JP3152608B2 - Dehumidifying and drying equipment - Google Patents
Dehumidifying and drying equipmentInfo
- Publication number
- JP3152608B2 JP3152608B2 JP03853396A JP3853396A JP3152608B2 JP 3152608 B2 JP3152608 B2 JP 3152608B2 JP 03853396 A JP03853396 A JP 03853396A JP 3853396 A JP3853396 A JP 3853396A JP 3152608 B2 JP3152608 B2 JP 3152608B2
- Authority
- JP
- Japan
- Prior art keywords
- air
- zone
- drying
- dehumidifying element
- tertiary
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F3/00—Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems
- F24F3/12—Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling
- F24F3/14—Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling by humidification; by dehumidification
- F24F3/1411—Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling by humidification; by dehumidification by absorbing or adsorbing water, e.g. using an hygroscopic desiccant
- F24F3/1423—Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling by humidification; by dehumidification by absorbing or adsorbing water, e.g. using an hygroscopic desiccant with a moving bed of solid desiccants, e.g. a rotary wheel supporting solid desiccants
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2203/00—Devices or apparatus used for air treatment
- F24F2203/10—Rotary wheel
- F24F2203/1004—Bearings or driving means
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2203/00—Devices or apparatus used for air treatment
- F24F2203/10—Rotary wheel
- F24F2203/1012—Details of the casing or cover
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2203/00—Devices or apparatus used for air treatment
- F24F2203/10—Rotary wheel
- F24F2203/1032—Desiccant wheel
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2203/00—Devices or apparatus used for air treatment
- F24F2203/10—Rotary wheel
- F24F2203/1056—Rotary wheel comprising a reheater
- F24F2203/106—Electrical reheater
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2203/00—Devices or apparatus used for air treatment
- F24F2203/10—Rotary wheel
- F24F2203/1068—Rotary wheel comprising one rotor
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2203/00—Devices or apparatus used for air treatment
- F24F2203/10—Rotary wheel
- F24F2203/1088—Rotary wheel comprising three flow rotor segments
Landscapes
- Engineering & Computer Science (AREA)
- Central Heating Systems (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Drying Of Solid Materials (AREA)
Description
【0001】[0001]
【発明の属する技術分野】この発明は、例えば建屋の浴
室、衣服収納室、洗面室、更衣室あるいは地下室などの
高湿雰囲気の密閉室内の除湿及び乾燥に用いられる回転
型除湿用素子を備えた除湿乾燥装置に関し、特に、簡易
な送風システムにより回転型除湿用素子による室内の湿
潤空気の除湿・乾燥処理や回転型除湿用素子の再生処理
が効率良く行なえるとともに、室内の暖房を行なえるよ
うにしたものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention comprises a rotary dehumidifying element used for dehumidifying and drying inside a high-humidity enclosed room such as a bathroom, a clothes storage room, a washroom, a dressing room or a basement room of a building. Regarding the dehumidifying / drying device, in particular, it is possible to efficiently perform dehumidifying and drying processing of indoor humid air by a rotary dehumidifying element and regeneration processing of a rotary dehumidifying element by a simple air blowing system, and also perform indoor heating. It was made.
【0002】[0002]
【従来の技術】一般に、例えば家庭内における密閉室と
しての浴室などの壁面あるいは天井面には、換気口が化
粧グリルを介して開口し、この換気口の換気口枠に換気
扇を室外側に取り付けることにより室内の換気を行なっ
ている。2. Description of the Related Art In general, a ventilation opening is opened through a decorative grill on a wall surface or a ceiling surface of a bathroom or the like as a closed room in a house, and a ventilation fan is attached to a ventilation opening frame of the ventilation opening outside the room. This provides indoor ventilation.
【0003】また、このような室内の除湿・乾燥を行な
う場合には、室側壁面または天井面に吸込口及び吹出口
を別途に開口させて設け、室外に設置した除湿乾燥装置
により室内の湿潤空気を吸込口から吸い込んで除湿し乾
燥するとともに、この除湿後の乾燥空気を吹出口から室
内に吹き出させることにより行なわれ、これによって、
浴室を洗濯物などの衣類の乾燥室として利用するように
なっている。In order to perform dehumidification / drying in a room, a suction port and an air outlet are separately provided on a side wall surface or a ceiling surface of the room, and the inside of the room is dehumidified and dried by a dehumidifying / drying device installed outside the room. The air is sucked in from the suction port to dehumidify and dry, and the dehumidified dry air is blown out from the outlet into the room.
The bathroom is used as a drying room for clothes such as laundry.
【0004】従来、この種の除湿乾燥装置においては、
ケース本体内に設けた回転型除湿用素子に吸込口から吸
込まれた室内の湿潤空気を通過させて水分の吸着作用を
行なわせた後の乾燥空気を吹出口から室内に吹き出させ
るような循環空気の強制循環機構を備えるとともに、水
分の吸着した回転型除湿用素子に高温の空気を送気する
ことにより、回転型除湿用素子に水分の脱着を行なわせ
て、回転型除湿用素子を再生させるようにしてなる構成
を有するものがある。Conventionally, in this type of dehumidifying and drying apparatus,
Circulating air that allows the humid air in the room sucked from the suction port to pass through the rotary type dehumidifying element provided in the case main body to cause the moisture to be adsorbed, and that the dry air is blown into the room from the outlet through the outlet. The forced circulation mechanism is provided, and high-temperature air is supplied to the rotary dehumidifying element to which moisture has been adsorbed, thereby causing the rotary dehumidifying element to desorb moisture and regenerate the rotary dehumidifying element. There is a device having a configuration as described above.
【0005】[0005]
【発明が解決しようとする課題】しかしながら、上記し
た従来構造の除湿乾燥装置にあっては、室内の湿潤空気
の吸込み及び除湿後の乾燥空気の吹出しを行なう循環空
気の強制循環機構と、再生用空気の取込み及び排出を行
なう送気機能とがそれぞれ別途の送風機構にて行なって
いるために、2基の専用の送風機が必要となり、送風シ
ステムが複雑になって、装置全体が大型化するばかりで
なく、コスト高になる。However, in the dehumidifying / drying apparatus having the above-mentioned conventional structure, a forced circulation mechanism for circulating air for sucking in humid air in the room and blowing out dry air after dehumidification, Since the air blowing function for taking in and discharging air is performed by separate air blowing mechanisms, two dedicated air blowers are required, which complicates the air blowing system and increases the size of the entire device. Instead, it becomes expensive.
【0006】しかも、再生用空気を室外から直接取込む
と、屋外空気の温・湿度変化が大きく、電気ヒータによ
る加熱制御が困難で、ヒータの容量も高くする必要があ
り、乾燥効率も低下し、また、屋外空気の汚れも多いた
めに、回転型除湿用素子の汚れが激しく除湿・乾燥性能
や耐久性に悪影響を与えるという問題があった。In addition, when air for regeneration is directly taken in from outside the room, the temperature and humidity of the outdoor air change greatly, making it difficult to control heating by an electric heater, requiring a large capacity of the heater, and reducing the drying efficiency. In addition, since there is much dirt on the outdoor air, there is a problem that the rotary dehumidifying element is heavily stained and adversely affects the dehumidifying / drying performance and durability.
【0007】この発明の目的は、簡易な送風システムに
より回転型除湿用素子による室内の湿潤空気の除湿・乾
燥処理や回転型除湿用素子の再生処理を効率良く行なえ
るようにするとともに、装置全体の小型化及びコストの
低下を図ることができ、しかも、室内の暖房をも行なえ
るようにした除湿乾燥装置を提供することにある。SUMMARY OF THE INVENTION An object of the present invention is to make it possible to efficiently perform a dehumidifying / drying process of indoor humid air and a regenerating process of a rotary dehumidifying element by a rotary dehumidifying element by using a simple air blowing system, and to realize an entire apparatus It is an object of the present invention to provide a dehumidifying / drying apparatus which can reduce the size and cost of the apparatus and can heat the room.
【0008】[0008]
【課題を解決するための手段】上記した課題を解決する
ために、この発明は、室内側に対面する前面部に吸込口
と吹出口とが設けられたケース本体内を、少なくとも前
記吸込口に連通する一次ゾーンと、前記吹出口に繋がる
三次ゾーンと、この三次ゾーンと前記一次ゾーンと隣接
する二次ゾーンとに分割するとともに、前記ケース本体
内に室内の空気を前記吸込口から順に一次ゾーン、二次
ゾーン及び三次ゾーンを経て前記吹出口へと循環させる
送風手段と、前記二次ゾーンを通過して三次ゾーンへ至
らせられる空気と接し、この空気中の水分を吸着して乾
燥させる除湿処理部位を有する円筒状の回転型除湿用素
子からなる除湿・乾燥手段と、前記二次ゾーンから三次
ゾーンに至る途上の空気の一部を前記回転型除湿用素子
の熱回収処理部位に通過させて熱回収を行なう熱回収手
段と、前記熱回収処理部位を通過した空気を加熱して前
記回転型除湿用素子の再生処理部位に通過させる加熱手
段を有する再生手段と、前記再生処理部位を通過した空
気を外部に排気する排気手段と、前記一次ゾーンから二
次ゾーンに至る途上の空気を外部に排気する換気手段
と、前記熱回収処理部位を通過して前記再生手段の加熱
手段により加熱された空気を前記三次ゾーンに至らせて
前記吹出口から排気させる乾燥・暖房切換え手段とを具
備し、前記再生手段は前記回転型除湿用素子の前記三次
ゾーン側の前記再生処理部位と熱回収処理部位とに対応
する部位に配置された再生チャンバからなり、この再生
チャンバに前記二次ゾーン側に配置される前記排気手段
の排気チャンバを前記回転型除湿用素子を間に介して対
向させるとともに、この排気チャンバに設けた前記ケー
ス本体下部から外部に臨む排気管を扁平管により形成
し、かつ、前記一次ゾーンから二次ゾーンへの室内空気
の流入口に接近した側より離れた側が前記回転型除湿用
素子に接近するように前記排気管を設置してなる構成と
したものである。SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, the present invention relates to a case body provided with a suction port and a blow-out port on a front surface facing an indoor side. A primary zone that communicates, a tertiary zone that is connected to the outlet, and a secondary zone that is divided into the tertiary zone and the primary zone and that is adjacent to the primary zone. Air blowing means for circulating the air through the secondary zone and the tertiary zone to the outlet, and contacting the air which passes through the secondary zone to the tertiary zone, adsorbs moisture in the air, and dehumidifies the air. A dehumidifying / drying means comprising a cylindrical rotary dehumidifying element having a processing portion; and a heat recovery processing portion of the rotary dehumidifying element for removing a part of air from the secondary zone to the tertiary zone. A heat recovery means for performing heat recovery by passing the heat recovery means, a heating means for heating air passing through the heat recovery processing part and passing the air to a regeneration processing part of the rotary dehumidifying element, and the regeneration processing part Exhaust means for exhausting air that has passed through to the outside, ventilation means for exhausting air on the way from the primary zone to the secondary zone to the outside, and heating means for the regenerating means passing through the heat recovery processing site. Drying / heating switching means for bringing heated air to the tertiary zone and exhausting the air from the outlet, wherein the regenerating means heats the regenerated processing part on the tertiary zone side of the rotary dehumidifying element. A recovery chamber disposed at a site corresponding to the recovery processing site, wherein the exhaust chamber of the exhaust unit disposed on the secondary zone side is disposed in the regeneration chamber. An exhaust pipe facing the outside from the lower part of the case main body provided in the exhaust chamber is formed by a flat tube, and is close to the inlet of room air from the primary zone to the secondary zone. The exhaust pipe is installed such that the side farther from the side that is located is closer to the rotary dehumidifying element.
