JP6413092B2 - Electric vacuum cleaner - Google Patents

Electric vacuum cleaner Download PDF

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JP6413092B2
JP6413092B2 JP2015188178A JP2015188178A JP6413092B2 JP 6413092 B2 JP6413092 B2 JP 6413092B2 JP 2015188178 A JP2015188178 A JP 2015188178A JP 2015188178 A JP2015188178 A JP 2015188178A JP 6413092 B2 JP6413092 B2 JP 6413092B2
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vacuum cleaner
rotating
cleaned
cylindrical
rotary cleaning
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JP2017060631A (en
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貴浩 酒井
貴浩 酒井
仲本 博司
博司 仲本
康二 難波
康二 難波
就将 塩野
就将 塩野
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Panasonic Intellectual Property Management Co Ltd
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本願発明は、布団や寝具等の軟らかい被清掃面の塵埃を捕集する電気掃除機に関するものである。   The present invention relates to a vacuum cleaner that collects dust on a soft surface to be cleaned such as a futon or bedding.

従来、この種の寝具のような掃除対象物の掃除を行う真空掃除機は、上下運動により掃除対象物に打撃を与えて異物を脱落させる埃叩きと、回転により掃除対象物から異物を払い落とす円筒状ブラッシュとが単一の駆動源によって連動されて掃除対象物から異物を効率的に除去しながら集塵効率を向上させているものがあった(例えば、特許文献1参照)。   Conventionally, a vacuum cleaner that cleans an object to be cleaned such as this type of bedding wipes off the foreign object from the object to be cleaned by rotating the dust by hitting the object to be cleaned by moving up and down and rotating the object. Some cylindrical brushes are linked by a single drive source to improve the dust collection efficiency while efficiently removing foreign substances from the object to be cleaned (see, for example, Patent Document 1).

特開2014−128548号公報JP 2014-128548 A

しかしながら、前記従来の構成では、被清掃面であるシーツや布団の軟質生地を清掃する際に、シーツや布団の軟質生地が回転する円筒状ブラッシュに巻き込まれ絡まり易く、清掃作業がし難く、さらに、回転する円筒状ブラッシュが自走作用を有してないため、清掃操作が重く手に負担がかかるという課題を有していた。   However, in the above-described conventional configuration, when the soft cloth of the sheets and the futon that is the surface to be cleaned is cleaned, the soft cloth of the sheets and the duvet is easily entangled in the rotating cylindrical brush, and the cleaning work is difficult. Since the rotating cylindrical brush does not have a self-propelling action, there is a problem that the cleaning operation is heavy and a burden is placed on the hand.

また、真空掃除機本体を被清掃面に接地する前の、宙に浮かせた状態で運転スイッチを入れた場合や、被清掃面に接地させて作業している途中で掃除機本体を持ち上げた時などにおいても、上下運動する埃叩きと、回転する円筒状ブラッシュが共に稼動してしまうため、稼動部が身体や周囲の物品に触れたりする恐れがあり、安全面で十分な構成が図れていない点も有していた。   In addition, when the operation switch is turned on while the vacuum cleaner body is in contact with the surface to be cleaned, or when the vacuum cleaner body is lifted up while working while being grounded on the surface to be cleaned For example, the dust hitter that moves up and down and the rotating cylindrical brush move together, so there is a risk that the operating part may touch the body and surrounding items, and the safety is not sufficiently configured. Also had a point.

本発明は、前記従来の課題を解決するもので、シーツや布団の軟質生地を清掃する際に、電動機で回転するブラシや自走作用をもたらす円筒状の円筒部が、シーツや布団の軟質生地を巻き込むのを防止し、さらに自走構成を有し軽操作で清掃作業ができ、かつ、掃除機本体を被清掃面に接地する前の宙に浮かせた状態で運転スイッチを入れた場合でも、電動機で回転する回転清掃体は動作せず、掃除機本体を被清掃面に接地させて清掃動作を行うタイミングで回転清掃体が自動的に動作を開始するといった、使い勝手が良く安全面でも十分な配慮がなされた構成を備えた電気掃除機を提供するものである。   The present invention solves the above-mentioned conventional problems, and when cleaning a soft cloth such as a sheet or a futon, a brush that rotates with an electric motor or a cylindrical cylindrical portion that provides a self-propelling action is used. Even if the operation switch is turned on with the self-propelled configuration and a light operation that can be cleaned and floating in the air before the vacuum cleaner body touches the surface to be cleaned, The rotating cleaning body that rotates with the electric motor does not operate, and the rotating cleaning body automatically starts operation when the cleaning body is grounded on the surface to be cleaned and the cleaning operation is performed. It is an object of the present invention to provide a vacuum cleaner having a configuration in which consideration has been given.

上記従来の課題を解決するために、本発明の電気掃除機は、掃除機本体と、前記掃除機本体の内部に設けられ、吸引風を発する電動送風機と前記電動送風機の吸引側に連通する集塵室と、前記掃除機本体の底面に設けられ前記集塵室と連通し被清掃面上の塵埃を吸引する吸気口と、前記吸気口より前方に配置され前記掃除機本体の前方底面に設けられた回転清掃体収納室と、前記回転清掃体収納室に回転可能に配置された回転清掃体と、前記回転清掃体を回転駆動させる電動機と、前記吸気口より後方に配置され前記掃除機本体の底面から被清掃面方向に突出した複数の突起部と、前記吸気口より後方に配置され、前記掃除機本体の後方底面に設けられた凹設部と、前記凹設部に回転可能に配置された複数の突起を有する回転体と、前記凹設部の一端に設けた軸受け部と、前記凹設部の他端に設けた回転検出センサー収納部と、前記回転検出センサー収納部に収納され前記回転体の回転を
検知する回転検出センサーと、前記回転検出センサーの検知信号情報により、前記回転清掃体を回転させる電動機を制御する制御部と、を備え、前記複数の突起を有する回転体は、前記回転体収納室において、前記軸受け部と前記回転検出センサーにより、回転可能に軸支されており、前記回転清掃体は、中央エリア部分と前記中央エリア部分以外の両サイドエリア部分とが区別されて構成され、前記中央エリア部分には、清掃部材が前記回転清掃体の長手方向に装着されており、前記中央エリア部分以外の両サイドエリア部分には、周方向に装着された複数の円筒状の円筒部が間隔をおいて配置されて形成されていることを特徴としたものである。
In order to solve the above-described conventional problems, a vacuum cleaner according to the present invention includes a vacuum cleaner main body, an electric blower that is provided inside the vacuum cleaner main body, and generates suction air, and is connected to a suction side of the electric blower. A dust chamber, a suction port provided on the bottom surface of the vacuum cleaner body, which communicates with the dust collection chamber and sucks dust on a surface to be cleaned, and is provided in front of the suction port and provided on a front bottom surface of the vacuum cleaner body A rotary cleaning body storage chamber, a rotary cleaning body rotatably disposed in the rotary cleaning body storage chamber, an electric motor for rotationally driving the rotary cleaning body, and a main body of the vacuum cleaner disposed behind the intake port. A plurality of protrusions projecting from the bottom surface of the cleaner in the direction of the surface to be cleaned, a recess portion disposed on the rear bottom surface of the vacuum cleaner body, disposed behind the intake port, and rotatably disposed on the recess portion. A rotating body having a plurality of protrusions, and the recess A bearing portion provided at one end of the recess, a rotation detection sensor storage portion provided at the other end of the recessed portion, a rotation detection sensor stored in the rotation detection sensor storage portion and detecting the rotation of the rotating body, and the rotation And a control unit that controls an electric motor that rotates the rotary cleaning body according to detection signal information of a detection sensor, and the rotary body having the plurality of protrusions includes the bearing unit and the rotation detection in the rotary body storage chamber. The sensor is rotatably supported by a sensor, and the rotary cleaning body is configured by distinguishing a central area portion and both side area portions other than the central area portion, and a cleaning member is provided in the central area portion. Mounted in the longitudinal direction of the rotary cleaning body, a plurality of cylindrical cylindrical parts mounted in the circumferential direction are arranged at intervals on both side area portions other than the central area portion. It is obtained by said being formed by.

これにより、清掃作業中において、被清掃面方向に突出した複数の突起部と、左右方向に間隔をおいて配置された複数の円筒状の円筒部との間で、シーツや布団の軟質生地が押さえ付けられことによって、シーツや布団の軟質生地に対し、引っ張れるようにテンションが加わることにより、弛みや波打ちが引き伸ばされ、回転する回転清掃体や円筒状の円筒部によって、シーツや布団の軟質生地が巻き込まれるのを防止することができる。また、さらに円筒状の円筒部が、被清掃面との接触摩擦により、掃除機本体の自走作用を生み出し、軽操作で清掃作業を行うことができる。   Thus, during the cleaning work, the soft cloth of the sheets and the futon is placed between the plurality of projections protruding in the direction of the surface to be cleaned and the plurality of cylindrical cylinders arranged at intervals in the left-right direction. When pressed, tension is applied to the soft fabric of sheets and futons so that they can be pulled, so that loosening and undulation are stretched, and the rotating rotary cleaning body and cylindrical cylindrical part rotate the soft fabrics of sheets and duvets. Can be prevented from being caught. Further, the cylindrical cylindrical portion generates a self-running action of the cleaner body by contact friction with the surface to be cleaned, and the cleaning operation can be performed with a light operation.

