JP4696789B2 - Vacuum cleaner - Google Patents

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Publication number
JP4696789B2
JP4696789B2 JP2005251146A JP2005251146A JP4696789B2 JP 4696789 B2 JP4696789 B2 JP 4696789B2 JP 2005251146 A JP2005251146 A JP 2005251146A JP 2005251146 A JP2005251146 A JP 2005251146A JP 4696789 B2 JP4696789 B2 JP 4696789B2
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floor
suction
suction tool
flow path
vacuum cleaner
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JP2007061346A (en
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博之 香山
裕明 栗原
誠 村上
幹 保野
博史 西田
聡 古田
加寿子 粟屋
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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、一般家庭等で使用される電気掃除機に関するものである。   The present invention relates to a vacuum cleaner used in general households.

従来、この種の電気掃除機は清掃作業時に、床用吸込具に発生させた吸引する流量と圧力によって塵埃を吸込んでいる。さらに集塵性能を向上させるために、床用吸込具の吸込み口の一部を遮断して、吸引する圧力を高めている(例えば、特許文献1参照)。   Conventionally, this type of vacuum cleaner sucks dust by the suction flow rate and pressure generated in the floor suction tool during cleaning work. Further, in order to improve the dust collection performance, a part of the suction port of the floor suction tool is blocked to increase the suction pressure (for example, see Patent Document 1).

また、壁際等の特定の方向からの吸込み力を上げるために、床用吸込具の吸込み方向を切替えて床用吸込具内部の吸引圧力を低下させない構成としている(例えば、特許文献2参照)。   Moreover, in order to raise the suction force from specific directions, such as a wall side, it is set as the structure which switches the suction direction of a floor suction tool and does not reduce the suction pressure inside a floor suction tool (for example, refer patent document 2).

図8(a)は、前記特許文献1に記載された従来の電気掃除機の床用吸込具の前進時の状態を示す側断面図であり、図8(b)は、同、後退時の状態を示す側段面図である。また、図9は、同、電気掃除機の構成を示す側面図である。   Fig.8 (a) is a sectional side view which shows the state at the time of the advance of the suction tool for floors of the conventional vacuum cleaner described in the said patent document 1, FIG.8 (b) is the same at the time of reverse | retreat It is a side step view which shows a state. FIG. 9 is a side view showing the configuration of the electric vacuum cleaner.

図8(a)(b)及び図9に示すように、掃除機本体1と、可撓性ホース2と、延長管3と、操作ハンドル4と、床用吸込具5と、開口部6と、開口部6の前後に配してこの開口部6と床面との距離を一定に保つ走行ローラー7、8と、流路遮断部である前リップ9及び後リップ10と、電動送風機11から構成されている。   As shown in FIGS. 8A and 8B and FIG. 9, the cleaner body 1, the flexible hose 2, the extension tube 3, the operation handle 4, the floor suction tool 5, and the opening 6 From the running rollers 7 and 8 that are arranged before and after the opening 6 to keep the distance between the opening 6 and the floor surface constant, the front lip 9 and the rear lip 10 that are flow path blocking parts, and the electric blower 11 It is configured.

また、図10(a)は、前記特許文献2に記載された従来の電気掃除機の床用吸込具の床面清掃時の状態を示す側段面図を示すものであり、図10(b)は、同、壁際清掃時の状態を示す側段面図である。   Moreover, Fig.10 (a) shows the side step figure which shows the state at the time of floor cleaning of the floor suction tool of the conventional vacuum cleaner described in the said patent document 2, FIG.10 (b) ) Is a side step view showing the state during wall cleaning.

図10(a)(b)に示すように、前記特許文献1の流路遮断部(前リップ7及び後リップ8)の代わりに前方開口部12と、流路切換部13が設けられている。
特開2000−83872号公報 特開2003−144356号公報
As shown in FIGS. 10 (a) and 10 (b), a front opening 12 and a channel switching unit 13 are provided instead of the channel blocking unit (front lip 7 and rear lip 8) of Patent Document 1. .
JP 2000-83872 A JP 2003-144356 A

しかしながら、前記従来の構成(前記特許文献1)では、床用吸込具5が前進する場合(図8(a)の矢印A)には、流路遮断部である後リップ8が床用吸込具5から吸込む気流を遮断するので、床用吸込具5内部が減圧され、結果として床用吸込具5前方の隙間からの吸引力が増加し(矢印B)、床面から吸い上げられた塵埃はさらに延長管3へと吸引されていくことになる(矢印C)。   However, in the conventional configuration (Patent Document 1), when the floor suction tool 5 moves forward (arrow A in FIG. 8 (a)), the rear lip 8 serving as the flow path blocking unit is provided with the floor suction tool. Since the air flow sucked in from 5 is blocked, the inside of the floor suction tool 5 is depressurized. As a result, the suction force from the gap in front of the floor suction tool 5 is increased (arrow B), and the dust sucked up from the floor surface is further reduced. It will be sucked into the extension tube 3 (arrow C).

また、床用吸込具5が後退する場合(図8(b)の矢印D)には、前進時とは逆に前リップ7が床用吸込具5から吸込む気流を遮断し、床用吸込具5後方の隙間からの吸引力が増加することになる(矢印E)。   Further, when the floor suction tool 5 moves backward (arrow D in FIG. 8B), the air flow sucked from the floor suction tool 5 by the front lip 7 is blocked contrary to the forward movement, and the floor suction tool 5 The suction force from the rear gap increases (arrow E).

一方、他の前記従来の構成(前記特許文献2)では、図10(a)に示すように、床面清掃時には床用吸込具5の前方に設けた前方開口部12が、床用吸込具5内部に回動自在に取り付けられた流路切換部13によって塞がれており、床用吸込具5の下方に設けた開口部6だけから吸引している(矢印B)。   On the other hand, in the other conventional configuration (Patent Document 2), as shown in FIG. 10 (a), the front opening 12 provided in front of the floor suction tool 5 at the time of floor cleaning is a floor suction tool. 5 is closed by a flow path switching unit 13 rotatably attached to the inside, and is sucked only from the opening 6 provided below the floor suction tool 5 (arrow B).

また、図10(b)に示すように、壁際清掃時には床用吸込具5の下方に設けた開口部6が、下方へ回動した流路切換部13によって塞がれており、壁際に近い前方開口部12だけから吸引している(矢印F)。   Moreover, as shown in FIG.10 (b), the opening part 6 provided under the floor suction tool 5 at the time of wall cleaning is obstruct | occluded by the flow-path switching part 13 rotated below, and is near the wall. Suction is performed only from the front opening 12 (arrow F).

これらの電気掃除機において、さらに高い集塵性能を実現するために床用吸込具5内部の圧力をさらに減圧する必要があるが、このためには内蔵する電動送風機11から発生させる吸引圧力を増す必要がある。   In these vacuum cleaners, it is necessary to further reduce the pressure inside the floor suction tool 5 in order to achieve higher dust collection performance. For this purpose, the suction pressure generated from the built-in electric blower 11 is increased. There is a need.

また床用吸込具5と床面との隙間を狭くすることで、床用吸込具5内部の吸引圧力を増すことも可能だが、この場合には大きな塵埃を吸込むことが困難となり、さらには床用吸込部5が常に床面に強い力で吸着していることになるため、床用吸込具5を前後左右に操作するために大きな操作力が必要となるという課題を有していた。   In addition, it is possible to increase the suction pressure inside the floor suction tool 5 by narrowing the gap between the floor suction tool 5 and the floor surface. Since the suction part 5 for a thing always adsorb | sucks with a strong force to the floor surface, in order to operate the suction tool 5 for a floor back and forth and right and left, there existed a subject that a big operation force was needed.

本発明は、前記従来の課題を解決するもので、電動送風機の吸引圧力を増すことなく、かつ操作力を過度に増加することもなく、一時的に床用吸込具内部の圧力をより減圧し、その後、吸引を再開することで、集塵性能を高めた電気掃除機を提供することを目的とする。   The present invention solves the above-described conventional problems, and temporarily reduces the pressure inside the floor suction tool without increasing the suction pressure of the electric blower and without excessively increasing the operating force. Then, it aims at providing the vacuum cleaner which improved dust collection performance by restarting suction after that.

