG. 15 is a plan sectional view showing a modification of the air duct portion.
FIG. 16 is a front view showing still another embodiment of the environmental improvement device for a container according to the present invention.
FIG. 17 is a cross-sectional view showing a modification of the air supply port applicable to the present invention.
FIG. 18 is a cross-sectional view showing another modified example of the air supply port applicable to the present invention.
[Explanation of symbols]
10 Storage body
14 Prop
16 Top plate
18 shelves
24 Air duct
26 Air supply route
28 Intake route
30 Air cleaning means
32 Air barrier plate
34 框
36 Air outlet
38 Inlet
40 Humidity control device

Claims (10)

An air duct composed of an air supply path and an intake path;
An air purifying means for purifying the air sucked from the intake passage;
In an environment improvement device for a storage body having
The air duct is a single air passage that is continuous in the horizontal direction , and the middle of the air duct in the length direction is divided into an air supply path and an intake path by an air blocking plate,
The air cleaning means is directly connected to the air supply path,
The air supply path has a plurality of air supply ports formed side by side in the horizontal direction ,
The intake path has a plurality of intake ports formed side by side in the horizontal direction ,
A storage body characterized in that air that has been supplied from a plurality of air supply ports and circulated around the inside of the storage body is sucked from a plurality of air intake ports, air is purified by air purifying means, and air is supplied from the plurality of air supply ports. Environmental improvement equipment. An air duct composed of an air supply path and an intake path;
An air purifying means for purifying the air sucked from the intake passage;
In an environment improvement device for a storage body having
The air duct is a single air passage that is continuous in the vertical direction , and the air duct is divided into an air supply path and an intake path in the middle of the length direction of the air duct,
The air cleaning means is directly connected to the air supply path,
The air supply path has a plurality of air supply ports formed side by side in the vertical direction ,
The intake path has a plurality of intake ports formed side by side in the vertical direction ,
A storage body characterized in that air that has been supplied from a plurality of air supply ports and circulated around the inside of the storage body is sucked from a plurality of air intake ports, air is purified by air purifying means, and air is supplied from the plurality of air supply ports. Environmental improvement equipment.   The environment improvement device for a storage body according to claim 1 or 2, wherein an air supply port of the air duct is formed in a direction to supply air obliquely downward, and an intake port is formed in a direction to intake air from obliquely below.   The environment improvement device for a storage body according to claim 1, wherein the air duct is incorporated in a shelf board or a top board.   The shelf board or the top board has a ridge including a vertical wall on the loading / unloading surface side of the stored article, and the air supply port is formed in a direction to supply air in the horizontal direction, and the air discharged from the air supply port in the horizontal direction The environmental improvement device for a storage body according to claim 4, wherein the flow is bent downward by the scissors.   The storage body is a multiple-type storage body having a support column that divides the storage article loading / unloading surface side into a plurality of storage articles when viewed from the storage article loading / unloading surface side, and the air duct spans the shelf boards or the top plate of each series. The environmental improvement device for a storage body according to claim 4, which is continuously formed.   The environment improvement device for a storage body according to claim 1 or 2, further comprising a humidity control device together with the air cleaning means.   The environmental improvement device for a storage body according to claim 2, wherein the air duct is incorporated in a side panel of the shelf.   The environmental improvement device for a storage body according to claim 2, wherein the air duct is incorporated between columns arranged in the depth direction of the shelf.   The plurality of air supply ports of the air duct air supply path are formed so as to supply air in a direction orthogonal to the shelf front surface, and have a direction changing member that bends the air supply in a direction parallel to the shelf front surface. The environment improvement apparatus of the storage body of Claim 8 or 9.

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