JP2022150222A - Storage chamber ventilation system - Google Patents

Abstract

To provide a system which ventilates a storage chamber, such as a closet, automatically.SOLUTION: A ventilation system 10 ventilates a closet 100 and includes: a moisture absorption/desorption member 1 which is attached to the interior of the closet 100 and may absorb or release moisture; a discharge fan 2 which is operated to discharge air in the closet 100 to the outside; and a ventilation control unit 3 which controls an operation of the discharge fan 2.SELECTED DRAWING: Figure 1

Description

The present invention relates to a system for automatically ventilating storage rooms such as closets and closets.

For example, if bedclothes soaked with people's night sweats are stored in the closet, the inside of the closet will be filled with moisture, which may cause mold and the like to become unsanitary. Therefore, in the past, the closet was prevented from being filled with moisture by opening the closet to allow air to pass through or installing a dehumidifier or a dehumidifying agent in the closet.

JP 2012-180953 A Japanese Patent Application Laid-Open No. 2003-042511 Japanese Patent Application Laid-Open No. 2002-273147

However, opening the closet to ventilate the closet was troublesome for the occupants because it had to be done manually on a regular basis. Also, dehumidifiers are cumbersome because they often need to drain the accumulated water. In the case of the dehumidifying agent, it is necessary to periodically replace it with a new one because it only absorbs water by, for example, calcium chloride, which is uneconomical. Furthermore, it has been proposed to install a moisture absorbing/desorbing member, but in that case, it is necessary to take it out from time to time and dry it in the sun, for example, which is troublesome.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a system for automatically ventilating storage rooms such as closets and closets.

The present invention is a storage room ventilation system for ventilating a storage room in which clothes or bedding are stored,
a moisture absorbing/releasing member attached to the storage chamber and capable of absorbing and releasing moisture;
a discharge fan operating to discharge the air in the storage room to the outside;
a ventilation control unit for controlling operation of the discharge fan;
It is characterized by having

According to the present invention, the storage room can be automatically ventilated.

BRIEF DESCRIPTION OF THE DRAWINGS It is longitudinal cross-sectional schematic which shows the storage room ventilation system of 1st Embodiment and 2nd Embodiment of this invention. FIG. 4 is a cross-sectional partial view showing the structure for attaching the moisture absorbing/releasing member in the first embodiment and the second embodiment. FIG. 5 is a cross-sectional partial view showing another example of the mounting structure of the moisture absorbing/releasing member. FIG. 5 is a cross-sectional partial view showing still another example of the mounting structure of the moisture absorbing/releasing member.

[First Embodiment]
FIG. 1 is a schematic vertical cross-sectional view showing a storage room ventilation system according to a first embodiment of the present invention. This embodiment is a ventilation system 10 for a closet 100, which is an example of a storage room. In FIG. 1, a closet 100 shows the lower level of a two-tiered closet built along the wall of a house. In FIG. 1 , bedding 200 is stored in a closet 100 .

The closet 100 has a rectangular parallelepiped box shape and has an internal space 101 surrounded by six sides. The six sides are a front wall 111 made up of a sliding door that can be opened and closed, a rear wall 112 made up of the outer wall of the residence, a top wall 113 forming the boundary with the upper closet, and a bottom wall 114 made up of the floor of the residence. A right side wall (not shown) when viewed from the front, and a left side wall 115 facing the right side wall.

A ventilation system 10 includes a moisture absorbing/releasing member 1 , a discharge fan 2 , and a ventilation control section 3 .

The moisture absorbing/releasing member 1 has a sheet-like shape. As a material for the moisture absorbing/releasing member 1, a known moisture absorbing/releasing material can be used. The moisture absorbing/releasing member 1 absorbs water vapor in the air, that is, absorbs moisture, as the humidity of the surrounding air is higher, and releases water vapor into the air, that is, releases moisture, as the humidity of the surrounding air is lower. It has the property of performing Hereinafter, the sheet-shaped moisture absorbing/releasing member 1 is referred to as "moisture absorbing/releasing sheet 1".

For example, when the moisture absorbing/releasing material is a fiber, a knitted fabric, a woven fabric, or a non-woven fabric made of the fiber can be used as the moisture absorbing/releasing sheet 1 . As such fibers, for example, cotton, trade name "Bell Oasis (registered trademark)" (manufactured by Teijin Frontier Co., Ltd.), trade name "Mosfine (registered trademark)" (manufactured by Japan Exlan Kogyo Co., Ltd.), etc. are used. can.