前記従来の課題を解決するために、床用吸込具の下方には開口部と床面との間に隙間を設けるための突部を有し、さらに前記開口部の周囲のいずれかに流路遮断部を有しており、前記流路遮断部は床面に接触して前記開口部への吸引を遮断し前記床用吸込具内部を減圧することができ、その後、前記流路遮断部は床面から離れて前記開口部の吸引を再開することができる構成としたものである。   In order to solve the conventional problem, a floor suction tool has a protrusion for providing a gap between the opening and the floor surface, and a flow path around any of the openings. The flow path blocking section is in contact with the floor surface and can block suction to the opening and depressurize the floor suction tool. In this configuration, the suction of the opening can be resumed away from the floor surface.

これによって、一時的に床用吸込具内部の圧力をより減圧し、その後、吸引を再開することで、吸引を再開した瞬間に開口部での吸引力が一気に増加して、多量の塵埃、絨毯等の床面に強固に絡みついた塵埃、絨毯の深部やフローリング等の目地に入り込んだ塵埃を吸込むことができるものである。   As a result, the pressure inside the floor suction tool is temporarily reduced, and then the suction is resumed. As a result, the suction force at the opening is increased at the same time when the suction is resumed. It is possible to suck in dust that is firmly entangled with the floor surface, and dust that has entered the joints such as the deep part of the carpet or flooring.

本発明の電気掃除機は、電動送風機の吸引圧力を増すことなく、かつ操作力を過度に増加することもなく、一時的に床用吸込具内部の圧力をより減圧し、その後、吸引を再開することで、集塵性能を高めることができ、さらに使い勝手を向上することができる。   The vacuum cleaner of the present invention temporarily reduces the pressure inside the floor suction tool temporarily without increasing the suction pressure of the electric blower and without excessively increasing the operating force, and then resumes suction. By doing so, dust collection performance can be improved and usability can be further improved.

第1の発明は、電気掃除機の本体と、前記本体に内蔵され吸引力を発生させる電動送風
機と、一端を前記本体に接続され他端を延長管に接続される可撓性ホースと、前記延長管の一端に接続される床用吸込具と、前記床用吸込具の下方に設けた開口部と、前記開口部と床面との間に隙間を設定する突部と、前記開口部の全周囲あるいは少なくとも周囲のいずれか1箇所に設けた流路遮断部と、負圧を蓄える圧力貯蔵部を有し、前記流路遮断部が前記開口部と床面との間の隙間通じて前記開口部へ流れる吸引通路を開閉制御することで前記床用吸込具内部を減圧すると同時に前記圧力貯蔵部に蓄えられた負圧も加えて前記床用吸込具の内圧をさらに減圧する構成としたことにより、一時的に床用吸込具内部の圧力をより減圧し、その後、吸引を再開することで、吸引を再開した瞬間に開口部での吸引力が一気に増加して、多量の塵埃、絨毯等の床面に強固に絡みついた塵埃、絨毯の深部やフローリング等の目地に入り込んだ塵埃を吸込むことができ、電動送風機の吸引圧力を増すことなく、かつ操作力を過度に増加することもなく、集塵性能を高めることができ、さらに使い勝手を向上することができる。
また、圧力貯蔵部に蓄えられた負圧も加えているため吸引を再開した瞬間に開口部に発生する吸引力がさらに上昇して、圧力貯蔵部を有しない場合に比べて、さらに多くの塵埃を吸込むことができる。
The first invention includes a main body of a vacuum cleaner, an electric blower built in the main body and generating a suction force, a flexible hose having one end connected to the main body and the other end connected to an extension pipe, A floor suction tool connected to one end of the extension pipe; an opening provided below the floor suction tool; a protrusion that sets a gap between the opening and the floor; and It has a flow path blocking part provided at any one of the entire circumference or at least the circumference, and a pressure storage part that stores negative pressure, and the flow path blocking part passes through a gap between the opening and the floor surface. It is configured to further reduce the internal pressure of the floor suction tool by adding the negative pressure stored in the pressure storage unit at the same time as reducing the pressure inside the floor suction tool by opening and closing the suction passage flowing to the opening. By temporarily reducing the pressure inside the floor suction tool, By opening, the suction force at the opening increases at once when suction is resumed, and a large amount of dust, dust entangled firmly on the floor surface of the carpet, etc., entered the joints such as the deep part of the carpet and flooring Dust can be sucked in, the dust collection performance can be improved without increasing the suction pressure of the electric blower, and the operating force is not increased excessively, and the usability can be further improved.
In addition, since the negative pressure stored in the pressure storage unit is also applied, the suction force generated at the opening further increases at the moment when the suction is resumed, and more dust is generated than when no pressure storage unit is provided. Can inhale.

第2の発明は、特に、第1の発明の流路遮断部を、弾性体としたことにより、流路遮断部が床面に接触するときに床面を損傷させることなく、高速で流路遮断部を床面に接触させることができる。さらに床面に段差が存在していたとしても流路遮断部が変形して床面と密着し床用吸込具内部の圧力を素早く高めることができる。   In the second invention, in particular, the flow path blocking section of the first invention is made of an elastic body, so that the flow path can be flowed at high speed without damaging the floor surface when the flow path blocking section contacts the floor surface. The blocking part can be brought into contact with the floor surface. Furthermore, even if there is a level difference on the floor surface, the flow path blocking portion is deformed to be in close contact with the floor surface, and the pressure inside the floor suction tool can be quickly increased.

第3の発明は、特に、第1または第2の流路遮断部は、床面に最も近接した場合において、床面とは非接触とする構成としたことにより、流路遮断部が吸引を遮断するときに流路遮断部が床面を傷付けることなく、さらに流路遮断部が床面を叩く音を発生させることがない。   In the third aspect of the invention, in particular, the first or second flow path blocking unit is configured to be in non-contact with the floor surface when it is closest to the floor surface. When blocking, the flow path blocking unit does not damage the floor surface, and further, the flow path blocking unit does not generate a sound of hitting the floor surface.

第4の発明は、特に、第1〜第3のいずれか1つの発明の流路遮断部は、吸引の遮断と再開を交互かつ自動的に連続して行う構成としたことにより、常に高い集塵性能を実現することができる。   In the fourth aspect of the invention, in particular, the flow path blocker according to any one of the first to third aspects of the invention is configured such that the blockage and resumption of suction are alternately and automatically continuously performed. Dust performance can be realized.

第5の発明は、特に、第1〜第4のいずれか1つの発明の電気掃除機の塵埃吸引経路のいずれかの箇所に塵埃吸引の有無を検知する検知部と、前記検知部での検知信号を基に前記流路遮断部を制御する制御装置とを有し、塵埃の吸引を前記検知部にて検知した場合にのみ流路遮断部の開閉動作を行い、塵埃の吸引を検知していない場合には、流路遮断部を床面から離し隙間の開いた位置に固定する構成としたことにより、塵埃を吸引する場合にのみ流路遮断部を動作させるので、常に床用吸込具内部の圧力がより減圧され続けているのではないため、清掃作業中に床用吸込具が床面に吸着している総時間を減らすことができ、大きな操作力を必要とせずに清掃作業を行うことができる。   In particular, the fifth aspect of the invention relates to a detection unit that detects presence / absence of dust suction in any part of the dust suction path of the electric vacuum cleaner according to any one of the first to fourth aspects of the invention, and detection by the detection unit. A control device that controls the flow path blocking unit based on a signal, and opens and closes the flow path blocking unit only when dust suction is detected by the detection unit, and detects dust suction. If there is not, the flow passage blocking section is fixed at a position where the gap is separated from the floor, and the flow path blocking section is operated only when dust is sucked. Since the pressure of the air is not continuously reduced, the total time that the floor suction tool is adsorbed to the floor surface during the cleaning operation can be reduced, and the cleaning operation is performed without requiring a large operating force. be able to.

