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JP4924571B2 - Dishwasher - Google Patents
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JP4924571B2 - Dishwasher - Google Patents

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JP4924571B2
JP4924571B2 JP2008219177A JP2008219177A JP4924571B2 JP 4924571 B2 JP4924571 B2 JP 4924571B2 JP 2008219177 A JP2008219177 A JP 2008219177A JP 2008219177 A JP2008219177 A JP 2008219177A JP 4924571 B2 JP4924571 B2 JP 4924571B2
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damper
cleaning tank
outside air
air
cleaning
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JP2009090095A (en
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剛士 稲田
茂 岩永
啓治 石川
識義 的場
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Panasonic Corp
Panasonic Holdings Corp
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Panasonic Corp
Matsushita Electric Industrial Co Ltd
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Description

本発明は、キッチン等に設置され被洗浄物の収納及び自動洗浄、乾燥を行う食器洗い乾燥機に関するものである。   The present invention relates to a dishwasher which is installed in a kitchen or the like and performs storing, automatic cleaning, and drying of an object to be cleaned.

従来、この種の食器洗い乾燥機は、洗浄終了後に被洗浄物を乾燥させるため外気を洗浄槽内に送風して洗浄槽内の高温度で多湿な空気を排出する構成としている(例えば、特許文献1参照)。   Conventionally, this type of dishwasher has a configuration in which outside air is blown into a washing tub to dry the object to be washed after the washing is finished, and high temperature and humidity in the washing tub is discharged (for example, Patent Documents). 1).

は、特許文献1に記載された従来の食器洗い乾燥機を示すものである。図に示すように、被洗浄物を収納する洗浄槽1と、洗浄水を噴射する洗浄ノズル2と洗浄水を加圧する洗浄ポンプ3を有する洗浄手段4と、洗浄水を加熱する加熱手段5と、洗浄槽1に外気を送風する送風機6と、洗浄槽1内部の空気を排気する排気口7と、排気口7に設けた外気を混合させる排気補助手段8から構成されている。
特開2000−166847号公報
FIG. 7 shows a conventional dishwasher described in Patent Document 1. In FIG. As shown in FIG. 7 , a cleaning tank 1 for storing an object to be cleaned, a cleaning means 4 having a cleaning nozzle 2 for injecting cleaning water and a cleaning pump 3 for pressurizing the cleaning water, and a heating means 5 for heating the cleaning water. And a blower 6 that blows outside air into the cleaning tank 1, an exhaust port 7 that exhausts air inside the cleaning tank 1, and an exhaust assisting means 8 that mixes the outside air provided in the exhaust port 7.
JP 2000-166847 A

しかしながら、前記従来の構成では排気口に流入する高温高湿の主流が持つ流体力で新たな外気を副流として排気に混合させるもので、高温多湿の洗浄槽内排気の温度を低減できるものの排出される風の熱風感を回避できるまで十分冷却するには風量が足りないという課題を有していた。   However, in the above-mentioned conventional configuration, the fresh external air is mixed with the exhaust as a substream by the fluid force of the high-temperature and high-humidity mainstream that flows into the exhaust port, and the exhaust that can reduce the temperature of the high-temperature and high-humidity cleaning tank exhaust However, there was a problem that there was not enough air volume to cool down enough to avoid the hot air feeling.

本発明は、前記従来の課題を解決するもので、乾燥運転時において洗浄槽から流出する洗浄槽内排気に十分な量の外気を混合し、排気の温度低減と排気内水分量の削減を促進して排気の快適性を高めた食器洗い乾燥機を提供することを目的とする。   The present invention solves the above-described conventional problems, and mixes a sufficient amount of outside air into the exhaust in the cleaning tank that flows out of the cleaning tank during the drying operation, thereby promoting a reduction in exhaust temperature and a reduction in the amount of moisture in the exhaust. An object of the present invention is to provide a dishwasher with enhanced exhaust comfort.

前記従来の課題を解決するために、本発明の食器洗い乾燥機は、被洗浄物を収納する洗浄槽と、被洗浄物を洗う洗浄手段と、洗浄水を加熱する加熱手段と、前記洗浄槽内部の湿気を排出する排気口と、外気を送風する送風機と、前記排気口の上流側に配置した外気と洗浄槽内気とを混合する混合部と、外気を前記混合部に導入する外気通路と、前記洗浄槽を経て前記混合部に連通する洗浄槽内気通路と、外気と洗浄槽内気との混合割合を変化させる風量分配手段とを備え、前記風量分配手段は、風圧で開度が変化するダンパーを前記洗浄槽内気通路と前記外気通路に設け、前記ダンパーは前記洗浄槽内気通路に設けた洗浄槽ダンパーと前記外気通路に設けた外気ダンパーとが連結姿勢を変動可能とする姿勢設定手段を設けて連結され、前記洗浄槽ダンパーの開度が増大すると前記外気ダンパーの開度が低減するように構成するとともに、前記洗浄槽内気通路を閉止する方向への戻り力を作用させるように構成し、前記送風機からの風量を増加させるにともない、前記洗浄槽ダンパーの開度を増大させ、かつ前記外気ダンパーの開度を低減させることで、外気と洗浄槽内気との風量割合を変化させるようにしたものである。 In order to solve the above-described conventional problems, the dishwasher of the present invention includes a washing tank for storing an object to be cleaned, a cleaning means for cleaning the object to be cleaned, a heating means for heating cleaning water, and an inside of the cleaning tank. An exhaust port for discharging the moisture, an air blower for blowing the outside air, a mixing unit for mixing the outside air arranged on the upstream side of the exhaust port and the cleaning tank inside air, and an outside air passage for introducing the outside air into the mixing unit, A cleaning tank internal air passage communicating with the mixing section through the cleaning tank, and an air volume distribution means for changing a mixing ratio of the outside air and the cleaning tank internal air, and the air volume distribution means has an opening degree by wind pressure. varying damper provided in the outside air passage and the cleaning tank internal air passage, the damper, the cleaning tank and the cleaning tank damper provided in the internal air passage and the outside air damper provided in the outside air passage can vary the coupling position and It is connected to provide a posture setting means for the When the opening degree of the septic tank damper is increased, the opening degree of the outside air damper is reduced, and the return force in the direction of closing the cleaning tank internal air passage is applied. As the air volume is increased, the opening ratio of the washing tank damper is increased, and the opening degree of the outside air damper is decreased, thereby changing the air volume ratio between the outside air and the cleaning tank air. .

これによって、乾燥運転時は高温高湿の洗浄槽内の空気(洗浄槽内気)に対し充分量の外気を冷却用として混合部で混合がなされ、ダンパーの開度変化動作により送風量の変化とともに洗浄槽内気通路と外気通路への安定した風量分配が行われて、排気の冷却と水分削減による排気の熱風感の防止と乾燥性能の向上との両立と排気温度の安定性を向上できる。 As a result, during the drying operation, a sufficient amount of outside air is mixed in the mixing section for cooling the air in the high-temperature and high-humidity cleaning tank (cleaning tank air), and the change in the air flow rate due to the operation of changing the opening of the damper At the same time, stable air volume distribution to the inside and outside air passages of the washing tank is performed, and it is possible to improve the stability of the exhaust temperature and to prevent the hot air feeling of the exhaust by cooling the exhaust and reducing the moisture and improving the drying performance. .

本発明の食器洗い乾燥機は、乾燥運転時に排出される温湿度を低減した排気による熱風感の確実な防止と乾燥性能の向上の両立ができる。   The dishwasher / dryer of the present invention can achieve both the reliable prevention of hot air feeling and the improvement of drying performance due to exhaust with reduced temperature and humidity discharged during the drying operation.

