JPH05126359A - Dehumidifier - Google Patents
DehumidifierInfo
- Publication number
- JPH05126359A JPH05126359A JP3287747A JP28774791A JPH05126359A JP H05126359 A JPH05126359 A JP H05126359A JP 3287747 A JP3287747 A JP 3287747A JP 28774791 A JP28774791 A JP 28774791A JP H05126359 A JPH05126359 A JP H05126359A
- Authority
- JP
- Japan
- Prior art keywords
- water
- dehumidifier
- separation
- full
- main body
- 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.)
- Pending
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
- F24F3/153—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 with subsequent heating, i.e. with the air, given the required humidity in the central station, passing a heating element to achieve the required temperature
Landscapes
- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Devices For Blowing Cold Air, Devices For Blowing Warm Air, And Means For Preventing Water Condensation In Air Conditioning Units (AREA)
- Air Conditioning Control Device (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は,除湿機能を備えた本体
部と,本体部から排出される除湿水を貯溜する受水部と
を分離・合体可能に構成して,受水不要な場所では受水
部を分離し除湿機体積を縮小させた状態にして運転する
ことを可能にした除湿機に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention comprises a main body portion having a dehumidifying function and a water receiving portion for storing the dehumidified water discharged from the main body portion, which can be separated from each other and combined with each other. Then, the present invention relates to a dehumidifier that can be operated with the water receiving section separated and the volume of the dehumidifier reduced.
【0002】[0002]
【従来の技術】除湿機,冷風扇等の除湿機能を有する機
器においては,除湿することにより生成される除湿水を
貯溜して,該除湿水が機器外に漏出しないように貯溜す
る受水部を設け,受水部が満水状態になったときには機
器の運転を停止して満水になった除湿水を排水すること
を促すよう構成されている。このように構成された従来
例除湿機について,添付図を参照して説明する。図4
は,設置場所の移動を自在にしたポータブル型の従来例
除湿機30で,側面から見た構成図を示している。圧縮
機31,蒸発器33,凝縮器34等により冷凍サイクル
が構成されており,送風ファン36をファンモータ35
で回転駆動することによって,吸気口32から室内空気
を吸入し,蒸発器33を通して冷却,除湿し,吹出口3
7から室内に吹き出させる。蒸発器33の冷却除湿によ
って生成された除湿水は,露受皿38に集められてドレ
ン口39から滴下して排水容器40に貯溜される。排水
容器40の上部に回動自在に軸支されたフロートレバー
41にはフロート42が取付けられており,排水容器4
0内に溜まってくる除湿水の増加と共にフロート42は
浮上してフロートレバー41を回動させる。フロートレ
バー41の先端部43は,除湿機30の運転を停止させ
るスイッチ45を開閉操作するスイッチレバー44に当
接し,スイッチレバー44を押圧してスイッチ45をオ
ンにした状態を保っているが,除湿水の貯溜量が増し満
水状態になったとき,図5に示すように,フロートレバ
ー41の先端部43がスイッチレバー44の押圧位置か
ら外れる結果,スイッチ45はオフとなって除湿機30
の運転は停止される。排水容器40は除湿機30から着
脱可能に装着されているので,満水により運転停止にな
ったとき,これを取り外し貯溜された除湿水を廃棄す
る。この排水容器40を取り外したときにも,図5に示
すように前記フロートレバー41によるスイッチレバー
44の押圧が解放されるため,スイッチ45はオフとな
って除湿機30の運転は停止される。除湿水を廃棄した
あと,排水容器40を再び装着すると除湿機30の運転
は再開される。即ち,上記実施例ではスイッチ45が排
水容器40の満水検知と,取外し検知の両方を兼ねてい
る。2. Description of the Related Art In a device having a dehumidifying function such as a dehumidifier or a cool air fan, a water receiving portion for storing dehumidified water generated by dehumidifying and for preventing the dehumidified water from leaking out of the device. Is provided, and when the water receiving section becomes full, the operation of the equipment is stopped and the dehumidified water that has become full is drained. The conventional dehumidifier configured as described above will be described with reference to the accompanying drawings. Figure 4
Shows a configuration view of a portable type conventional dehumidifier 30 in which the installation place can be freely moved, as viewed from the side. The compressor 31, the evaporator 33, the condenser 34, etc. constitute a refrigeration cycle, and the blower fan 36 is connected to the fan motor 35.