【0009】[0009]
【0010】[0010]
【発明の実施の形態】以下、この発明の実施の形態を図
面に基づいて詳細に説明すると、図1はこの発明に係る
除湿乾燥装置の浴室等への据付状態を示すもので、図2
に示すように、図中1はケース本体である。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 shows a dehumidifying and drying apparatus according to the present invention installed in a bathroom or the like.
As shown in FIG. 1, reference numeral 1 denotes a case body.
【0011】このケース本体1は、例えば建屋の浴室ま
たは脱衣室(図示の実施例では浴室を例にして示す)な
どを除湿乾燥室として利用し、この浴室100の側壁面
101に開口させた既存の換気扇等が取り付けられる換
気扇用取付枠102に後述する据付手段にて据え付けら
れ、その室内側には、化粧グリル103が取外し可能に
取付けられている。The case body 1 uses, for example, a bathroom or a dressing room of a building (in the illustrated embodiment, a bathroom is shown as an example) as a dehumidifying / drying room, and is provided with an opening in a side wall surface 101 of the bathroom 100. Is mounted on a mounting frame 102 for a ventilation fan to which a ventilation fan or the like is mounted, and a makeup grill 103 is detachably mounted on the indoor side thereof.
【0012】そして、前記ケース本体1は、図3から図
5に示すように、前記浴室100内側に対面する前面部
1aの略中央部位に、同一平面上での空気の吸込み/吹
出しが可能な機能を有する吸込口2Aと吹出口2Bとが
上下に隣接して開口し、この吸込口/吹出口2A,2B
には、後述するダクト60が取り付けられている。As shown in FIGS. 3 to 5, the case body 1 is capable of sucking / blowing air on the same plane at a substantially central portion of a front portion 1a facing the inside of the bathroom 100. A suction port 2A having a function and an outlet 2B are opened vertically adjacent to each other, and the suction port / outlet 2A, 2B
, A duct 60 described later is attached.
【0013】前記ケース本体1内は、前記吸込口2Aに
連通して後述する強制循環機構20にて室内の湿潤空気
Aが吸引される一次ゾーン3Aと、この一次ゾーン3A
に前記強制循環機構20による湿潤空気Aの送気路4及
び送気口5を介して連通させた二次ゾーン3Bと、この
二次ゾーン3Bに後述する除湿・乾燥機構30を介して
連通して前記吹出口2Bに繋がる三次ゾーン3Cと、前
記強制循環機構20が配される四次ゾーン3Dとに第1
から第4の隔壁パネル6,7,8,9を介してそれぞれ
分割形成されている。Inside the case body 1, a primary zone 3A which communicates with the suction port 2A and in which the humid air A in the room is sucked by a forced circulation mechanism 20, which will be described later, and the primary zone 3A
And a secondary zone 3B, which is communicated with the forced circulation mechanism 20 via the air supply path 4 and the air supply port 5 for the humid air, and communicates with the secondary zone 3B via a dehumidifying / drying mechanism 30 described later. A tertiary zone 3C connected to the outlet 2B and a quaternary zone 3D in which the forced circulation mechanism 20 is disposed.
Through the fourth partition panels 6, 7, 8, and 9, respectively.
【0014】前記一次ゾーン3Aは、第1,2及び4の
隔壁パネル6,7,9、ケース本体1の上面部1bにて
囲繞されて区画され、前記二次ゾーン3Bは、送気路4
を形成する第5の隔壁パネル11、第3の隔壁パネル
8、この第3の隔壁パネル8に組み込まれて後述する除
湿・乾燥機構30の駆動モータ32が収納される五次ゾ
ーン3Eを形成する第6の隔壁パネル12、ケース本体
1の背面部1c及び側面部1dにて囲繞されて区画さ
れ、前記三次ゾーン3Cは、第1,3,4の隔壁パネル
6,8,9、ケース本体1の前面部1a、側面部1d及
び底面部1eにて囲繞されて区画され、前記四次ゾーン
3Dは、第2,5,6の隔壁パネル7,11,12、ケ
ース本体1の側面部1d及び底面部1eにて囲繞されて
区画されているとともに、前記第2の隔壁パネル7に
は、強制循環機構20がユニット化されて取外し可能に
組み付けられている。The primary zone 3A is surrounded and partitioned by first, second and fourth partition panels 6, 7, 9 and the upper surface 1b of the case body 1, and the secondary zone 3B is
And a fifth partition zone 3E in which a drive motor 32 of a dehumidifying / drying mechanism 30, which is incorporated in the third partition panel 8 and is described later, is housed. The tertiary zone 3 </ b> C is divided into first, third, and fourth partition panels 6, 8, 9, and the case body 1. And the fourth zone 3D is divided into second, fifth, and sixth partition panels 7, 11, and 12, the side portion 1d of the case body 1, and the fourth zone 3D. A forced circulation mechanism 20 is unitized and detachably assembled to the second partition panel 7 while being surrounded and partitioned by the bottom surface 1e.
【0015】この強制循環機構20は、例えばシロッコ
ファンなどの送風装置としての遠心送風型の送風機21
からなり、この送風機21の駆動モータ22は、前記ケ
ース本体1の底面部1eに開口させた第1の通気孔13
にて外気と連通する四次ゾーン3Dに配置収納され、そ
のノズル部21aには、前記送気路4を形成する第5の
隔壁パネル11が設けられ、前記送風機21にて浴室1
00内の空気Aを前記吸込口2Aから順に一次ゾーン3
A、二次ゾーン3B及び三次ゾーン3Cを経て前記吹出
口2Bへと循環させるようになっているとともに、前記
回転型除湿用素子31は、前記送風機21により前記二
次ゾーン3Bを通過して三次ゾーン3Cへ至らせられる
空気Aと接して、この空気A中の水分を吸着するように
なっているもので、前記第1の通気孔13は、前記四次
ゾーン3D内を室外雰囲気(外気)にし、この四次ゾー
ン3D内に収納された前記送風機21の駆動モータ22
を冷却する第1の冷却機構を構成している。The forced circulation mechanism 20 includes a centrifugal air blower 21 as a blower such as a sirocco fan.
The drive motor 22 of the blower 21 is provided with a first ventilation hole 13 opened in the bottom 1e of the case body 1.
The fifth partition panel 11 that forms the air passage 4 is provided in the nozzle portion 21 a of the fourth partition 3 D that communicates with the outside air.
00 in the primary zone 3 in order from the suction port 2A.
A, while circulating to the outlet 2B through the secondary zone 3B and the tertiary zone 3C, the rotary dehumidifying element 31 is passed through the secondary zone 3B by the The first vent hole 13 is in contact with the air A which is led to the zone 3C, and adsorbs moisture in the air A. The first ventilation hole 13 divides the inside of the quaternary zone 3D into an outdoor atmosphere (outside air). And the drive motor 22 of the blower 21 housed in the quaternary zone 3D.
Constitutes a first cooling mechanism for cooling the cooling device.
【0016】この送気路4を形成する第5の隔壁パネル
11は、前記除湿・乾燥機構30の駆動モータ32が収
納される五次ゾーン3Eを形成する第6の隔壁パネル1
2の下側に位置し、その送気路4の背面側は、開口部2
3が設けられていて、この開口部23に対応する前記ケ
ース本体1の背面部1cには、換気口14が設けられて
いる。The fifth partition panel 11 which forms the air supply passage 4 is the sixth partition panel 1 which forms the fifth zone 3E in which the drive motor 32 of the dehumidifying / drying mechanism 30 is housed.
2, and the back side of the air supply passage 4 has an opening 2
3 is provided, and a ventilation port 14 is provided on the back surface 1 c of the case main body 1 corresponding to the opening 23.
【0017】図中24は前記送気路4の送気口5と開口
部23とを交互に開閉するように設けた換気・乾燥用切
換えダンパで、この換気・乾燥用切換えダンパ24は、
例えばステップモータ25で開閉制御され、除湿・乾燥
運転時、前記送気路4の背面側に設けた開口部23を遮
断するようになっている一方、換気運転時に、前記送気
口5側を閉塞するように切換え制御することにより、前
記強制循環機構20の送風機21にて吸込口2Aから一
次ゾーン3Aを経て二次ゾーン3B側に送気される浴室
100内の湿潤状態の空気Aを、前記開口部23を通し
て換気口14から直接外部に排出させるような換気・乾
燥切換え機能を有する。In the figure, reference numeral 24 denotes a ventilation / drying switching damper provided so as to alternately open and close the air supply port 5 and the opening 23 of the air supply passage 4. The ventilation / drying switching damper 24 is
For example, the opening / closing control is performed by a step motor 25 so that the opening 23 provided on the back side of the air supply passage 4 is shut off during the dehumidification / drying operation, while the air supply port 5 side is closed during the ventilation operation. By performing switching control so as to close, the wet air A in the bathroom 100 that is blown from the suction port 2A to the secondary zone 3B through the primary zone 3A by the blower 21 of the forced circulation mechanism 20, It has a ventilation / drying switching function such that the air is directly discharged from the ventilation port 14 to the outside through the opening 23.
【0018】一方、前記第3の隔壁パネル8には、前記
除湿・乾燥機構30を構成する回転型除湿用素子31が
ユニット化されて取外し可能に組み付けられ、この回転
型除湿用素子31は、例えばシリカゲルにコバルト、
鉄、マンガンなどの複数の金属を組み合わせた金属ケイ
酸塩ゲルをセラミックスのハニカム積層体内に重合反応
させ、かつ、水分子に適合するようにマイクロポア形状
を微調整するとともに、マイクロポア内の水酸基を多く
定着させて親水性を増大させることによって、水分の吸
着性及び脱着性を向上させた円筒状の形態を有し、その
円筒の直径は、例えば20cmで、回転数は、1分間に
1/2回転するように設定され制御されている。On the other hand, a rotary dehumidifying element 31 constituting the dehumidifying / drying mechanism 30 is unitized and detachably assembled to the third partition panel 8, and the rotary dehumidifying element 31 is For example, cobalt on silica gel,
The metal silicate gel, which combines multiple metals such as iron and manganese, undergoes a polymerization reaction in the ceramic honeycomb laminate, and the micropore shape is fine-tuned to match the water molecules. Has a cylindrical shape in which the water adsorption and desorption properties are improved by increasing the hydrophilicity by fixing a large amount of the water, the diameter of the cylinder is, for example, 20 cm, and the rotation speed is 1 minute per minute. / 2 rotations.
【0019】そして、前記回転型除湿用素子31は、図
6に示すように、除湿処理部位31Aと再生処理部位3
1Bと熱回収処理部位31Cとが回転方向Xに沿って順
に対応するように位置し、これら除湿処理部位31A、
再生処理部位31B及び熱回収処理部位31Cのそれぞ
れの面積は、角度比θ1:θ2:θ3(θ1≧θ2≧θ
3)、例えば5:2:1に設定されているとともに、前
記除湿処理部位31Aと再生処理部位31Bとの風量比
は、例えば200(m3 /h):20(m3 /h)に設
定され、その回転駆動制御は、前記回転型除湿用素子3
1の外周に減速モータ32の回転軸33に取り付けた歯
車34に掛け渡されたドライビィングベルト35をスプ
リング36にて付勢されたテンションローラ37を介し
てベルト掛けすることにより行なわれるようになってい
る。As shown in FIG. 6, the rotary dehumidifying element 31 includes a dehumidification processing part 31A and a regeneration processing part 3A.