第1の発明は、被洗浄物を収納する洗浄槽と、被洗浄物を洗う洗浄手段と、洗浄水を加熱する加熱手段と、前記洗浄槽内部の湿気を排出する排気口と、外気を送風する送風機と、前記排気口の上流側に配置した外気と洗浄槽内気とを混合する混合部と、外気を前記混合部に導入する外気通路と、前記洗浄槽を経て前記混合部に連通する洗浄槽内気通路と、外気と洗浄槽内気との混合割合を変化させる風量分配手段とを備え、前記風量分配手段は、風圧で開度が変化するダンパーを前記洗浄槽内気通路と前記外気通路に設け、前記ダンパーは、前記洗浄槽内気通路に設けた洗浄槽ダンパーと前記外気通路に設けた外気ダンパーとが連結姿勢を変動可能とする姿勢設定手段を設けて連結され、前記洗浄槽ダンパーの開度が増大すると前記外気ダンパーの開度が低減するように構成するとともに、前記洗浄槽内気通路を閉止する方向への戻り力を作用させるように構成し、前記送風機からの風量を増加させるにともない、前記洗浄槽ダンパーの開度を増大させ、かつ前記外気ダンパーの開度を低減させることで、外気と洗浄槽内気との風量割合を変化させるようにしたことにより、乾燥運転時は高温高湿の洗浄槽内の空気(洗浄槽内気)に対し充分量の外気を冷却用として混合部で混合がなされ、ダンパーの開度変化動作により送風量の変化とともに洗浄槽内気通路と外気通路への安定した風量分配が行われて、排気の冷却と水分削減による排気の熱風感の防止と乾燥性能の向上との両立と排気温度の安定性を向上できる。 According to a first aspect of the present invention, there is provided a cleaning tank for storing an object to be cleaned, a cleaning means for cleaning the object to be cleaned, a heating means for heating cleaning water, an exhaust port for discharging moisture inside the cleaning tank, and an outside air And a mixing section that mixes the outside air arranged in the upstream side of the exhaust port and the cleaning tank inside air, an outside air passage that introduces the outside air into the mixing section, and the cleaning section that communicates with the mixing section. a cleaning tank internal air passages, and a airflow distribution means for varying the mixing ratio of the outside air and the cleaning tank air, the air volume distribution means, the damper opening degree in wind pressure is changed to the cleaning tank internal air passage wherein only set to the outside air passage, the damper is connected to provide a posture setting means and the outside air damper provided in the outside air passage and the cleaning tank damper provided in the cleaning tank internal air passages to allow varying the coupling position, wherein When the opening of the cleaning tank damper increases, the outside air damper And the opening of the washing tank is configured to reduce the opening of the washing tank, and the return force in the direction to close the air passage of the washing tank is applied. As the air volume from the blower increases, the washing tank damper increases. By increasing the air flow rate and decreasing the air damper opening rate, the air volume ratio between the outside air and the washing tank inside air is changed . air mixed in the mixing section of outside air (cleaning tank vapor) to a sufficient amount for cooling is made, stable to washing tank inside air passage and the outside air passage with a change in air volume by opening change operation of the dampers Air volume distribution is performed, and it is possible to improve the stability of the exhaust temperature and to prevent the hot air feeling of the exhaust by cooling the exhaust and reducing the moisture and improving the drying performance.

また、送風量の変化とともに混合部での風量割合を大きく変化させることを可能とし、送風機の送風能力を増大することなく乾燥風量を増大せしめて乾燥性を向上でき、送風機の小型化、低消費電力化および低コスト化ができる。  In addition, it is possible to greatly change the air volume ratio in the mixing unit with the change in the air flow rate, increase the dry air flow rate without increasing the air blowing capacity of the air blower, and improve the drying performance. Electricity and cost can be reduced.

さらに、排気温度の制御幅を拡大でき、排気温度の低温度化を主体とした設定や、乾燥性を高めることを主体とした設定などを選択可能となり、使い勝手を良くして利便性を向上できる。  In addition, the control range of exhaust temperature can be expanded, and settings that mainly focus on lowering the exhaust temperature or settings that mainly improve dryness can be selected, improving convenience and improving convenience. .

の発明は、特に、第1の発明のダンパーは、送風停止時もしくは前記送風機からの風圧が所定値よりも低い場合に洗浄槽ダンパーと外気ダンパーが洗浄槽内気通路を閉止するように連結した連結姿勢としたことにより、機器が停止時において洗浄槽内部の湿気が送風路を伝って送風機側に逆流し漏出して機器の腐食発生を防いで、機器の信頼性を向上できる。 In the second invention, in particular, the damper of the first invention is configured so that the cleaning tank damper and the outside air damper close the cleaning tank internal air passage when the blowing is stopped or when the wind pressure from the blower is lower than a predetermined value. By adopting a connected posture, the humidity inside the cleaning tank flows back through the air passage to the blower side and leaks when the equipment is stopped, preventing corrosion of the equipment and improving the reliability of the equipment.

の発明は、特に、第1または第2の発明のダンパーは、重力により洗浄槽内気通路を閉止する方向への戻り力を作用させるように構成したことにより、構成の簡素化と低コスト化ができる。 A third invention is, in particular, the first or damper of the second aspect of the present invention, by constructing so as to exert a return force in the direction to close the cleaning tank internal air passage by gravity, and simplify construction Cost can be reduced.

の発明は、特に、第1または第2の発明のダンパーは、付勢体により洗浄槽内気通路を閉止する方向への戻り力を作用させるように構成したことにより、ダンパーの開度位置の確実な設定がなされて動作の信頼性を確保できる。 A fourth invention is, in particular, the first or damper of the second aspect of the present invention, by constructing so as to exert a return force in the direction to close the cleaning tank internal air passage by the biasing member, the opening degree of the damper The position is surely set and the reliability of the operation can be ensured.

以下、本発明の実施の形態について、図面を参照しながら説明する。なお、この実施の形態によって本発明が限定されるものではない。   Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

(実施の形態1)
図1は本発明の第1の実施の形態の食器洗い乾燥機の構成を示す断面図である。
(Embodiment 1)
FIG. 1 is a sectional view showing the structure of the dishwasher according to the first embodiment of the present invention.

図1において、食器などの被洗浄物を収納する洗浄槽1の下方には、洗浄水を被洗浄物
に噴出して循環させる洗浄ノズル2と洗浄水を加圧する洗浄ポンプ3を有する洗浄手段4と、洗浄水を加熱し昇温させる加熱手段5を配置している。また、洗浄槽1内の湿気を排出して洗浄槽1内を乾燥させるため外気を送風する送風機6、洗浄槽1内の湿気を排出する排気口7を乾燥手段9は有し、洗浄槽1にはその下方に外気を流入させる流入口10を設け、その上方には洗浄槽1内の空気(洗浄槽内気)を排出させる流出口11を設けている。
In FIG. 1, a cleaning means 4 having a cleaning nozzle 2 for jetting and circulating cleaning water to the object to be cleaned and a cleaning pump 3 for pressurizing the cleaning water below a cleaning tank 1 for storing the object to be cleaned such as tableware. And the heating means 5 which heats washing water and heats up is arrange | positioned. Further, the drying means 9 has a blower 6 for blowing outside air to discharge moisture in the cleaning tank 1 and drying the inside of the cleaning tank 1, and an exhaust port 7 for discharging moisture in the cleaning tank 1. Is provided with an inflow port 10 through which outside air flows in and an outflow port 11 through which air in the cleaning tank 1 (cleaning tank internal air) is discharged.

送風機6の下流側には風量を分配する風量分配手段12を接続し、この風量分配手段12の下流側には、外気を混合部13に導入する外気通路14と、洗浄槽1の流入口10、洗浄槽1、流出口11を経て混合部13に連通する洗浄槽内気通路15を配置している。また混合部13は、その出口側を排気口7に連通させ、混合部13の入口側を外気通路14および洗浄槽内気通路15である流出口11に連通させている。   An air volume distribution means 12 for distributing the air volume is connected to the downstream side of the blower 6, and an external air passage 14 for introducing outside air into the mixing unit 13 and an inlet 10 of the cleaning tank 1 are connected to the downstream side of the air volume distribution means 12. A cleaning tank internal air passage 15 communicating with the mixing unit 13 through the cleaning tank 1 and the outlet 11 is disposed. In addition, the mixing unit 13 communicates the outlet side with the exhaust port 7 and communicates the inlet side of the mixing unit 13 with the outflow port 11 which is the outside air passage 14 and the cleaning tank inside air passage 15.

このように風量分配手段12の上流側に送風機6を配置し、排気口7の上流側には外気と洗浄槽内気を混合する混合部13を配置している。   In this way, the blower 6 is arranged on the upstream side of the air volume distribution means 12, and the mixing unit 13 that mixes the outside air and the cleaning tank inside air is arranged on the upstream side of the exhaust port 7.

風量分配手段12は外気通路14と洗浄槽内気通路15への流動抵抗を変化させて風量を分配するもので、混合部13における外気と洗浄槽内気との混合時の流量割合を変化させる。   The air volume distribution means 12 distributes the air volume by changing the flow resistance to the outside air passage 14 and the cleaning tank inside air passage 15, and changes the flow rate ratio at the time of mixing the outside air and the cleaning tank inside air in the mixing section 13. .