For example, when the moisture absorbing/releasing material is solid, the moisture absorbing/releasing sheet 1 can be constructed by pulverizing the solid into granules and sealing the granules in the sheet. Examples of such solids include minerals such as sepiolite and zeolite; plant-derived materials such as charcoal and activated carbon; and natural products such as algae fossils. Chemical substances such as B-type silica gel can also be used. B-type silica gel is made by melting silicon at a high temperature and has a round granular form of about 2 mm, so it can be enclosed in the sheet as it is. In addition, the confinement of powders and granules is carried out, for example, by placing the powder and granules on the surface of a microporous film made of polypropylene or polyethylene, covering the powder and granules with a nonwoven fabric, and thermocompression bonding the nonwoven fabric to the microporous film. ,It can be carried out. The microporous film is preferably formed by stacking and heat-sealing an OPP (biaxially oriented polypropylene) film with a high melting point and a CPP (non-oriented polypropylene) film with a low melting point. , the pulverized material is placed on the CPP film side. As such a microporous film, for example, the trade name "Unicel" (manufactured by Teijin Frontier Co., Ltd.), the trade name "Exepol (registered trademark)" (manufactured by Mitsubishi Chemical Corporation), etc. can be used.

The moisture absorbing/releasing sheet 1 is attached to the six sides of the closet 100, that is, the front wall 111, the rear wall 112, the ceiling wall 113, the bottom wall 114, the right side wall, and the left side wall 115, along each wall and on each wall. It is provided on almost the entire surface. Specifically, for example, as shown in FIG. 2 , the moisture absorbing/releasing sheet 1 is attached to the rear wall 112 with double-sided tape 41 . Note that Velcro (registered trademark) may be used instead of the double-sided tape. The moisture absorbing/releasing sheet 1 is also attached to the front wall 111, the ceiling wall 113, the right side wall, and the left side wall 115 in the same manner. The moisture absorbing/releasing sheet 1 is similarly attached to the rear surface of the screen 51 on the bottom wall 114, but it may be placed on the bottom wall 114 as well. Since the moisture absorbing/releasing sheet 1 is attached to each wall by the double-sided tape 41, it can be attached to and detached from each wall.

The discharge fan 2 operates to discharge the air inside the closet 100 (that is, the inside air) to the outside. The discharge fan 2 is provided substantially in the center of the bottom wall 114 so as to penetrate through the bottom wall 114 and is exposed in the space below the screen 51 , but is not in contact with the moisture absorption/desorption sheet 1 .

The ventilation control section 3 controls the operation of the discharge fan 2 . The ventilation control unit 3 has an external humidity sensor 31 installed outside the closet 100. When the external humidity sensor 31 detects that the absolute humidity is A or less, the ventilation control unit 3 operates the discharge fan 2, and the external humidity sensor When 31 does not detect that the absolute humidity is below A, the discharge fan 2 is stopped. The main body 30 of the ventilation control unit 3 is provided at eye level in the vicinity of the closet 100 in the room outside the closet 100 for easy operation. The absolute humidity A is set to be lower than the absolute humidity of the inside air of the closet 100 dehumidified only by the moisture absorbing/releasing sheet 1. Specifically, it is set to 17 g/m ³ , for example.

The external humidity sensor 31 is provided near the outside air opening 61 of the underfloor space 600 and is not affected by rain and wind.

According to the ventilation system 10 configured as described above, the following effects can be exhibited.
(1) When the used bedding 200 is stored in the closet 100, moisture such as night sweat permeating the bedding 200 is released from the bedding 200 as water vapor. When the bedding 200 releases water vapor, the absolute humidity of the air in the closet 100 increases. However, the moisture absorbing/releasing sheet 1 in the closet 100 absorbs as much water vapor contained in the inside air as possible. Therefore, the absolute humidity of the inside air of the closet 100 can be suppressed to a relatively low level, specifically, for example, the absolute humidity of about 19 g/m ³ .

(2) When a power switch (not shown) is on, the external humidity sensor 31 operates to detect the absolute humidity of the air outside the closet 100 (outside air). Since the external humidity sensor 31 is provided in the vicinity of the outdoor air opening 61 of the underfloor space 600, it can detect the absolute humidity of the air close to the outside of the residence.

(2-1) When the external humidity sensor 31 does not detect that the absolute humidity is below A, the discharge fan 2 is kept stopped. Therefore, the absolute humidity of the inside air of the closet 100 is maintained at a level suppressed by the moisture absorbing/releasing sheet 1 .

(2-2) When the external humidity sensor 31 detects that the absolute humidity is below A, the discharge fan 2 operates. When the discharge fan 2 operates, an air flow is generated within the closet 100 as indicated by the arrows in FIG. That is, an air flow occurs in which the air inside the closet 100 is released to the outside and the outside air flows into the closet 100 . Since the absolute humidity of the incoming outside air is less than the absolute humidity A, the moisture absorbing/releasing sheet 1 releases the water vapor that has been sucked in, that is, releases the moisture, and the released water vapor flows out of the closet 100 along with the air flow. released to At the same time, the air in the closet 100 is replaced by outside air, and as a result, the absolute humidity of the inside air in the closet 100 becomes absolute humidity A or lower.