1B and the heat recovery processing part 31C are located so as to correspond in order along the rotation direction X, and these dehumidification processing parts 31A,
The respective areas of the regeneration processing part 31B and the heat recovery processing part 31C have an angle ratio of θ1: θ2: θ3 (θ1 ≧ θ2 ≧ θ
3) For example, it is set to 5: 2: 1, and the air volume ratio between the dehumidification processing part 31A and the regeneration processing part 31B is set to, for example, 200 (m 3 / h): 20 (m 3 / h). The rotational drive control is performed by the rotary dehumidifying element 3.
A driving belt 35 wrapped around a gear 34 attached to a rotating shaft 33 of a reduction motor 32 is wrapped around the outer periphery of the gear 1 via a tension roller 37 urged by a spring 36. ing.
【0020】前記回転型除湿用素子31の三次ゾーン3
C側の再生処理部位31Bと熱回収処理部位31Cとに
対応する部位には、耐熱性合成樹脂からなる第1のチャ
ンバ(再生チャンバ)41が設けられていて、この第1
のチャンバ41内には、図3に示すように、隔壁42に
て前記回転型除湿用素子31の熱回収処理部位31Cか
らの水分吸着後の分流空気の導入路43と、この分流空
気を前記回転型除湿用素子31の再生処理部位31B側
にUターンさせてなる導出路44とが区画形成されてい
る。Tertiary zone 3 of the rotary dehumidifying element 31
A first chamber (regeneration chamber) 41 made of a heat-resistant synthetic resin is provided at a portion corresponding to the regeneration processing portion 31B and the heat recovery processing portion 31C on the C side.
In the chamber 41, as shown in FIG. 3, the dividing air introduction path 43 after adsorbing moisture from the heat recovery processing part 31C of the rotary dehumidifying element 31 at the partition wall 42, and the divided air is A lead-out path 44 formed by making a U-turn on the side of the regeneration processing portion 31B of the rotary dehumidifying element 31 is defined.
【0021】この導入路43には、前記回転型除湿用素
子31の熱回収処理部位31Cからの水分吸着後の分流
空気を加熱する電気加熱装置としてのシーズヒータ(P
TCヒータ)からなる電気ヒータ45が設けられ、この
電気ヒータ45は、矩形をなす通風加熱面が前記回転型
除湿用素子31の熱回収処理部位31Cに対して斜め状
態の角度で対面するように配置して、前記電気ヒータ4
5の下流側に設けられる後述する乾燥・暖房切換え手段
の乾燥・暖房切換えダンパ48の開閉許容空間を前記導
入路43のUターン部位側に形成している。The introduction passage 43 is provided with a sheath heater (P) as an electric heating device for heating the divided air after absorbing moisture from the heat recovery processing portion 31C of the rotary dehumidifying element 31.
An electric heater 45 comprising a TC heater is provided such that a rectangular ventilation heating surface faces the heat recovery processing portion 31C of the rotary dehumidifying element 31 at an oblique angle. Arrange the electric heater 4
The opening / closing allowable space of a drying / heating switching damper 48 of a drying / heating switching means, which will be described later, provided on the downstream side of 5 is formed on the U-turn portion side of the introduction path 43.
【0022】前記乾燥・暖房切換え手段は、前記第1の
チャンバ41の三次ゾーン3C側に面する側壁に連通さ
せて開口した排気口46と、この排気口46を例えばス
テップモータ47にて開閉制御可能な切換えダンパ48
とで形成され、この切換えダンパ48は、前記第1のチ
ャンバ41の排気口46の開状態において、前記電気ヒ
ータ45にて加熱された再生用空気Cを前記三次ゾーン
3C側に吐出させて前記吹出口2Bから排出させること
により、室100内の暖房を行なう暖房機能を有するも
ので、乾燥時には閉状態にある。The drying / heating switching means includes an exhaust port 46 opened to communicate with a side wall of the first chamber 41 facing the tertiary zone 3C, and an open / close control of the exhaust port 46 by, for example, a step motor 47. Possible switching dampers 48
The switching damper 48 discharges the regeneration air C heated by the electric heater 45 to the tertiary zone 3C side when the exhaust port 46 of the first chamber 41 is in an open state. It has a heating function of heating the inside of the room 100 by discharging it from the outlet 2B, and is in a closed state during drying.
【0023】図7及び図8に示すように、前記切換えダ
ンパ48は、その回転軸49の上端部49aがチャンバ
ハウジング内に突出形成した支軸41Aに支持され、そ
の下端部49bが前記ステップモータ47の駆動軸47
Aに支持されて回転自在に組み付けられているととも
に、前記回転軸49には、係合溝50が形成され、この
係合溝50には、チャンバハウジングの内側壁に突出形
成したダボ51が係合されるようになっている。As shown in FIGS. 7 and 8, the switching damper 48 is supported by a support shaft 41A having an upper end 49a of a rotating shaft 49 projecting into the chamber housing, and a lower end 49b of the stepping motor 49a. 47 drive shaft 47
A is rotatably mounted on the shaft A, and an engagement groove 50 is formed in the rotation shaft 49. A dowel 51 projecting from the inner wall of the chamber housing is engaged with the engagement groove 50. Are to be combined.
【0024】このダボ51は、前記切換えダンパ48の
自重による下降に伴う回転軸49の下端部49bのチャ
ンバハウジング内底面への接触、あるいは、チャンバハ
ウジング自体の熱収縮や伸びによる回転軸49の上下両
端部49a,49bのチャンバハウジング面への接触を
規制するように位置決めしてなるもので、これによっ
て、前記ステップモータ47への負荷の軽減化を図ると
ともに、前記回転軸49の上下両端部49a,49bの
隙間aを最小限に維持可能にしている。The dowel 51 contacts the lower end 49b of the rotating shaft 49 with the bottom surface inside the chamber housing due to the lowering of the switching damper 48 due to its own weight, or the upper and lower portions of the rotating shaft 49 due to thermal contraction and extension of the chamber housing itself. It is positioned so as to restrict the contact of the both ends 49a, 49b with the chamber housing surface, thereby reducing the load on the step motor 47 and at the same time, the upper and lower ends 49a of the rotary shaft 49. , 49b can be kept to a minimum.
【0025】また、図中52は前記第1のチャンバ41
に一体的に支持された暖房用のシーズヒータ(PTCヒ
ータ)からなる電気ヒータで、この電気ヒータ52は、
例えば容量が600Wに設定され、その矩形をなす通風
加熱面が、前記ケース本体1内の三次ゾーン3C側に面
する前記回転型除湿用素子31の除湿処理部位31Aの
上部に横長の水平状態を維持するように対面させて設け
られ、暖房運転時に、除湿処理後の乾燥空気Bを加熱し
て、この加熱された暖房用空気Eを前記吹出口2Bから
排出させることにより、室100内の暖房を行なう暖房
機能を有するものである。In the figure, reference numeral 52 denotes the first chamber 41.
An electric heater comprising a sheathed heater for heating (PTC heater) integrally supported by the
For example, the capacity is set to 600 W, and the rectangular ventilation heating surface has a horizontally long horizontal state above the dehumidification processing part 31A of the rotary dehumidification element 31 facing the tertiary zone 3C side in the case body 1. It is provided so as to be maintained so as to maintain the air in the room 100 by heating the dry air B after the dehumidification processing and discharging the heated air for heating E from the outlet 2B during the heating operation. That has a heating function of performing
【0026】この場合、前記電気ヒータ52を回転型除
湿用素子31の除湿処理部位31Aの上部に設置する理
由は、前記回転型除湿用素子31の除湿処理部位31A
の上部が比較的風速の遅い部位であるため、除湿処理後
の乾燥空気Bの加熱が効率良く行なえることによるもの
である。In this case, the reason why the electric heater 52 is installed above the dehumidification processing part 31A of the rotary dehumidifying element 31 is that the electric heater 52 is disposed above the dehumidification processing part 31A of the rotary dehumidifying element 31.
This is because the upper portion is a region where the wind speed is relatively slow, so that the dry air B after the dehumidification process can be efficiently heated.
【0027】前記回転型除湿用素子31は、前記ケース
本体1内の二次ゾーン3Bと三次ゾーン3Cとを分割す
る第3の隔壁パネル8を形成するステンレス製の板厚が
約1.2mm程度のシールパネル部材8Aにて回転自在
に支持され、このシールパネル部材8Aには、前記回転
型除湿用素子31の直径(例えば20cm)よりも小さ
な通風孔8Bが設けられ、この通風孔8Bは、その中心
部に前記回転型除湿用素子31を軸支する軸支部8Cを
有し、この軸支部8Cは、前記回転型除湿用素子31を
除湿処理部位31Aと再生処理部位31Bと熱回収処理
部位31Cとに対応させて分割するように、前記通風孔
8Bの内周端縁から架橋させて配置した径方向に延びる
連結片8D,8E,8Fにて保持されているとともに、
前記回転型除湿用素子31の除湿処理部位31Aに相当
する部位の中間部には、前記連結片8D,8E,8Fと
同様に補強用連結片8Gが架橋させて設けられている。The rotary dehumidifying element 31 has a stainless steel plate thickness of about 1.2 mm which forms a third partition panel 8 for dividing the secondary zone 3B and the tertiary zone 3C in the case body 1. Is rotatably supported by a seal panel member 8A. The seal panel member 8A is provided with a ventilation hole 8B smaller than the diameter (for example, 20 cm) of the rotary dehumidifying element 31. The ventilation hole 8B At the center thereof, there is provided a shaft supporting portion 8C for supporting the rotary dehumidifying element 31. The shaft supporting portion 8C is provided with the rotary dehumidifying element 31 for dehumidification processing part 31A, regeneration processing part 31B, and heat recovery processing part. 31C, and are held by radially extending connecting pieces 8D, 8E, 8F arranged so as to be cross-linked from the inner peripheral edge of the ventilation hole 8B so as to be divided in correspondence with 31C.
In the middle of the portion corresponding to the dehumidification processing portion 31A of the rotary dehumidifying element 31, a reinforcing connecting piece 8G is provided in a cross-linked manner as in the case of the connecting pieces 8D, 8E, and 8F.
【0028】この補強用連結片8Gは、高温に加熱され
た回転型除湿用素子31の影響を受けて熱歪みによる前
記シールパネル部材8Aの平滑性が失われるのを防止し
てなる一方、図9及び図10に示すように、前記再生チ
ャンバ41とシールパネル部材8Aとの間には、3本の
シャフト部材53が前記回転型除湿用素子31の廻りに
約120°の略等間隔で介在され、その一端を前記シー
ルパネル部材8Aにカシメて他端側をビス54にて締結
し3点支持することによって、前記回転型除湿用素子3
1の外周端縁とシールパネル部材8A及び前記回転型除
湿用素子31と再生チャンバ41との間に0.5mm程
度の隙間bが維持されるように組み付けられているもの
で、これによって、前記回転型除湿用素子31の回転ム
ラによって発生する前記再生チャンバ41またはシール
パネル部材8Aへの接触による回転トルクの増大化及び
接触面の摩耗を防止している。The reinforcing connecting piece 8G prevents the smoothness of the seal panel member 8A from being lost due to thermal distortion due to the influence of the rotary dehumidifying element 31 heated to a high temperature. As shown in FIGS. 9 and 10, between the regeneration chamber 41 and the seal panel member 8A, three shaft members 53 are interposed around the rotary dehumidifying element 31 at substantially equal intervals of about 120 °. The rotary dehumidifying element 3 is fixed by caulking one end thereof to the seal panel member 8A and fastening the other end thereof with screws 54 to support three points.
1, and a gap b of about 0.5 mm is maintained between the seal panel member 8A and the rotary dehumidifying element 31 and the regeneration chamber 41. This prevents an increase in rotational torque and abrasion of the contact surface due to contact with the regeneration chamber 41 or the seal panel member 8A caused by uneven rotation of the rotary dehumidifying element 31.