Driven by the intake air, the indoor air is taken in through the intake port 32, cooled and dehumidified through the evaporator 33, and the air outlet 3
Blow from 7 into the room. Dehumidified water generated by cooling and dehumidifying the evaporator 33 is collected in the dew tray 38, dripped from the drain port 39, and stored in the drainage container 40. A float 42 is attached to a float lever 41 that is rotatably supported above the drainage container 40.
The float 42 floats and rotates the float lever 41 as the dehumidifying water accumulated in 0 increases. The tip end portion 43 of the float lever 41 contacts the switch lever 44 that opens and closes the switch 45 that stops the operation of the dehumidifier 30, and presses the switch lever 44 to keep the switch 45 turned on. When the accumulated amount of dehumidified water increases and becomes full, as shown in FIG. 5, the tip end portion 43 of the float lever 41 is disengaged from the pressing position of the switch lever 44, so that the switch 45 is turned off and the dehumidifier 30
Driving is stopped. Since the drainage container 40 is detachably attached to the dehumidifier 30, when the operation is stopped due to full water, the drainage container 40 is removed and the stored dehumidified water is discarded. Even when the drainage container 40 is removed, the switch lever 44 is released from being pressed by the float lever 41 as shown in FIG. 5, so that the switch 45 is turned off and the operation of the dehumidifier 30 is stopped. After the dehumidifying water is discarded, the drainage container 40 is attached again, and the operation of the dehumidifier 30 is restarted. That is, in the above-described embodiment, the switch 45 serves both to detect the fullness of the drainage container 40 and to detect it.
【0003】[0003]
【発明が解決しようとする課題】上記のように構成され
た除湿機における排水容器の容量は2〜3lで,除湿機
全体の体積に占める体積比率が高くなっている。このよ
うな除湿機を浴室等のように除湿水を排水容器に貯溜せ
ず,設置床面に排水しても支障のない場合には,排水容
器は不要であり,このときには除湿機は無駄な体積を有
したものとなっている。従って,使用場所によって排水
容器なしでも運転可能にして,排水容器の体積相当分を
縮小すると,除湿機のコンパクト化がなされる。しかし
ながら,従来の除湿機においては,スイッチ45が満水
検知と,排水容器の取り外し検知とを兼ねているので,
排水容器が満水になったときも,排水容器を取り外した
ときにも,運転が停止するように構成して,除湿水の溢
水を発生させる誤使用を防止しているため,排水容器無
しでの使用はできないものとなっている。本発明は上記
課題に鑑み,除湿機能を有する本体部と,排水容器部分
である受水部とを,分離・合体可能にユニット化して,
分離した場合にも運転可能に構成した除湿機を提供する
ことを目的とする。The capacity of the drainage container in the dehumidifier configured as described above is 2 to 3 liters, and the volume ratio in the volume of the entire dehumidifier is high. If such a dehumidifier does not store dehumidified water in a drainage container as in a bathroom, and there is no problem even if it is drained to the installation floor surface, a drainage container is not necessary and at this time the dehumidifier is useless. It has a volume. Therefore, depending on the place of use, the dehumidifier can be made compact by enabling operation without a drainage container and reducing the volume equivalent of the drainage container. However, in the conventional dehumidifier, since the switch 45 has both the full water detection and the drain container removal detection,
Since the operation is stopped when the drainage container is full or when the drainage container is removed, misuse of the dehumidified water that causes overflow is prevented. It cannot be used. In view of the above problems, the present invention unitizes a main body having a dehumidifying function and a water receiving portion, which is a drainage container, so that they can be separated and united,
An object of the present invention is to provide a dehumidifier configured to be operable even when separated.