制御手段16は乾燥手段9を制御するもので、送風機6の風量を制御する風量制御部17と、混合部13の下流側に設けた温度検知部18の検知温度を基に制御量を設定する温度制御部19を有している。   The control means 16 controls the drying means 9, and sets the control amount based on the air temperature control section 17 that controls the air volume of the blower 6 and the temperature detected by the temperature detection section 18 provided on the downstream side of the mixing section 13. A temperature control unit 19 is provided.

また、風量分配手段12は送風機6の風量を外気通路14と洗浄槽内気通路15へ分配するために、図2に示すように、送風機6の運転により発生する風圧で開度が変化するダンパー20を外気通路14と洗浄槽内気通路15に臨ませて設けたもので、洗浄槽内気通路15側に設けた洗浄槽ダンパー20aと外気通路14側に設けた外気ダンパー20bを互いに連結して連結体20cとして一体化している。   Further, the air volume distribution means 12 distributes the air volume of the blower 6 to the outside air passage 14 and the cleaning tank internal air passage 15, as shown in FIG. 2, a damper whose opening degree changes with the wind pressure generated by the operation of the blower 6. 20 is provided so as to face the outside air passage 14 and the washing tank inside air passage 15, and the washing tank damper 20a provided on the washing tank inside air passage 15 side and the outside air damper 20b provided on the outside air passage 14 side are connected to each other. Are integrated as a connector 20c.

ダンパー20は、洗浄槽ダンパー20aの開度が増大すると外気ダンパー20bの開度が低減するように連結した連結姿勢とし、この一体化させたダンパー20の洗浄槽ダンパー20aには重り20dを付加し、支持軸21で回動自在にすることにより、ダンパー20は送風機6の風圧が所定値より低い場合あるいは送風機6の運転停止時は、図2のように重力の作用で洗浄槽内気通路15側をほぼ閉止あるいは閉塞するとともに、外気通路14側を全開状態としている。   The damper 20 is connected so that the opening degree of the outside air damper 20b decreases as the opening degree of the cleaning tank damper 20a increases, and a weight 20d is added to the washing tank damper 20a of the integrated damper 20. By making the support shaft 21 pivotable, the damper 20 has an air passage 15 in the washing tank by the action of gravity as shown in FIG. 2 when the wind pressure of the blower 6 is lower than a predetermined value or when the blower 6 is stopped. The side is substantially closed or closed, and the outside air passage 14 side is fully opened.

また、洗浄槽1は、洗浄水を供給する給水弁22を備えた給水管23と、洗浄水を排水する排水弁24を備えた排水管25が接続されるとともに、筐体26から引き出すことができるスライド体27に収納されている。このスライド体27には外部と連通する通気口28を設けている。   The cleaning tank 1 is connected to a water supply pipe 23 having a water supply valve 22 for supplying cleaning water and a drain pipe 25 having a drain valve 24 for draining the cleaning water, and can be pulled out from the housing 26. It is stored in a slide body 27 that can be used. The slide body 27 is provided with a vent 28 communicating with the outside.

以上のように構成された食器洗い乾燥機について、以下その動作、作用を説明する。   About the dishwasher comprised as mentioned above, the operation | movement and an effect | action are demonstrated below.

まず、筐体26からスライド体27を引き出して被洗浄物である食器を洗浄槽1内に収納し、スライド体27を元に戻して洗浄を開始する。洗浄運転開始とともに給水弁22を開成して給水管23から洗浄槽1に給水し、所定量の給水が行われると給水弁22を閉成して給水停止し、加熱手段5および洗浄手段4である洗浄ポンプ3の運転により洗浄ノズル2から温水を噴出させて被洗浄物である食器に噴きつけ循環させる。洗浄水が噴出する反力で洗浄ノズル2部が回転することで被洗浄物に洗浄水を行き渡らせ、洗浄性を高めて
いる。ここでは加熱手段5を運転して温水で洗浄する場合を示したが、被洗浄物の汚れが弱い場合は加熱手段5を運転させずに給水温度で洗浄すれば良く、また被洗浄物の汚れが強い場合は洗剤を入れて洗浄する。洗浄運転が終了すると排水弁24を開成して洗浄水を排水管25から筐体26の外部に排水し、排水し終わると排水弁24を閉成する。
First, the slide body 27 is pulled out from the housing 26 to store the tableware, which is the object to be cleaned, in the cleaning tank 1, and the slide body 27 is returned to its original state to start cleaning. When the cleaning operation is started, the water supply valve 22 is opened and water is supplied from the water supply pipe 23 to the cleaning tank 1. When a predetermined amount of water is supplied, the water supply valve 22 is closed and the water supply is stopped. When a certain cleaning pump 3 is operated, hot water is ejected from the cleaning nozzle 2 and sprayed on the tableware that is the object to be cleaned. The cleaning nozzle 2 is rotated by the reaction force of the cleaning water jetting, so that the cleaning water is spread over the object to be cleaned, thereby improving the cleaning performance. Here, the case where the heating means 5 is operated and washed with warm water is shown. However, if the object to be cleaned is weakly soiled, the heating means 5 may be operated without operating the water supply temperature, and the object to be cleaned may be contaminated. If it is strong, wash with detergent. When the cleaning operation is completed, the drain valve 24 is opened, and the cleaning water is drained from the drain pipe 25 to the outside of the housing 26. When draining is completed, the drain valve 24 is closed.

次に行うすすぎ運転では洗剤を投入せずに、洗浄運転と同様に給水し、加熱手段5および洗浄ポンプ3の運転により洗浄ノズル2から温水を噴出させて被洗浄物である食器に噴きつけ循環させる。このすすぎ運転の後に行う被洗浄物を乾かす乾燥運転のため、すすぎ運転では被洗浄物を暖めておくのが好ましく、70℃〜80℃程度の高温水ですすぎ運転を実施すれば除菌処理ができる。すすぎ運転終了後は洗浄運転終了時と同様に洗浄槽1内のすすぎ水を排水する。   In the next rinsing operation, water is supplied in the same manner as in the cleaning operation without adding detergent, and hot water is ejected from the cleaning nozzle 2 by the operation of the heating means 5 and the cleaning pump 3 and sprayed on the tableware to be cleaned. Let Since the object to be cleaned is dried after the rinsing operation, it is preferable to warm the object to be cleaned in the rinsing operation. If the rinsing operation is performed with high-temperature water of about 70 ° C. to 80 ° C., the sterilization treatment can be performed. it can. After the rinsing operation is completed, the rinsing water in the cleaning tank 1 is drained in the same manner as at the end of the cleaning operation.

次に行う乾燥運転では、すすぎ運転により高温高湿になっている洗浄槽1内の空気を排出して被洗浄物を乾かすため、送風機6を運転するとともに風量分配手段12で外気通路14と洗浄槽内気通路15に分流させ、外気を混合部13および洗浄槽1に送る。特に、高温水ですすぎ運転を行った場合は排気口7から洗浄槽1内の高温高湿の空気を直接排出しないように、乾燥運転開始時には風量制御部17により送風機6の送風量を少なくして低い風圧を風量分配手段12に加えて外気通路14側を主体に通風し、外気と洗浄槽内気との風量割合(外気風量:洗浄槽内気風量)を1:0程度までに近づけて送風機6の送風を冷却主体にし、高温のすすぎ運転中に昇温した排気経路を冷却して排気口7から熱風が出ないようにする。   In the next drying operation, the blower 6 is operated and the outside air passage 14 is cleaned by the air volume distribution means 12 in order to discharge the air in the cleaning tank 1 that has become hot and humid by the rinsing operation and dry the object to be cleaned. The air is diverted to the tank internal air passage 15 and the outside air is sent to the mixing unit 13 and the cleaning tank 1. In particular, when the rinsing operation is performed with high-temperature water, the air volume control unit 17 reduces the air volume of the blower 6 so that the high-temperature and high-humidity air in the cleaning tank 1 is not directly discharged from the exhaust port 7 at the start of the drying operation. The low air pressure is applied to the air volume distribution means 12 and the outside air passage 14 side is mainly ventilated so that the air volume ratio between the outside air and the cleaning tank air (outside air volume: cleaning tank air volume) is brought close to about 1: 0. The ventilation of the blower 6 is mainly used for cooling, and the exhaust path heated during the high-temperature rinsing operation is cooled so that hot air is not emitted from the exhaust port 7.