【0029】さらに、前記回転型除湿用素子31の二次
ゾーン3B側の再生処理部位31Bに対応する部位に
は、第2のチャンバ(排気チャンバ)55が前記第1の
チャンバ41の導出路44と対向させて設けられてい
て、この第2のチャンバ55の底部には、前記ケース本
体1の下面側から外部に臨ませた排気管56が接続され
ているとともに、この排気管56は図3および図5に示
すように扁平管からなり、かつ、その長径方向O−Oが
一次ゾーン3Aから送気路4を経て二次ゾーン3B内に
送風される室内の湿潤空気Aの送風方向に対向して拡開
するような非平行に、すなわち送気口5に近い側が前記
回転型除湿用素子31と離間し、送気口5から離れた側
が前記回転型除湿用素子31に接近するように設置され
ている。これにより、前記送風機21にて一次ゾーン3
Aから二次ゾーン3Bに導入された室内空気Aの一部、
すなわち前記第2のチャンバ55の裏側下部に位置する
前記回転型除湿用素子31の熱回収処理部位31Cと排
気管56との間に入り込んだ空気は送気口5から遠ざか
るほど空間が狭まっており、これにより空気圧の大きな
低下が防止されて前記回転型除湿用素子31の熱回収処
理部位31Cへの取り入れ(通過)が円滑に行なえるよ
うになっている。Further, a second chamber (exhaust chamber) 55 is provided at a portion corresponding to the regeneration processing portion 31B on the secondary zone 3B side of the rotary dehumidifying element 31 with an outlet path 44 of the first chamber 41. The bottom of the second chamber 55 is connected to an exhaust pipe 56 that faces the outside from the lower surface side of the case main body 1. As shown in FIG. 5, a flat tube is formed, and its major axis direction OO is opposed to the blowing direction of the humid air A in the room that is blown from the primary zone 3A through the air passage 4 into the secondary zone 3B. So that the side close to the air supply port 5 is separated from the rotary dehumidification element 31 and the side away from the air supply port 5 approaches the rotary dehumidification element 31. is set up. As a result, the primary zone 3
Part of the room air A introduced from A into the secondary zone 3B,
In other words, the air that has entered between the heat recovery processing portion 31C of the rotary dehumidifying element 31 and the exhaust pipe 56, which is located at the lower rear side of the second chamber 55, has a smaller space as it goes away from the air supply port 5. As a result, a large decrease in air pressure is prevented, so that the rotary type dehumidifying element 31 can be smoothly introduced (passed) into the heat recovery processing portion 31C.
【0030】すなわち、前記送風機21にて一次ゾーン
3Aから二次ゾーン3Bに導入された湿潤空気Aの一部
は、図11示すように、前記回転型除湿用素子31の熱
回収処理部位31Cに通過分流させて水分の吸着を行な
うとともに、この分流空気を第1のチャンバ41の導入
路44を通してPTCヒータ45にて加熱し、この加熱
された再生用空気Cを再生処理部位31B側に湿潤空気
Aと逆向きの向流状態でUターンさせて、前記回転型除
湿用素子31の再生処理部位31Bに通過させることに
より、前記回転型除湿用素子31の再生処理を行なうよ
うになっている。That is, a part of the humid air A introduced from the primary zone 3A to the secondary zone 3B by the blower 21 is transferred to a heat recovery processing portion 31C of the rotary dehumidifying element 31 as shown in FIG. The diverted air is heated by the PTC heater 45 through the introduction path 44 of the first chamber 41, and the heated regeneration air C is supplied to the regeneration processing part 31B side by the humid air. By making a U-turn in a countercurrent state opposite to the direction A and passing through the regeneration processing portion 31B of the rotary dehumidifying element 31, the rotary dehumidifying element 31 is regenerated.
【0031】そして、このような再生処理後の空気D
は、前記第2のチャンバ55に接続された排気管56を
介して前記ケース本体1の下面側から外部に排気するよ
うになっている一方、前記除湿処理部位31Aを通過し
て至らせられた除湿・乾燥後の空気Bは、三次ゾーン3
Cを経て吹出口2Bから室100内に戻し、これによっ
て、室100内の除湿・乾燥を行なうようになってい
る。Then, the air D after such regeneration processing is performed.
Is configured to exhaust air from the lower surface side of the case body 1 to the outside via an exhaust pipe 56 connected to the second chamber 55, while being passed through the dehumidification processing part 31A. Air B after dehumidification and drying is in tertiary zone 3
Through C, the air is returned from the outlet 2B into the chamber 100, whereby dehumidification and drying in the chamber 100 are performed.
【0032】この場合、前記回転型除湿用素子31の熱
回収処理部位31Cは、前記再生処理部位31Bで高温
になった回転型除湿用素子31に二次ゾーン3B側に導
入された空気Aを通過させて、回転型除湿用素子31の
温度を下げるような作用を合わせ持っているとともに、
前記熱回収処理部位31Cでの再生空気Cの加熱手段と
しての電気ヒータ45の容量は、例えば600Wに設定
され、これによって、除湿・乾燥後に吹出口10から室
100内に吹き出される乾燥空気Bが、室温よりも高い
温度となるように設定されているものである。In this case, the heat recovery processing part 31C of the rotary dehumidifying element 31 sends the air A introduced into the secondary zone 3B side to the rotary dehumidifying element 31 which has become high temperature in the regeneration processing part 31B. While having the effect of lowering the temperature of the rotary dehumidifying element 31
The capacity of the electric heater 45 as a heating means of the regenerated air C in the heat recovery processing part 31C is set to, for example, 600 W, whereby the dry air B blown out of the outlet 10 into the chamber 100 after dehumidification and drying. Is set to be higher than room temperature.
【0033】一方、室100内の換気運転のみを行なう
には、前記換気・乾燥用切換えダンパ24を開扉して、
前記送気路4の開口部23を開放すると同時に、前記二
次ゾーン3Bに連通する送気口5を閉塞し、前記強制循
環機構20の送風機21にて吸込口2Aから一次ゾーン
3Aを経て前記送気路4に吸入された浴室100内の湿
潤状態の空気Aを換気口14から直接外部に排気するこ
とにより行なわれる。On the other hand, to perform only the ventilation operation in the room 100, the ventilation / drying switching damper 24 is opened, and
At the same time as the opening 23 of the air supply passage 4 is opened, the air supply port 5 communicating with the secondary zone 3B is closed, and the blower 21 of the forced circulation mechanism 20 passes through the primary zone 3A from the suction port 2A through the primary zone 3A. This is performed by directly exhausting the wet air A in the bathroom 100 sucked into the air supply passage 4 to the outside from the ventilation port 14.
【0034】また、室100内の暖房運転を行なう際に
は、前記第1のチャンバ41に設けた暖房用の電気ヒー
タ52をONにして通電させるとともに、前記乾燥・暖
房切換えダンパ48を開扉して前記排気口46を開状態
にし、これら各々の電気ヒータ45,52にて加熱され
た暖房用空気Eを前記吹出口2Bから排出させることに
より行なわれる。When the heating operation in the room 100 is performed, the electric heater 52 for heating provided in the first chamber 41 is turned on to supply electricity, and the drying / heating switching damper 48 is opened. Then, the exhaust port 46 is opened, and the heating air E heated by the electric heaters 45 and 52 is discharged from the outlet 2B.
【0035】この場合、前記電気ヒータ52の通電制御
及び換気・乾燥用切換えダンパ24の開扉制御は、例え
ば室外に臨む排気管56の外部に温度センサ57を設置
し、外気温度が15℃以下を検知したときに通電するよ
うにするか、あるいは、室温が17℃以下を検知したと
きに通電するように作動制御して、暖房運転を行ない、
室温を所定の設定温度まで上げた後(+2℃)、乾燥運
転の切り換え制御が行なわれるようになっているもので
ある。In this case, the energization control of the electric heater 52 and the opening control of the ventilation / drying switching damper 24 are performed, for example, by installing a temperature sensor 57 outside the exhaust pipe 56 facing the outside and setting the outside air temperature to 15 ° C. or less. Or when the room temperature is detected to be 17 ° C. or less, the operation control is performed so that the heating is performed,
After raising the room temperature to a predetermined set temperature (+ 2 ° C.), switching control of the drying operation is performed.
【0036】ところで、前記送風機21の回転軸と除湿
・乾燥機構30を構成する回転型除湿用素子31の回転
軸とは、前記ケース本体1の室100内側に対面するパ
ネル面に対して垂直な同一平面上に位置するように互い
に隣接させて並列状態で組付け配置してなるとともに、
前記送風機21の吸引口の吸引面が前記吸込口2Aの吸
込面に対して斜めに対面するように配置され、これによ
って、前記ケース本体1の室100内側に対面するパネ
ル面に対する奥行き寸法及び幅寸法の縮小化を可能にし
ている。The rotation axis of the blower 21 and the rotation axis of the rotary dehumidifying element 31 constituting the dehumidifying / drying mechanism 30 are perpendicular to the panel surface facing the inside of the chamber 100 of the case body 1. While being arranged adjacently to each other so as to be located on the same plane and in a parallel state,
The suction surface of the suction port of the blower 21 is disposed so as to face obliquely with respect to the suction surface of the suction port 2A, whereby the depth dimension and width of the case body 1 with respect to the panel surface facing the inside of the chamber 100. It enables the size to be reduced.
【0037】また、図中15は前記五次ゾーン3Eを区
画する第4の隔壁パネル12に設けた第2の通気孔で、
この第2の通気孔15は、前記四次ゾーン3Dと五次ゾ
ーン3Eとを互いに連通させ、前記第1の通気孔13に
よる四次ゾーン3D内の室外雰囲気(外気)を前記五次
ゾーン3E内に流入させて、五次ゾーン3E内に収納さ
れた前記回転型除湿用素子31の駆動モータ32を冷却
する第2の冷却機構を構成している。In the figure, reference numeral 15 denotes a second ventilation hole provided in the fourth partition panel 12 for partitioning the fifth zone 3E.
The second vent hole 15 connects the quaternary zone 3D and the quintic zone 3E to each other, and converts the outdoor atmosphere (outside air) in the quaternary zone 3D by the first vent hole 13 into the quintic zone 3E. And a second cooling mechanism that cools the drive motor 32 of the rotary dehumidifying element 31 housed in the fifth-order zone 3E.
【0038】さらに、図中16は前記ケース本体1の底
面部1eに区画形成したモータ収容部で、このモータ収
容部16には、前記換気・乾燥用切換えダンパ24を開
閉制御するステップモータ25が位置決め収容されると
ともに、その底面には、室外雰囲気(外気)と連通する
第3の通気孔17が設けられ、これによって、前記モー
タ収容部16に収容されたステップモータ25を冷却す
る第3の冷却機構を構成しているもので、前記再生チャ
ンバ41の乾燥・暖房用切換えダンパ48を開閉制御す
るステップモータ47にも同様な冷却機構がなされてい
る。Further, in the figure, reference numeral 16 denotes a motor accommodating section formed in the bottom portion 1e of the case main body 1. In the motor accommodating section 16, a step motor 25 for controlling opening and closing of the ventilation / drying switching damper 24 is provided. A third ventilation hole 17 communicating with the outdoor atmosphere (outside air) is provided on the bottom surface while being positioned and accommodated, whereby the third motor 17 for cooling the step motor 25 accommodated in the motor accommodation portion 16 is provided. A similar cooling mechanism is provided for a stepping motor 47 which constitutes a cooling mechanism and controls the opening / closing of a drying / heating switching damper 48 of the regeneration chamber 41.