【0004】[0004]
【課題を解決するための手段】上記目的を達成するため
に本発明が採用する手段は,除湿装置を備えた本体部
と,該本体部から排出される除湿水を貯溜すると共に,
前記本体部に対し分離・合体可能の受水部と,該受水部
に貯溜される除湿水の満水を検出する満水検出手段と,
前記受水部の本体部からの分離を検出する分離検出手段
と,前記本体部と前記受水部とが合体状態での運転中に
前記満水検出手段が満水を検出したとき及び前記分離検
出手段が受水部の分離を検出したときに運転を停止させ
る運転停止手段とを具備してなる除湿機において,前記
満水検出手段と分離検出手段とを別体に構成すると共
に,分離あるいは合体のいずれの停止状態からも運転開
始を可能にする運転制御手段を設けてなることを特徴と
する除湿機として構成される。[Means for Solving the Problems] Means adopted by the present invention to achieve the above object are: a main body provided with a dehumidifying device; and storing dehumidified water discharged from the main body,
A water receiving portion that is separable and unitable with the main body portion, and a full water detecting means for detecting full water of dehumidified water stored in the water receiving portion;
Separation detecting means for detecting separation of the water receiving portion from the main body portion, and when the full water detecting means detects full water during operation in a combined state of the main body portion and the water receiving portion, and the separation detecting means. In a dehumidifier having an operation stopping means for stopping the operation when the separation of the water receiving part is detected, the full water detecting means and the separation detecting means are configured separately, and either the separation or the combination is performed. It is configured as a dehumidifier characterized in that it is provided with operation control means for enabling the operation to be started even in the stopped state.
【0005】[0005]
【作用】本発明によれば,本体部と受水部とを分離・合
体可能に構成すると共に,分離あるいは合体された状態
のいずれにおいても運転開始は可能に制御されるので,
例えば,浴室等の除湿水が設置場所に排出されても支障
がない場合には,受水部が分離されたコンパクトな除湿
機としても機能する。一方,合体された状態では,受水
部が満水状態になったときには,満水検出手段により運
転が停止され,運転中に受水部が分離されたときには,
分離検出手段により運転が停止される。従って,除湿水
が不用意に溢れることが防止される。According to the present invention, the main body portion and the water receiving portion are configured to be separable and unitable, and the operation start can be controlled in either of the separated and united states.
For example, when there is no problem even if dehumidified water in a bathroom or the like is discharged to the installation location, it also functions as a compact dehumidifier with a separate water receiving part. On the other hand, in the combined state, when the water receiving section is full, the operation is stopped by the water full detection means, and when the water receiving section is separated during operation,
The operation is stopped by the separation detecting means. Therefore, the dehumidifying water is prevented from overflowing carelessly.
【0006】[0006]
【実施例】以下,添付図面を参照して,本発明を具体化
した実施例につき説明し,本発明の理解に供する。尚,
以下の実施例は本発明を具体化した一例であって,本発
明の技術的範囲を限定するものではない。ここに,図1
は本発明の実施例に係る除湿機の構成図,図2は運転制
御系統のの構成を示すブロック図,図3は運転制御の手
順を説明するフローチャートである。図1において,除
湿機1は本体部2と受水部3とからなり,本体部2と受
水部3とは分離・合体可能に構成されており,受水部3
を主構成する受水槽21上に本体部2を載置して合体状
態となり、受水部3を切離し本体部2を設置床面に直接
据置して分離状態となる。Embodiments of the present invention will be described below with reference to the accompanying drawings to provide an understanding of the present invention. still,
The following examples are examples of embodying the present invention and do not limit the technical scope of the present invention. Figure 1
Is a block diagram of a dehumidifier according to an embodiment of the present invention, FIG. 2 is a block diagram showing a configuration of an operation control system, and FIG. 3 is a flowchart for explaining an operation control procedure. In FIG. 1, the dehumidifier 1 is composed of a main body 2 and a water receiving portion 3, and the main body 2 and the water receiving portion 3 are configured to be separable and unitable.
The main body 2 is placed on the water receiving tank 21 that mainly constitutes the unit 2 to be in a united state, the water receiving unit 3 is cut off, and the main unit 2 is directly placed on the installation floor to be in a separated state.