また、掃除機本体を被清掃面に接地する前の宙に浮かせた状態で運転スイッチを入れた場合でも、電動機で回転する回転清掃体は動作せず、掃除機本体を被清掃面に接地させて清掃動作を行うタイミングで回転清掃体が自動的に動作を開始するといった、使い勝手が良く安全面でも十分な配慮がなされた構成を備えた電気掃除機を提供することができる。   Also, even if the operation switch is turned on while the vacuum cleaner body is floating in the air before grounding the surface to be cleaned, the rotating cleaning body that rotates with the electric motor does not operate, and the vacuum cleaner body is grounded to the surface to be cleaned. Thus, it is possible to provide an electric vacuum cleaner having a configuration that is easy to use and sufficiently considered in terms of safety, such that the rotary cleaning body automatically starts operating at the timing when the cleaning operation is performed.

本発明は、シーツや布団の軟質生地を清掃する際に、電動機で回転するブラシや自走作用をもたらす円筒状の円筒部が、シーツや布団の軟質生地を巻き込むのを防止し、さらに自走構成を有し軽操作で清掃作業ができ、かつ、掃除機本体を被清掃面に接地する前の宙に浮かせた状態で運転スイッチを入れた場合でも、電動機で回転する回転清掃体は動作せず、掃除機本体を被清掃面に接地させて清掃動作を行うタイミングで回転清掃体が自動的に動作を開始するといった、使い勝手が良く安全面でも十分な配慮がなされた構成を備えた電気掃除機を提供するものである。   The present invention prevents the soft cloth of a sheet or a futon from being caught by a brush rotating by an electric motor or a cylindrical cylindrical portion that provides a self-propelling action when cleaning a soft cloth of a sheet or a futon. Even if the operation switch is turned on with the vacuum cleaner body in the air before it is grounded to the surface to be cleaned, the rotating cleaning body that rotates with the electric motor does not operate. In addition, electric cleaning with a structure that is easy to use and has sufficient consideration for safety, such as the rotary cleaning body automatically starts operating when the cleaner body is grounded to the surface to be cleaned and the cleaning operation is performed The machine is provided.

本発明の実施の形態に係る掃除機の全体斜視図Whole perspective view of the vacuum cleaner which concerns on embodiment of this invention 同掃除機の上面図Top view of the vacuum cleaner 同掃除機の底面図Bottom view of the vacuum cleaner 同掃除機の側面図Side view of the vacuum cleaner 同掃除機の中央縦断面図Center vertical section of the vacuum cleaner 同掃除機の要部拡大中央縦断面図Expanded central vertical section of the main part of the vacuum cleaner 同掃除機の正面図Front view of the vacuum cleaner 同掃除機の背面図Rear view of the vacuum cleaner 同回転ブラシの斜視図Perspective view of the rotating brush 同掃除機のカバー体と回転ブラシを示す要部斜視図The principal part perspective view which shows the cover body and rotary brush of the vacuum cleaner 同掃除機の一部を破断した斜視図The perspective view which fractured a part of the vacuum cleaner 同掃除機の一部を破断し拡大した要部斜視図Partial perspective view of the vacuum cleaner with a part broken and enlarged 同掃除機の回転検出センサーを軸方向に切断した拡大断面図Enlarged sectional view of the rotation detection sensor of the vacuum cleaner cut in the axial direction 同掃除機の図13におけるA−A断面図AA sectional view of the vacuum cleaner in FIG. 同掃除機を上下反転させた状態の図13におけるA−A断面図AA sectional view in Drawing 13 of the state where the vacuum cleaner was turned upside down 同掃除機の回転体と回転検出センサーが組み合わさった状態を示す要部斜視図The principal part perspective view which shows the state which the rotary body and rotation detection sensor of the vacuum cleaner combined 同掃除機のカバー体を取り外した状態を示す底面図Bottom view showing the vacuum cleaner cover removed 同掃除機のカバー体の前方斜視図Front perspective view of the cover of the vacuum cleaner 同掃除機の図18におけるC−C断面図CC sectional drawing in FIG. 18 of the same vacuum cleaner 同掃除機の図3におけるB−B断面図BB cross section in FIG. 3 of the vacuum cleaner

第1の発明は、掃除機本体と、前記掃除機本体の内部に設けられ、吸引風を発する電動送風機と前記電動送風機の吸引側に連通する集塵室と、前記掃除機本体の底面に設けられ前記集塵室と連通し被清掃面上の塵埃を吸引する吸気口と、前記吸気口より前方に配置され前記掃除機本体の前方底面に設けられた回転清掃体収納室と、前記回転清掃体収納室に回転可能に配置された回転清掃体と、前記回転清掃体を回転駆動させる電動機と、前記吸気口より後方に配置され前記掃除機本体の底面から被清掃面方向に突出した複数の突起部と、前記吸気口より後方に配置され、前記掃除機本体の後方底面に設けられた凹設部と、前記凹設部に回転可能に配置された複数の突起を有する回転体と、前記凹設部の一端に設けた軸受け部と、前記凹設部の他端に設けた回転検出センサー収納部と、前記回転検出センサー収納部に収納され前記回転体の回転を検知する回転検出センサーと、前記回転検出センサーの検知信号情報により、前記回転清掃体を回転させる電動機を制御する制御部と、を備え、前記複数の突起を有する回転体は、前記回転体収納室において、前記軸受け部と前記回転検出センサーにより、回転可能に軸支されており、前記回転清掃体は、中央エリア部分と前記中央エリア部分以外の両サイドエリア部分とが区別されて構成され、前記中央エリア部分には、清掃部材が前記回転清掃体の長手方向に装着されており、前記中央エリア部分以外の両サイドエリア部分には、周方向に装着された複数の円筒状の円筒部が間隔をおいて配置されて形成されるように構成したものである。   1st invention is provided in the vacuum cleaner main body, the inside of the said vacuum cleaner main body, the dust collecting chamber which communicates with the attraction | suction side of the said electric blower provided in the inside of the said vacuum cleaner main body, and the vacuum cleaner main body. An intake port that communicates with the dust collection chamber and sucks dust on the surface to be cleaned, a rotary cleaning body storage chamber that is disposed in front of the intake port and provided on a front bottom surface of the cleaner body, and the rotary cleaning A rotary cleaning body rotatably disposed in the body storage chamber, an electric motor that rotationally drives the rotary cleaning body, and a plurality of protrusions that are disposed rearward of the intake port and project from the bottom surface of the cleaner body toward the surface to be cleaned. A protrusion, a recessed portion disposed behind the intake port, provided on the rear bottom surface of the cleaner body, and a rotating body having a plurality of protrusions rotatably disposed in the recessed portion; A bearing portion provided at one end of the recessed portion, and the recessed portion A rotation detection sensor storage section provided at an end, a rotation detection sensor that is stored in the rotation detection sensor storage section and detects rotation of the rotation body, and the rotation cleaning sensor is rotated by detection signal information of the rotation detection sensor. A rotating unit having a plurality of protrusions, and is rotatably supported by the bearing unit and the rotation detection sensor in the rotating body storage chamber, and the rotational cleaning device. The body is configured by distinguishing a central area portion and both side area portions other than the central area portion, and a cleaning member is attached to the central area portion in the longitudinal direction of the rotary cleaning body, In both side area parts other than the area part, a plurality of cylindrical cylindrical parts mounted in the circumferential direction are formed so as to be arranged at intervals. .

これにより、清掃作業中において、被清掃面方向に突出した複数の突起部と、左右方向に間隔をおいて配置された複数の円筒状の円筒部との間で、シーツや布団の軟質生地が押さえ付けられことによって、シーツや布団の軟質生地に対し、引っ張れるようにテンションが加わることにより、弛みや波打ちが引き伸ばされ、回転する回転清掃体や円筒状の円筒部によって、シーツや布団の軟質生地が巻き込まれるのを防止することができる。また、さらに円筒状の円筒部が、被清掃面との接触摩擦により、掃除機本体の自走作用を生み出し、軽操作で清掃作業を行うことができる。   Thus, during the cleaning work, the soft cloth of the sheets and the futon is placed between the plurality of projections protruding in the direction of the surface to be cleaned and the plurality of cylindrical cylinders arranged at intervals in the left-right direction. When pressed, tension is applied to the soft fabric of sheets and futons so that they can be pulled, so that loosening and undulation are stretched, and the rotating rotary cleaning body and cylindrical cylindrical part rotate the soft fabrics of sheets and duvets. Can be prevented from being caught. Further, the cylindrical cylindrical portion generates a self-running action of the cleaner body by contact friction with the surface to be cleaned, and the cleaning operation can be performed with a light operation.

また、掃除機本体を被清掃面に接地する前の宙に浮かせた状態で運転スイッチを入れた場合でも、電動機で回転する回転清掃体は動作せず、掃除機本体を被清掃面に接地させて清掃動作を行うタイミングで回転清掃体が自動的に動作を開始するといった、使い勝手が良く安全面でも十分な配慮がなされた構成を備えた電気掃除機を提供することができる。   Also, even if the operation switch is turned on while the vacuum cleaner body is floating in the air before grounding the surface to be cleaned, the rotating cleaning body that rotates with the electric motor does not operate, and the vacuum cleaner body is grounded to the surface to be cleaned. Thus, it is possible to provide an electric vacuum cleaner having a configuration that is easy to use and sufficiently considered in terms of safety, such that the rotary cleaning body automatically starts operating at the timing when the cleaning operation is performed.

第2の発明は、特に、第1の発明の回転検出センサーは、前記回転体の一端側と連結される回転軸と、前記回転軸に固定され複数のスリットを有した回転板と、前記回転板の回転数を、前記スリットを通過する光で検出する発光素子と受光素子と、から構成したものである。   According to a second aspect of the invention, in particular, the rotation detection sensor of the first aspect of the invention includes a rotation shaft connected to one end of the rotating body, a rotation plate fixed to the rotation shaft and having a plurality of slits, and the rotation It comprises a light emitting element and a light receiving element that detect the number of rotations of the plate with light passing through the slit.