【0039】図中18は前記ケース本体1の背面部1c
に開口させた換気口14の周囲を外側から保護するよう
に取り付けられた保護カバーで、この保護カバー18
は、その下面部18a側を開放して下方に向け拡開する
形態を有し、換気運転時に、前記換気口14からの室内
の湿潤空気Aを下方に向け排気するようになっているも
ので、その内部には、複数のリブ181が設けられ、こ
れらのリブ181の形成により、運転停止時、あるい
は、乾燥・暖房運転時に、換気・乾燥用切換え用ダンパ
24による開口部23の遮断と共に、前記換気口14か
らのケース本体1内への小鳥や虫等の侵入を防止してい
る。In the drawing, reference numeral 18 denotes a back portion 1c of the case body 1.
The protective cover 18 is attached so as to protect the periphery of the ventilation opening 14 opened to the outside from the outside.
Has a form in which the lower surface portion 18a side is opened to expand downward, and during ventilation operation, the room humid air A from the ventilation port 14 is exhausted downward. Inside thereof, a plurality of ribs 181 are provided, and by the formation of these ribs 181, when the operation is stopped, or during the drying / heating operation, the opening 23 is shut off by the ventilation / drying switching damper 24, Intrusion of small birds, insects, and the like from the ventilation port 14 into the case body 1 is prevented.
【0040】なお、上記の実施の形態において、前記換
気口14に薄いゴム等の弾性片からなるシャッタ182
を前記ケース本体1の外側から配し、このシャッタ18
2の上辺部のみを固定具等にて固定して前記換気口14
を密閉状態にするとともに、前記シャッタ182を換気
運転時の風圧により外側に開くようにすることによっ
て、蟻や蚊などの小さな虫や昆虫等の侵入を防止するよ
うに構成しても良い。In the above embodiment, the shutter 182 made of an elastic piece such as a thin rubber
From the outside of the case body 1, and the shutter 18
2 only by fixing the upper side portion with a fixture or the like, and
And the shutter 182 may be opened outward by the wind pressure during the ventilation operation to prevent small insects such as ants and mosquitoes and insects from entering.
【0041】一方、前記ケース本体1の前面部1aに上
下2段に区画されて開口する吸込口/吹出口2A,2B
に突出させて設けられるダクト60は、第1のダクト6
1と、この第1のダクト61に外嵌め状態で摺動自在に
嵌合される第2のダクト62と、この第2のダクト62
及び前記第1のダクト61内に挿入されて前記ケース本
体1の吸込口/吹出口2A,2Bに対応する吸込通路/
吹出通路60A,60Bを上下2段に区画してなる中仕
切板63と、この中仕切板63にて区画された前記ケー
ス本体1の吸込口2Aに対応する前記第1のダクト61
及び第2のダクト62の上段側の吸込通路60Aに着脱
自在に設けられるエアフィルタ64とをそれぞれ分解組
立て可能にしてなる構成を有し、前記化粧グリル103
は、前記第2のダクト62の開口端全体を覆うように取
外し可能に取り付けられるようになっているものであ
る。On the other hand, the inlet / outlet 2A, 2B which is divided into two upper and lower stages and opened on the front portion 1a of the case body 1.
The duct 60 provided so as to protrude from the first duct 6
1, a second duct 62 slidably fitted to the first duct 61 in an externally fitted state, and a second duct 62
And a suction passage inserted into the first duct 61 and corresponding to the suction opening / outlet 2A, 2B of the case body 1.
An inner partition plate 63 that divides the outlet passages 60A and 60B into two upper and lower stages, and the first duct 61 that corresponds to the inlet 2A of the case body 1 that is partitioned by the inner partition plate 63.
And an air filter 64 removably provided in the upper suction passage 60A of the second duct 62.
Is detachably attached so as to cover the entire open end of the second duct 62.
【0042】そして、図12及び図13に示すように、
前記第1のダクト61の左右両外側面には、凹溝61
1,611が前後方向に沿って形成されていて、これら
各々の凹溝611,611に対応する左右両内側面に
は、前記中仕切板63を嵌合支持する第1の嵌合溝61
2,612が突出形成され、これら第1の嵌合溝61
2,612の後端側は、互いに架橋させて前記中仕切板
63の後端部を嵌合支持するようになっている。Then, as shown in FIGS. 12 and 13,
Grooves 61 are formed on both left and right outer surfaces of the first duct 61.
1 and 611 are formed along the front-rear direction, and on the left and right inner side surfaces corresponding to these concave grooves 611 and 611, a first fitting groove 61 for fitting and supporting the middle partition plate 63 is provided.
2, 612 are formed so as to protrude, and these first fitting grooves 61 are formed.
The rear end sides of the members 2 612 are cross-linked with each other to fit and support the rear end of the partition plate 63.
【0043】また、前記第2のダクト62の左右両内側
面には、図14に示すように、前記第1のダクト61の
左右両外側面に形成した凹溝611,611に嵌合する
第2の嵌合溝621,621が突出形成され、これら第
2の嵌合溝621,621は、前記第1のダクト61の
左右両内側面に形成した第1の嵌合溝612,612と
対応位置させて前記中仕切板63を嵌合支持するように
なっている。On the left and right inner surfaces of the second duct 62, as shown in FIG. 14, the first duct 61 is fitted with concave grooves 611 and 611 formed on the left and right outer surfaces. The second fitting grooves 621 and 621 are formed to protrude. The second fitting grooves 621 and 621 correspond to the first fitting grooves 612 and 612 formed on both left and right inner side surfaces of the first duct 61. The middle partition plate 63 is fitted and supported by being positioned.
【0044】これら第1のダクト61及び第2のダクト
62にそれぞれ形成した第1及び第2の嵌合溝612,
621に嵌合支持される中仕切板63は、第1及び第2
のダクト61,62の幅寸法に応じて前後に広狭二様の
形態からなり、その全体長さが前記浴室100の側壁面
101に取り付けられる換気扇用取付枠102の奥行寸
法よりも長く形成されているとともに、その第1のダク
ト61の幅寸法に対応する幅狭な後半部63Aの前後方
向の長さ寸法は、前記第1のダクト61の前後方向の長
さ寸法と同一にし、その第2のダクト62の幅寸法に対
応する幅広な前半部63Bの前後方向の長さ寸法を前記
換気扇用取付枠102の奥行寸法に応じて切断するよう
になっている。The first and second fitting grooves 612 and 612 formed in the first duct 61 and the second duct 62, respectively.
The partitioning plate 63 fitted and supported by the first and second 621 includes the first and second partitions.
According to the width of the ducts 61 and 62, the front and rear ducts are formed in two front and rear directions, and the entire length thereof is formed to be longer than the depth of the ventilation fan mounting frame 102 mounted on the side wall surface 101 of the bathroom 100. The length of the narrow rear half 63A in the front-rear direction corresponding to the width of the first duct 61 is the same as the length of the first duct 61 in the front-rear direction. The length of the wide front half 63B in the front-rear direction corresponding to the width of the duct 62 is cut in accordance with the depth of the ventilation fan mounting frame 102.
【0045】さらに、前記エアフィルタ64は、不織布
からなる長尺な帯状フィルタ素材の外周部をプラスック
素材の枠体にて囲繞し、この枠体にV字形のヒンジ部を
複数(図示の形態では5個所)左右対称的に切込み形成
して、平面W字形の保形を維持するようにジグザグ状に
曲折可能になっている。Further, the air filter 64 surrounds an outer peripheral portion of a long band-shaped filter material made of a non-woven fabric with a frame made of a plastic material, and the frame has a plurality of V-shaped hinge portions (in the illustrated embodiment, a plurality of hinge portions). (5 places) Notches are formed symmetrically and can be bent in a zigzag shape so as to maintain the shape of the plane W-shape.
【0046】また、前記化粧グリル103は、隔壁部材
にて上下に区画され、その前面上部と上面には、前記第
2のダクト62内を中仕切板63にて上下に区画された
上部吸込通路60Aと連通する送気口部103Aが開口
し、その下面部103aに前記吹出通路60Bに連通す
る吹出口部103Bを開口させてなるとともに、前記ケ
ース本体1の吹出口2Bから吹き出される除湿乾燥空気
Bまたは暖房用空気Eを前記室100内の側壁面101
に沿って真下に吐出させるようになっている。The decorative grill 103 is vertically divided by a partition member, and has an upper suction passage formed on the front upper surface and upper surface thereof by dividing the inside of the second duct 62 into upper and lower partitions by a partition plate 63. An air supply opening 103A communicating with the air outlet 60A is opened, and an air outlet 103B communicating with the air outlet passage 60B is opened on the lower surface 103a, and dehumidification and drying blown out from an air outlet 2B of the case body 1. The air B or the heating air E is supplied to the side wall surface 101 in the chamber 100.
Is ejected directly below along the line.
【0047】すなわち、上記したような除湿乾燥装置を
室100の側壁面101に据え付けるには、室100の
側壁面101に貫通させて設けた例えば縦・横の外枠寸
法が150mm×200mmからなる換気扇用取付枠1
02を利用することにより行なわれ、まず、換気扇用取
付枠102の室外側に取付部材65を固定する。That is, in order to install the above-described dehumidifying and drying apparatus on the side wall surface 101 of the chamber 100, the vertical and horizontal outer frame dimensions provided through the side wall surface 101 of the chamber 100 are, for example, 150 mm × 200 mm. Mounting frame for ventilation fan 1
First, the mounting member 65 is fixed to the outdoor side of the ventilation fan mounting frame 102.
【0048】この取付部材65は、支持基板651と、
この支持基板651の略中央部に開口させた前記ケース
本体1に組付けられる第1のダクト61が挿入可能な挿
入口652と、この挿入口652の上辺部に設けた前記
ケース本体1の吸込口/吹出口2A,2Bの上辺部に設
けた左右一対のフック部材19,19が係合する左右一
対の係合口部653,653と、前記支持基板651の
下端部に外側に向け折曲形成された左右一対の台座部6
54,654とを備えた形態からなっている。The mounting member 65 includes a support substrate 651 and
An insertion opening 652, which is opened at a substantially central portion of the support substrate 651 and into which the first duct 61 assembled to the case main body 1 can be inserted, and a suction opening of the case main body 1 provided at an upper side of the insertion opening 652. A pair of left and right engagement ports 653, 653 provided on the upper side of the mouth / outlet 2A, 2B to be engaged with a pair of left and right hook members 19, 19, and bent outward at the lower end of the support substrate 651. Pair of left and right pedestals 6
54, 654.
【0049】前記取付部材65の換気扇用取付枠102
への固定後、ケース本体1の吸込口/吹出口2A,2B
に第1のダクト61を組付け、この第1のダクト61を
換気扇用取付枠102に固定された取付部材65の挿入
口652に外側から挿入して、換気扇用取付枠102内
に臨ませるとともに、ケース本体1に設けたフック部材
19,19を取付部材65の係合口部653,653に
係合させ、ケース本体1を台座部654,654上に載
置した後、ビス655,655にて締結し固定する。The ventilation member mounting frame 102 of the mounting member 65
After fixing to the case, the suction port / outlet 2A, 2B of the case body 1
A first duct 61 is attached to the mounting member 65, and the first duct 61 is inserted from the outside into an insertion opening 652 of a mounting member 65 fixed to the mounting frame 102 for a ventilation fan, so as to face the mounting frame 102 for a ventilation fan. The hook members 19, 19 provided on the case body 1 are engaged with the engagement openings 653, 653 of the mounting member 65, and the case body 1 is placed on the pedestals 654, 654. Fasten and fix.