次に、送風機6の送風量を少し増加させて風量分配手段12のダンパー20に付加する風圧を高め、図3に示すように洗浄槽ダンパー20aを僅かに開成させ、洗浄槽内気通路15側には少しの風(図3の黒矢印で示す)と外気通路14側に大部分の風(図3の白抜き矢印で示す)に分配して流動させ、混合部13では洗浄槽内気通路15側に入った風により洗浄槽1から押し出された高温高湿の風に対して大量の外気通路14側に入った風を混合して冷却し、排気口7から低温度化した風を排出させる。   Next, the amount of air blown from the blower 6 is slightly increased to increase the wind pressure applied to the damper 20 of the air volume distribution means 12, and the cleaning tank damper 20a is slightly opened as shown in FIG. 3 is distributed to flow a little wind (indicated by a black arrow in FIG. 3) and most of the wind (indicated by a white arrow in FIG. 3) on the outside air passage 14 side, and the mixing section 13 has an air passage in the cleaning tank. The high-temperature, high-humidity wind pushed out from the washing tank 1 by the wind entering the 15 side is mixed and cooled with a large amount of wind entering the outside air passage 14 side, and the low-temperature wind is discharged from the exhaust port 7. Let

乾燥運転の進行に伴って、洗浄槽1内への外気の流入により洗浄槽内気の湿度が低下し、洗浄槽内気のエンタルピが下がるため排気口7から流出する排気の温度を所定値以下に冷却するに要する外気風量は少なくて済むようになる。従って、乾燥状態の進行に伴い混合部13への外気風量は少なくすることができ、その分を洗浄槽内気通路15側に振向けて洗浄槽1内への風量を増加させることで被洗浄物の乾燥性能を高めることができる。そこで、送風機6の運転に伴い洗浄槽内気通路15側に入った風により洗浄槽1内の湿度あるいは温度の低下とともに送風機6の送風量をさらに増加させ、洗浄槽ダンパー20aの開度を大きくし、洗浄槽ダンパー20aと連結して一体化した外気ダンパー20bにより外気通路14側の開度を小さくすることで、外気と洗浄槽内気との風量割合を変化させ、洗浄槽内気通路15側への風量割合を増加させて乾燥促進がなされる。   As the drying operation proceeds, the humidity of the cleaning tank air decreases due to the inflow of outside air into the cleaning tank 1, and the enthalpy of the cleaning tank air decreases, so the temperature of the exhaust gas flowing out from the exhaust port 7 is below a predetermined value. The amount of outside air required for cooling can be reduced. Accordingly, the amount of the outside air flow to the mixing unit 13 can be reduced as the drying state progresses, and the amount of the air flowing into the washing tank 1 is increased by diverting the amount to the washing tank air passage 15 side. The drying performance of an object can be improved. Therefore, the air entering the cleaning tank internal air passage 15 with the operation of the blower 6 further increases the amount of air blown from the blower 6 as the humidity or temperature in the cleaning tank 1 decreases, thereby increasing the opening of the cleaning tank damper 20a. Then, by reducing the opening degree on the outside air passage 14 side by the outside air damper 20b connected and integrated with the washing tank damper 20a, the air volume ratio between the outside air and the washing tank inside air is changed, and the washing tank inside air passage 15 is changed. Drying is promoted by increasing the air volume ratio to the side.

このため、混合部13での洗浄槽内気への外気混合および風量分配変化による冷却促進で排気温度の熱風感の確実な防止と、洗浄槽内空気の冷却時に発生する結露により洗浄槽内気中にあった水分の削減による設置した室内などの空間の湿度アップを少なくして快適性を向上でき、さらに風量分配を可変とすることで高温排気の防止と乾燥性能の確保の両立ができる。   For this reason, the mixing unit 13 mixes the outside air into the cleaning tank inside air and promotes cooling by changing the air volume distribution, thereby reliably preventing the hot air feeling of the exhaust temperature and the condensation generated during the cooling of the cleaning tank air. It is possible to improve the comfort by reducing the humidity increase in the installed room and the like by reducing the moisture in the interior, and by making the air volume distribution variable, it is possible to both prevent high-temperature exhaust and ensure the drying performance.

また、ダンパー20は、洗浄槽ダンパー20aの開度が増大すると外気ダンパー20bの開度が低減するように連結した連結姿勢としているので、送風機6の送風量の変化とともに混合部13での風量割合を大きく変化させることでき、送風機6の送風能力を増大することなく小さな能力の送風機6で乾燥風量を増大せしめて乾燥性を向上でき、送風機
の小型化、低消費電力化および低コスト化ができる。
Moreover, since the damper 20 is connected so that the opening degree of the outside air damper 20b is reduced when the opening degree of the cleaning tank damper 20a is increased, the air volume ratio in the mixing unit 13 is changed along with the change in the air volume of the blower 6. it is possible to greatly change, and made to increase the amount of drying air in the blower 6 of the small capacity without increasing the blowing capacity of the blower 6 can be improved drying properties, miniaturization of the blower, power consumption and cost reduction it can.

また、ダンパー20は、送風機6の送風停止時に重力により初期位置に復帰するようにしたことにより、構成の簡素化と低コスト化ができる。   Further, the damper 20 is returned to the initial position by gravity when the blower 6 stops blowing, so that the configuration can be simplified and the cost can be reduced.

さらに、バネなどの付勢体(図示せず)によりダンパー20に戻り力を加えて、送風機6の送風停止時に付勢体(図示せず)により初期位置に復帰する構成とすることにより、風圧と戻り力とのバランスを明確に設定でき、ダンパー20の開度位置の確実な設定がなされて動作の信頼性を確保でき、風量分配手段12の設置姿勢の自由度を高くできる。   Further, by applying a return force to the damper 20 by an urging body (not shown) such as a spring and returning to the initial position by the urging body (not shown) when the blower 6 stops blowing, And the return force can be clearly set, the opening position of the damper 20 can be set reliably, the reliability of the operation can be ensured, and the degree of freedom of the installation posture of the air volume distribution means 12 can be increased.

ここまでは、乾燥運転時に加熱手段5を運転せずにすすぎ運転時の被洗浄物が持つ余熱を利用して乾燥させる場合を説明したが、乾燥運転時に加熱手段5を運転することで、洗浄槽1内に流入口10から流入した外気を加熱昇温させることにより乾燥を促進できるのは言うまでも無く、加熱手段5近傍の風速を高く保つほど加熱手段5の出力を大きくして乾燥性能を高めることが可能となる。 Up to this point, the case where drying is performed by using the residual heat of the object to be cleaned during the rinsing operation without operating the heating unit 5 during the drying operation has been described. However, the cleaning is performed by operating the heating unit 5 during the drying operation. It goes without saying that drying can be promoted by heating and raising the temperature of the outside air flowing into the tank 1 from the inlet 10, and as the wind speed near the heating means 5 is kept high, the output of the heating means 5 is increased and the drying performance is increased. that Do not it possible to increase the.

ここまでに示した洗浄槽ダンパー20aと外気ダンパー20bの受圧部29の受圧面積をほぼ同じとした場合では、外気通路14側と洗浄槽内気通路15側はどちらも断面積の大きな通風路の設定が可能となり、通風路での流動抵抗を低減して送風機の小型化ができる。   In the case where the pressure receiving areas of the pressure receiving portions 29 of the washing tank damper 20a and the outside air damper 20b shown so far are substantially the same, the outside air passage 14 side and the washing tank inside air passage 15 side are both ventilation passages having a large cross-sectional area. Setting is possible, and the flow resistance in the ventilation path can be reduced to reduce the size of the blower.

また、洗浄槽ダンパー20aの受圧面積を外気ダンパー20bの受圧面積より大きくすることで、ダンパー20を開閉するために加わる洗浄槽ダンパー20aと外気ダンパー20bとの力の差を明確にして、洗浄槽ダンパー20aの受圧方向にダンパー20を動作させることができ、低い風圧でも洗浄槽ダンパー20aの確実な開度設定ができ、送風機6の負荷を低減して送風機6の小型化ができる。   Further, by making the pressure receiving area of the washing tank damper 20a larger than the pressure receiving area of the outside air damper 20b, the difference between the forces of the washing tank damper 20a and the outside air damper 20b applied to open and close the damper 20 is clarified, and the washing tank The damper 20 can be operated in the pressure receiving direction of the damper 20a, and the opening degree of the washing tank damper 20a can be reliably set even at a low wind pressure, and the load on the blower 6 can be reduced and the blower 6 can be downsized.