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(a)は、本発明の第1の実施の形態における電気掃除機の床用吸込具の流路遮断部の動作前及び動作後の状態を示す側断面図であり、図1(b)は、動作時を示す側断面図である。また図2は電気掃除機の構成を示す側面図である。
(Embodiment 1)
Fig.1 (a) is a sectional side view which shows the state before the operation | movement of the flow-path interruption | blocking part of the floor suction tool of the vacuum cleaner in the 1st Embodiment of this invention, and an after-operation. ) Is a side cross-sectional view showing the time of operation. FIG. 2 is a side view showing the configuration of the electric vacuum cleaner.

図1(a)(b)及び図2において、掃除機本体21(以下単に本体21という)には、電動送風機22と集塵室23を内蔵している。また床用吸込具24の延長管26側には回動部27を設けてあり、この吸込具回動部27を介して延長管26へと回動自在に接続されている。この延長管26と本体21とは可撓性ホース28によって接続されている。さらに延長管26の一端には操作ハンドル29を設けており、この操作ハンドル29近傍に運転スイッチ30を配している。なお延長管26は伸縮式としており、使用者の身長に合わせて自在に長さを調節できるものである。   1A, 1B, and 2, the cleaner main body 21 (hereinafter simply referred to as the main body 21) includes an electric blower 22 and a dust collection chamber 23. Further, a rotating part 27 is provided on the extension pipe 26 side of the floor suction tool 24, and is connected to the extension pipe 26 via the suction tool rotating part 27 so as to be freely rotatable. The extension pipe 26 and the main body 21 are connected by a flexible hose 28. Further, an operation handle 29 is provided at one end of the extension pipe 26, and an operation switch 30 is disposed in the vicinity of the operation handle 29. The extension tube 26 is telescopic, and the length can be freely adjusted according to the height of the user.

床用吸込具24の下方には開口部41を配してあり、同じく床用吸込具24の下方には開口部41と床面との距離を一定に保つために回転自在な走行ローラー25a、25bを複数個配している。   An opening 41 is arranged below the floor suction tool 24. Similarly, below the floor suction tool 24, a rotatable running roller 25a, which can be rotated to keep the distance between the opening 41 and the floor surface constant, A plurality of 25b are arranged.

なお、床用吸込具24の移動補助を目的に配された走行ローラーの代わりに、軽量化、簡素化、強度向上を目的とするために床用吸込具24下方に複数個の突部を設けたり、また、清掃能力向上を目的とするために床用吸込具24下方に複数個の起毛布や毛ブラシを設けても構わない。さらに走行ローラー、突部、起毛布、毛ブラシを混在して構成することもできる。   A plurality of protrusions are provided below the floor suction tool 24 for the purpose of weight reduction, simplification, and strength improvement, instead of the traveling roller disposed for the purpose of assisting the movement of the floor suction tool 24. Alternatively, a plurality of raised cloths and bristle brushes may be provided below the floor suction tool 24 for the purpose of improving the cleaning ability. Furthermore, a traveling roller, a protrusion, a raised cloth, and a bristle brush can be mixed.

ここで開口部41の周囲には流路遮断部42、43を有しており、この流路遮断部42、43は弾性体(例えばゴム、ウレタン、エラストマー、起毛布、植毛)である。   Here, there are flow passage blocking portions 42 and 43 around the opening 41, and the flow passage blocking portions 42 and 43 are elastic bodies (for example, rubber, urethane, elastomer, brushed cloth, flocking).

流路遮断部42、43は、床用吸込具24に内蔵したアクチュエータ44a(例えばソレノイド、ステッピングモータであり、内部にはスライド伸縮可能なスライド部44bを有する)と可撓性の連結体45a、45bを介して連結してあり、連結体45a、45bは摺動ガイド部46a、46b内を摺動する構成としている。   The flow path blocking parts 42 and 43 are actuators 44a (for example, solenoids or stepping motors having a slide part 44b that can slide and extend inside) built in the floor suction tool 24, and flexible coupling bodies 45a, The connecting bodies 45a and 45b are configured to slide in the sliding guide portions 46a and 46b.

なお、摺動ガイド部46a、46bを、連結体45a、45bを保持し摺動させる位置に配する代わりに、流路遮断部42、43を保持し摺動させる位置に配しても構わない。   Note that the sliding guide portions 46a and 46b may be arranged at positions where the flow path blocking portions 42 and 43 are held and slid instead of being arranged at positions where the coupling bodies 45a and 45b are held and slid. .

このときアクチュエータ44aの動作で流路遮断部42、43を上下させて床面と接触させることができる。   At this time, the flow path blocking portions 42 and 43 can be moved up and down by the operation of the actuator 44a to come into contact with the floor surface.

床用吸込具24と延長管26の接続部付近(例えば吸込具回動部27)には塵埃の量を検知できる検知部47を有しており、検知結果は本体21に内蔵した制御回路48へ送られる。ここで検知部47は赤外線センサーを用いており、発光部49から出したビームを受光部50で受ける構成としており、塵埃が赤外線ビーム(矢印G)を通過することで検知することができる。   In the vicinity of the connecting portion between the floor suction tool 24 and the extension pipe 26 (for example, the suction tool rotating portion 27), there is a detection portion 47 that can detect the amount of dust, and the detection result is a control circuit 48 built in the main body 21. Sent to. Here, the detection unit 47 uses an infrared sensor, and is configured to receive the beam emitted from the light emitting unit 49 by the light receiving unit 50, and can detect the dust passing through the infrared beam (arrow G).

また、アクチュエータ44aも本体21に内蔵した制御回路48と接続されており、この制御回路48からの信号で自在に動作するものである。   The actuator 44 a is also connected to a control circuit 48 built in the main body 21, and can be freely operated by a signal from the control circuit 48.

以上のように構成された電気掃除機について、以下その動作、作用を説明する。   About the vacuum cleaner comprised as mentioned above, the operation | movement and an effect | action are demonstrated below.

清掃作業を行うために、使用者は操作ハンドル29を手に持ち、床用吸込具24を清掃面である床面に置く。そして運転スイッチ30を操作することで電動送風機22が動作を開始して吸引力が発生し、床用吸込具24から床面の塵埃を吸込むことになる。このとき使用者は操作ハンドル29を握りながら床用吸込具24を床面に沿って略前後移動させることで、徐々に床面上の塵埃等を吸引することになる。   In order to perform the cleaning work, the user holds the operation handle 29 in his / her hand and places the floor suction tool 24 on the floor as a cleaning surface. When the operation switch 30 is operated, the electric blower 22 starts to operate and a suction force is generated, and the floor dust is sucked from the floor suction tool 24. At this time, the user gradually sucks dust on the floor surface by moving the floor suction tool 24 substantially back and forth along the floor surface while holding the operation handle 29.

このとき床面へは走行ローラー25a、25bのみが接地しており、床用吸込具24下面と床面との僅かな隙間(しかし塵埃等を吸引するには十分な隙間)から吸引を行う(矢印B、E)。ここから吸引された気流と塵埃は、さらに開口部41を通過し、吸込具回動部27、延長管26、可撓性ホース28を経て、集塵室23へと流れ込み、この集塵室23に塵埃が集塵されていく。さらに気流は電動送風機22を通過し、本体21外部へと排気される。   At this time, only the traveling rollers 25a and 25b are grounded to the floor surface, and suction is performed from a slight gap between the lower surface of the floor suction tool 24 and the floor surface (but a sufficient gap for sucking dust and the like) ( Arrows B, E). The air flow and dust sucked from here further pass through the opening 41 and flow into the dust collecting chamber 23 through the suction tool rotating portion 27, the extension pipe 26 and the flexible hose 28, and this dust collecting chamber 23. Dust is collected on the surface. Further, the airflow passes through the electric blower 22 and is exhausted to the outside of the main body 21.

床用吸込具24を床面に接地させた最初の段階では、アクチュエータ44aへの電力が供給されておらず、すなわち電源オフの状態にあり、アクチュエータ44aのスライド部44bが最も収納されている。その結果、連結体45a、45bを介して連結されている流路遮断部42、43は床面から離れており、床面に散在する塵埃を床用吸込具24の前後の隙間から吸引している(図1(a)の状態)。   At the first stage when the floor suction tool 24 is grounded to the floor surface, the power to the actuator 44a is not supplied, that is, the power is off, and the slide portion 44b of the actuator 44a is stored most. As a result, the flow path blocking portions 42 and 43 connected via the connecting bodies 45a and 45b are separated from the floor surface, and the dust scattered on the floor surface is sucked from the gaps before and after the floor suction tool 24. (State shown in FIG. 1A).