【0050】このようにして室100の外側の換気扇用
取付枠102にケース本体1を据付け固定した後、第2
のダクト62を室100の内側から換気扇用取付枠10
2内に差し込み挿入して第1のダクト61に外嵌め状態
にて嵌合させ、第1のダクト61の左右両外側面に形成
した凹溝611,611に第2のダクト62の内側面に
形成した第2の嵌合溝621,621を嵌合させて前後
方向に摺動させることにより、第1のダクト61に対し
て第2のダクト62を換気扇用取付枠102の奥行寸法
(室側壁面の壁厚寸法)に応じた位置調整を行なって室
内側からビス止めする。After the case main body 1 is fixed to the ventilation fan mounting frame 102 outside the room 100 in this manner,
Of the ventilation fan from the inside of the room 100
2 is fitted into the first duct 61 in an externally fitted state, and is inserted into the inner surfaces of the second duct 62 in the concave grooves 611 and 611 formed on both left and right outer surfaces of the first duct 61. By fitting the formed second fitting grooves 621 and 621 and sliding in the front-rear direction, the second duct 62 can be moved relative to the first duct 61 in the depth dimension of the ventilation fan mounting frame 102 (chamber side). The position is adjusted according to the wall thickness of the wall), and screws are fixed from the indoor side.
【0051】そして、換気扇用取付枠102に組付けら
れた第1,2のダクト61,62の第1,2の嵌合溝6
12,621に中仕切板63の左右両端部を嵌合させて
室内側から差し込み挿入し、第1,2のダクト61,6
2を上下2段に区画して吸込通路/吹出通路60A,6
0Bを組付け形成する。Then, the first and second fitting grooves 6 of the first and second ducts 61 and 62 mounted on the ventilation fan mounting frame 102.
The left and right ends of the middle partition plate 63 are fitted to the first and second ducts 61 and 6, and the first and second ducts 61 and 6 are inserted.
2 are divided into upper and lower two stages, and the suction passage / blowout passage 60A, 6
OB is assembled and formed.
【0052】このとき、中仕切板63は、第1及び第2
のダクト61,62の幅寸法に応じて前後に広狭二様の
形態からなる全体長さが換気扇用取付枠102の奥行寸
法よりも予め長く形成されていることから、第1,2の
ダクト61,62の第1,2の嵌合溝612,621に
嵌合させて室内側から差し込み挿入した場合、その前半
部63Bの余剰部分が第2のダクト62の開口端から突
出するために、この突出する余剰部分を換気扇用取付枠
102の奥行寸法に応じて切断することにより寸法調整
が行なわれる。At this time, the partition 63 is made up of the first and second
The first and second ducts 61 and 62 are formed in such a manner that the entire length of the ducts 61 and 62 in the front and rear directions is formed to be longer and narrower in advance than the depth dimension of the ventilation fan mounting frame 102. , 62 are inserted into the first and second fitting grooves 612, 621 from the indoor side, and the excess portion of the front half 63B protrudes from the opening end of the second duct 62. Dimension adjustment is performed by cutting the protruding surplus portion according to the depth dimension of the ventilation fan mounting frame 102.
【0053】このように、第1,2のダクト61,62
を中仕切板63にて吸込通路/吹出通路60A,60B
に上下2段に区画した後、第1,2のダクト61,62
の上段側の吸込通路60A内にエアフィルタ64を室内
側から装着し、このエアフィルタ64の装着後、化粧グ
リル103が第2のダクト62の開口端全面を覆うよう
に取外し可能に取り付けられるものである。As described above, the first and second ducts 61, 62
Are connected to the suction passage / blow-out passage 60A, 60B
The first and second ducts 61 and 62
An air filter 64 is mounted in the upper suction passage 60A from the indoor side, and after the air filter 64 is mounted, the decorative grill 103 is detachably attached so as to cover the entire open end of the second duct 62. It is.
【0054】上記のような除湿乾燥装置の据付構造によ
れば、化粧グリル103の吸込口部103Aを通してダ
クト60の吸込通路60Aを通って吸込口2Aからケー
ス本体1内に吸い込まれた室100内の湿潤空気Aの水
分を除湿・乾燥機構30にて吸着し乾燥あるいは加熱し
た後の空気B(E)が、ケース本体1の吹出口2Bから
ダクト60の吹出通路60Bを通して化粧グリル103
の吹出口部103Bから室100内の側壁面101に沿
って真下に吐出するようになっているために、図15に
示すように、この室100内の側壁面110に沿って真
下に吐出させた空気B(E)は、室100内の床面から
他の対向する側壁面に沿って上昇し、さらに天井面に沿
って巡回するような気流を描いて室100内の乾燥ある
いは暖房が行なわれ、再び、化粧グリル103の吸込口
部103Aからダクト60の吸込通路60Aを通して吸
込口2Aからケース本体3内に湿潤空気Aとして吸い込
まれるような循環経路を形成することから、室100内
の乾燥あるいは暖房が効率良く行なわれるとともに、除
湿・乾燥あるいは加熱後の空気B(E)が室100内に
吊支された洗濯物等の被乾燥物200に直接当たること
がないために、従前のような被乾燥物200とのエアシ
ョートが防止される。According to the installation structure of the dehumidifying and drying apparatus as described above, the chamber 100 sucked into the case body 1 from the suction port 2A through the suction passage 60A of the duct 60 through the suction port 103A of the decorative grill 103. The air B (E) after adsorbing the moisture of the humid air A by the dehumidifying / drying mechanism 30 and drying or heating the air B (E) passes from the outlet 2B of the case body 1 through the outlet passage 60B of the duct 60 and the decorative grill 103.
As shown in FIG. 15, the liquid is discharged from directly below the outlet port 103B along the side wall surface 101 in the chamber 100 so as to be discharged directly below the side wall surface 110 in the chamber 100. The air B (E) rises from the floor surface in the room 100 along the other opposing side wall surface, and further draws an airflow circulating along the ceiling surface to perform drying or heating in the room 100. Again, a circulation path is formed from the suction opening 103A of the decorative grill 103 through the suction passage 60A of the duct 60 so as to be sucked as humid air A from the suction opening 2A into the case main body 3. Alternatively, the heating is performed efficiently, and the air B (E) after dehumidification / drying or heating does not directly hit the object 200 to be dried such as laundry suspended in the room 100. Air short-circuit between the material to be dried 200 is prevented, such as.
【0055】また、図中71は前記ケース本体1内の送
気路4の送気口5に設置された第1の防湿用シャッタ
で、この第1の防湿用シャッタ71は、図16に示すよ
うに、前記二次ゾーン3B側に配置され、その軸部72
を前記送気路4を形成する第5の隔壁パネル11に設け
た軸支部11Aに軸支して、前記軸部72に巻回したス
プリング73の一端73aを前記第1の防湿用シャッタ
71側に係止させ、その他端73bを前記第5の隔壁パ
ネル11側に係止させることにより、前記第1の防湿用
シャッタ71を常に前記送気口5を二次ゾーン3B側か
ら遮断するように付勢してなる構成を有するもので、前
記スプリング73の付勢力は、乾燥・暖房運転時に、前
記送風機21にて吸入される室内の湿潤空気Aの風圧よ
りも弱く設定され、運転停止時に、スプリング73の付
勢力により、前記送気口5を常に遮断するようにし、こ
れによって、前記ダクト60の吸込通路60Aからケー
ス本体1の吸込口2Aを経て二次ゾーン3Bに浴室10
0内の湿潤空気Aが侵入するのを防止し、乾燥・暖房運
転時には、図16に2点破線で示すように、前記送風機
21にて吸入される室内の湿潤空気Aの風圧によって容
易に開扉可能になっている。In the figure, reference numeral 71 denotes a first moisture-proof shutter provided at the air supply port 5 of the air supply passage 4 in the case main body 1. The first moisture-proof shutter 71 is shown in FIG. As described above, the shaft 72 is disposed on the secondary zone 3B side.
Is supported by a shaft support 11A provided on a fifth partition panel 11 forming the air supply passage 4, and one end 73a of a spring 73 wound around the shaft 72 is connected to the first moisture-proof shutter 71 side. And the other end 73b is locked to the fifth partition panel 11 side so that the first moisture-proof shutter 71 always closes the air supply port 5 from the secondary zone 3B side. In the drying / heating operation, the urging force of the spring 73 is set to be weaker than the wind pressure of the indoor humid air A sucked by the blower 21. The air supply port 5 is always shut off by the urging force of the spring 73, so that the bathroom 10 is transferred from the suction passage 60A of the duct 60 to the secondary zone 3B via the suction port 2A of the case body 1.
The humid air A in the inner space 0 is prevented from entering, and during the drying / heating operation, the humid air A is easily opened by the wind pressure of the humid air A in the room sucked by the blower 21 as shown by a two-dot broken line in FIG. Doors are available.
【0056】さらに、図中74は前記ダクト60の吹出
通路60Bを形成する第2のダクト62の開口端に設置
された第2の防湿用シャッタで、この第2の防湿用シャ
ッタ74は、図17及び図18に示すように、上部両端
に突出させたヒンジピン74a,74aを、前記吹出通
路60Bを形成する第2のダクト62の開口端に断熱材
75を介して嵌合され固定される開口枠76に外側から
押え部材77,77にて結合させて、運転停止時に、前
記ダクト60の吹出通路60Bを自重により外側から遮
断するようにしてなる構成を有し、前記第2の防湿用シ
ャッタ74は、図17に2点破線で示すように、乾燥・
暖房運転時に吹き出される乾燥空気Bまたは暖房用空気
Eの風圧により開扉可能にし、これによって、運転停止
時に、ダクト60の吹出通路60Bからケース本体1の
吹出口2Bを経て三次ゾーン3Cに浴室100内の湿潤
空気Aが侵入するのを防止している。Further, in the figure, reference numeral 74 denotes a second moisture-proof shutter provided at the open end of the second duct 62 forming the outlet passage 60B of the duct 60. As shown in FIG. 17 and FIG. 18, hinge pins 74a, 74a projecting from both upper ends are connected to the opening ends of the second ducts 62 forming the outlet passages 60B through heat insulating materials 75 and fixed. The second moisture-proof shutter is configured to be connected to the frame 76 from outside by a holding member 77, 77 so as to shut off the blowing passage 60B of the duct 60 from the outside by its own weight when the operation is stopped. 74, as indicated by the two-dot broken line in FIG.
The door can be opened by the wind pressure of the dry air B or the heating air E blown out during the heating operation, so that when the operation is stopped, the bathroom enters the tertiary zone 3C from the outlet passage 60B of the duct 60 via the outlet 2B of the case body 1. It prevents the humid air A in 100 from entering.
【0057】すなわち、前記第1及び第2のシャッタ7
1,74は、運転停止時に、送気口5及びダクト60の
吹出通路60Bを常に遮断するようにして、ケース本体
1内への浴室100内の湿潤空気Aの侵入を防止し、こ
れによって、回転型除湿用素子31の除湿効率を高める
ようになっているとともに、ケース本体1内に配される
電装ボックス81内のプリント配線基板82に装着され
る電装部品あるいはサーモスタット91や温度ヒューズ
92などの制御機器等への悪影響を及ぼすことのないよ
うにしているものである。That is, the first and second shutters 7
1 and 74 always shut off the air supply port 5 and the outlet passage 60B of the duct 60 when the operation is stopped, thereby preventing the infiltration of the humid air A in the bathroom 100 into the case body 1, The dehumidifying efficiency of the rotary dehumidifying element 31 is increased, and electrical components mounted on a printed wiring board 82 in an electrical box 81 arranged in the case body 1 or a thermostat 91, a temperature fuse 92, or the like. This is to prevent any adverse effect on control equipment and the like.