なお、洗浄槽ダンパー20aと外気ダンパー20bを個々に作製して連結仕上げしても良いし、樹脂などで最初から一体で成形しても良いのは言うまでもない。   Needless to say, the cleaning tank damper 20a and the outside air damper 20b may be individually produced and connected to each other, or may be integrally formed from the beginning with a resin or the like.

また、洗浄槽ダンパー20aと外気ダンパー20bは同一の支持軸21を共用する場合を示したが、洗浄槽ダンパー20aと外気ダンパー20bのそれぞれに個別の支持軸(図示せず)を設け、洗浄槽ダンパー20aと外気ダンパー20bを連結する連結部(図示せず)を設けて一体化しても良いのは言うまでもない。   Moreover, although the case where the washing tank damper 20a and the outside air damper 20b share the same support shaft 21 is shown, the washing tank damper 20a and the outside air damper 20b are provided with individual support shafts (not shown), respectively, and the washing tank It goes without saying that a connecting portion (not shown) for connecting the damper 20a and the outside air damper 20b may be provided and integrated.

さらに、乾燥運転時の送風機6の風量制御は制御温度検知部18の検知温度によらずに、乾燥運転経過時間により送風機6の風量を変化させることで風量分配は可能であり、温度検知部18を省いて低コスト化できるのは言うまでもない。   Further, the air volume control of the blower 6 during the drying operation can be performed by changing the air volume of the blower 6 depending on the elapsed time of the drying operation, regardless of the temperature detected by the control temperature detector 18, and the temperature detector 18. Needless to say, the cost can be reduced by omitting.

以上のように、本実施の形態においては、風量分配手段は、風圧で開度が変化するダンパーを洗浄槽内気通路と前記外気通路に設け、ダンパーは、洗浄槽内気通路に設けた洗浄槽ダンパーと外気通路に設けた外気ダンパーとが連結姿勢を変動可能とする姿勢設定手段を設けて連結され、洗浄槽ダンパーの開度が増大すると外気ダンパーの開度が低減するように構成するとともに、洗浄槽内気通路を閉止する方向への戻り力を作用させるように構成し、送風機からの風量を増加させるにともない、洗浄槽ダンパーの開度を増大させ、かつ外気ダンパーの開度を低減させることで、外気と洗浄槽内気との風量割合を変化させるようにしたことにより、乾燥運転時は高温高湿の洗浄槽内の空気(洗浄槽内気)に対し充分量の外気を冷却用として混合部で混合がなされ、ダンパーの開度変化動作により送風量の変化とともに洗浄槽内気通路と外気通路への安定した風量分配が行われて、排気の冷却と水分削減による排気の熱風感の防止と乾燥性能の向上との両立と排気温度の安定性を向
上できる。
As described above, in the present embodiment, the air volume distribution means is provided with a damper whose opening degree is changed by the wind pressure in the cleaning tank inside air passage and the outside air passage, and the damper is provided in the cleaning tank inside air passage. The tank damper and the outside air damper provided in the outside air passage are connected by providing an attitude setting means for changing the connecting attitude, and the opening degree of the outside air damper is reduced when the opening degree of the washing tank damper is increased. It is configured to apply a return force in the direction of closing the cleaning tank internal air passage. As the air flow from the blower increases, the opening of the cleaning tank damper increases and the opening of the outside air damper decreases. By changing the air volume ratio between the outside air and the inside of the washing tank, a sufficient amount of outside air is cooled with respect to the air in the high-temperature and high-humidity washing tank (inside the washing tank) during the drying operation. As mixed In mixing is performed, is performed stable air volume distribution to the washing tank inside air passage and the outside air passage with a change in air volume by opening change operation of dampers, prevent hot air feeling of exhaust gas by cooling and moisture reduction of the exhaust And improvement of drying performance and stability of exhaust temperature can be improved.

た、送風量の変化とともに混合部での風量割合を大きく変化させることを可能とし、送風機の送風能力を増大することなく乾燥風量を増大せしめて乾燥性を向上でき、送風機の小型化、低消費電力化および低コスト化ができる。 Also, it possible to greatly change the air volume ratio in the mixing portion with changes in feed flow rate, and made to increase the amount of drying air without increasing the blowing capacity of the blower can be improved drying properties, miniaturization of the blower, low Power consumption and cost can be reduced.

さらに、排気温度の制御幅を拡大でき、排気温度の低温度化を主体とした設定や、乾燥性を高めることを主体とした設定などを選択可能となり、使い勝手を良くして利便性を向上できる。In addition, the control range of exhaust temperature can be expanded, and settings that mainly focus on lowering the exhaust temperature or settings that mainly improve dryness can be selected, improving convenience and improving convenience. .

また、本実施の形態のダンパーは、送風停止時もしくは前記送風機からの風圧が所定値よりも低い場合に洗浄槽ダンパーと外気ダンパーが洗浄槽内気通路を閉止するように連結した連結姿勢としたことにより、機器が停止時において洗浄槽内部の湿気が送風路を伝って送風機側に逆流し漏出して機器の腐食発生を防いで、機器の信頼性を向上できる。 In addition, the damper of the present embodiment has a connecting posture in which the cleaning tank damper and the outside air damper are connected so as to close the cleaning tank internal air passage when the blowing is stopped or when the wind pressure from the blower is lower than a predetermined value . As a result, when the equipment is stopped, moisture inside the cleaning tank flows back to the blower side through the air passage and leaks to prevent corrosion of the equipment, thereby improving the reliability of the equipment.

また、本実施の形態のダンパーは、重力により洗浄槽内気通路を閉止する方向への戻り力を作用させるように構成したことにより、構成の簡素化と低コスト化ができる。 Further, the damper of this embodiment, by constructing so as to exert a return force in the direction to close the cleaning tank internal air passage by gravity, it is simplified and the cost of the construction.

また、本実施の形態のダンパーは、付勢体により洗浄槽内気通路を閉止する方向への戻り力を作用させるように構成したことにより、ダンパーの開度位置の確実な設定がなされて動作の信頼性を確保できる。 Further, the damper of this embodiment, by constructing so as to exert a return force in the direction to close the cleaning tank internal air passage by the biasing member, operates reliably set is made of the opening position of the damper Can be ensured.

(実施の形態2)
は本発明の第2の実施の形態のダンパーの構成図である。
(Embodiment 2)
FIG. 4 is a configuration diagram of the damper according to the second embodiment of the present invention.

において、図1〜図の実施の形態と同一部材、同一機能は同一符号を付し詳細な説明は省略し、異なるところを中心に説明する。 4 , the same members and functions as those of the embodiment of FIGS. 1 to 3 are denoted by the same reference numerals, detailed description thereof is omitted, and different points will be mainly described.

ダンパー20は、洗浄槽ダンパー20aと外気ダンパー20bの連結姿勢を変動可能とする姿勢設定手段32を設けたもので、洗浄槽ダンパー20aと外気ダンパー20bの連結角度αを変化させて互いの相対位置を変動することができるようにしている。   The damper 20 is provided with posture setting means 32 that can change the connecting posture of the cleaning tank damper 20a and the outside air damper 20b, and the relative position of the damper 20 by changing the connecting angle α between the cleaning tank damper 20a and the outside air damper 20b. To be able to fluctuate.

姿勢設定手段32は、洗浄槽1の温度に応じて連結姿勢を変化させるため温度に応じて形状を変化させる形状記憶体33を利用するもので、ダンパー20の支持軸21を熱伝導性に優れた銅やステンレスなどの材料として洗浄槽1を形成する壁面(図示せず)に取り付け、支持軸21の円筒面を洗浄槽の温度を伝える伝熱部34とし、一端を洗浄槽ダンパー20aに接続し他端を外気ダンパー20bに接続した形状記憶体33の中間部分を伝熱部34の周りに伝熱関係として配置している。   The posture setting means 32 uses a shape memory 33 that changes the shape according to the temperature in order to change the connection posture according to the temperature of the cleaning tank 1, and the support shaft 21 of the damper 20 has excellent thermal conductivity. It is attached to a wall surface (not shown) forming the cleaning tank 1 as a material such as copper or stainless steel, the cylindrical surface of the support shaft 21 is used as a heat transfer section 34 for transmitting the temperature of the cleaning tank, and one end is connected to the cleaning tank damper 20a. The intermediate portion of the shape memory 33 having the other end connected to the outside air damper 20b is disposed around the heat transfer section 34 in a heat transfer relationship.