清掃作業すなわち床用吸込具24からの吸引を続けていて、単位時間当たりに検知部47を通過する塵埃の量が多くなると、制御回路48が指令を発しアクチュエータ44aへの電力が瞬時に供給され、すなわち瞬時に電源オンの状態になり、アクチュエータ44aのスライド部44bが急速に突出される。その結果、連結体45a、45bを介して連結されている流路遮断部42、43の一端が床面に接触する(図1(b)の状態)。   When the cleaning operation, that is, suction from the floor suction tool 24 is continued and the amount of dust passing through the detection unit 47 per unit time increases, the control circuit 48 issues a command and the power to the actuator 44a is instantaneously supplied. That is, the power is turned on instantaneously, and the slide portion 44b of the actuator 44a is rapidly protruded. As a result, one end of the flow path blocking portions 42 and 43 connected via the connecting bodies 45a and 45b comes into contact with the floor surface (the state shown in FIG. 1B).

このとき床用吸込具24の開口部41の周囲はほぼ密閉状態となり、床用吸込具24内部の圧力が減圧される。   At this time, the periphery of the opening 41 of the floor suction tool 24 is almost sealed, and the pressure inside the floor suction tool 24 is reduced.

さらに一定時間が経過すると制御回路48からの指令でアクチュエータ44aへの電力供給が瞬時に停止し、アクチュエータ44aのスライド部44bが急速に収納された状態になる。その結果、瞬時に流路遮断部42、43が床面から離され、床用吸込具24下面と床面との隙間が形成される。そして床用吸込具24内部の圧力が流速に変換され、一気に開口部41へと吸引される強力な気流が発生し、この気流と共に床用吸込具24の周囲や下方の塵埃が勢い良く吸引される。   Further, when a certain time elapses, the power supply to the actuator 44a is instantaneously stopped by a command from the control circuit 48, and the slide portion 44b of the actuator 44a is rapidly stored. As a result, the flow path blocking portions 42 and 43 are instantaneously separated from the floor surface, and a gap is formed between the lower surface of the floor suction tool 24 and the floor surface. Then, the pressure inside the floor suction tool 24 is converted into a flow velocity, and a powerful air current is generated that is sucked into the opening 41 at once. The dust around the floor suction tool 24 and below is vigorously sucked along with this air current. The

このとき連結体45a、45bは、摺動ガイド46a、46b内を沿って摺動しているので連結体45a、45bが変形したり外れたりせずに安定した摺動動作を行うことができる。   At this time, since the connecting bodies 45a and 45b slide along the slide guides 46a and 46b, the connecting bodies 45a and 45b can perform a stable sliding operation without being deformed or detached.

アクチュエータ44a内スライド部44bの伸縮動作を、検知部47で塵埃の通過が検知されなくなるまで繰り返し行う。その後、制御回路48にて床面の塵埃が無くなったと判断した時点で、アクチュエータ44aへの電力供給を停止して、再び流路遮断部42、43を床面から離した状態を維持し続ける(図1(a)の状態)。   The expansion / contraction operation of the slide portion 44b in the actuator 44a is repeated until the detection portion 47 does not detect the passage of dust. Thereafter, when the control circuit 48 determines that the dust on the floor has been exhausted, the power supply to the actuator 44a is stopped, and the state where the flow path blocking portions 42 and 43 are separated from the floor again is maintained ( FIG. 1 (a) state).

以上のように、本実施の形態において、床用吸込具24は下方に設けた吸引を行う開口部41と、加えて床用吸込具24の下方には開口部41と床面との間に隙間を設けるための突部である走行ローラー25a、25bを有し、さらに開口部41の周囲(特に前後部分)に流路遮断部42、43を有しており、流路遮断部42、43は床面に接触して開口部41への吸引を遮断し床用吸込具24内部を減圧することができ、その後、流路遮断部42、43は床面から離れて開口部41の吸引を再開することができる構成としたことにより、一時的に床用吸込具内部の圧力をより減圧し、その後、吸引を再開することで、吸引を再開した瞬間に開口部での吸引力が一気に増加して、多量の塵埃、絨毯等の床面に強固に絡みついた塵埃、絨毯の深部やフローリング等の目地に入り込んだ塵埃を吸込むことができ、電動送風機の吸引圧力を増すことなく、集塵性能を高めることができる。   As described above, in the present embodiment, the floor suction tool 24 is provided below the opening 41 that performs suction, and in addition, the floor suction tool 24 is provided between the opening 41 and the floor surface. It has traveling rollers 25a and 25b which are protrusions for providing a gap, and further has flow path blocking portions 42 and 43 around the opening 41 (particularly in the front and rear portions). Is capable of blocking the suction to the opening 41 by contacting the floor surface and depressurizing the inside of the floor suction tool 24. Thereafter, the flow path blocking portions 42 and 43 are separated from the floor surface to suck the opening 41. By adopting a configuration that can be resumed, the pressure inside the floor suction tool is temporarily reduced further, and then the suction is resumed, so that the suction force at the opening immediately increases when the suction is resumed. If there is a lot of dust, the carpet is deeply entangled with the floor of the carpet, etc. And it is possible to suck the dust that has entered the joints flooring etc., without increasing the suction pressure of the electric blower, it is possible to increase the dust collecting performance.

また、流路遮断部42、43を、弾性体としたことにより、流路遮断部42、43が床面に接触するときに床面を損傷させることなく、加えて流路遮断部42、43が床面に当たるときの衝突音を抑制することができる。さらに床面に段差が存在していたとしても流路遮断部42、43が床面の段差に沿って変形して密着するので、床用吸込具24内部の圧力を素早く減圧することができる。   In addition, since the flow path blocking portions 42 and 43 are elastic bodies, the flow path blocking portions 42 and 43 are not damaged when the flow path blocking portions 42 and 43 are in contact with the floor surface. The impact sound when hits the floor can be suppressed. Furthermore, even if there is a step on the floor surface, the flow path blocking portions 42 and 43 are deformed and adhered along the step surface on the floor surface, so that the pressure inside the floor suction tool 24 can be quickly reduced.

また、制御回路48からの指令によりアクチュエータ44aへの電力供給を断続的に行い、流路遮断部42、43を連続的に上下動させて床用吸込具24と床面との隙間の開閉を行う構成としたことにより、吸引の遮断と再開を交互かつ自動的に連続して行えるので、長時間に渡って常に高い集塵性能を実現することができる。   Moreover, the electric power supply to the actuator 44a is intermittently performed according to a command from the control circuit 48, and the flow passage blocking portions 42 and 43 are continuously moved up and down to open and close the gap between the floor suction tool 24 and the floor surface. By adopting such a configuration, the suction can be interrupted and resumed alternately and automatically continuously, so that it is possible to always achieve high dust collection performance over a long period of time.

また、流路遮断部42、43の動作は、塵埃吸引の有無を検知する検知部47を有し、塵埃の吸引を検知した場合にのみ吸引の遮断と再開を行い、塵埃を吸引していない場合には、流路遮断部42、43を床面から離した位置に固定する構成としたことにより、塵埃を吸引する場合にのみ流路遮断部42、43を動作させるので、常に床用吸込具24内部の圧力がより減圧され続けているのではないため、清掃作業中に床用吸込具24が床面に吸着している総時間を減らすことができ、大きな操作力を必要とせずに清掃作業を行うことができる。すなわち操作力を過度に増加することもなく、使い勝手を向上することができる。   In addition, the operation of the flow path blocking units 42 and 43 has a detection unit 47 that detects the presence or absence of dust suction, and when the suction of dust is detected, the suction is blocked and restarted, and the dust is not sucked. In this case, since the flow path blocking portions 42 and 43 are fixed at positions separated from the floor surface, the flow path blocking portions 42 and 43 are operated only when dust is sucked, so that the floor suction is always performed. Since the pressure inside the tool 24 does not continue to be reduced, the total time that the floor suction tool 24 is adsorbed to the floor surface during the cleaning operation can be reduced, and a large operating force is not required. Cleaning work can be performed. That is, usability can be improved without excessively increasing the operating force.