【0007】本体部2には圧縮機13,蒸発器5,凝縮
器4等からなる冷凍サイクルが設けられており,圧縮機
13により冷凍サイクルに冷媒ガスを循環させる。凝縮
器4の後方にはモータ11により回転駆動される送風フ
ァン6が配置されており,送風ファン6が回転駆動され
ることにより吸気口10から吸い込まれた室内空気は蒸
発器5及び凝縮器4を通る間に冷却除湿され,吹出口7
から吹き出される。除湿によって生成された除湿水は,
露受皿8に集められてドレンパイプ9を通じ本体部2の
下部から滴下して,本体部2の下部に配された受水部3
を構成する受水槽21内に貯溜される。受水槽21には
フロート12及び満水検出用磁石26が取付けられたフ
ロートレバー25が回動自在に軸支されており,受水槽
21内に貯溜される除湿水の増加と共にフロート12が
浮上することによってフロートレバー25を上方に回動
させ,満水状態になったとき前記満水検出用磁石26が
本体部2の下部に配置された満水検出スイッチ23に近
接し,リードスイッチからなる満水検出スイッチ23に
磁気作用して,該満水検出スイッチ23をオンにする。
このフロート12及び満水検出用磁石26が取付けられ
たフロートレバー25と,満水検出スイッチ23とによ
り満水検出手段15が構成される。The main body 2 is provided with a refrigeration cycle consisting of a compressor 13, an evaporator 5, a condenser 4, etc., and a refrigerant gas is circulated in the refrigeration cycle by the compressor 13. A blower fan 6 which is rotationally driven by a motor 11 is arranged behind the condenser 4, and the indoor air sucked from the intake port 10 when the blower fan 6 is rotationally driven is installed in the evaporator 5 and the condenser 4. Is cooled and dehumidified while passing through
Blown out from. Dehumidified water generated by dehumidification is
The water receiving portion 3 collected in the dew tray 8 and dripping from the lower portion of the main body portion 2 through the drain pipe 9 is arranged in the lower portion of the main body portion 2.
It is stored in the water receiving tank 21 constituting the. A float lever 25 having a float 12 and a magnet 26 for full water detection is rotatably supported by the water receiving tank 21, and the float 12 floats as the dehumidifying water stored in the water receiving tank 21 increases. When the float lever 25 is rotated upward by the above, and the full water detection magnet 26 comes close to the full water detection switch 23 arranged at the lower part of the main body 2, the full water detection switch 23 composed of a reed switch is placed. The full water detection switch 23 is turned on by magnetic action.
The float lever 25 to which the float 12 and the magnet 26 for full water detection are attached, and the full water detection switch 23 constitute the full water detection means 15.
【0008】また,受水槽21の上部には分離検出用磁
石24が取付けられており,該分離検出用磁石24に対
向する本体部2側にはリードスイッチからなる満水検出
スイッチ23とは別の分離検出スイッチ22が取付けら
れており,本体部2と受水部3とが合体状態にあるとき
には,分離検出用磁石24が分離検出スイッチ22に磁
気作用してオンとなっている。この分離検出用磁石24
と分離検出スイッチ22とにより分離検出手段16が構
成される。上記のように構成された除湿機1は,図2に
示す運転動作系統によって動作制御される。電源18に
対し電源スイッチ14及び運転制御手段17を介して前
記圧縮機13とファンモータ11とが接続され,マイク
ロコンピュータを具備してなる運転制御手段17には,
前記満水検出手段15及び分離検出手段16から満水検
出スイッチ23及び分離検出スイッチ22のオン・オフ
信号が入力される。上記電源スイッチ14及び満水検出
スイッチ23,分離検出スイッチ22のオン・オフ動作
は,当該除湿機1を動作制御する運転制御手段17のマ
イクロコンピュータに入力され,除湿機1の動作が制御
される。この運転制御手段17による除湿機1の動作制
御の手順を図3に示すフローチャートに従って説明す
る。以下の説明のS1,S2……は制御手順のステップ
を示し,図3の記載と一致する。A separation detecting magnet 24 is attached to the upper part of the water receiving tank 21, and a main body 2 side facing the separation detecting magnet 24 is provided with a reed switch, which is different from the full water detection switch 23. When the separation detection switch 22 is attached and the main body 2 and the water receiving portion 3 are in a combined state, the separation detection magnet 24 magnetically acts on the separation detection switch 22 and is turned on. This separation detection magnet 24