これにより、回転検出センサーは、回転体が回転すると、回転板が回転して、発光素子と受光素子との間の光の受光状態において、回転板のスリットが位置する際の光が受光される受光状態と、スリットが位置せず光が途絶え遮光状態とが連続することを検知することで回転体の回転を検出する。回転体の回転を検出すると、制御部に検出信号を送信し、制御部は、検出信号が一定の閾値を越えた際に、回転体が被清掃面上で清掃動作が開始された状態と判断し、電動機を駆動させる。前記閾値の設定としては、掃除機本体を持ち上げた状態で、回転体に手が触れる程度の少しの回転では電動機が駆動しないように安全性を考慮した閾値を設定している。   As a result, when the rotating body rotates, the rotation detecting sensor rotates the rotating plate, and receives light when the slit of the rotating plate is positioned in the light receiving state between the light emitting element and the light receiving element. The rotation of the rotating body is detected by detecting that the light receiving state and the light is interrupted and the light shielding state continues without the slit being positioned. When the rotation of the rotating body is detected, a detection signal is transmitted to the control unit, and when the detection signal exceeds a certain threshold, the control unit determines that the cleaning operation has started on the surface to be cleaned. Then, the electric motor is driven. As the threshold value setting, a threshold value is set in consideration of safety so that the electric motor is not driven by a slight rotation such that a hand touches the rotating body while the vacuum cleaner main body is lifted.

従って、掃除機本体を被清掃面に接地する前の宙に浮かせた状態で運転スイッチを入れた場合でも、電動機で回転する回転清掃体は動作せず、掃除機本体を被清掃面に接地させて清掃動作を行うタイミングで回転清掃体が自動的に動作を開始するといった、使い勝手が良く安全面でも十分な配慮がなされた構成を備えた電気掃除機を提供することができる。   Therefore, even when the operation switch is turned on with the vacuum cleaner body floating in the air before grounding the surface to be cleaned, the rotary cleaning body that rotates with the electric motor does not operate, and the vacuum cleaner body is grounded to the surface to be cleaned. Thus, it is possible to provide an electric vacuum cleaner having a configuration that is easy to use and sufficiently considered in terms of safety, such that the rotary cleaning body automatically starts operating at the timing when the cleaning operation is performed.

第3の発明は、特に、第2の発明において、回転軸に回転自在に取り付けられ自重により回転することで前記スリットを通過する光を遮蔽する振り子板を、前記回転板の近傍に配置したものである。   In a third aspect of the invention, in particular, in the second aspect of the invention, a pendulum plate that is rotatably attached to the rotating shaft and shields light passing through the slit by rotating under its own weight is disposed in the vicinity of the rotating plate. It is.

これにより、掃除機本体を上下反転させた状態では、振り子板が自重により回転して、発光素子と受光素子との間に移動し、遮光状態となる。この上下反転させた状態で、回転体を回しても、回転検出センサーは、光の受光が途絶えた遮光状態の検出信号を制御部に送信するため、制御部は、検出信号が一定の閾値を越えていないと判断し、電動機を停止させる。   Thereby, in a state where the cleaner body is turned upside down, the pendulum plate rotates by its own weight, moves between the light emitting element and the light receiving element, and enters a light shielding state. Even if the rotator is rotated in this upside down state, the rotation detection sensor transmits a detection signal in a light blocking state in which light reception is interrupted to the control unit. Judge that it does not exceed, stop the motor.

従って、掃除機本体を上下反転させた状態では、回転体が静止した状態でも、誤って手や物が触れて回してしまった状態でも、回転清掃体は回転せず、不用意に手指等が回転する回転清掃体に触れる恐れを防止することができる。   Therefore, when the vacuum cleaner body is turned upside down, the rotating cleaning body will not rotate, even if the rotating body is stationary or accidentally touched and turned by hand. The fear of touching the rotating rotating cleaning body can be prevented.

第4の発明は、特に、第1または第2の発明において、軸受け部の外周を覆う前記掃除機本体の外郭底面に円弧状の膨出部を設け、さらに前記回転検出センサー収納部の外周を覆う前記掃除機本体の外郭底面に円弧状の膨出部を設けたものである。   In a fourth aspect of the invention, in particular, in the first or second aspect of the invention, an arcuate bulging portion is provided on the outer bottom surface of the cleaner body covering the outer periphery of the bearing portion, and the outer periphery of the rotation detection sensor storage portion is further provided. An arcuate bulging portion is provided on the outer bottom surface of the vacuum cleaner body to be covered.

これにより、回転体の近傍に配置された円弧状の膨出部が被清掃面と接地する最下部は、回転体の突出部の最下部よりも下方に位置されるため、膨出部が掃除機本体の載置面として支え受ける構成にすることができる。   As a result, the lowermost portion where the arc-shaped bulging portion arranged in the vicinity of the rotating body contacts the surface to be cleaned is positioned below the lowermost portion of the protruding portion of the rotating body, so the bulging portion is cleaned. It can be configured to be supported as a mounting surface of the machine body.

これによって、平坦な面やタフテッドカーペットなど、比較的、掃除機本体が沈みにくい設置面に載置した際には、膨出部が先に接地することにより、回転体が設置面に接触せず、掃除機本体を移動させても回転検出センサーは、掃除機本体の移動を検出することはなく、電動機を駆動させることがない。   As a result, when the vacuum cleaner body is placed on an installation surface that is relatively difficult to sink, such as a flat surface or tufted carpet, the bulging part contacts the installation surface in advance so that the rotating body contacts the installation surface. Even if the cleaner body is moved, the rotation detection sensor does not detect the movement of the cleaner body and does not drive the electric motor.

従って、掃除機本体を掃除の対象となる布団や毛布、寝具等の軟らかい被清掃面等とは異なる設置面に載置して、掃除機本体を移動させたとしても、掃除機本体の回転清掃体が回転し、使用者の意思に異なって不用意に、設置面上で動き移動するのを防止することができる。   Therefore, even if the main body of the vacuum cleaner is placed on an installation surface different from the soft surface to be cleaned, such as a futon, blanket or bedding to be cleaned, the main body of the vacuum cleaner can be rotated and cleaned It is possible to prevent the body from rotating and inadvertently moving and moving on the installation surface in accordance with the intention of the user.

第5の発明は、特に、第1〜第4のいずれか1つの発明に対し、被清掃面側において、前記複数の円筒状の円筒部との間の隙間部分と、前記中央エリア部分に設けた清掃部材の端部と近傍に配置した前記円筒部との間の隙間部分にリブ部を配置し、前記リブ部は、回転清掃体と隙間を開け、かつ前記円筒状の円筒部より低い高さに設定したものである。   5th invention is provided in the clearance gap part between these cylindrical cylindrical parts and the said central area part in the to-be-cleaned surface side especially with respect to any 1st-4th invention. A rib portion is disposed in a gap portion between the end portion of the cleaning member and the cylindrical portion disposed in the vicinity, and the rib portion opens a gap with the rotary cleaning body and has a height lower than that of the cylindrical cylindrical portion. This is what you set.

これにより、清掃作業中において、被清掃面方向に突出した複数の突起部と、リブ体によりシーツや布団の軟質生地が押さえ付けられことによって、複数の突起部と、リブ体との間で、シーツや布団の軟質生地に対し、引っ張るようにテンションが加わることにより、弛みや波打ちが引き伸ばされ、回転する回転清掃体や円筒状の円筒部によって、シーツや布団の軟質生地が巻き込まれるのを防止することができる。また、さらにリブ体よりも被清掃面方向に突出した円筒状の円筒部が、被清掃面との接触摩擦により、掃除機本体の自走作用を生み出し、軽操作で清掃作業を行うことができる。   Thereby, during the cleaning work, a plurality of protrusions protruding in the direction of the surface to be cleaned and a soft cloth such as a sheet or a futon are pressed by the rib body, so that between the plurality of protrusions and the rib body, By applying tension to the soft fabric of sheets and futons, loosening and undulation are stretched, and the rotating rotary cleaning body and cylindrical cylindrical portion prevent the soft fabric of sheets and duvets from being caught. can do. Further, the cylindrical cylindrical portion that protrudes in the direction of the surface to be cleaned from the rib body creates a self-running action of the main body of the cleaner by contact friction with the surface to be cleaned, and can be cleaned with a light operation. .

第6の発明は、特に、第5の発明において、掃除機本体の前方底面にカバー体を着脱自在に設け、前記カバー体は、前記回転清掃体に対し隙間を設けかつ周囲全体を覆う開口部と、前記吸気口を覆う格子部を有し、前記リブ部は、前記カバー体の開口部に設けられたものである。   In a sixth aspect of the invention, in particular, in the fifth aspect of the invention, a cover body is detachably provided on the front bottom surface of the cleaner body, and the cover body has an opening that provides a gap with respect to the rotary cleaning body and covers the entire periphery. And a lattice portion that covers the intake port, and the rib portion is provided in the opening of the cover body.