さらに流路遮断部42、43を動作させるためにアクチュエータ44aを動作させるには電力等のエネルギーが必要であるが、塵埃を吸引した場合にのみアクチュエータ44aを動作させることになるため、常にアクチュエータ44aが動作している場合に比べてエネルギーの消費量が少なくすることができる。   Furthermore, in order to operate the actuator 44a in order to operate the flow path blocking units 42 and 43, energy such as electric power is required. However, since the actuator 44a is operated only when dust is sucked, the actuator 44a is always operated. The amount of energy consumed can be reduced compared to when the is operating.

また、図3は、本発明の第1の実施の形態の他の電気掃除機における床用吸込具の流路遮断部の動作時を示す側段面図であり、流路遮断部42、43の床面と接触する箇所を線形状から平坦部51を持った面形状(例えば図3に示すような逆T字形状)としている。   FIG. 3 is a side step view showing the operation of the flow path blocking unit of the floor suction tool in another vacuum cleaner according to the first embodiment of the present invention. The portion that contacts the floor surface is made into a surface shape (for example, an inverted T shape as shown in FIG. 3) having a flat portion 51 from a linear shape.

ここで流路遮断部42、43が上下動して、流路遮断部42、43の平坦部51が床面を叩くことになる。つまり平坦部51という広い面積をもって床面を叩くことになるので、絨毯等の床面に強固に絡みついた塵埃、絨毯の深部やフローリング等の目地に入り込んだ塵埃を床面から舞い上げることで、より多量の塵埃を吸引することができる。   Here, the flow blocking portions 42 and 43 move up and down, and the flat portion 51 of the flow blocking portions 42 and 43 strikes the floor surface. In other words, since the floor surface is hit with a large area of the flat portion 51, dust that has been entangled firmly on the floor surface of the carpet, etc. A larger amount of dust can be sucked.

なお、本実施の形態において、流路遮断部42、43の床面と接触する形状を、平坦部を持った逆T字形状としたが、複数の線形状の集合体である櫛形状(ブラシ形状)、逆Y形状とすることで、床面の広い範囲を叩きながら流路遮断部42、43が床面へ接触する面積を減らして、床用吸込具24が移動するときの床面との摩擦抵抗を軽減し、大きな操作力を必要とせずに清掃作業を行うことができる。すなわち操作力を過度に増加することもなく、使い勝手を向上することができる。   In the present embodiment, the shape that contacts the floor surfaces of the flow path blocking portions 42 and 43 is an inverted T shape having a flat portion, but a comb shape (brush) that is an assembly of a plurality of linear shapes. Shape), by using an inverted Y shape, the area where the flow blocking units 42 and 43 come into contact with the floor surface is reduced while hitting a wide area of the floor surface, and the floor surface when the floor suction tool 24 moves The friction resistance can be reduced, and the cleaning operation can be performed without requiring a large operating force. That is, usability can be improved without excessively increasing the operating force.

また、図4は、本発明の第1の実施の形態の他の電気掃除機における床用吸込具の流路遮断部の動作時を示す側段面図であり、アクチュエータ44a内のスライド部44bが最も突出した状態、つまり流路遮断部42、43が床面に最も近接した場合において、床面とは非接触とする構成としている。図4で示す隙間Hは、ほぼゼロに近い微小隙間に設定できることが望ましい。   FIG. 4 is a side step view showing the operation of the flow path blocking portion of the floor suction tool in another vacuum cleaner according to the first embodiment of the present invention, and a slide portion 44b in the actuator 44a. Is the most protruding state, that is, when the flow path blocking portions 42 and 43 are closest to the floor surface, the floor surface is not contacted. It is desirable that the gap H shown in FIG. 4 can be set to a very small gap close to zero.

これにより、流路遮断部42、43の先端が床面に最も近接し吸引を遮断するときに、流路遮断部42、43が床面を傷付けることなく、さらに流路遮断部が床面を叩く音を発生させることがない。   As a result, when the tips of the flow path blocking portions 42 and 43 are closest to the floor surface and block suction, the flow path blocking portions 42 and 43 do not damage the floor surface, and the flow path blocking portion further blocks the floor surface. Does not generate a tapping sound.

なお、本実施の形態において、検知部47を赤外線センサーとしたが、超音波センサーとしても構わない。   In the present embodiment, the detection unit 47 is an infrared sensor, but may be an ultrasonic sensor.

なお、本実施の形態において、検知部47にて塵埃を検知した場合に、制御回路48はアクチュエータ44aの動作のみを制御しているが、同時に電動送風機22の入力制御を行うことで効率的に消費電力を抑えることができる。   In the present embodiment, when dust is detected by the detection unit 47, the control circuit 48 controls only the operation of the actuator 44a, but at the same time, the input control of the electric blower 22 is performed efficiently. Power consumption can be reduced.

すなわち検知部47にて塵埃を検知していない場合には、アクチュエータ44aのスライド部44bを収納しており、同時に電動送風機22の入力を抑えて少量の塵埃が吸引できる程度の状態にしておく。次に検知部47が塵埃を検知した時点で、アクチュエータ44aのスライド部44bを突出させると同時に、電動送風機22への電力供給を増やして吸引力を増大させるものである。   That is, when the detection unit 47 does not detect dust, the slide unit 44b of the actuator 44a is housed, and at the same time, the input to the electric blower 22 is suppressed so that a small amount of dust can be sucked. Next, when the detection part 47 detects dust, the slide part 44b of the actuator 44a is projected, and at the same time, the power supply to the electric blower 22 is increased to increase the suction force.

また、検知部47での検知情報、つまり吸引している塵埃の量を段階的に把握し、例えば、塵埃が最も少ない段階ではアクチュエータ44aのスライド部44bを収納しており、かつ電動送風機22への電力供給を抑えておく、そして塵埃が少し多くなった段階で電動送風機22への電力供給は変えず(抑えたままで)、スライド部44bのみ動作させる。さらに塵埃が多くなった段階では、電動送風機22への電力供給を増やしても構わない。   In addition, the detection information in the detection unit 47, that is, the amount of dust sucked in, is grasped in a stepwise manner. For example, the slide portion 44b of the actuator 44a is stored at the stage where the dust is the smallest, and the electric blower 22 The power supply to the electric blower 22 is not changed (while the power supply to the electric blower 22 is changed) when the amount of dust is slightly increased, and only the slide portion 44b is operated. Further, when the amount of dust increases, the power supply to the electric blower 22 may be increased.

(実施の形態2)
図5(a)は、本発明の第2の実施の形態の床用吸込具の流路遮断部の動作前及び動作後の状態を示す側段面図であり、図5(b)は、動作時を示す側段面図である。
(Embodiment 2)
Fig.5 (a) is a side step view which shows the state before and after operation | movement of the flow-path interruption | blocking part of the suction tool for floors of the 2nd Embodiment of this invention, FIG.5 (b), It is a side step view which shows the time of operation.

なおアクチュエータ以外の構成は第1の実施の形態と同様であるので、その詳細な説明を省略するものである。   Since the configuration other than the actuator is the same as that of the first embodiment, a detailed description thereof will be omitted.

図5(a)(b)において、床用吸込具24上部に筒状の動力部61を設けており、この内部には圧力変換部62と弾性体部63(例えば圧縮ばね、引張ばね、板ばね、ゴム)を配している。動力部61内部の空間は床用吸込具24内部と連通しており、動力部61は圧力変換部62によって外気(大気圧)と床用吸込具24内部を仕切る構成としている。   5 (a) and 5 (b), a cylindrical power unit 61 is provided above the floor suction tool 24, and a pressure conversion unit 62 and an elastic body unit 63 (for example, a compression spring, a tension spring, and a plate) are provided therein. Springs, rubber). The space inside the power unit 61 communicates with the inside of the floor suction tool 24, and the power unit 61 is configured to partition the outside air (atmospheric pressure) and the inside of the floor suction tool 24 by the pressure conversion unit 62.