The separation detecting switch 16 and the separation detecting switch 22 constitute the separation detecting means 16. The dehumidifier 1 configured as described above is operation-controlled by the operation operation system shown in FIG. The compressor 13 and the fan motor 11 are connected to the power source 18 via the power switch 14 and the operation control means 17, and the operation control means 17 including a microcomputer includes:
On / off signals of the full water detection switch 23 and the separation detection switch 22 are input from the full water detection means 15 and the separation detection means 16. The on / off operations of the power switch 14, the full water detection switch 23, and the separation detection switch 22 are input to the microcomputer of the operation control means 17 that controls the operation of the dehumidifier 1, and the operation of the dehumidifier 1 is controlled. The procedure of operation control of the dehumidifier 1 by the operation control means 17 will be described with reference to the flowchart shown in FIG. In the following description, S1, S2, ... Show steps in the control procedure, and coincide with the description in FIG.
【0009】除湿機1を運転開始するため電源スイッチ
14をオンにすると,電源スイッチ14のオン・オフが
判定され(S1),運転制御手段17は電源スイッチ1
4と直列に接続した運転停止スイッチ20をオンにして
運転を開始させる。次いで分離検出スイッチ22のオン
・オフが判別される(S2)。本体部2と受水部3とが
合体している状態では分離検出スイッチ22はオン,受
水部3を本体部2から分離させるとオフとなるが,図示
するように受水部3が本体部2と合体している状態で
も,分離している状態でも運転が継続するよう制御され
る。いま,受水部3が本体部2に合体した状態であると
き,運転継続で除湿された水が受水部3に徐々に溜ま
り,満水になるまではフロートレバー25に取付けられ
た満水検出用磁石26は満水検出スイッチ23から離れ
た位置にあるので磁気作用は及ばず,満水検出スイッチ
23はオフになっており,S3の満水スイッチオン・オ
フ判別の結果,運転は継続される(S4)。しかし,受
水部3に除湿水が満水になったとき,満水検出用磁石2
6は満水検出スイッチ23に作用して満水検出スイッチ
23をオンにする。この満水検出スイッチ23のオンが
判別されたとき(S3),運転停止スイッチ20はオフ
に制御され除湿機1の運転は停止される(S5)。When the power switch 14 is turned on to start the operation of the dehumidifier 1, it is judged whether the power switch 14 is on or off (S1), and the operation control means 17 causes the power switch 1 to operate.
The operation stop switch 20 connected in series with 4 is turned on to start the operation. Next, it is determined whether the separation detection switch 22 is on or off (S2). The separation detection switch 22 is turned on when the main body 2 and the water receiving portion 3 are united, and is turned off when the water receiving portion 3 is separated from the main body portion 2. The operation is controlled so that the operation is continued regardless of whether it is combined with the unit 2 or separated. Now, when the water receiving part 3 is integrated with the main body part 2, the water dehumidified by the continuous operation is gradually accumulated in the water receiving part 3 and is attached to the float lever 25 until the water level is detected. Since the magnet 26 is located away from the full water detection switch 23, no magnetic action is exerted, the full water detection switch 23 is off, and the operation is continued as a result of the determination of full water switch on / off in S3 (S4). .. However, when the dehumidifying water is full in the water receiving part 3, the full water detection magnet 2
6 acts on the full water detection switch 23 to turn on the full water detection switch 23. When it is determined that the full water detection switch 23 is on (S3), the operation stop switch 20 is controlled to be off and the operation of the dehumidifier 1 is stopped (S5).