(3) When the bedding 200 is removed from the closet 100, used, and put back into the closet 100, the above operations (1) and (2) are repeated.

As described above, according to the ventilation system 10 configured as described above, the following effects can be exhibited.
(i) The absolute humidity in the closet 100 can be automatically lowered to the absolute humidity A or less. Therefore, according to the ventilation system 10 of the present invention, the inside of the closet 100 can be automatically ventilated.

(ii) Since the moisture absorbing/releasing sheet 1 that has absorbed moisture can be automatically released, the work of taking out the moisture absorbing/releasing sheet 1 and drying it can be eliminated, thereby improving convenience.

The absolute humidity A is arbitrarily set depending on the absolute humidity X that can be realized only by the moisture absorbing/releasing sheet 1, the environment outside the closet 100, etc., but is set to a value smaller than the absolute humidity X.

[Second embodiment]
This embodiment differs from the first embodiment only in the following points.
(a) The ventilation control unit 3 has an internal humidity sensor 32 as well as an external humidity sensor 31 . An internal humidity sensor 32 is installed within the closet 100 to detect the absolute humidity of the air inside the closet 100 . In addition, in FIG. 1, the internal humidity sensor 32 is indicated by a phantom line.
(b) The ventilation control unit 3 compares the absolute humidity detected by the internal humidity sensor 32 and the absolute humidity detected by the external humidity sensor 31, and if the former is higher than the latter, operates the discharge fan 2, is equal to or less than the latter, the discharge fan 2 is stopped.

According to the ventilation system 10 of this embodiment, the following effects can be exhibited.
(1) When the used bedding 200 is stored in the closet 100, moisture such as night sweat permeating the bedding 200 is released from the bedding 200 as water vapor. When the bedding 200 releases water vapor, the absolute humidity of the air in the closet 100 increases. However, the moisture absorbing/releasing sheet 1 in the closet 100 absorbs as much water vapor contained in the inside air as possible. Therefore, the absolute humidity of the inside air of the closet 100 can be suppressed to a relatively low level, specifically, for example, the absolute humidity of about 19 g/m ³ .

(2) When the power switch (not shown) is on, the external humidity sensor 31 and the internal humidity sensor 32 are activated to detect the absolute humidity of the outside air and the inside air, respectively. Since the external humidity sensor 31 is provided in the vicinity of the outdoor air opening 61 of the underfloor space 600, it can detect the absolute humidity of the air close to the outside of the residence.

(2-1) When the absolute humidity of the inside air detected by the internal humidity sensor 32 is equal to or lower than the absolute humidity of the outside air detected by the external humidity sensor 31, the discharge fan 2 is stopped. maintained as is. Therefore, the absolute humidity in the closet 100 is maintained at a level suppressed by the moisture absorbing/releasing sheet 1 .

(2-2) When the absolute humidity of the inside air detected by the internal humidity sensor 32 is higher than the absolute humidity of the outside air detected by the external humidity sensor 31, the discharge fan 2 operates. When the discharge fan 2 operates, air flows within the closet 100 as indicated by the arrows in FIG. That is, an air flow occurs in which the air inside the closet 100 is released to the outside and the outside air flows into the closet 100 . Since the absolute humidity of the incoming outside air is lower than the absolute humidity of the inside air, the moisture absorbing/releasing sheet 1 releases the water vapor that has been sucked in, i.e., releases the moisture, and the released water vapor flows into the closet 100 along with the air flow. released outside. At the same time, the air inside the closet 100 is being replaced by outside air, so that the absolute humidity of the inside air of the closet 100 becomes the same as the outside air.

(3) When the bedding 200 is removed from the closet 100, used, and put back into the closet 100, the above operations (1) and (2) are repeated.

As described above, according to the ventilation system 10 configured as described above, the following effects can be exhibited.
(i) When the absolute humidity of the inside air is the same as or lower than the absolute humidity of the outside air, the moisture absorption/desorption sheet 1 can suppress the absolute humidity of the inside air to a low level, and the absolute humidity of the inside air is the absolute humidity of the outside air. If higher than the humidity, the absolute humidity of the inside air can be lowered to the absolute humidity of the outside air, and this can be done automatically. Therefore, according to the ventilation system 10 of the present invention, the inside of the closet 100 can be automatically ventilated.

(ii) Since the moisture absorbing/releasing sheet 1 that has absorbed moisture can be automatically released, the work of taking out the moisture absorbing/releasing sheet 1 and drying it can be eliminated, thereby improving convenience.

[Another embodiment]
The ventilation system 10 of the present invention may optionally employ the following configuration.
(1) The ventilation system 10 of the above embodiment is intended for closets, but the present invention can also be applied to closets for storing clothes.