さらに圧力変換部62は弾性体部63の弾性力によって床用吸込具24内部側から外気側へと押付け力が作用するように配されている。   Further, the pressure conversion unit 62 is arranged so that a pressing force acts from the inside of the floor suction tool 24 toward the outside air by the elastic force of the elastic body 63.

そして上下動可能な圧力変換部62天板の床用吸込具24側には支柱64を設けてあり、この支柱64は実施の形態1で説明したスライド部44bに相当するスライド部65へクランク可動ができるクランク部66を介して接続されている。ここでスライド部64は連結体45a、45bに連結されている。   Further, a support column 64 is provided on the floor suction tool 24 side of the pressure converter 62 that can move up and down, and this support column 64 is movable to the slide unit 65 corresponding to the slide unit 44b described in the first embodiment. It is connected through a crank part 66 capable of Here, the slide part 64 is connected to the connecting bodies 45a and 45b.

以上のように構成された電気掃除機について、以下その動作、作用を説明する。   About the vacuum cleaner comprised as mentioned above, the operation | movement and an effect | action are demonstrated below.

清掃作業開始時には、図5(a)に示すように、圧力変換部62天板が弾性体部63に押付けられて外気に最も近い場所(最上部)に位置しており、その時、支柱64、クランク部66を介して接続されたスライド部65も圧力変換部62に引っ張られ収納されている。これにより連結体45a、45bを介して流路遮断部42、43も床面から離れた場所に位置しており、床用吸込具24周囲から吸引を行っている(矢印B、矢印C、矢印E)。   At the start of the cleaning operation, as shown in FIG. 5 (a), the pressure conversion unit 62 top plate is pressed against the elastic body part 63 and is located at the place closest to the outside air (the uppermost part). The slide part 65 connected via the crank part 66 is also pulled by the pressure conversion part 62 and stored. As a result, the flow path blocking portions 42 and 43 are also located away from the floor surface via the coupling bodies 45a and 45b, and suction is performed from around the floor suction tool 24 (arrow B, arrow C, arrow E).

清掃作業中は、床面の段差や床用吸込具24の僅かな傾斜が引き金となって床用吸込具24と床面との距離が縮まり、その結果、床用吸込具24内部の吸引圧力が強くなる。この時、動力部61内の圧力変換部62天板が床用吸込具24側に引かれる圧力が弾性体部63の弾性力より大きくなり始めて圧力変換部62天板が床用吸込具24内部側へと移動する。   During the cleaning operation, the step between the floor and the slight inclination of the floor suction tool 24 are triggered to reduce the distance between the floor suction tool 24 and the floor surface. As a result, the suction pressure inside the floor suction tool 24 is reduced. Becomes stronger. At this time, the pressure by which the pressure conversion unit 62 top plate in the power unit 61 is pulled toward the floor suction tool 24 side starts to become larger than the elastic force of the elastic body part 63, and the pressure conversion unit 62 top plate is inside the floor suction tool 24. Move to the side.

これに伴い支柱64が床用吸込具24内部側(下方)へと移動し、この下方へ移動した鉛直移動成分をクランク部66にて水平方向成分に変換し、スライド部65を突出させる。   Along with this, the support column 64 moves to the inside of the floor suction tool 24 (downward), the vertically moving component moved downward is converted into a horizontal component by the crank portion 66, and the slide portion 65 is projected.

そしてスライド部65に連結した連結体45a、45bを介して流路遮断部42、43を床面に近付けさせる。こうすることでさらに床用吸込具24内部の吸引圧力が強まる(減圧される)ため、さらに圧力変換部62天板が床用吸込具24内部側(下方)へと引かれながら移動し、流路遮断部42、43を床面に近付ける。   And the flow-path interruption | blocking parts 42 and 43 are brought close to a floor surface via the coupling bodies 45a and 45b connected with the slide part 65. FIG. As a result, the suction pressure inside the floor suction tool 24 is further strengthened (depressurized), and the top plate of the pressure conversion unit 62 is further moved while being pulled toward the inside of the floor suction tool 24 (downward). The road blocking parts 42 and 43 are brought close to the floor surface.

最終的には、圧力変換部62天板が最も降下し、同じく流路遮断部42、43が床面に接地する(もしくは床面に最も近接する)ので、床用吸込具24内部を減圧できる(図5(b)の状態)。   Eventually, the top plate of the pressure conversion unit 62 descends the most, and the flow path blocking units 42 and 43 are grounded to the floor surface (or closest to the floor surface), so that the inside of the floor suction tool 24 can be decompressed. (State of FIG. 5B).

一方、流路遮断部42、43が床面に接地している状態において、床面の段差や床用吸込具24の僅かな傾斜が引き金となって床用吸込具24と床面との距離が離れると、床用吸込具24内部の吸引圧力が弱くなり、動力部61内の圧力変換部62天板が床用吸込具24側に引かれる圧力が弾性体部63の弾性力より小さくなり始めて圧力変換部62天板が外気側(上方)へと移動し、スライド部65を収納する。   On the other hand, in the state where the flow path blocking portions 42 and 43 are in contact with the floor surface, the step between the floor surface and the slight inclination of the floor suction device 24 trigger the distance between the floor suction device 24 and the floor surface. When the distance is increased, the suction pressure inside the floor suction tool 24 becomes weaker, and the pressure by which the pressure conversion unit 62 top plate in the power unit 61 is pulled toward the floor suction tool 24 becomes smaller than the elastic force of the elastic body part 63. For the first time, the pressure conversion unit 62 top plate moves to the outside air side (upward), and the slide unit 65 is accommodated.

そしてスライド部65に連結した連結体45a、45bを介して流路遮断部42、43を床面から離すことになる。こうすることでさらに床用吸込具24内部の吸引圧力が弱まるため、さらに圧力変換部62天板が外気側(上方)へと引かれながら移動し、流路遮断部42、43を床面から離すことになる。   And the flow-path interruption | blocking parts 42 and 43 are separated from a floor surface via the coupling bodies 45a and 45b connected with the slide part 65. FIG. By doing so, the suction pressure inside the floor suction tool 24 further weakens, so that the pressure conversion unit 62 top plate moves while being pulled toward the outside air (upward), and the flow path blocking units 42 and 43 are moved from the floor surface. Will be separated.

最終的には、圧力変換部62天板が最も上昇し、同じく流路遮断部42、43が床面から離れるので、床用吸込具24内部の吸引圧力を弱めて床用吸込具24と床面の隙間から吸引することができる(図5(a)の状態)。   Eventually, the pressure conversion unit 62 top plate rises most, and the flow path blocking units 42 and 43 are also separated from the floor surface. Therefore, the suction pressure inside the floor suction tool 24 is reduced to reduce the floor suction tool 24 and the floor. Suction can be performed through the gaps between the surfaces (the state shown in FIG. 5A).

以上のように、本実施の形態において、流路遮断部42、43を作動させる動力部61を有し、動力部61は床用吸込部24内部の吸引圧力を動力に変換する圧力変換部62と、弾性体部63から成り、流路遮断部42、43を床面に接触させるときには圧力変換部62の動作力を用い、その後、流路遮断部42、43を床面から離すときには弾性体部63の動作力を用いる構成としたことにより、掃除機が本来持っている吸引力以外に新たにエネルギー源(例えば商用電源、電池)を必要とせずに、簡易な構成で実現することができる。   As described above, in the present embodiment, the power unit 61 that operates the flow path blocking units 42 and 43 is provided, and the power unit 61 converts the suction pressure inside the floor suction unit 24 into power. And an elastic body portion 63. When the flow path blocking sections 42 and 43 are brought into contact with the floor surface, the operating force of the pressure converting section 62 is used, and then when the flow path blocking sections 42 and 43 are separated from the floor surface, the elastic body. By adopting a configuration that uses the operating force of the unit 63, it is possible to realize a simple configuration without requiring a new energy source (for example, a commercial power source or a battery) in addition to the suction force originally possessed by the vacuum cleaner. .

なお、動力部61の動作を、検知部47の検知結果から塵埃を吸引しているときのみ動作する構成としても構わない。   The operation of the power unit 61 may be configured to operate only when dust is sucked from the detection result of the detection unit 47.