ここでは、洗浄槽ダンパー20aと外気ダンパー20bは支持軸21を介して蝶番のように連結し、姿勢設定手段32としての形状記憶体33で連結角度を決めて相対位置を確定している。   Here, the cleaning tank damper 20a and the outside air damper 20b are connected like a hinge via the support shaft 21, and the connection angle is determined by the shape memory 33 as the posture setting means 32 to determine the relative position.

また、形状記憶体33と洗浄槽ダンパー20aおよび外気ダンパー20bとの接続は接着、溶着、係合あるいはカシメなど種々の方法が可能である。   The shape memory 33 can be connected to the cleaning tank damper 20a and the outside air damper 20b by various methods such as adhesion, welding, engagement or caulking.

次に、このように構成した風量分配手段12のダンパー20の動作、作用を図で説明する。 Next, to illustrate the operation of the damper 20 of thus constituted airflow distribution means 12, the effect in FIG.

乾燥運転では洗浄槽1内の高温高湿の空気を排気口7から排出しないように、乾燥運転
開始時は送風機6の送風量を少なくして低い風圧を風量分配手段12に加え、外気通路14側を主体に通風することで外気と洗浄槽内気との風量割合(外気風量:洗浄槽内気風量)を外気側が多くなるようにする。この時、すすぎ時の温度が高く設定する(例えば80℃)ほど洗浄槽1内は高温高湿になっているので、乾燥運転開始時は外気の風量割合をより多くする必要があり、逆にすすぎ時の温度を低下させた(例えば60℃)場合では乾燥運転開始時は外気の風量割合を低減させることで洗浄槽1への乾燥風量を増加させて乾燥性を高めることで送風機6の風量を有効活用できる。
In order to prevent the high temperature and high humidity air in the washing tank 1 from being discharged from the exhaust port 7 in the drying operation, at the start of the drying operation, the air volume of the blower 6 is reduced and a low wind pressure is applied to the air volume distribution means 12 to thereby add the outside air passage 14. The air volume ratio between the outside air and the cleaning tank air (outside air volume: the amount of cleaning tank air) is increased on the outside air side. At this time, as the temperature at the time of rinsing is set higher (for example, 80 ° C.), the cleaning tank 1 becomes hot and humid. Therefore, it is necessary to increase the air volume ratio of the outside air at the start of the drying operation. When the temperature at the time of rinsing is reduced (for example, 60 ° C.), at the start of the drying operation, the air volume of the blower 6 is increased by reducing the air volume ratio of the outside air to increase the drying air volume to the cleaning tank 1 and thereby increasing the drying property. Can be used effectively.

そのため、ダンパー20の支持軸21を介して洗浄槽1の温度を形状記憶体33に伝えて、洗浄槽ダンパー20aと外気ダンパー20bの連結角度αを変化させて対応する。   Therefore, the temperature of the cleaning tank 1 is transmitted to the shape memory 33 via the support shaft 21 of the damper 20, and the connection angle α between the cleaning tank damper 20a and the outside air damper 20b is changed.

即ち、洗浄槽1の温度が高い場合は連結角度αを小さくすることで外気ダンパー20bによる外気通路14側の開成角度θを大きくし、外気通路14側に流れる風量割合を多くする。また、洗浄槽1の温度が低い場合は連結角度αを大きくすることで外気ダンパー20bによる外気通路14側の開成角度θを小さくし、外気通路14側に流れる風量割合を少なくする。   That is, when the temperature of the cleaning tank 1 is high, the opening angle θ on the side of the outside air passage 14 by the outside air damper 20b is increased by reducing the connection angle α, and the amount of air flowing to the side of the outside air passage 14 is increased. Further, when the temperature of the cleaning tank 1 is low, the opening angle θ on the side of the outside air passage 14 by the outside air damper 20b is reduced by increasing the connection angle α, and the amount of air flowing to the side of the outside air passage 14 is reduced.

では、送風機6の風圧により洗浄槽ダンパー20aが若干開成した状態であり、洗浄槽ダンパー20aの開度が同じでも洗浄槽1の温度が高い場合は連結角度αが小さいので外気ダンパー20bの開成角度θは大きくして排気温度の低減作用を高め、洗浄槽1の温度が低下すると連結角度αが大きくなって外気ダンパー20bの開成角度θを小さくすることで排気温度の低減作用を緩めて洗浄槽内気通路15側への風量割合を増やして乾燥性を高めることで、排気温度の温度低減の制御幅の拡大している。 In FIG. 5 , the cleaning tank damper 20 a is slightly opened by the wind pressure of the blower 6. Even when the opening degree of the cleaning tank damper 20 a is the same, the connection angle α is small when the temperature of the cleaning tank 1 is high, so the outside air damper 20 b The opening angle θ is increased to increase the exhaust temperature reducing action, and when the temperature of the cleaning tank 1 is lowered, the connection angle α is increased and the opening angle θ of the outside air damper 20b is reduced to relax the exhaust temperature reducing action. By increasing the air volume ratio to the cleaning tank internal air passage 15 side and improving the drying property, the control range of the temperature reduction of the exhaust temperature is expanded.

また、ダンパー20の連結角度αの変動は乾燥運転開始時の初期状態の設定だけでなく、乾燥運転の進行に伴う洗浄槽1の温度低下にも対応して変動させて排気口7から熱風が出ないようにして可能な限り洗浄槽内気通路15側に風量を分配して乾燥性を高める運転を実施がなされることで、排気温度の制御幅拡大と乾燥性向上を両立している。   Further, the fluctuation of the coupling angle α of the damper 20 is changed not only in the initial state at the start of the drying operation but also in response to the temperature drop of the cleaning tank 1 as the drying operation proceeds, so that hot air is blown from the exhaust port 7. By performing an operation to distribute the air volume to the cleaning tank internal air passage 15 side as much as possible and to improve the drying property as much as possible, both the expansion of the exhaust temperature control range and the improvement of the drying property are achieved.

このように、ダンパー20は、洗浄槽ダンパー20aと外気ダンパー20bの連結体20cの連結姿勢を変動可能とする姿勢設定手段32を設けているので、洗浄槽1の温度が高い場合から低い場合に対応して低温化できるので、排気温度の制御幅を拡大でき、排気温度の低温度化を主体とした設定や乾燥性を高めることを主体とした設定などを選択可能となり、使い勝手を良くして利便性を向上できる。   Thus, since the damper 20 is provided with the attitude setting means 32 that can change the coupling attitude of the coupling body 20c of the cleaning tank damper 20a and the outside air damper 20b, the temperature of the cleaning tank 1 is high to low. Since the temperature can be lowered correspondingly, the control range of the exhaust temperature can be expanded, and it is possible to select a setting mainly for lowering the exhaust temperature or a setting mainly for improving the drying property. Convenience can be improved.

また、姿勢設定手段32は、洗浄槽1の温度に応じて連結姿勢を変化させているので、洗浄槽1内の温度によって風量分配割合を設定することにより排気温度を確実に低減でき、排気の低温度化を推進できる。   Further, since the posture setting means 32 changes the connection posture in accordance with the temperature of the cleaning tank 1, the exhaust gas temperature can be reliably reduced by setting the air volume distribution ratio according to the temperature in the cleaning tank 1. Low temperature can be promoted.

また、姿勢設定手段32は、温度に応じて形状を変化させる形状記憶体33で形成することにより、構成の簡素化と低コスト化ができる。   Further, the posture setting means 32 can be simplified in structure and cost reduced by being formed by the shape memory 33 that changes its shape according to the temperature.

さらに、姿勢設定手段32は、ダンパー20の支持軸21に設けた洗浄槽1の温度を伝える伝熱部34と洗浄槽ダンパー20aおよび外気ダンパー20bに接続した形状記憶体33を伝熱関係に配置しているので、形状記憶体33によりダンパー20の姿勢を洗浄槽1の温度に応じて確実に設定されて、排気温度を低減させる動作の信頼性を向上できる。   Further, the posture setting means 32 arranges a heat transfer section 34 for transmitting the temperature of the cleaning tank 1 provided on the support shaft 21 of the damper 20 and a shape memory 33 connected to the cleaning tank damper 20a and the outside air damper 20b in a heat transfer relationship. Therefore, the posture of the damper 20 is reliably set according to the temperature of the cleaning tank 1 by the shape memory 33, and the reliability of the operation for reducing the exhaust temperature can be improved.