これにより、清掃作業中において、被清掃面方向に突出した複数の突起部と、カバー体の開口部に設けられたリブ体によりシーツや布団の軟質生地が押さえ付けられことによって、複数の突起部と、リブ体との間で、シーツや布団の軟質生地に対し、引っ張るようにテンションが加わることにより、弛みや波打ちが引き伸ばされ、回転する回転清掃体や円筒状の円筒部によって、シーツや布団の軟質生地が巻き込まれるのを防止することができる。また、さらにリブ体よりも被清掃面方向に突出した円筒状の円筒部が、被清掃面との接触摩擦により、掃除機本体の自走作用を生み出し、軽操作で清掃作業を行うことができる。   Thus, during the cleaning operation, the plurality of protrusions projecting in the direction of the surface to be cleaned and the ribs provided in the opening of the cover body are pressed against the soft cloth such as a sheet or futon, thereby causing the plurality of protrusions. Between the ribs and the soft fabric of the sheets and bedding, tension is applied to pull the sheets, so that the slack and undulation are stretched, and the rotating cleaning body and the cylindrical cylindrical portion rotate to make the sheets and bedding It is possible to prevent the soft fabric from being caught. Further, the cylindrical cylindrical portion that protrudes in the direction of the surface to be cleaned from the rib body creates a self-running action of the main body of the cleaner by contact friction with the surface to be cleaned, and can be cleaned with a light operation. .

第7の発明は、特に、第6の発明において、吸気口を覆う前記カバー体の格子部を、前記掃除機本体の底面から被清掃面方向に隙間を設け、前記カバー体の開口部の左右両端部まで前記格子部を拡張したことを特徴としたものである。   According to a seventh aspect of the present invention, in the sixth aspect of the invention, in the sixth aspect, the lattice portion of the cover body that covers the air inlet is provided with a gap from the bottom surface of the cleaner body toward the surface to be cleaned, The lattice portion is extended to both end portions.

これにより、塵埃を吸い込む範囲が、中央の吸気口のみの範囲からカバー体の開口部の長手方向の全範囲まで拡張されることになり、吸塵性能を向上させることができる。   Thereby, the range in which dust is sucked is expanded from the range of only the central intake port to the entire range in the longitudinal direction of the opening of the cover body, and the dust absorption performance can be improved.

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)
本発明にかかる掃除機は、主に布団や毛布、寝具等の軟らかい被清掃面等の掃除を行うもので、シーツ等が吸気口から吸気されるのを抑制しつつ、シーツに付着した糸くずや毛髪、布団、寝具等の軟らかい被清掃面に付着したダニ等の害虫を吸引する装置である。
(Embodiment 1)
The vacuum cleaner according to the present invention mainly cleans a soft surface to be cleaned such as a futon, a blanket, a bedding, etc., and the lint attached to the sheet while suppressing the intake of the sheet from the air inlet. It is a device for sucking in insects such as mites adhering to a soft surface to be cleaned such as hair, bedding, bedding and the like.

図1は、本発明の実施の形態に係る掃除機の全体斜視図、図2は、同掃除機の上面図、図3は、同掃除機の底面図、図4は、同掃除機の側面図である。   1 is an overall perspective view of a vacuum cleaner according to an embodiment of the present invention, FIG. 2 is a top view of the vacuum cleaner, FIG. 3 is a bottom view of the vacuum cleaner, and FIG. 4 is a side view of the vacuum cleaner. FIG.

掃除機本体1は、下ケース2と、下ケース2に装着される上ケース3と、上ケース3に装着され、上ケース3とにより取っ手4を形成する取っ手カバー5と、掃除機本体1底面に着脱自在に装着されるカバー体6とを備えている。掃除機本体1は、カバー体6が装着される側が前方側で、取っ手4が形成される側が後方側である。取っ手4の前方には、電源スイッチ7が配設されている。   The cleaner body 1 includes a lower case 2, an upper case 3 attached to the lower case 2, a handle cover 5 attached to the upper case 3 and forming a handle 4 with the upper case 3, and a bottom surface of the cleaner body 1. And a cover body 6 that is detachably attached to the body. In the cleaner body 1, the side on which the cover body 6 is mounted is the front side, and the side on which the handle 4 is formed is the rear side. A power switch 7 is disposed in front of the handle 4.

図6は、掃除機本体1の中央縦断面図である。図6に示すように、掃除機本体1底面のカバー体6で覆われる位置に吸気口8(図17参照)が形成されている。カバー体6は、掃除機本体1底面の吸気口8との間に間隔9を有して装着され、この間隔9は、吸気口8に連通し、間隔9が吸気路10を形成する。   FIG. 6 is a central longitudinal sectional view of the cleaner body 1. As shown in FIG. 6, the air inlet 8 (refer FIG. 17) is formed in the position covered with the cover body 6 of the vacuum cleaner main body 1 bottom face. The cover body 6 is mounted with an interval 9 between the cover body 6 and the intake port 8 on the bottom surface of the cleaner body 1. The interval 9 communicates with the intake port 8, and the interval 9 forms an intake path 10.

カバー体6には、吸気口8及び吸気路10に対応する位置に格子部からなる複数の吸込口30を形成している。   In the cover body 6, a plurality of suction ports 30 made of lattice portions are formed at positions corresponding to the suction ports 8 and the intake passage 10.

掃除機本体1内には、蓋体11により開閉自在に閉塞される集塵室12が形成される。集塵室12には、集塵袋13が着脱自在に装着される。集塵室12は、連通路14により吸気口8に連通している。   A dust collection chamber 12 is formed in the vacuum cleaner body 1 so as to be opened and closed by a lid 11. A dust collection bag 13 is detachably attached to the dust collection chamber 12. The dust collection chamber 12 communicates with the intake port 8 through the communication path 14.

図5に示すように、掃除機本体1内の集塵室12の後方には、電動送風機15が収納されている。電動送風機15の駆動により吸気口8から空気が塵埃とともに吸引され、塵埃が集塵袋13内に捕集される。   As shown in FIG. 5, an electric blower 15 is accommodated behind the dust collection chamber 12 in the cleaner body 1. By driving the electric blower 15, air is sucked together with dust from the air inlet 8, and dust is collected in the dust bag 13.

図17は、カバー体6を取り外した状態の掃除機本体1を前方から見た斜視図である。図17に示すように、掃除機本体1底面の吸気口8の前方位置に回転清掃体収納室16が形成され、回転清掃体収納室16と吸気口8は、複数の切欠部17により連通している。   FIG. 17 is a perspective view of the cleaner body 1 with the cover body 6 removed as viewed from the front. As shown in FIG. 17, a rotary cleaning body storage chamber 16 is formed in front of the intake port 8 on the bottom surface of the cleaner body 1, and the rotary cleaning body storage chamber 16 and the intake port 8 communicate with each other by a plurality of notches 17. ing.

図11、図12に示すように、回転清掃体収納室16には、回転清掃体18が回転自在に配設され、回転清掃体18は、ベルト19により電動機20に連結される。   As shown in FIGS. 11 and 12, a rotary cleaning body 18 is rotatably disposed in the rotary cleaning body storage chamber 16, and the rotary cleaning body 18 is connected to an electric motor 20 by a belt 19.

回転清掃体18は、図9、図17に示すように、吸気口8に対向する位置に、一対のブラシ21が相対向する位置に植設された中央エリア部22が設けられ、中央エリア部22から間隔を有して複数の円筒部23が配設されている。円筒部23は、起毛布をリング状に巻回して形成されており、円筒部23は、円筒部23間に間隔を有して配設されている。   As shown in FIGS. 9 and 17, the rotary cleaning body 18 is provided with a central area portion 22 in which a pair of brushes 21 are planted at positions facing each other at the position facing the air inlet 8. A plurality of cylindrical portions 23 are arranged at intervals from 22. The cylindrical portion 23 is formed by winding a raised cloth into a ring shape, and the cylindrical portion 23 is disposed with a space between the cylindrical portions 23.

図17に示すように、掃除機本体1の回転清掃体収納室16より前方位置には、複数の係合孔24が形成されている。掃除機本体1底面の吸気口8の後方位置には、螺合孔25が形成され、掃除機本体1底面の回転清掃体収納室16の後方位置には、掃除機本体1の両側に螺合孔25が形成されている。掃除機本体1には、複数の第1突起部26が間隔を有して底面のカバー体6の後方位置に配設される。   As shown in FIG. 17, a plurality of engagement holes 24 are formed in front of the rotary cleaning body storage chamber 16 of the cleaner body 1. A screw hole 25 is formed in the rear position of the air inlet 8 on the bottom surface of the cleaner body 1, and is screwed to both sides of the cleaner body 1 in the rear position of the rotary cleaning body storage chamber 16 on the bottom surface of the cleaner body 1. A hole 25 is formed. In the vacuum cleaner main body 1, a plurality of first protrusions 26 are arranged at intervals behind the cover body 6 on the bottom surface.

図6に示すように、第1突起部26の側面方向から見た形状は、前後方向の中央よりも吸気口8側(前方側)が、被清掃面方向に対し、最下部27となり、最下部27の前方及び後方が円弧となる形状に形成している。   As shown in FIG. 6, the shape of the first protrusion 26 viewed from the side surface direction is such that the intake port 8 side (front side) becomes the lowermost portion 27 with respect to the surface to be cleaned from the center in the front-rear direction. The front and rear of the lower part 27 are formed into a circular arc shape.

図10は、カバー体6と回転清掃体18を示す要部斜視図、図18は、カバー体を前方から見た斜視図、図19は、図18におけるC−C断面図である。カバー体6は、吸気口8及び吸気路10を覆うように掃除機本体1底面に装着される。   10 is a perspective view of a main part showing the cover body 6 and the rotary cleaning body 18, FIG. 18 is a perspective view of the cover body as viewed from the front, and FIG. 19 is a cross-sectional view taken along the line CC in FIG. The cover body 6 is attached to the bottom surface of the cleaner body 1 so as to cover the intake port 8 and the intake path 10.