すなわち検知部47にて塵埃の吸引を検知していないときには圧力変換部62天板は最上部の位置で固定され、塵埃の吸引を検知した場合に制御回路48からの指令で圧力変換部62天板の固定が解除されて動作可能な状態となる。   That is, when the detection unit 47 does not detect the suction of dust, the pressure conversion unit 62 top plate is fixed at the uppermost position, and when the suction of dust is detected, the pressure conversion unit 62 top is received by a command from the control circuit 48. The plate is released from the fixed state and becomes operable.

このとき圧力変換部62天板の固定方法は、例えば、圧力変換部62天板自体を鉄芯として、外周部にコイルを内蔵した電磁石を用いるか、圧力変換部62天板下方にソレノイドで突出、収納可能なストッパーを用いる方法がある。   At this time, the method of fixing the pressure conversion unit 62 top plate is, for example, using an electromagnet with the pressure conversion unit 62 top plate itself as an iron core and a coil built in the outer periphery, or protruding below the pressure conversion unit 62 top plate by a solenoid. There is a method of using a stopper that can be stored.

もしくは圧力変換部61内部と床用吸込具24内部とを連通する空気通路の途中に、開閉可能な電動の弁を設けて、この弁を塵埃の吸引を検知しているときに開放する構成としても構わない。   Alternatively, an electric valve that can be opened and closed is provided in the middle of an air passage that communicates the inside of the pressure conversion unit 61 and the inside of the floor suction tool 24, and this valve is opened when dust suction is detected. It doesn't matter.

また、動力部61の動作(上下動)から生じる運動エネルギーをコイル等を用いて電気エネルギーに変換し、検知部47を動作させる電源として使用することも可能である。   In addition, kinetic energy generated from the operation (vertical movement) of the power unit 61 can be converted into electrical energy using a coil or the like, and used as a power source for operating the detection unit 47.

次に、図6(a)は、本発明の第2の実施の形態の他の床用吸込具の流路遮断部の動作前の状態を示す側段面図であり、図6(b)は、動作後の状態を示す側段面図である。   Next, Fig.6 (a) is a side step view which shows the state before operation | movement of the flow-path interruption | blocking part of the other floor suction tools of the 2nd Embodiment of this invention, FIG.6 (b). These are side step views showing the state after operation.

なおアクチュエータ以外の構成は第1の実施の形態と同様であるので、その詳細な説明を省略するものである。   Since the configuration other than the actuator is the same as that of the first embodiment, a detailed description thereof will be omitted.

図6(a)(b)において、床用吸込具24内部には、外周にブラシ毛、起毛布、ゴムリップ等を配した回転子71を内蔵しており、回転子71が回転することにより掻き揚げ力が発生して床面から塵埃を離脱させるものである。   6 (a) and 6 (b), a rotor 71 having brush bristles, brushed cloth, rubber lips and the like arranged on the outer periphery is built in the floor suction tool 24, and the rotor 71 is scraped by rotating. A lifting force is generated to remove dust from the floor.

また、この回転子71を回転させる動力源は、例えばモータ、タービン、吸引の気流、床用吸込具24下面に配した移動用の走行ローラー25a、25b等がある。   The power source for rotating the rotor 71 includes, for example, a motor, a turbine, a suction airflow, traveling rollers 25a and 25b for movement disposed on the lower surface of the floor suction tool 24, and the like.

ここで回転子71の一端には、プーリ72を連結してあり、さらにこのプーリ72には伝達部である歯付きベルト73の一端を掛けている。歯付きベルト73の他端は動力変換部74と接続されている。   Here, a pulley 72 is connected to one end of the rotor 71, and one end of a toothed belt 73 serving as a transmission portion is hung on the pulley 72. The other end of the toothed belt 73 is connected to the power converter 74.

この動力変換部74では、歯付きベルト73の前後動を歯車に伝え、さらに別の歯車を経てアクチュエータ44a内のスライド部44bを前後動させる構成としている。そしてスライド部44bが最も突出した状態と最も収納された状態のときに歯車の回転方向が切り替わり、歯付きベルト73の回転方向が同一のままでもスライド部44bが突出、収納を繰り返す構成としている。   The power conversion unit 74 is configured to transmit the back-and-forth movement of the toothed belt 73 to the gear, and further to move the slide unit 44b in the actuator 44a back and forth via another gear. Then, the rotation direction of the gear is switched between the state in which the slide portion 44b protrudes most and the state in which the slide portion 44b is retracted most, and the slide portion 44b repeatedly protrudes and retracts even if the rotation direction of the toothed belt 73 remains the same.

清掃を開始して回転子71が回転し始めると、連結されたプーリ72が回転、併せて歯付きベルト73も回転し始める。そして歯付きベルト73が一定方向に回転していると、アクチュエータ44a内のスライド部44bが突出、収納を繰り返し、同じく流路遮断部42、43も上下動を繰り返すことになる。   When cleaning starts and the rotor 71 starts to rotate, the connected pulley 72 rotates, and the toothed belt 73 also starts to rotate. When the toothed belt 73 rotates in a certain direction, the slide portion 44b in the actuator 44a protrudes and repeats storage, and the flow path blocking portions 42 and 43 also repeat vertical movement.

以上のように、床用吸込具24に内蔵した回転子71の回転力を伝達する伝達部である歯付きベルト73を設け、この歯付きベルト73からの動作力を流路遮断部42、43の作動させる動力に変換する動力変換部74を有する構成としたことにより、回転子71を有する掃除機が本来持っている回転子71の回転力以外に新たにエネルギー源を必要とせずに、簡易な構成で実現することができる。   As described above, the toothed belt 73 is provided as a transmission unit that transmits the rotational force of the rotor 71 built in the floor suction tool 24, and the operating force from the toothed belt 73 is supplied to the flow path blocking units 42 and 43. By having the power conversion unit 74 that converts the power to be operated, the cleaner having the rotor 71 can be simplified without requiring a new energy source other than the rotational force of the rotor 71 originally possessed by the vacuum cleaner. Can be realized with a simple configuration.

また、回転子71の回転方向を常時に切替えることで(例えば回転子71が前回転する場合にスライド部44bが突出、後回転する場合にスライド部44bが収納)、歯付きベルト73とスライド部44bとの間に連結されている歯車の個数を減らすことができる、より軽量で簡易な構成とすることができる。   Further, by switching the rotation direction of the rotor 71 to a constant state (for example, the slide portion 44b protrudes when the rotor 71 rotates forward and the slide portion 44b accommodates when the rotor 71 rotates rearward), the toothed belt 73 and the slide portion. The number of gears connected to 44b can be reduced, and a lighter and simpler configuration can be achieved.

なお、本実施の形態において、伝達部として歯付きベルト73を用いたが、複数個の歯車を用いて伝達しても構わない。   In the present embodiment, the toothed belt 73 is used as the transmission unit, but transmission may be performed using a plurality of gears.

(実施の形態3)
図7(a)は、本発明の第3の実施の形態の床用吸込具の流路遮断部の動作前の状態を示す側段面図であり、図7(b)は、動作後の状態を示す側段面図である。
(Embodiment 3)
Fig.7 (a) is a side step view which shows the state before operation | movement of the flow-path interruption | blocking part of the suction tool for floors of the 3rd Embodiment of this invention, FIG.7 (b) is after operation | movement. It is a side step view which shows a state.

なお圧力貯蔵部以外の構成は第1の実施の形態と同様であるので、その詳細な説明を省略するものである。   Since the configuration other than the pressure storage unit is the same as that of the first embodiment, a detailed description thereof will be omitted.

図7(a)(b)において、床用吸込具24上部に圧力貯蔵部81を設けており、この圧力貯蔵部81は減圧容器82(例えば、真空タンク)と、この減圧容器82と床用吸込具24内部を連通する配管部83と、この配管部83の通気を開閉する駆動弁部84から構成されている。   7A and 7B, a pressure storage unit 81 is provided above the floor suction tool 24. The pressure storage unit 81 includes a decompression container 82 (for example, a vacuum tank), the decompression container 82, and the floor use. The pipe portion 83 communicates with the inside of the suction tool 24, and the drive valve portion 84 opens and closes the ventilation of the pipe portion 83.