なお、ここではダンパー20の連結角度αを姿勢設定手段32として形状記憶体33で変化させる場合を示したが、形状記憶体33を使わずに洗浄槽ダンパー20aと外気ダンパー20bを支持軸21に圧入気味に取り付けて手動で連結角度αを動かして設定するよ
うにすることも可能であり、ラチェット状の多段ステップ(図示せず)を介して洗浄槽ダンパー20aと外気ダンパー20bを組付けて連結角度αを手動設定することも可能である。また、洗浄槽ダンパー20aと外気ダンパー20bとの連結角度αを動かすモータなどのアクチュエータ(図示せず)を設け、洗浄槽1の温度に応じて連結角度αを制御できるのは言うまでもない。
Although the case where the connection angle α of the damper 20 is changed by the shape memory 33 as the posture setting means 32 is shown here, the cleaning tank damper 20a and the outside air damper 20b are used as the support shaft 21 without using the shape memory 33. It is also possible to set it by manually moving the coupling angle α by attaching it to the press fit, and connecting the washing tank damper 20a and the outside air damper 20b through a ratchet-shaped multi-step (not shown). It is also possible to manually set the angle α. Needless to say, an actuator (not shown) such as a motor for moving the connection angle α between the cleaning tank damper 20a and the outside air damper 20b is provided, and the connection angle α can be controlled according to the temperature of the cleaning tank 1.

また、図のように送風機6から風を上方に向かう流れとし、外気通路14と洗浄槽内気通路15をほぼ垂直方向に分岐する垂直分岐部35に配置して、ダンパー20の支持軸21を垂直分岐部35の略垂直方向に設けることでダンパー20の重力による復帰動作を安定でき、送風量を低減した時のダンパーの復帰動作の確実性を高めて、動作信頼性を向上できる。 Further, as shown in FIG. 5, the wind flows upward from the blower 6, and the outside air passage 14 and the cleaning tank inside air passage 15 are arranged in a vertical branch portion 35 that branches in a substantially vertical direction, and the support shaft 21 of the damper 20 is arranged. Is provided in the substantially vertical direction of the vertical branch portion 35, the return operation by the gravity of the damper 20 can be stabilized, the reliability of the return operation of the damper when the air flow rate is reduced can be improved, and the operation reliability can be improved.

に、風量分配手段12の他の実施例を示す。図において、外気通路14と洗浄槽内気通路15をほぼ水平方向に分岐する水平分岐部36に配置するとともに洗浄槽内気通路15を外気通路14の下方に配置し、ダンパー20の支持軸21を水平分岐部36の略水平方向に設けたもので、送風機6の風量を増大させて洗浄槽ダンパー20aによる洗浄槽内気通路15側の開度が大きくなり、洗浄槽内気通路15側の風量(図中白抜き矢印で示す)が外気通路14側の風量(図中黒矢印で示す)よりも多くし乾燥主体で動作している状態を示している。この状態から送風機6を停止して乾燥運転を終了すると、ダンパー20は重り20dが無くても洗浄槽ダンパー20aと外気ダンパー20bの自重により図中時計方向の回動力が働き、洗浄槽内気通路15側の洗浄槽ダンパー20aが閉止する状態に復帰する。 FIG. 6 shows another embodiment of the air volume distribution means 12. In FIG. 6 , the outside air passage 14 and the cleaning tank inside air passage 15 are arranged in a horizontal branch portion 36 that branches substantially horizontally, and the washing tank inside air passage 15 is arranged below the outside air passage 14 to support the damper 20. 21 is provided in a substantially horizontal direction of the horizontal branch portion 36, the air volume of the blower 6 is increased, the opening degree of the cleaning tank damper 20a on the cleaning tank internal air passage 15 side is increased, and the cleaning tank internal air passage 15 side is increased. The air volume (indicated by a white arrow in the figure) is larger than the air volume on the outside air passage 14 side (indicated by a black arrow in the figure), and the apparatus is operating mainly with drying. When the blower 6 is stopped from this state and the drying operation is finished, even if the damper 20 does not have a weight 20d, the rotating force in the clockwise direction in the drawing works by the dead weight of the washing tank damper 20a and the outside air damper 20b, and the washing tank internal air passage The 15th washing tank damper 20a returns to the closed state.

このように、ダンパー20をほぼ水平方向に洗浄槽内気通路15と外気通路14に分岐する水平分岐部36に配置しても、ダンパー20の支持軸21を略水平方向としているので、ダンパー20を自重により復帰する簡単な構成としても、送風量を低減した時のダンパー20の復帰動作の確実性を高めて、動作信頼性を向上できる。   Thus, even if the damper 20 is disposed in the horizontal branch portion 36 that branches into the cleaning tank inside air passage 15 and the outside air passage 14 in the substantially horizontal direction, the support shaft 21 of the damper 20 is in the substantially horizontal direction. Even with a simple configuration in which the weight is returned by its own weight, the reliability of the return operation of the damper 20 when the air flow rate is reduced can be increased, and the operation reliability can be improved.

また、洗浄槽内気通路15を外気通路14の下方に配置することで、自重により復帰動作するダンパー20とできるので構成の簡素化による低コスト化ができる。   Further, by disposing the cleaning tank inside air passage 15 below the outside air passage 14, the damper 20 can be restored by its own weight, so that the cost can be reduced by simplifying the configuration.

なお、図では外気通路14と洗浄槽内気通路15を上下方向に配置する例を示したが、図の紙面の前後方向に配置することが可能なのは言うまでもない。 Note that although an example of placing an open air passage 14 and the cleaning tank internal air passage 15 in FIG. 6 in the vertical direction, what can be arranged in the longitudinal direction of the sheet of FIG. 6 of course.

以上のように、本実施の形態においては、ダンパーは、洗浄槽ダンパーと外気ダンパーの連結姿勢を変動可能とする姿勢設定手段を設けたことにより、排気温度の制御幅を拡大でき、排気温度の低温度化を主体とした設定や乾燥性を高めることを主体とした設定などを選択可能となり、使い勝手を良くして利便性を向上できる。   As described above, in the present embodiment, the damper is provided with posture setting means that can change the coupling posture of the cleaning tank damper and the outside air damper, so that the control range of the exhaust temperature can be expanded, and the exhaust temperature can be controlled. It is possible to select a setting mainly for lowering the temperature or a setting mainly for improving the drying property, and it is possible to improve convenience and improve convenience.

また、本実施の形態の姿勢設定手段は、洗浄槽の温度に応じて連結姿勢を変化させたことにより、洗浄槽内の温度によって風量分配割合を設定することにより排気温度を確実に低減でき、排気の低温度化を推進できる。   In addition, the attitude setting means of the present embodiment can reduce the exhaust gas temperature by setting the air volume distribution ratio according to the temperature in the cleaning tank by changing the connection attitude according to the temperature of the cleaning tank, The temperature of exhaust can be lowered.

また、本実施の形態の姿勢設定手段は、温度に応じて形状を変化させる形状記憶体を備えたことにより、構成の簡素化と低コスト化ができる。   Further, the posture setting means of the present embodiment includes a shape memory that changes its shape according to the temperature, thereby simplifying the configuration and reducing the cost.

また、本実施の形態の姿勢設定手段は、ダンパーの支持軸に設けた洗浄槽の温度を伝える伝熱部と洗浄槽ダンパーおよび外気ダンパーに接続した形状記憶体を伝熱関係に配置したことにより、形状記憶体によりダンパーの姿勢を洗浄槽の温度に応じた確実な設定がなされて、排気温度を低減させる動作の信頼性を向上できる。   In addition, the posture setting means of the present embodiment is such that the heat transfer section that conveys the temperature of the cleaning tank provided on the support shaft of the damper and the shape memory that is connected to the cleaning tank damper and the outside air damper are arranged in a heat transfer relationship. The shape memory can reliably set the posture of the damper according to the temperature of the cleaning tank, and the reliability of the operation for reducing the exhaust temperature can be improved.