カバー体6の前部には、掃除機本体1の係合孔24に係合する複数の係止爪28が設けられている。カバー体6には、掃除機本体1の螺合孔25に対応する位置に螺合爪29が設けられている。カバー体6は、係止爪28を係合孔24に係合して、係合孔24と係止爪28との係合を支点としてカバー体6を回転させ、螺合爪29を螺合孔25に螺合することで着脱自在に装着される。螺合爪29は、ドライバーやコインにより回転させることができる構成で、約90度程度の回転により係合、係脱を行うことが可能な構成としている。   A plurality of locking claws 28 that engage with the engagement holes 24 of the cleaner body 1 are provided at the front portion of the cover body 6. The cover body 6 is provided with a screwing claw 29 at a position corresponding to the screwing hole 25 of the cleaner body 1. The cover body 6 engages the engaging claw 28 with the engaging hole 24, rotates the cover body 6 with the engagement between the engaging hole 24 and the engaging claw 28 as a fulcrum, and screwed the engaging claw 29. It is detachably mounted by being screwed into the hole 25. The screwing claws 29 can be rotated by a driver or a coin, and can be engaged and disengaged by rotating about 90 degrees.

図3、図18に示すように、カバー体6には、吸気口8及び吸気路10に対応する位置に格子部からなる複数の吸込口30を形成している。カバー体6の吸込口30の前方位置には、回転清掃体18に対応して回転清掃体18の中央エリア部22及び複数の円筒部23が露出する開口部31を形成している。   As shown in FIGS. 3 and 18, the cover body 6 is formed with a plurality of suction ports 30 made of lattice portions at positions corresponding to the intake ports 8 and the intake passage 10. At the front position of the suction port 30 of the cover body 6, an opening 31 that exposes the central area portion 22 and the plurality of cylindrical portions 23 of the rotary cleaning body 18 is formed corresponding to the rotary cleaning body 18.

開口部31間には、リブ部32を形成し、リブ部32により開口部31間を区画している。リブ部32は、複数の円筒部23との間の隙間部分と、中央エリア部22に設けた清掃部材の端部と近傍に配置した円筒部23との間の隙間部分に配置され、円筒部23は、リブ部32よりも下方に突出する外径に形成している。中央エリア部22に設けた一対のブラシ21も、リブ部32よりも下方に突出するように設定している。   Ribs 32 are formed between the openings 31, and the openings 31 are partitioned by the ribs 32. The rib portion 32 is disposed in a clearance portion between the plurality of cylindrical portions 23 and a clearance portion between the end portion of the cleaning member provided in the central area portion 22 and the cylindrical portion 23 disposed in the vicinity thereof. 23 is formed in the outer diameter which protrudes below rather than the rib part 32. As shown in FIG. The pair of brushes 21 provided in the central area part 22 is also set so as to protrude below the rib part 32.

円筒部23を露出させる開口部31の開口縁、特に、後方側の開口縁は、開口縁と円筒部23との隙間を狭くして、回転清掃体18の回転の際に、開口縁と円筒部23との間にシーツ等が巻き込まれないように構成している。   The opening edge of the opening 31 that exposes the cylindrical portion 23, particularly the opening edge on the rear side, narrows the gap between the opening edge and the cylindrical portion 23, and the rotation edge 18 and the cylinder are rotated when the rotary cleaning body 18 rotates. Sheets or the like are prevented from being caught between the portions 23.

カバー体6の中央付近にある吸込口30より後方位置には、螺合爪29の両側位置に、一対の第2突起部33が形成されている。第2突起部33は、第1突起部26と同様に、側面方向から見た形状は、略三角形状であり、三角形の頂部が被清掃面方向に対する最下部34となり、最下部34の位置は、二等辺三角形の中央よりも前後方向に吸気口8側(前方側)に片寄って配置されており、最下部34の前方及び後方が円弧となる形状に形成している。   A pair of second protrusions 33 are formed at positions on both sides of the screwing claw 29 at a position behind the suction port 30 near the center of the cover body 6. Similarly to the first protrusion 26, the second protrusion 33 has a substantially triangular shape when viewed from the side, and the top of the triangle is the lowermost part 34 with respect to the surface to be cleaned, and the position of the lowermost part 34 is Further, they are arranged so as to be offset toward the intake port 8 side (front side) in the front-rear direction with respect to the center of the isosceles triangle, and the front and rear of the lowermost part 34 are formed in a circular arc shape.

第1突起部26と第2突起部33は、お互いの最下部27、最下部34が同じ高さになるように下方に向かって突出している。   The first protrusion 26 and the second protrusion 33 protrude downward so that the lowermost portion 27 and the lowermost portion 34 of each other have the same height.

左右方向(回転清掃体18の長手方向)で最も外側に位置するカバー体6の吸込口30の外側の開口縁は、外側に位置する第1突起部26の外側の側面とほぼ同じ位置に形成されている。   An opening edge on the outer side of the suction port 30 of the cover body 6 located on the outermost side in the left-right direction (longitudinal direction of the rotary cleaning body 18) is formed at substantially the same position as the outer side surface of the first protrusion 26 located on the outer side. Has been.

また、最も内側に位置する吸気口8と対面する吸込口30の外側の開口縁は、第2突起部33の外側の側面とほぼ同じ位置に形成されている。これにより、シーツ等は、リブ部32と第1突起部26及び第2突起部33により押さえられて、吸込口30に吸い付くのを抑制することができる。   Further, the outer opening edge of the suction port 30 facing the innermost intake port 8 is formed at substantially the same position as the outer side surface of the second protrusion 33. Thereby, the sheet or the like can be suppressed from being sucked into the suction port 30 by being pressed by the rib portion 32, the first protrusion portion 26, and the second protrusion portion 33.

また、図3に示すように、第1突起部26と第2突起部33は、最下部27、34が一直線上に位置するように配設されている。第2突起部33の間に螺合爪29が位置しているので、掃除機本体1を布団等の上に載置した際、シーツ等は、両側に位置する第2突起部33により押さえられて螺合爪29に接触することはなく、掃除機本体1を前方向、或いは後方向に移動させる際、螺合爪29にシーツ等が接触して螺合爪29の螺合が外れることを防止することができる。   As shown in FIG. 3, the first protrusion 26 and the second protrusion 33 are arranged so that the lowermost portions 27 and 34 are positioned on a straight line. Since the screwing claws 29 are located between the second protrusions 33, when the cleaner body 1 is placed on a futon or the like, the sheets or the like are pressed by the second protrusions 33 located on both sides. Therefore, when the cleaner body 1 is moved forward or backward, a sheet or the like comes into contact with the screw claw 29 and the screw claw 29 is unscrewed. Can be prevented.

図3、図6に示すように、カバー体6の前方には、開口部31の両側位置に、平坦部35を形成しており、平坦部35は、第1突起部26と第2突起部33の最下部27、34と同じ高さになるように形成されている。平坦部35と両外側に位置する第1突起部26との間に、両側に位置する螺合爪29が位置するよう形成している。   As shown in FIGS. 3 and 6, flat portions 35 are formed in front of the cover body 6 at both side positions of the opening portion 31, and the flat portions 35 are formed by the first protrusion portion 26 and the second protrusion portion. It is formed to be the same height as the lowermost portions 27 and 34 of 33. Between the flat part 35 and the 1st projection part 26 located in the both outer sides, it forms so that the screwing nail | claw 29 located in both sides may be located.

平坦部35と両側に位置する第1突起部26との間に両側に位置する螺合爪29が位置しているので、掃除機本体1を布団等の上に載置した際、シーツ等は、平坦部35と第1突起部26により押さえられて螺合爪29に接触することはなく、掃除機本体1を前方向、或いは後方向に移動させる際、螺合爪29にシーツ等が接触して螺合爪29の螺合が外れることを防止することができる。   Since the screwing claws 29 located on both sides are located between the flat portion 35 and the first protrusions 26 located on both sides, when the cleaner body 1 is placed on a futon or the like, The sheet is not touched by the flat portion 35 and the first protrusion 26 and does not come into contact with the screwing claw 29. When the cleaner body 1 is moved forward or backward, a sheet or the like comes into contact with the screwing claw 29. Thus, the screwing claw 29 can be prevented from being unscrewed.

図11は、掃除機の一部を破断した斜視図、図12は、掃除機の一部を破断し拡大した要部斜視図、図13は、掃除機の回転検出センサーを軸方向に切断した拡大断面図、図14は、掃除機の図13におけるA−A断面図、図15は、掃除機を上下反転させた状態の図13におけるA−A断面図、図16は、掃除機の回転体と回転検出センサーが組み合わさった状態を示す要部斜視図である。   FIG. 11 is a perspective view in which a part of the vacuum cleaner is broken, FIG. 12 is a perspective view in which a part of the vacuum cleaner is broken and enlarged, and FIG. 13 is an axial view of a rotation detection sensor of the vacuum cleaner. FIG. 14 is an AA sectional view of FIG. 13 of the vacuum cleaner, FIG. 15 is an AA sectional view of FIG. 13 in a state where the vacuum cleaner is turned upside down, and FIG. 16 is a rotation of the cleaner. It is a principal part perspective view which shows the state which the body and the rotation detection sensor combined.

図11及び図12に示すように、第1突起部26と第2突起部33の後方位置には、凹設部36が形成され、凹設部36には、多数の突出部37を突出形成した回転体38が回
転自在に支持されている。
As shown in FIGS. 11 and 12, a recessed portion 36 is formed at the rear position of the first protruding portion 26 and the second protruding portion 33, and a large number of protruding portions 37 are formed in the recessed portion 36. The rotating body 38 is rotatably supported.