【0058】また、前記電装ボックス81は、前記ケー
ス本体1内の防湿ゾーンである四次ゾーン3Dの上部に
配置されているとともに、この電装ボックス81内の天
井面にプリント配線基板82を逆さ状態で取り付けて、
このプリント配線基板82に装着される電装部品を吊支
し、これによって、従前のように、プリント配線基板8
2に上向き状態で電装部品を装着するよりも、電装部品
への結露を生じ難くしている。The electrical box 81 is disposed above a quaternary zone 3D, which is a moisture-proof zone in the case body 1, and a printed circuit board 82 is placed upside down on the ceiling in the electrical box 81. Attach with
The electrical components mounted on the printed wiring board 82 are suspended, thereby allowing the printed wiring board 8 to be mounted as before.
2, dew condensation on the electrical components is less likely to occur than when the electrical components are mounted in an upward state.
【0059】さらに、前記サーモスタット91や温度ヒ
ューズ92などの制御機器も前記ケース本体1内の乾燥
・暖房ゾーンである三次ゾーン3Cの上部に設置され、
これによって、サーモスタット91や温度ヒューズ92
などの制御機器への結露を生じ難くしている。Further, control devices such as the thermostat 91 and the thermal fuse 92 are also installed above the tertiary zone 3C which is a drying / heating zone in the case main body 1.
Thereby, the thermostat 91 and the thermal fuse 92
Dew condensation on control equipment such as
【0060】[0060]
【発明の効果】以上の説明から明らかなように、この発
明は、ケース本体の室内側に対面する前面部に吸込口と
吹出口とを設け、このパネル面の吸込口から導入された
室内の空気を遠心送風型送風機などからなる送風手段に
よる強制循環機構にてケース本体内に設けた回転型除湿
用素子に通過させて空気中の水分の吸着を行なわせ除湿
・乾燥させた後、この除湿・乾燥空気を吹出口から室内
に戻すとともに、この水分が吸着された回転型除湿用素
子に高温の空気を通過させて、回転型除湿用素子に水分
の放出を行なわせる再生処理手段と、室内の空気を直接
排気する換気手段とを備えてなることから、除湿・乾燥
運転中、回転型除湿用素子による室内の湿潤空気の除湿
・乾燥と、回転型除湿用素子の再生処理を同時に連続的
に行なうことができる。As is apparent from the above description, according to the present invention, a suction port and an air outlet are provided on the front surface of the case body facing the room side, and the interior of the room introduced from the suction port on the panel surface. The air is passed through a rotary dehumidifying element provided in the case body by a forced circulation mechanism by a blowing means such as a centrifugal blower or the like to adsorb moisture in the air and dehumidify and dry. Regenerating means for returning dry air from the outlet to the room, passing high-temperature air through the rotary dehumidifying element to which the moisture has been adsorbed, and causing the rotary dehumidifying element to release moisture, and Ventilation means for directly exhausting the air from the inside, so that during the dehumidification and drying operation, the dehumidification and drying of the humid air in the room by the rotary dehumidifying element and the regeneration processing of the rotary dehumidifying element are simultaneously and continuously performed. Can do That.
【0061】しかも、ケース本体内を、少なくとも吸込
口に連通する一次ゾーンと、吹出口に繋がる三次ゾーン
と、この三次ゾーンと一次ゾーンと隣接する二次ゾーン
とに分割するとともに、遠心送風型送風機などからなる
送風装置にてケース本体内に室内の空気を吸込口から順
に一次ゾーン、二次ゾーン及び三次ゾーンを経て吹出口
へと循環させ、この送風装置により二次ゾーンを通過し
て三次ゾーンへ至らせられる空気中の水分を円筒状の回
転型除湿用素子に接させて吸着するような送風経路を形
成しているために、送風システム全体の簡易化ととも
に、装置の小型化を図ることができる。In addition, the inside of the case body is divided into at least a primary zone communicating with the suction port, a tertiary zone connecting to the air outlet, and a secondary zone adjacent to the tertiary zone and the primary zone. The air inside the case is circulated in the case body from the inlet to the outlet through the primary zone, the secondary zone, and the tertiary zone to the outlet through the air inlet, which passes through the secondary zone and the tertiary zone. The ventilation system has a ventilation path that adsorbs the moisture in the air that comes into contact with the cylindrical rotary dehumidifying element, thus simplifying the entire ventilation system and reducing the size of the device. Can be.
【0062】また、熱回収処理部位を通過して再生手段
の加熱手段により加熱された空気を三次ゾーンに至らせ
て吹出口から排気させる乾燥・暖房切換え手段を備えて
なるために、暖房手段への切換えにより室内の暖房を容
易に行なうことができ、乾燥運転時の乾燥効率を高める
ことができる一方、冬季入浴時の浴室内の暖房による快
適性を維持することができる。Further, since drying / heating switching means for passing the air heated by the heating means of the regenerating means through the heat recovery processing part to the tertiary zone and exhausting the air from the outlet is provided, By switching between the above, the indoor heating can be easily performed, and the drying efficiency during the drying operation can be increased, while the comfort by heating the bathroom during the winter bathing can be maintained.
【0063】さらに、再生手段は、回転型除湿用素子の
三次ゾーン側の再生処理部位と熱回収処理部位とに対応
する部位に再生チャンバを配置し、この再生チャンバ内
に回転型除湿用素子の熱回収処理部位からの水分吸着後
の分流空気の導入路と、この分流空気を回転型除湿用素
子の再生処理部位側にUターンさせてなる導出路とを隔
壁にて区画形成し、かつこの導入路に回転型除湿用素子
の熱回収処理部位からの水分吸着後の分流空気を加熱す
る電気ヒータを設ける一方、乾燥・暖房切換え手段は、
再生チャンバの三次ゾーン側に面する電気ヒータの下流
側の側壁に設けた排気口を開閉制御可能な切換えダンパ
にて形成され、この切換えダンパの開扉状態で電気ヒー
タにて加熱された再生用空気を三次ゾーンに至らせるよ
うにしてなることから、再生チャンバ内の省スペース化
による装置全体の小型化を図ることができる。Further, the regenerating means arranges the regenerating chamber at a portion corresponding to the regenerating processing part and the heat recovery processing part on the tertiary zone side of the rotary dehumidifying element. The introduction path of the divided air after moisture adsorption from the heat recovery processing part and the lead-out path formed by making the divided air U-turn to the regeneration processing part side of the rotary dehumidifying element are formed by partition walls and formed. While providing an electric heater for heating the divided air after moisture adsorption from the heat recovery processing site of the rotary dehumidifying element in the introduction path, the drying / heating switching means,
An exhaust port provided on the downstream side wall of the electric heater facing the tertiary zone side of the regeneration chamber is formed by a switching damper capable of controlling opening and closing, and the regeneration damper heated by the electric heater when the switching damper is opened. Since the air is allowed to reach the tertiary zone, the size of the entire apparatus can be reduced by saving space in the regeneration chamber.
【0064】さらにまた、ケース本体内の三次ゾーンに
除湿手段にて除湿され乾燥された空気を加熱して吹出口
から暖房用空気を排気させる暖房手段を設けてなるため
に、この補助機能としての暖房手段により室内暖房を助
長する。Further, since the tertiary zone in the case body is provided with heating means for heating the air dehumidified and dried by the dehumidifying means and exhausting the air for heating from the outlet, this auxiliary function is provided. The heating means promotes indoor heating.
【0065】また、再生チャンバに二次ゾーン側に配置
される排気手段の排気チャンバを除湿手段の回転型除湿
用素子を間に介して対向させるとともに、この排気チャ
ンバに設けたケース本体下部から外部に臨む排気管を扁
平管により形成し、かつ、その長径方向が一次ゾーンか
ら二次ゾーン内に送風される室内の湿潤空気の送風方向
に対向して拡開するような非平行に、すなわち送気口に
近い側が回転型除湿用素子と離間し、送気口から離れた
側が回転型除湿用素子に接近するように設置されている
ため、送風手段にて一次ゾーンから二次ゾーンに導入さ
れた室内空気の一部、すなわち第2のチャンバの裏側下
部に位置する回転型除湿用素子の熱回収処理部位と排気
管との間に入り込んだ空気は送気口から遠ざかるほど空
間が狭まって空気圧が上昇するので、回転型除湿用素子
の熱回収処理部位への取り入れを円滑に行なうことがで
きる。Further, the exhaust chamber of the exhaust means arranged on the secondary zone side in the regeneration chamber is opposed to the rotary chamber of the dehumidifying means with a rotary dehumidifying element interposed therebetween. Is formed in a non-parallel manner, that is, in such a manner that the major axis direction of the exhaust pipe faces and spreads in the direction of the humid air in the room blown from the primary zone to the secondary zone. The side close to the air port is separated from the rotary dehumidifying element, and the side remote from the air port is installed so as to approach the rotary dehumidifying element, so it is introduced from the primary zone to the secondary zone by the blowing means. Part of the room air that has entered, that is, the air that has entered between the heat recovery processing portion of the rotary dehumidifying element located at the lower rear side of the second chamber and the exhaust pipe, the space becomes narrower as the distance from the air inlet increases, and Since but rises, it is possible to perform incorporation into the heat recovery process portion of the rotary dehumidifying element smoothly.
【図1】 この発明に係る除湿乾燥装置の建屋の浴室へ
の据付け状態を示す概略的説明図。FIG. 1 is a schematic explanatory view showing a state in which a dehumidifying and drying apparatus according to the present invention is installed in a bathroom of a building.
【図2】 同じく据付け状態の拡大縦断側面図。FIG. 2 is an enlarged vertical sectional side view of the same installed state.
【図3】 同じく除湿乾燥装置の全体構成を示す概略的
横断平面図。FIG. 3 is a schematic cross-sectional plan view showing the entire configuration of the dehumidifying and drying apparatus.
【図4】 同じく除湿乾燥装置の全体構成を示す正面側
から見た概略的斜視図。FIG. 4 is a schematic perspective view showing the entire configuration of the same dehumidifying and drying apparatus as viewed from the front side.
【図5】 同じく除湿乾燥装置の全体構成を示す背面側
から見た概略的斜視図。FIG. 5 is a schematic perspective view showing the entire configuration of the dehumidifying / drying apparatus as viewed from the rear side.
【図6】 同じく回転型除湿用素子の説明図。FIG. 6 is an explanatory view of a rotary dehumidifying element.
【図7】 同じく再生チャンバに設けたダンパの取付状
態を示す断面図。FIG. 7 is a sectional view showing a mounting state of a damper provided in the regeneration chamber.
【図8】 同じく再生チャンバに設けたダンパの取付状
態の要部拡大斜視図。FIG. 8 is an enlarged perspective view of a main part in a mounted state of a damper similarly provided in the regeneration chamber.
【図9】 同じく回転型除湿用素子に対する再生チャン
バの取付状態を示す斜視図。FIG. 9 is a perspective view showing a state where the regeneration chamber is attached to the rotary dehumidifying element.
【図10】 同じく回転型除湿用素子に対する再生チャ
ンバの取付状態を示す横断面図。FIG. 10 is a cross-sectional view showing a state where the regeneration chamber is attached to the rotary dehumidifying element.
【図11】 同じく室内の湿潤空気の換気機能と除湿・
乾燥機能と回転型除湿用素子の再生機能及び暖房機能を
原理的に示す説明図。FIG. 11 Similarly, the ventilation function of the indoor humid air and the dehumidification
Explanatory drawing which shows the drying function, the reproduction | regeneration function of a rotary dehumidifying element, and a heating function in principle.
【図12】 同じくケース本体及び第1のダクトの室外
側からの換気扇用取付枠への据付状態を示す分解図。FIG. 12 is an exploded view showing a state where the case main body and the first duct are installed in the ventilation fan mounting frame from the outdoor side.