また、本実施の形態のダンパーは、ほぼ垂直方向に洗浄槽内気通路と外気通路に分岐する垂直分岐部に配置し、ダンパーの支持軸を前記垂直分岐部の略垂直方向に設けたことにより、送風量を低減した時のダンパーの復帰動作の確実性を高めて、動作信頼性を向上できる。   Further, the damper according to the present embodiment is arranged in the vertical branch portion that branches into the cleaning tank inside air passage and the outside air passage in the substantially vertical direction, and the support shaft of the damper is provided in the substantially vertical direction of the vertical branch portion. The reliability of the return operation of the damper when the air flow is reduced can be improved, and the operation reliability can be improved.

また、本実施の形態のダンパーは、ほぼ水平方向に洗浄槽内気通路と外気通路に分岐する水平分岐部に配置し、ダンパーの支持軸を前記水平分岐部の略水平方向に設けたことにより、送風量を低減した時のダンパーの復帰動作の確実性を高めて、動作信頼性を向上できる。   Further, the damper according to the present embodiment is arranged in the horizontal branch portion that branches into the cleaning tank inside air passage and the outside air passage in the substantially horizontal direction, and the damper support shaft is provided in the substantially horizontal direction of the horizontal branch portion. The reliability of the return operation of the damper when the air flow is reduced can be improved, and the operation reliability can be improved.

また、本実施の形態の水平分岐部は、洗浄槽内気通路を外気通路の下方に配置したことにより、ダンパーを自重により復帰動作する構成とできるので構成の簡素化による低コスト化ができる。   Moreover, since the horizontal branch part of this Embodiment can be set as the structure which resets a damper by dead weight by arrange | positioning a washing tank inside air path below the outside air path, it can reduce cost by simplification of a structure.

以上のように、本発明にかかる食器洗い乾燥機は、乾燥時の排気温度の熱風感の確実な防止と発生する高温高湿の空気条件に応じた冷却ができるので、蒸気を発生する炊飯器や電気湯沸し器などの家庭用機器などに適用することができる。   As described above, the dishwasher according to the present invention can surely prevent the hot air feeling of the exhaust temperature during drying and can be cooled according to the generated high-temperature and high-humidity air conditions. It can be applied to household appliances such as electric water heaters.

本発明の実施の形態1における食器洗い乾燥機の構成図The block diagram of the dishwasher in Embodiment 1 of this invention 図1における風量分配手段の断面図Sectional view of the air volume distribution means in FIG. 図2における風量分配手段の他の状態を示す断面図Sectional drawing which shows the other state of the air volume distribution means in FIG. 本発明の実施の形態2におけるダンパーの外観斜視図External appearance perspective view of the damper in Embodiment 2 of this invention 本発明の実施の形態2における風量分配手段の断面図Sectional drawing of the air volume distribution means in Embodiment 2 of this invention 本発明の実施の形態2における風量分配手段の他構成の断面図Sectional drawing of the other structure of the air volume distribution means in Embodiment 2 of this invention 従来の食器洗い乾燥機の構成図Configuration of conventional dishwasher

1 洗浄槽
4 洗浄手段
5 加熱手段
6 送風機
7 排気口
9 乾燥手段
12 風量分配手段
13 混合部
14 外気通路
15 洗浄槽内気通路
20 ダンパー
20a 洗浄槽ダンパー
20b 外気ダンパー
21 支持軸
29 受圧部
30 凹面部
31 凸面部
32 姿勢設定手段
33 形状記憶体
34 伝熱部
35 垂直分岐部
36 水平分岐部
DESCRIPTION OF SYMBOLS 1 Cleaning tank 4 Cleaning means 5 Heating means 6 Blower 7 Exhaust port 9 Drying means 12 Air volume distribution means 13 Mixing part 14 Outside air path 15 Cleaning tank inside air path 20 Damper 20a Cleaning tank damper 20b Outside air damper 21 Support shaft 29 Pressure receiving part 30 Concave surface Section 31 Convex section 32 Attitude setting means 33 Shape memory 34 Heat transfer section 35 Vertical branch section 36 Horizontal branch section

Claims (4)

被洗浄物を収納する洗浄槽と、被洗浄物を洗う洗浄手段と、洗浄水を加熱する加熱手段と、前記洗浄槽内部の湿気を排出する排気口と、外気を送風する送風機と、前記排気口の上流側に配置した外気と洗浄槽内気とを混合する混合部と、外気を前記混合部に導入する外気通路と、前記洗浄槽を経て前記混合部に連通する洗浄槽内気通路と、外気と洗浄槽内気との混合割合を変化させる風量分配手段とを備え、前記風量分配手段は、風圧で開度が変化するダンパーを前記洗浄槽内気通路と前記外気通路に設け、前記ダンパーは、前記洗浄槽内気通路に設けた洗浄槽ダンパーと前記外気通路に設けた外気ダンパーとが連結姿勢を変動可能とする姿勢設定手段を設けて連結され、前記洗浄槽ダンパーの開度が増大すると前記外気ダンパーの開度が低減するように構成するとともに、前記洗浄槽内気通路を閉止する方向への戻り力を作用させるように構成し、前記送風機からの風量を増加させるにともない、前記洗浄槽ダンパーの開度を増大させ、かつ前記外気ダンパーの開度を低減させることで、外気と洗浄槽内気との風量割合を変化させるようにした食器洗い乾燥機。 A cleaning tank for storing the object to be cleaned, a cleaning means for cleaning the object to be cleaned, a heating means for heating the cleaning water, an exhaust port for discharging moisture inside the cleaning tank, a blower for blowing outside air, and the exhaust A mixing section that mixes the outside air and the cleaning tank inside air arranged upstream of the mouth, an outside air passage that introduces the outside air into the mixing section, and a cleaning tank inside air passage that communicates with the mixing section through the cleaning tank; , and a airflow distribution means for varying the mixing ratio of the outside air and the cleaning tank air, the air volume distribution section is provided with a damper opening wind pressure changes in the outside air passage and the cleaning tank internal air passages, the The damper is connected with a cleaning tank damper provided in the cleaning tank internal air passage and an external air damper provided in the outside air passage with a posture setting means for changing a connection posture, and the opening degree of the cleaning tank damper is Increasing the opening degree of the outside air damper decreases And configured to apply a return force in a direction in which the cleaning tank internal air passage is closed. As the air volume from the blower is increased, the opening degree of the cleaning tank damper is increased. And the dishwasher which changed the air volume ratio of outside air and washing tank inside air by reducing the opening degree of the outside air damper . ダンパーは、送風停止時もしくは前記送風機からの風圧が所定値よりも低い場合に洗浄槽ダンパーと外気ダンパーが洗浄槽内気通路を閉止するように連結した連結姿勢とした請求項1に記載の食器洗い乾燥機。 The dishwasher according to claim 1, wherein the damper has a connecting posture in which the washing tank damper and the outside air damper are connected so as to close the air passage in the washing tank when the blowing is stopped or the wind pressure from the blower is lower than a predetermined value. Dryer. ダンパーは、重力により洗浄槽内気通路を閉止する方向への戻り力を作用させるように構成した請求項1または2に記載の食器洗い乾燥機。 Dampers, Dishwasher according to claim 1 or 2 and configured to exert a return force in the direction to close the cleaning tank internal air passage by gravity. ダンパーは、付勢体により洗浄槽内気通路を閉止する方向への戻り力を作用させるように構成した請求項1または2に記載の食器洗い乾燥機。 Dampers, Dishwasher according to claim 1 or 2 and configured to exert a return force in the direction to close the cleaning tank internal air passage by the biasing member.
JP2008219177A 2008-08-28 2008-08-28 Dishwasher Active JP4924571B2 (en)

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JP2910141B2 (en) * 1990-04-04 1999-06-23 松下電器産業株式会社 Dishwasher
JPH05130966A (en) * 1991-11-13 1993-05-28 Mitsubishi Electric Corp Exhaust for dishwasher
JPH09126654A (en) * 1995-10-31 1997-05-16 Matsushita Electric Works Ltd Drier
JP3435977B2 (en) * 1996-04-22 2003-08-11 松下電工株式会社 Tableware dryer
JPH11290592A (en) * 1998-04-10 1999-10-26 Inax Corp Ventilating dryer for bathroom
JP4026252B2 (en) * 1998-12-09 2007-12-26 松下電器産業株式会社 Dishwasher
JP4103433B2 (en) * 2002-04-15 2008-06-18 松下電器産業株式会社 Dishwasher

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