回転体38は、回転軸39の両側を掃除機本体1内部で軸受け部40により軸支され、一方の回転軸39に、回転体38の回転を検出する回転検出センサー41が配設される。   The rotating body 38 is supported on both sides of the rotating shaft 39 by a bearing 40 inside the cleaner body 1, and a rotation detecting sensor 41 for detecting the rotation of the rotating body 38 is disposed on one rotating shaft 39.

図12、図13、図14、図15及び図16に示すように、回転検出センサー41は、上筐体42と下筐体43からなる筐体44を備えている。筐体44内に位置する回転軸45には、プロペラ形状の複数のスリット46を有する回転板47が回転軸45に対する回転を阻止された状態に固定されている。   As shown in FIGS. 12, 13, 14, 15, and 16, the rotation detection sensor 41 includes a housing 44 including an upper housing 42 and a lower housing 43. A rotating plate 47 having a plurality of propeller-shaped slits 46 is fixed to the rotating shaft 45 located in the housing 44 in a state in which rotation with respect to the rotating shaft 45 is prevented.

また、筐体44内に位置する回転軸45には、回転板47に隣接して振り子板48が装着されている。振り子板48は、一部を切欠した略三日月状に形成し、回転軸45に対して回動可能に装着されている。   In addition, a pendulum plate 48 is attached to the rotating shaft 45 located in the housing 44 adjacent to the rotating plate 47. The pendulum plate 48 is formed in a substantially crescent shape with a part cut away, and is attached to the rotary shaft 45 so as to be rotatable.

振り子板48は、回転軸45に対して回動可能に装着されているため、図14〜図16に示すように、例えば、掃除機本体1が上下反転した際には、振り子板48は、自重により回転する。   Since the pendulum plate 48 is mounted so as to be rotatable with respect to the rotation shaft 45, as shown in FIGS. 14 to 16, for example, when the cleaner body 1 is turned upside down, the pendulum plate 48 is It rotates by its own weight.

筐体44内には、光センサー49を装着している。光センサー49は、発光素子50と受光素子51との間に回転板47と振り子板48を挟むように配設して構成している。光センサー49は、回転体38が回転すると、回転板47が回転して、発光素子50と受光素子51との間の光の受光状態において、回転板47のスリット46が位置する際の光が受光される受光状態と、スリット46が位置せず光が途絶え遮光状態とが連続することを検知することで回転体38の回転を検出する。   An optical sensor 49 is mounted in the housing 44. The optical sensor 49 is configured by arranging a rotating plate 47 and a pendulum plate 48 between the light emitting element 50 and the light receiving element 51. In the optical sensor 49, when the rotating body 38 rotates, the rotating plate 47 rotates, and the light when the slit 46 of the rotating plate 47 is positioned in the light receiving state between the light emitting element 50 and the light receiving element 51. The rotation of the rotating body 38 is detected by detecting that the light receiving state in which light is received and that the slit 46 is not positioned and light is interrupted and the light blocking state continues.

光センサー49は、回転体38の回転を検出すると、図示しない制御部に検出信号を送信し、制御部は、検出信号が一定の閾値を越えた際に、回転体38が被清掃面上で清掃動作が開始された状態と判断し、電動機20を駆動させる。前記閾値の設定としては、掃除機本体1を持ち上げた状態で、回転体38に手が触れる程度の少しの回転では電動機20が駆動しないように、0.5秒間の間に2回以上、光の受光状態が受光と否受光が続いた状態になった時点を閾値として設定している。   When the rotation of the rotating body 38 is detected, the optical sensor 49 transmits a detection signal to a control unit (not shown). When the detection signal exceeds a certain threshold value, the control unit 38 moves the rotating body 38 on the surface to be cleaned. It is determined that the cleaning operation has started, and the electric motor 20 is driven. The threshold value is set such that, with the vacuum cleaner body 1 lifted, the electric motor 20 is not driven by a slight rotation that touches the rotating body 38, so that the light 20 is driven twice or more in 0.5 seconds. Is set as a threshold value when the light receiving state is a state in which light receiving and non-light receiving continue.

また、電動送風機15は、回転検出センサー41の出力にかかわりなく、電源スイッチ7の操作によって駆動する。   Further, the electric blower 15 is driven by the operation of the power switch 7 regardless of the output of the rotation detection sensor 41.

電動機20が駆動されると、回転清掃体18が回転し、回転清掃体18の中央エリア部22に配置した一対のブラシ21が、布団や毛布、寝具等の軟らかい被清掃面に対して接触して内部の塵埃をたたき出し、また回転清掃体18の中央エリア部22以外の両サイドに間隔を有して設けられた複数の円筒部23の回転により、上記被清掃面に対して前方方向に自走するため、軽操作で清掃作業を行うことができる。その際、複数の円筒部23の表面に起毛布をリング状に巻回して形成することにより、上記被清掃面にある塵埃をかき取る作用と、上記被清掃面との滑りが減り自走作用が高まる効果が生まれる。   When the electric motor 20 is driven, the rotary cleaning body 18 rotates, and the pair of brushes 21 arranged in the central area portion 22 of the rotary cleaning body 18 come into contact with a soft surface to be cleaned such as a futon, a blanket, and bedding. The internal dust is knocked out, and the rotation of the plurality of cylindrical portions 23 provided at intervals on both sides other than the central area portion 22 of the rotary cleaning body 18 automatically moves forward with respect to the surface to be cleaned. Because it runs, it can be cleaned with a light operation. At that time, a brushed cloth is wound around the surface of the plurality of cylindrical portions 23 to form a ring shape, so that the dust on the surface to be cleaned can be scraped off, and the sliding with the surface to be cleaned can be reduced. The effect that increases is born.

掃除機本体1を上下反転させた状態では、図15に示すように、振り子板48が自重により回転して、発光素子50と受光素子51との間に移動し、遮光状態となる。   In the state where the vacuum cleaner body 1 is turned upside down, as shown in FIG. 15, the pendulum plate 48 rotates by its own weight, moves between the light emitting element 50 and the light receiving element 51, and enters a light shielding state.

この上下反転させた状態で、回転体38を回しても、光センサー49は、光の受光が途絶えた遮光状態の検出信号を制御部に送信するため、制御部は、検出信号が一定の閾値を越えていないと判断し、電動機20を停止させる。   Even if the rotating body 38 is rotated in the upside down state, the optical sensor 49 transmits a detection signal in a light-shielded state in which light reception is interrupted to the control unit. Therefore, the electric motor 20 is stopped.

これにより、掃除機本体1を上下反転させた状態では、回転体38が静止した状態でも、誤って手や物が触れて回してしまった状態でも、回転清掃体18は回転せず、不用意に手指等が回転する回転清掃体18に触れる恐れを防止することができる。   Thereby, in the state where the vacuum cleaner body 1 is turned upside down, the rotating cleaning body 18 does not rotate and is careless even if the rotating body 38 is stationary or accidentally touched and turned by a hand or an object. It is possible to prevent the fingers from touching the rotating cleaning body 18 that rotates.

回転体38の両サイドに各々配置された回転軸39の軸受け部40は、掃除機本体1の外郭底面に覆われており、その軸受け部40を覆う外郭底面の各々には円弧状の膨出部52が膨出形成されている。   The bearing portions 40 of the rotary shaft 39 disposed on both sides of the rotating body 38 are covered with the outer bottom surface of the cleaner body 1, and each of the outer bottom surfaces covering the bearing portion 40 has an arcuate bulge. The part 52 is bulged.

図6、図20に示すように、円弧状の膨出部52が被清掃面と接地する最下部53は、回転体38の突出部37の最下部54よりも下方に位置するように構成し、膨出部52が、回転体38の近傍に配置され、掃除機本体1の載置面として支え受ける構成としている。   As shown in FIGS. 6 and 20, the lowermost portion 53 where the arcuate bulged portion 52 contacts the surface to be cleaned is configured to be positioned below the lowermost portion 54 of the protruding portion 37 of the rotating body 38. The bulging portion 52 is disposed in the vicinity of the rotating body 38 and is configured to be supported as a mounting surface of the cleaner body 1.

これにより、平坦な面やタフテッドカーペットなど、比較的、掃除機本体1が沈みにくい設置面に載置した際には、膨出部52が先に接地することにより、回転体38が設置面に接触せず、掃除機本体1を移動させても回転検出センサー41は、掃除機本体1の移動を検出することはなく、電動機20を駆動させることがない。   As a result, when the cleaner body 1 is placed on an installation surface that is relatively difficult to sink, such as a flat surface or tufted carpet, the bulging portion 52 is grounded first, so that the rotating body 38 is installed on the installation surface. The rotation detection sensor 41 does not detect the movement of the cleaner main body 1 and does not drive the electric motor 20 even if the cleaner main body 1 is moved without contacting the motor.

従って、掃除機本体1を掃除の対象となる布団や毛布、寝具等の軟らかい被清掃面等とは異なる設置面に載置して、掃除機本体1を移動させたとしても、掃除機本体1の回転清掃体18が回転し、使用者の意思に異なって不用意に、設置面上で動き移動するのを防止することができる。   Therefore, even if the cleaner body 1 is placed on an installation surface different from a soft surface to be cleaned such as a futon, blanket, or bedding to be cleaned, and the cleaner body 1 is moved, the cleaner body 1 Therefore, the rotating cleaning body 18 can be prevented from rotating and moving on the installation surface carelessly in accordance with the intention of the user.