(2) The ventilation control unit 3 may control the operation of the discharge fan 2 on and off using a timer. For example, the discharge fan 2 may be operated only during a predetermined time period during the day when the outside air is dry.

(3) The shape of the moisture absorbing/releasing member 1 is not limited to a sheet shape, and may be rod-like, spherical, or any other shape.

(4) The moisture absorbing/releasing sheet 1 may be provided not on the entire surface but partially on each wall.

(5) The moisture absorbing/releasing member 1 may be provided on any one or more walls instead of all walls.

(6) The moisture absorbing/releasing member 1 may be attached to each wall not detachably but fixedly.

(7) The moisture absorbing/releasing member 1, particularly the moisture absorbing/releasing sheet 1, may be attached to each wall as follows.
(7-1) As shown in FIG. 3, the moisture absorbing/releasing member 1 is hooked on the hook 42 fixed to the wall (here, the rear wall 112).
(7-2) As shown in FIG. 4, the moisture absorbing/releasing member 1 is pressed against the wall (here, the rear wall 112) with the push pin 43. As shown in FIG.

(8) The discharge fan 2 may be provided on any wall other than the bottom wall 114 . For example, the discharge fan 2 may be provided on the rear wall 112 or the left side wall 115 or the right side wall.

(9) The external humidity sensor 31 may be installed not under the floor but at any place in the room where the closet or closet is arranged. For example, in FIG. 1, the external humidity sensor 31 is provided in the room 300 and near the front wall 111 of the closet 100, as indicated by the phantom line. Note that the external humidity sensor 31 may be provided in another room, such as the entrance.

(10) The discharge fan 2 is provided substantially in the center of the bottom wall 114 in FIG. 1, but may be provided near the front wall 111 of the bottom wall 114. In that case, the maintenance of the discharge fan 2 becomes easy.

Since the storage room ventilation system of the present invention can automatically ventilate the storage room, it has great industrial utility value.

1 Moisture absorbing/releasing member (moisture absorbing/releasing sheet)
100 closet (storage room)
111 front wall 112 rear wall 113 ceiling wall 114 bottom wall 115 left side wall 2 discharge fan 3 ventilation control section 31 external humidity sensor 32 internal humidity sensor 600 underfloor space 61 outside air opening

Claims (12)

A storage room ventilation system for ventilating a storage room containing clothes or bedding,
a moisture absorbing/releasing member attached to the storage chamber and capable of absorbing and releasing moisture;
a discharge fan operating to discharge the air in the storage room to the outside;
a ventilation control unit for controlling operation of the discharge fan;
A storage room ventilation system comprising: The ventilation control unit has an external humidity sensor installed outside the storage room, and operates the discharge fan when the external humidity sensor detects a predetermined absolute humidity or less, If the sensor does not detect that the absolute humidity is below the predetermined absolute humidity, the exhaust fan is stopped.
The storage room ventilation system according to claim 1. The predetermined absolute humidity is set lower than the absolute humidity of the air in the storage chamber dehumidified only by the moisture absorbing/releasing member,
The storage room ventilation system according to claim 2. The ventilation control unit has an internal humidity sensor installed inside the storage room and an external humidity sensor installed outside the storage room, and the absolute humidity detected by the internal humidity sensor and the external humidity sensor detected. When the former is higher than the latter, the emission fan is operated, and when the former is equal to or lower than the latter, the emission fan is stopped.
The storage room ventilation system according to claim 1. The ventilation control unit is adapted to turn on and off the operation of the discharge fan by a timer.
The storage room ventilation system according to claim 1. One or more of the moisture absorbing/releasing members are provided at an arbitrary location in the storage chamber,
Storage room ventilation system according to any one of claims 1 to 5. The moisture absorbing/releasing member has a sheet-like form,
Storage room ventilation system according to any one of claims 1 to 6. The moisture absorbing/releasing member is attached along one or more of a ceiling wall, a bottom wall, a front wall, a rear wall, a right side wall, and a left side wall of the storage room,
The storage room ventilation system according to claim 7. The moisture absorbing/releasing member is detachably provided in the storage chamber,
Storage room ventilation system according to any one of claims 6 to 8. The discharge fan is provided on any one of a top wall, a bottom wall, a front wall, a rear wall, a right side wall, and a left side wall of the storage room,
Storage room ventilation system according to any one of claims 1 to 9. The external humidity sensor is installed near an outside air opening in the underfloor space of the storage room,
The discharge fan is provided on the bottom wall of the storage room so as to lead to the underfloor of the storage room,
Storage room ventilation system according to claim 2 or 4. The storage room is a closet or a closet,
Storage room ventilation system according to any one of claims 1 to 11.

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