【0010】排水容器21が満水になってない状態の運
転継続中(S4)に受水部3を分離させたとき,S6の
分離検出スイッチ22のオン・オフ判別においてオフと
判別されるので,運転停止スイッチ20はオフに制御さ
れ運転は停止される(S7)。このように運転継続中に
受水部3を分離して分離検出スイッチ22がオフとなっ
たときには,運転は停止されるが本体部2のみの状態で
電源スイッチ14をオンにすれば,制御はS1から開始
され,受水部3を取り外した状態でも運転が可能とな
る。上記のように制御されることによって,当該除湿機
1は本体部2の下部に受水部3を合体させて除湿された
水を機器外に流出させない通常の室内運転と,受水部3
を本体部2から分離して当該除湿機1の体積を小さくし
て,除湿水を本体部2のドレンパイプ9から滴下させて
連続排水しても支障のない浴室等での運転とを切替え実
施することができる。When the water receiving portion 3 is separated while the drainage container 21 is not fully filled with water (S4), the separation detection switch 22 in S6 is judged to be off. The operation stop switch 20 is controlled to be off and the operation is stopped (S7). In this way, when the water receiving section 3 is separated and the separation detection switch 22 is turned off during continuous operation, the operation is stopped, but if the power switch 14 is turned on with only the main body section 2, control is performed. Starting from S1, operation is possible even with the water receiving section 3 removed. By controlling as described above, the dehumidifier 1 has a normal indoor operation in which the water receiving portion 3 is combined with the lower portion of the main body portion 2 so that dehumidified water does not flow out of the equipment, and the water receiving portion 3
Is separated from the main body 2 to reduce the volume of the dehumidifier 1, and dehumidified water is dropped from the drain pipe 9 of the main body 2 and switched to operation in a bathroom or the like where continuous drainage is not a problem. can do.
【0011】[0011]
【発明の効果】以上の説明の通り本発明によれば,本体
部と受水部とを分離・合体可能に構成すると共に,分離
あるいは合体された状態のいずれにおいても運転開始は
可能に制御されるので,例えば,浴室等の除湿水が設置
場所に排出されても支障がない場合には,受水部が分離
されたコンパクトな除湿機としても機能する。一方,合
体された状態では,受水部が満水状態になったときに
は,満水検出手段により運転が停止され,運転中に受水
部が分離されたときには,分離検出手段により運転が停
止され,除湿水が不用意に溢れさせることが防止され
る。As described above, according to the present invention, the main body part and the water receiving part are configured to be separable and unitable, and the operation start is controlled to be possible in any of the separated and united states. Therefore, for example, when there is no problem even if dehumidified water in a bathroom or the like is discharged to the installation location, it also functions as a compact dehumidifier with a separate water receiving part. On the other hand, in the combined state, when the water receiving section is full, the operation is stopped by the full water detecting means, and when the water receiving section is separated during operation, the operation is stopped by the separation detecting means and the dehumidification is performed. Inadvertent overflow of water is prevented.
【図1】本発明の実施例除湿機の構成図。FIG. 1 is a configuration diagram of a dehumidifier according to an embodiment of the present invention.
【図2】実施例除湿機の運転制御系統を示すブロック
図。FIG. 2 is a block diagram showing an operation control system of the dehumidifier of the embodiment.
【図3】実施例除湿機の動作制御の手順を示すフローチ
ャート。FIG. 3 is a flowchart showing a procedure of operation control of the dehumidifier of the embodiment.
【図4】従来例除湿機の構成図。FIG. 4 is a configuration diagram of a conventional dehumidifier.
【図5】従来例除湿機の受水容器が満水状態のときの構
成図。FIG. 5 is a configuration diagram when the water receiving container of the conventional dehumidifier is full of water.