また、掃除機本体1の後方には、車輪55が回転自在に支持されている。平坦部35、第1突起部26と第2突起部33の最下部27、34、膨出部52の最下部53及び車輪55の表面は、平坦面に掃除機本体1を置いた際に、それぞれ全てが接地するように形成されている。   A wheel 55 is rotatably supported behind the cleaner body 1. When the vacuum cleaner main body 1 is placed on a flat surface, the flat portion 35, the lowermost portions 27 and 34 of the first protruding portion 26 and the second protruding portion 33, the lowermost portion 53 of the bulging portion 52, and the surface of the wheel 55, Each is formed so as to be grounded.

上記構成において、掃除機本体1を布団等の上に載置し、電源スイッチ7をONし、取っ手4を把持して掃除機本体1を前方、または後方に移動させる。掃除機本体1の移動により回転体*38が回転し、回転体38の回転を回転検出センサー41が検出して制御部が電動機20及び回転清掃体18を回転駆動する。   In the above configuration, the cleaner body 1 is placed on a futon, the power switch 7 is turned on, the handle 4 is gripped, and the cleaner body 1 is moved forward or backward. The rotary body * 38 is rotated by the movement of the cleaner body 1, the rotation detection sensor 41 detects the rotation of the rotary body 38, and the control unit rotationally drives the electric motor 20 and the rotary cleaning body 18.

掃除機本体1の移動を停止、或いはほぼ停止状態にすると、回転体38の回転が停止、或いはほぼ停止状態となるので、回転体38の回転を回転検出センサー41が検出して制御部が回転清掃体18の回転を停止する。なお、電動送風機15は駆動を継続する。   When the movement of the cleaner body 1 is stopped or almost stopped, the rotation of the rotating body 38 is stopped or almost stopped, so that the rotation detecting sensor 41 detects the rotation of the rotating body 38 and the control unit rotates. The rotation of the cleaning body 18 is stopped. The electric blower 15 continues to be driven.

電動送風機15の駆動により、吸込口30から吸気路10及び吸気口8を介して塵埃や毛髪等が空気とともに吸引され、塵埃が集塵袋13内に捕集される。吸込口30は、掃除機本体1のほぼ全幅にわたって形成されているので、塵埃や毛髪等を効率よく除去することができる。また、開口部31から切欠部17を介して吸気口8を通して塵埃や毛髪等を除去することができる。   By driving the electric blower 15, dust, hair, and the like are sucked together with air from the suction port 30 through the intake passage 10 and the intake port 8, and the dust is collected in the dust collection bag 13. Since the suction port 30 is formed over substantially the entire width of the cleaner body 1, dust, hair, and the like can be efficiently removed. Further, dust, hair, and the like can be removed from the opening 31 through the air inlet 8 through the notch 17.

電動機20の回転により、回転清掃体18が前方(図6において反時計方向)に向かって回転し、起毛布からなる円筒部23とシーツ等との摩擦力により掃除機本体1が前方向に自走するように作用する。これにより、使用者は、ほとんど掃除機本体1を前方向に押す力を加えることなく、掃除機本体1を前方向に移動させることが可能となる。   As the electric motor 20 rotates, the rotary cleaning body 18 rotates forward (counterclockwise in FIG. 6), and the main body of the cleaner 1 automatically moves forward due to the frictional force between the cylindrical portion 23 made of brushed cloth and the sheets. Acts to run. Thereby, the user can move the cleaner main body 1 in the forward direction with almost no force for pushing the cleaner main body 1 in the forward direction.

回転清掃体18の回転により、ブラシ21及び起毛布からなる円筒部23の掻き上げ力によって、シーツ等に付着した塵埃や毛髪等を効率よく除去することができる。   Due to the rotation of the rotary cleaning body 18, dust, hair, and the like attached to the sheets and the like can be efficiently removed by the scraping force of the cylindrical portion 23 made of the brush 21 and the raised cloth.

回転清掃体18の回転によるブラシ21と円筒部23の掻き上げ力、及び電動送風機15の吸引力によりシーツ等が吸込口30に吸い付こうとするが、シーツ等は、リブ部32と第1突起部26及び第2突起部33により押さえられて、吸込口30に吸い付くのを抑制され、掃除機本体1の移動が妨げられるのを抑制することができる。   The sheet or the like tries to suck the suction port 30 by the scraping force of the brush 21 and the cylindrical portion 23 by the rotation of the rotary cleaning body 18 and the suction force of the electric blower 15. It is suppressed by the projection part 26 and the 2nd projection part 33, and it can suppress that it attracts | sucks to the suction inlet 30, and can suppress that the movement of the cleaner body 1 is prevented.

リブ部32に隣接して円筒部23が位置しているので、リブ部32のシーツ等に対する接触力は比較的弱く、リブ部32がシーツ等をいためる恐れは少ないため、リブ部32の幅は比較的少なくすることができ、シーツ等に対する摩擦力を低減して掃除機本体1の移動性を向上することができる。   Since the cylindrical portion 23 is located adjacent to the rib portion 32, the contact force of the rib portion 32 to the sheet or the like is relatively weak, and the rib portion 32 is less likely to damage the sheet or the like. It is possible to reduce the frictional force against the sheets and the like, and the mobility of the cleaner body 1 can be improved.

第1突起部26及び第2突起部33は、シーツ等を押さえてシーツ等が吸込口30に吸い付くのを抑制する作用を発揮するために、リブ部32に比較して幅広く形成している。実験的に効果的であったのは、吸込口30より後方に配置された複数の第1突起部26及び第2突起部33の回転清掃体18の長手方向の厚み寸法は、複数の円筒状の円筒部23の間隔寸法より小さい、3〜12mmの範囲に設定している。   The first protrusions 26 and the second protrusions 33 are formed wider than the ribs 32 in order to exert an effect of suppressing the sheets and the like and suppressing the sheets and the like from adhering to the suction port 30. . It was experimentally effective that the thickness dimension in the longitudinal direction of the rotary cleaning body 18 of the plurality of first protrusions 26 and the second protrusions 33 arranged behind the suction port 30 is a plurality of cylindrical shapes. Is set to a range of 3 to 12 mm, which is smaller than the distance between the cylindrical portions 23.

また、吸込口30より後方に配置された複数の第1突起部26及び第2突起部33の側面方向の形状は、複数の円弧を繋いだ略三角形状とし、この略三角形状の頂部位置、すなわち最下部27、34の位置が、掃除機本体1の前後進行方向に対し、吸込口30側に片寄って形成しているので、シーツ等を抑える作用をより向上することができ、シーツ等の開口部31への吸い付きをより確実に抑制することができる。   Further, the shape in the side surface direction of the plurality of first protrusions 26 and the second protrusions 33 arranged behind the suction port 30 is a substantially triangular shape connecting a plurality of arcs, and the top position of the substantially triangular shape, That is, since the positions of the lowermost portions 27 and 34 are formed so as to be offset toward the suction port 30 side with respect to the front-rear direction of the cleaner body 1, the action of suppressing the sheets can be further improved. The sticking to the opening 31 can be more reliably suppressed.

リブ部32は、前方側を高く形成しているので、掃除機本体1の前方向への移動が妨げられるのを抑制することが可能となる。また、リブ部32は、開口部31側を低く(被掃除面側に位置するように)形成しているので、シーツ等を抑える作用を向上することができ、シーツ等の開口部31へのすいつきをより確実に抑制することができる。   Since the rib part 32 forms the front side high, it becomes possible to suppress that the movement to the front direction of the cleaner body 1 is prevented. Further, since the rib portion 32 is formed so that the opening 31 side is low (so as to be located on the surface to be cleaned), the action of suppressing the sheet or the like can be improved, and the opening to the opening 31 such as the sheet can be improved. Soothing can be more reliably suppressed.

掃除を中断する場合など、掃除機本体1を上下反転させると、図15に示すように、振り子板48が自重により回転して、発光素子50と受光素子51との間に移動し、遮光状態となる。これにより、回転検出センサー41は、遮光状態の検出信号を制御部に送信し、制御部は、電動機20を停止して、回転する回転清掃体18に不用意に手指等が触れる恐れを防止することができる。   When the cleaner body 1 is turned upside down, for example, when cleaning is interrupted, as shown in FIG. 15, the pendulum plate 48 rotates due to its own weight and moves between the light emitting element 50 and the light receiving element 51 to block light. It becomes. Thereby, the rotation detection sensor 41 transmits a detection signal of a light shielding state to the control unit, and the control unit stops the electric motor 20 to prevent a finger or the like from touching the rotating rotating cleaning body 18 inadvertently. be able to.

以上のように、本発明にかかる掃除機は、シーツや布団の軟質生地を清掃する際に、電動機で回転する回転清掃体に備えたブラシや自走作用をもたらす円筒部により、シーツや布団の軟質生地が吸着によって回転清掃体に巻き込むのを防止しつつ、塵埃を効率良く吸塵し、さらに円筒部による自走作用で軽操作で清掃作業ができるため、家庭用ならびに業務用の掃除機として利用することができる。   As described above, the vacuum cleaner according to the present invention, when cleaning a soft cloth such as a sheet or a futon, uses a brush provided in a rotating cleaning body that is rotated by an electric motor or a cylindrical portion that provides a self-propelling action. It is used as a household and commercial vacuum cleaner because it prevents dust from getting caught in the rotary cleaning body by adsorption, absorbs dust efficiently, and can be easily cleaned by the self-propelled action of the cylindrical part. can do.