【図13】 同じくケース本体及び第1のダクトの室外
側からの換気扇用取付枠への据付状態を示す分解図。FIG. 13 is an exploded view showing an installation state of the case main body and the first duct from the outdoor side to the ventilation fan mounting frame.
【図14】 同じくケース本体及び第1のダクトへの第
2のダクト、エアフィルタ及び化粧グリルの据付状態を
示す分解図。FIG. 14 is an exploded view showing an installation state of the second duct, the air filter, and the decorative grille on the case body and the first duct.
【図15】 同じく除湿・乾燥後の空気の室内への吐出
状態を示す説明図。FIG. 15 is an explanatory view showing a state of discharging air after dehumidification and drying into a room.
【図16】 同じく二次ゾーンへの湿潤空気の侵入防止
用シャッタの動作を横断面にして示す説明図。FIG. 16 is an explanatory view showing the operation of the shutter for preventing infiltration of wet air into the secondary zone in a cross-sectional view.
【図17】 同じくダクト部分における乾燥空気の吹出
口からの湿潤空気の侵入防止用シャッタの動作を示す断
面図。FIG. 17 is a cross-sectional view showing the operation of the shutter for preventing infiltration of wet air from the outlet of dry air in the same duct portion.
【図18】 同じくダクト部分における乾燥空気の吹出
口からの湿潤空気の侵入防止用シャッタの組立状態を示
す分解斜視図。FIG. 18 is an exploded perspective view showing an assembled state of the shutter for preventing infiltration of wet air from the outlet of dry air in the duct portion.
1・・・ケース本体、 1a・・・前面部、 2A・・・吸込口、 2B・・・吹出口、 3A・・・一次ゾーン、 3B・・・二次ゾーン、 3C・・・三次ゾーン(乾燥・暖房ゾーン)、 3D・・・四次ゾーン(防湿ゾーン)、 4・・・送気路、 5・・・送気口、 6,7,8,9・・・隔壁パネル、 14・・・換気口、 20・・・強制循環機構、 21・・・送風装置(遠心送風型の送風機)、 22・・・駆動モータ、 23・・・開口部、 24・・・換気・乾燥用切換えダンパ、 25・・・ステップモータ、 30・・・除湿・乾燥機構、 31・・・回転型除湿用素子、 31A・・・除湿処理部位、 31B・・・再生処理部位、 31C・・・熱回収処理部位、 41・・・第1のチャンバ(再生チャンバ)、 42・・・隔壁、 43・・・導入路、 44・・・導出路、 45・・・電気ヒータ、 46・・・排気口、 47・・・ステップモータ、 48・・・乾燥・暖房用切換えダンパ、 52・・・暖房用電気ヒータ、 55・・・第2のチャンバ(排気チャンバ)、 56・・・排気管、 100・・・浴室(除湿乾燥室)、 A・・・湿潤空気、 B・・・乾燥空気、 C・・・高温空気(再生用空気)、 D・・・排出空気、 E・・・暖房用空気、 O−O・・・扁平管の長径方向。 DESCRIPTION OF SYMBOLS 1 ... Case main body, 1a ... Front part, 2A ... Inlet, 2B ... Outlet, 3A ... Primary zone, 3B ... Secondary zone, 3C ... Tertiary zone ( Drying / heating zone), 3D: quaternary zone (moisture proof zone), 4: air supply path, 5: air supply port, 6, 7, 8, 9 ... partition panel, 14 ...・ Ventilation port, 20 ・ ・ ・ Forced circulation mechanism, 21 ・ ・ ・ Blower (centrifugal blower type blower), 22 ・ ・ ・ Drive motor, 23 ・ ・ ・ Opening, 24 ・ ・ ・ Switching damper for ventilation / drying , 25: Step motor, 30: Dehumidifying / drying mechanism, 31: Rotary dehumidifying element, 31A: Dehumidifying processing part, 31B: Regenerating processing part, 31C: Heat recovery processing Part, 41: First chamber (regeneration chamber), 42: Partition wall, 43: Conduction Inlet, 44 ... Outgoing path, 45 ... Electric heater, 46 ... Exhaust port, 47 ... Step motor, 48 ... Drying / heating switching damper, 52 ... Heating electric heater , 55: second chamber (exhaust chamber), 56: exhaust pipe, 100: bathroom (dehumidifying / drying chamber), A: wet air, B: dry air, C ... High-temperature air (air for regeneration), D: exhaust air, E: air for heating, O-O: longitudinal direction of the flat tube.
───────────────────────────────────────────────────── フロントページの続き (72)発明者 生田目 達夫 大阪府守口市京阪本通2丁目5番5号 三洋電機株式会社内 (72)発明者 橋本 益征 大阪府守口市京阪本通2丁目5番5号 三洋電機株式会社内 (72)発明者 茂木 康弘 大阪府守口市京阪本通2丁目5番5号 三洋電機株式会社内 (72)発明者 岡田 晃 大阪府守口市京阪本通2丁目5番5号 三洋電機株式会社内 (56)参考文献 特開 平8−49895(JP,A) 特開 平8−14751(JP,A) 特開 平7−180956(JP,A) 特開 平8−13562(JP,A) 特開 平7−63006(JP,A) 特開 平9−10491(JP,A) 実開 平6−10782(JP,U) (58)調査した分野(Int.Cl.7,DB名) F26B 9/02,21/00,5/06 F24F 1/00,7/08 F24D 15/00,5/02 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Tatsuo Ikuname 2-5-5 Keihanhondori, Moriguchi-shi, Osaka Inside Sanyo Electric Co., Ltd. (72) Inventor Masashi Hashimoto 2-chome, Keihanhondori, Moriguchi-shi, Osaka No. 5 Sanyo Electric Co., Ltd. (72) Inventor Yasuhiro Mogi 2-5-5 Keihanhondori, Moriguchi-shi, Osaka Prefecture In-house Sanyo Electric Co., Ltd. (72) Akira Okada 2-chome Keihanhondori, Moriguchi-shi, Osaka No. 5 Sanyo Electric Co., Ltd. (56) References JP-A-8-49895 (JP, A) JP-A-8-14751 (JP, A) JP-A-7-180956 (JP, A) JP-A-8 -13562 (JP, A) JP-A-7-63006 (JP, A) JP-A-9-10491 (JP, A) JP-A-6-10782 (JP, U) (58) Fields investigated (Int. . 7, DB name) F26B 9 / 02,21 / 00,5 / 06 F24F 1 / 00,7 / 08 F24D 15/00 , 5/02
Claims (1)
口とが設けられたケース本体内を、少なくとも前記吸込
口に連通する一次ゾーンと、前記吹出口に繋がる三次ゾ
ーンと、この三次ゾーンと前記一次ゾーンと隣接する二
次ゾーンとに分割するとともに、前記ケース本体内に室
内の空気を前記吸込口から順に一次ゾーン、二次ゾーン
及び三次ゾーンを経て前記吹出口へと循環させる送風手
段と、前記二次ゾーンを通過して三次ゾーンへ至らせら
れる空気と接し、この空気中の水分を吸着して乾燥させ
る除湿処理部位を有する円筒状の回転型除湿用素子から
なる除湿・乾燥手段と、前記二次ゾーンから三次ゾーン
に至る途上の空気の一部を前記回転型除湿用素子の熱回
収処理部位に通過させて熱回収を行なう熱回収手段と、
前記熱回収処理部位を通過した空気を加熱して前記回転
型除湿用素子の再生処理部位に通過させる加熱手段を有
する再生手段と、前記再生処理部位を通過した空気を外
部に排気する排気手段と、前記一次ゾーンから二次ゾー
ンに至る途上の空気を外部に排気する換気手段と、前記
熱回収処理部位を通過して前記再生手段の加熱手段によ
り加熱された空気を前記三次ゾーンに至らせて前記吹出
口から排気させる乾燥・暖房切換え手段とを具備し、前
記再生手段は前記回転型除湿用素子の前記三次ゾーン側
の前記再生処理部位と熱回収処理部位とに対応する部位
に配置された再生チャンバからなり、この再生チャンバ
に前記二次ゾーン側に配置される前記排気手段の排気チ
ャンバを前記回転型除湿用素子を間に介して対向させる
とともに、この排気チャンバに設けた前記ケース本体下
部から外部に臨む排気管を扁平管により形成し 、 かつ、
前記一次ゾーンから二次ゾーンへの室内空気の流入口に
接近した側より離れた側が前記回転型除湿用素子に接近
するように前記排気管を設置したことを特徴とする除湿
乾燥装置。A first zone communicating with at least the suction port, a tertiary zone connecting to the air outlet, and a tertiary zone connected to the interior of the case body having a suction port and an air outlet provided on a front portion facing the indoor side; thereby divided into a secondary zone adjacent to the zone and the primary zone, the case body primary zone in order to room air from the suction port into, Ru is circulated to the air outlet via the secondary zone and tertiary zones a feed air means, through said secondary zone to contact with the air brought lead to tertiary zone, dried by adsorbing moisture in the air
The heat recovery dehumidifier dehumidifying and drying means consists of a cylindrical rotary dehumidifying element having a processing site, the secondary front part of the developing of the air reaching the tertiary zone from the zone Kikai rotor type dehumidifying element that
Heat recovery means for passing heat through a recovery processing site to recover heat;
Have a heating means for passing the regeneration processing site of the air heated by the rotary dehumidifying element that has passed through the heat recovery process site
Reproducing means for an exhaust means for exhausting air that has passed through the reproduction processing portion to the outside, a ventilation unit for exhausting the developing of air to the outside leading to the secondary zone from the primary zone, the
After passing through the heat recovery processing part,
Ri the heated air brought to the tertiary zone comprising a drying-heating changeover means for exhaust from the outlet, the reproduction processing portion of the reproducing means the tertiary zone side of the front Symbol rotary dehumidifying element between the disposed portion corresponding to the heat recovery process site was made from the regeneration chamber, the pre-Kikai rotor type dehumidifying element exhaust chamber of the exhaust means disposed in said secondary zone side to the regenerative chambers An exhaust pipe facing the outside from the lower part of the case body provided in the exhaust chamber is formed by a flat pipe , and
At the inlet of room air from the primary zone to the secondary zone
The side farther from the closer side approaches the rotary dehumidifying element
A dehumidifying / drying apparatus , wherein the exhaust pipe is installed to perform drying.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP03853396A JP3152608B2 (en) | 1996-02-26 | 1996-02-26 | Dehumidifying and drying equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP03853396A JP3152608B2 (en) | 1996-02-26 | 1996-02-26 | Dehumidifying and drying equipment |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH09229415A JPH09229415A (en) | 1997-09-05 |
JP3152608B2 true JP3152608B2 (en) | 2001-04-03 |
Family
ID=12527926
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP03853396A Expired - Fee Related JP3152608B2 (en) | 1996-02-26 | 1996-02-26 | Dehumidifying and drying equipment |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3152608B2 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR101897171B1 (en) * | 2016-11-22 | 2018-09-12 | 김상문 | tightening apparatus and supporter for prevent oscillation comprising the same |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP3660962B2 (en) * | 2000-09-22 | 2005-06-15 | ダイキン工業株式会社 | Humidification unit |
KR102564524B1 (en) * | 2021-07-05 | 2023-08-08 | 주식회사 힘펠 | fan heater |
CN114992726B (en) * | 2022-08-04 | 2022-11-11 | 自然资源部第二海洋研究所 | Automatic drying device of water vapor balancer |
-
1996
- 1996-02-26 JP JP03853396A patent/JP3152608B2/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR101897171B1 (en) * | 2016-11-22 | 2018-09-12 | 김상문 | tightening apparatus and supporter for prevent oscillation comprising the same |
Also Published As
Publication number | Publication date |
---|---|
JPH09229415A (en) | 1997-09-05 |
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