1…除湿機 2…本体部 3…受水部 12…フロート 15…満水検出手段 16…分離検出手段 17…運転制御手段 20…運転停止スイッチ 22…分離検出スイッチ 23…満水検出スイッチ 24…分離検出用磁石 25…フロートレバー 26…満水検出用磁石 1 ... Dehumidifier 2 ... Main body part 3 ... Water receiving part 12 ... Float 15 ... Full water detection means 16 ... Separation detection means 17 ... Operation control means 20 ... Operation stop switch 22 ... Separation detection switch 23 ... Full water detection switch 24 ... Separation detection Magnet 25 ... Float lever 26 ... Magnet for full water detection
Claims (1)
排出される除湿水を貯溜すると共に,前記本体部に対し
分離・合体可能の受水部と,該受水部に貯溜される除湿
水の満水を検出する満水検出手段と,前記受水部の本体
部からの分離を検出する分離検出手段と,前記本体部と
前記受水部とが合体状態での運転中に前記満水検出手段
が満水を検出したとき及び前記分離検出手段が受水部の
分離を検出したときに運転を停止させる運転停止手段と
を具備してなる除湿機において,前記満水検出手段と分
離検出手段とを別体に構成すると共に,分離あるいは合
体のいずれの停止状態からも運転開始を可能にする運転
制御手段を設けてなることを特徴とする除湿機。1. A main body portion having a dehumidifying device, a dehumidifying water discharged from the main body portion, and a water receiving portion which can be separated and combined with the main body portion and a water receiving portion which is stored in the water receiving portion. Full water detecting means for detecting full water of dehumidified water, separation detecting means for detecting separation of the water receiving portion from the main body portion, and the full water during operation in a state in which the main body portion and the water receiving portion are combined. A dehumidifier comprising: an operation stopping means for stopping the operation when the detecting means detects full water and the separation detecting means detects separation of the water receiving portion, wherein the full water detecting means and the separation detecting means are provided. The dehumidifier is characterized in that it is configured as a separate body, and is provided with operation control means that enables the operation to be started from any of the stopped states of separation and combination.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP3287747A JPH05126359A (en) | 1991-11-01 | 1991-11-01 | Dehumidifier |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP3287747A JPH05126359A (en) | 1991-11-01 | 1991-11-01 | Dehumidifier |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPH05126359A true JPH05126359A (en) | 1993-05-21 |
Family
ID=17721239
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP3287747A Pending JPH05126359A (en) | 1991-11-01 | 1991-11-01 | Dehumidifier |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH05126359A (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US7909922B2 (en) * | 2005-10-24 | 2011-03-22 | Lg Electronics Inc. | Dehumidifier |
-
1991
- 1991-11-01 JP JP3287747A patent/JPH05126359A/en active Pending
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US7909922B2 (en) * | 2005-10-24 | 2011-03-22 | Lg Electronics Inc. | Dehumidifier |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| JP2007232327A (en) | Air conditioner | |
| JP4563948B2 (en) | Air conditioner | |
| JPH0674485A (en) | Drain water processing structure of cold air dehumidifying machine | |
| JPH05126359A (en) | Dehumidifier | |
| JP4856015B2 (en) | Air conditioner | |
| JP2006043523A (en) | Electric dehumidifier | |
| JP2910893B2 (en) | Water conditioner for air conditioner | |
| JP2001050569A (en) | Dehumidifier | |
| JP2003042510A (en) | Dehumidifier | |
| JP2001311535A (en) | Air-conditioner | |
| JPH07233999A (en) | Controller for dehumidifier | |
| JPH11248193A (en) | Drain tank for air conditioner, and air conditioner equipped with this drain tank | |
| JPH0615237Y2 (en) | Dehumidifier | |
| CN114777223B (en) | Dehumidifier and control method thereof | |
| JPH08121807A (en) | Air conditioner | |
| JP2007237031A (en) | Air conditioner | |
| JPH09269140A (en) | Dehumidifier | |
| JPH08296870A (en) | Air conditioner | |
| JP3281631B2 (en) | Air conditioner | |
| KR20020074412A (en) | Air conditioner | |
| JPH04309730A (en) | Dehumidifier | |
| JP3074792B2 (en) | Operation control device for drain pump of air conditioner | |
| JPH0737064Y2 (en) | Drain water discharge device of air conditioner | |
| JPH1163586A (en) | Air-conditioner with humidifier | |
| JPH11108391A (en) | Switch operating structure for cold air dehumidifier |