1 掃除機本体
2 下ケース
3 上ケース
4 取っ手
5 取っ手カバー
6 カバー体
7 電源スイッチ
8 吸気口
9 間隔
10 吸気路
11 蓋体
12 集塵室
13 集塵袋
14 連通路
15 電動送風機
16 回転清掃体収納室
17 切欠部
18 回転清掃体
19 ベルト
20 電動機
21 ブラシ
22 中央エリア部
23 円筒部
24 係合孔
25 螺合孔
26 第1突起部
27 最下部
28 係止爪
29 螺合爪
30 吸込口
31 開口部
32 リブ部
33 第2突起部
34 最下部
35 平坦部
36 凹設部
37 突出部
38 回転体
39 回転軸
40 軸受け部
41 回転検出センサー
42 上筐体
43 下筐体
44 筐体
45 回転軸
46 スリット
47 回転板
48 振り子板
49 光センサー
50 発光素子
51 受光素子
52 膨出部
53 最下部
54 最下部
55 車輪
DESCRIPTION OF SYMBOLS 1 Vacuum cleaner main body 2 Lower case 3 Upper case 4 Handle 5 Handle cover 6 Cover body 7 Power switch 8 Intake port 9 Space | interval 10 Intake path 11 Lid body 12 Dust collection chamber 13 Dust collection bag 14 Communication path 15 Electric blower 16 Rotating cleaning body Storage chamber 17 Notch portion 18 Rotating cleaning body 19 Belt 20 Electric motor 21 Brush 22 Central area portion 23 Cylindrical portion 24 Engagement hole 25 Screw hole 26 First protrusion 27 Lowermost portion 28 Locking claw 29 Screwing claw 30 Suction port 31 Opening portion 32 Rib portion 33 Second projection portion 34 Lowermost portion 35 Flat portion 36 Concavity portion 37 Projection portion 38 Rotating body 39 Rotating shaft 40 Bearing portion 41 Rotation detection sensor 42 Upper housing 43 Lower housing 44 Housing 45 Rotating shaft 46 slit 47 rotating plate 48 pendulum plate 49 optical sensor 50 light emitting element 51 light receiving element 52 bulging part 53 lowest part 54 lowest part 5 wheels

Claims (7)

掃除機本体と、
前記掃除機本体の内部に設けられ、吸引風を発する電動送風機と前記電動送風機の吸引側に連通する集塵室と、
前記掃除機本体の底面に設けられ前記集塵室と連通し被清掃面上の塵埃を吸引する吸気口と、
前記吸気口より前方に配置され前記掃除機本体の前方底面に設けられた回転清掃体収納室と、
前記回転清掃体収納室に回転可能に配置された回転清掃体と、
前記回転清掃体を回転駆動させる電動機と、
前記吸気口より後方に配置され前記掃除機本体の底面から被清掃面方向に突出した複数の突起部と、
前記吸気口より後方に配置され、前記掃除機本体の後方底面に設けられた凹設部と、
前記凹設部に回転可能に配置された複数の突起を有する回転体と、
前記凹設部の一端に設けた軸受け部と、
前記凹設部の他端に設けた回転検出センサー収納部と、
前記回転検出センサー収納部に収納され前記回転体の回転を検知する回転検出センサーと、
前記回転検出センサーの検知信号情報により、前記回転清掃体を回転させる電動機を制御する制御部と、を備え、
前記複数の突起を有する回転体は、前記回転体収納室において、前記軸受け部と前記回転検出センサーにより、回転可能に軸支されており、
前記回転清掃体は、中央エリア部分と前記中央エリア部分以外の両サイドエリア部分とが区別されて構成され、前記中央エリア部分には、清掃部材が前記回転清掃体の長手方向に装着されており、前記中央エリア部分以外の両サイドエリア部分には、周方向に装着された複数の円筒状の円筒部が間隔をおいて配置されて形成されていることを特徴とする電気掃除機。
The vacuum cleaner body,
An electric blower that is provided inside the cleaner body and emits suction air; and a dust collection chamber that communicates with the suction side of the electric blower;
An air inlet that is provided on the bottom surface of the vacuum cleaner main body and communicates with the dust collecting chamber and sucks dust on the surface to be cleaned;
A rotary cleaning body storage chamber disposed in front of the air inlet and provided on the front bottom surface of the cleaner body;
A rotary cleaning body rotatably disposed in the rotary cleaning body storage chamber;
An electric motor for rotationally driving the rotary cleaning body;
A plurality of protrusions disposed rearward of the air inlet and protruding in the direction of the surface to be cleaned from the bottom surface of the cleaner body;
A recessed portion disposed on the rear side of the vacuum cleaner main body, disposed behind the intake port;
A rotating body having a plurality of protrusions rotatably disposed in the recessed portion;
A bearing provided at one end of the recessed portion;
A rotation detection sensor housing provided at the other end of the recessed portion;
A rotation detection sensor that is stored in the rotation detection sensor storage unit and detects the rotation of the rotating body;
A control unit that controls an electric motor that rotates the rotary cleaning body according to detection signal information of the rotation detection sensor;
The rotating body having the plurality of protrusions is rotatably supported by the bearing portion and the rotation detection sensor in the rotating body storage chamber.
The rotary cleaning body is configured by distinguishing a central area portion and both side area portions other than the central area portion, and a cleaning member is attached to the central area portion in the longitudinal direction of the rotary cleaning body. A vacuum cleaner characterized in that a plurality of cylindrical cylindrical parts mounted in the circumferential direction are formed at intervals on both side area parts other than the central area part.
前記回転検出センサーは、
前記回転体の一端側と連結される回転軸と、
前記回転軸に固定され複数のスリットを有した回転板と、
前記回転板の回転数を、前記スリットを通過する光で検出する発光素子と受光素子と、
から構成された、請求項1に記載の電気掃除機。
The rotation detection sensor is
A rotating shaft connected to one end of the rotating body;
A rotating plate fixed to the rotating shaft and having a plurality of slits;
A light emitting element and a light receiving element that detect the number of rotations of the rotating plate with light passing through the slit;
The vacuum cleaner according to claim 1, comprising:
前記回転軸に回転自在に取り付けられ自重により回転することで前記スリットを通過する光を遮蔽する振り子板を、前記回転板の近傍に配置した請求項2に記載の電気掃除機。 The electric vacuum cleaner according to claim 2, wherein a pendulum plate that is rotatably attached to the rotating shaft and rotates by its own weight to shield light passing through the slit is disposed in the vicinity of the rotating plate. 前記軸受け部の外周を覆う前記掃除機本体の外郭底面に円弧状の膨出部を設け、さらに前記回転検出センサー収納部の外周を覆う前記掃除機本体の外郭底面に円弧状の膨出部を設けた請求項1または2に記載の電気掃除機。 An arcuate bulging portion is provided on the outer bottom surface of the vacuum cleaner body covering the outer periphery of the bearing portion, and an arcuate bulging portion is provided on the outer bottom surface of the vacuum cleaner body covering the outer periphery of the rotation detection sensor storage portion. The electric vacuum cleaner according to claim 1 or 2 provided. 被清掃面側において、前記複数の円筒状の円筒部との間の隙間部分と、前記中央エリア部分に設けた清掃部材の端部と近傍に配置した前記円筒部との間の隙間部分にリブ部を配置し、前記リブ部は、回転清掃体と隙間を開け、かつ前記円筒状の円筒部より低い高さに設定したことを特徴とする請求項1〜4のいずれか1項に記載の電気掃除機。 On the surface to be cleaned, ribs are formed between the gap portions between the plurality of cylindrical cylindrical portions and the gap portions between the end portions of the cleaning member provided in the central area portion and the cylindrical portions disposed in the vicinity. 5. The apparatus according to claim 1, wherein the rib portion is set at a height lower than that of the cylindrical cylindrical portion with a gap formed between the rotating cleaning body and the cylindrical portion. Electric vacuum cleaner. 前記掃除機本体の前方底面にカバー体を着脱自在に設け、前記カバー体は、前記回転清掃体に対し隙間を設けかつ周囲全体を覆う開口部と、前記吸気口を覆う格子部を有し、前記リブ部は、前記カバー体の開口部に設けられたことを特徴とする請求項5に記載の電気掃
除機。
A cover body is detachably provided on the front bottom surface of the vacuum cleaner body, and the cover body has an opening that provides a gap with respect to the rotary cleaning body and covers the entire periphery, and a lattice portion that covers the intake port, The vacuum cleaner according to claim 5, wherein the rib portion is provided in an opening of the cover body.
前記吸気口覆う前記カバー体の格子部を、前記掃除機本体の底面から被清掃面方向に隙間を設け、前記カバー体の開口部の左右両端部まで前記格子部を拡張したことを特徴とする請求項6に記載の電気掃除機。 The lattice portion of the cover body covering the air inlet is provided with a gap from the bottom surface of the cleaner body toward the surface to be cleaned, and the lattice portion is extended to both left and right end portions of the opening of the cover body. The electric vacuum cleaner according to claim 6.
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JPH04338434A (en) * 1991-05-14 1992-11-25 Sanyo Electric Co Ltd Vacuum cleaner
JP3545081B2 (en) * 1995-03-13 2004-07-21 三菱電機株式会社 Vacuum cleaner suction tool
JPH09327424A (en) * 1996-06-07 1997-12-22 Daiichi Kokan Kk Rotary sweeping member of vacuum cleaner
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JP2003153836A (en) * 2001-11-22 2003-05-27 Toshiba Tec Corp Suction port body and vacuum cleaner having the same
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JP4940687B2 (en) * 2006-02-17 2012-05-30 パナソニック株式会社 Vacuum cleaner suction tool and vacuum cleaner
KR100814003B1 (en) * 2007-09-05 2008-03-14 김영준 Vacuum cleaner
JP6376639B2 (en) * 2013-11-01 2018-08-22 株式会社コーワ Rotary cleaning body, vacuum cleaner suction tool and vacuum cleaner

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