さらに減圧容器82には減圧装置85(例えば、真空ポンプ)が配管接続されており、この減圧装置85によって減圧容器82内を減圧することができる。   Further, a decompression device 85 (for example, a vacuum pump) is connected to the decompression vessel 82 by a pipe, and the inside of the decompression vessel 82 can be decompressed by the decompression device 85.

以上のように構成された電気掃除機について、以下その動作、作用を説明する。   About the vacuum cleaner comprised as mentioned above, the operation | movement and an effect | action are demonstrated below.

掃除機に電力が供給され始めると制御回路48の指令で、自動的に減圧装置85が作動を開始して圧力貯蔵部81の減圧容器82内を減圧し始める。所定の負圧に達すると減圧装置85は作動を停止し、減圧容器82内の圧力を一定に保つようにする。   When power is supplied to the vacuum cleaner, the decompression device 85 automatically starts operating in response to a command from the control circuit 48 and begins to decompress the inside of the decompression container 82 of the pressure storage unit 81. When a predetermined negative pressure is reached, the decompression device 85 stops operating, and keeps the pressure in the decompression vessel 82 constant.

そして清掃作業開始時には、図7(a)に示すように、流路遮断部42、43は床面から離れている状態であり、減圧容器82内と床用吸込具24内部を連通する配管部83は駆動弁部84によって閉じられている。   At the start of the cleaning operation, as shown in FIG. 7A, the flow path blocking portions 42 and 43 are separated from the floor surface, and the piping portion that communicates the inside of the decompression container 82 and the inside of the floor suction tool 24. 83 is closed by a drive valve 84.

そこで図7(b)に示すように、実施の形態1での説明と同様に検知部47にて塵埃が吸引され始めたことを検知すると、アクチュエータ44a内のスライド部44bが動作し、流路遮断部42、43が床面に接触して床用吸込具24内部の圧力を高める。   Therefore, as shown in FIG. 7B, when the detection unit 47 detects that dust has started to be sucked in the same manner as described in the first embodiment, the slide unit 44b in the actuator 44a operates, and the flow path The blocking portions 42 and 43 come into contact with the floor surface and increase the pressure inside the floor suction tool 24.

この時、制御回路48からの指令で駆動弁部84が作動し弁が開放され、床用吸込具24内部と減圧容器82内部が連通し、床用吸込具24内がさらに減圧される。   At this time, the drive valve unit 84 is actuated by a command from the control circuit 48 to open the valve, the inside of the floor suction tool 24 and the inside of the decompression container 82 are communicated, and the inside of the floor suction tool 24 is further decompressed.

その後、一定時間が経過後に駆動弁部84が作動し弁が閉じ、床用吸込具24内部と減圧容器82内部が遮断される。   Thereafter, after a predetermined time has elapsed, the drive valve portion 84 is actuated to close the valve, and the inside of the floor suction tool 24 and the inside of the decompression vessel 82 are shut off.

続けてアクチュエータ44a内のスライド部44bが動作し、流路遮断部42、43が床面から離れて、吸引を行う。   Subsequently, the slide part 44b in the actuator 44a is operated, and the flow path blocking parts 42 and 43 are separated from the floor surface to perform suction.

以上のように、本実施の形態において、負圧を蓄える圧力貯蔵部81を有し、流路遮断部42、43を床面に接触して床用吸込具24の内圧をさらに減圧すると同時に圧力貯蔵部81に蓄えた負圧も加えて床用吸込具24の内圧をさらに減圧する構成としたことにより、吸引を再開した瞬間に開口部41に発生する吸引力がさらに上昇して、圧力貯蔵部81を有しない場合に比べてさらに多くの塵埃を吸込むことができる。   As described above, in the present embodiment, the pressure storage unit 81 that stores the negative pressure is provided, and the pressure is simultaneously reduced by further reducing the internal pressure of the floor suction tool 24 by contacting the flow path blocking units 42 and 43 with the floor surface. By adding the negative pressure stored in the storage unit 81 and further reducing the internal pressure of the floor suction tool 24, the suction force generated in the opening 41 at the moment when the suction is resumed further increases, and the pressure storage More dust can be sucked in compared to the case where the portion 81 is not provided.

なお、本実施の形態において、減圧装置85を用いて減圧容器82内を減圧したが、減圧装置85を用いずに、本体21内蔵の電動送風機22の吸引圧力を利用して減圧容器82内部を減圧する構成とすることで床用吸込具24を軽量、簡易化することができる。   In the present embodiment, the inside of the decompression vessel 82 is decompressed using the decompression device 85, but the inside of the decompression vessel 82 is utilized using the suction pressure of the electric blower 22 built in the main body 21 without using the decompression device 85. The floor suction tool 24 can be reduced in weight and simplified by reducing the pressure.

以上のように、本発明にかかる電気掃除機は、電動送風機の吸引圧力を高めることなく、かつ操作力を過度に増加することもなく、一時的に床用吸込具内部の圧力を高め、その後吸引を再開することで、集塵性能を高めることができ、さらに使い勝手を向上することができるので、一般家庭等で使用される電気掃除機等として有用である。   As described above, the vacuum cleaner according to the present invention temporarily increases the pressure inside the floor suction tool without increasing the suction pressure of the electric blower and without excessively increasing the operating force, and thereafter By restarting the suction, the dust collection performance can be improved and the usability can be further improved, so that it is useful as a vacuum cleaner or the like used in general households.

(a)本発明の実施の形態1における電気掃除機の床用吸込具の流路遮断部の動作前の状態を示す側段面図(b)同、床用吸込具の流路遮断部の動作時の状態を示す側段面図(A) Side step view showing the state before the operation of the flow path blocking unit of the floor suction tool of the vacuum cleaner in Embodiment 1 of the present invention (b) Same as the flow path blocking unit of the floor suction tool. Side view showing the operating state 同、電気掃除機の構成を示す側面図Side view showing the configuration of the vacuum cleaner 同、床用吸込具の流路遮断部の動作時を示す側段面図Same side view showing the operation of the flow path blocking part of the floor suction tool 同、床用吸込具の流路遮断部の動作時を示す側段面図Same side view showing the operation of the flow path blocking part of the floor suction tool (a)本発明の実施の形態2における電気掃除機の床用吸込具の流路遮断部の動作前の状態を示す側段面図(b)同、床用吸込具の流路遮断部の動作時の状態を示す側段面図(A) Side step view showing the state before the operation of the flow path blocking part of the floor suction tool of the vacuum cleaner in Embodiment 2 of the present invention (b) Same as above, of the flow path blocking part of the floor suction tool Side view showing the operating state (a)同、床用吸込具の流路遮断部の動作前の状態を示す側段面図(b)同、床用吸込具の流路遮断部の動作時の状態を示す側段面図(A) Side step diagram showing the state before operation of the flow path blocking part of the floor suction tool (b) Side side view showing the state during operation of the flow path blocking part of the floor suction tool (a)本発明の実施の形態3における電気掃除機の床用吸込具の流路遮断部の動作前の状態を示す側段面図(b)同、床用吸込具の流路遮断部の動作時の状態を示す側段面図(A) Side step view showing the state before operation of the flow path blocking portion of the floor suction tool of the vacuum cleaner in Embodiment 3 of the present invention (b) Same as the flow path blocking section of the floor suction tool. Side view showing the operating state (a)従来の電気掃除機の床用吸込具の前進時の状態を示す側段面図(b)同、後退時を示す側段面図(A) Side step view showing the state of the vacuum suction device of the conventional vacuum cleaner when moving forward (b) Side step view showing the reverse state 従来の電気掃除機の構成を示す側面図Side view showing the configuration of a conventional vacuum cleaner (a)他の従来の電気掃除機の床用吸込具の床面清掃時の状態を示す側段面図(b)同、床用吸込具の壁際清掃時の状態を示す側段面図(A) Side step view showing the state of floor suction of the floor suction tool of another conventional electric vacuum cleaner (b) Side step view showing the state of the floor suction tool during cleaning near the wall

符号の説明Explanation of symbols

21 掃除機本体
22 電動送風機
24 床用吸込具
25a、25b 走行ローラー(突部)
26 延長管
28 可撓性ホース
41 開口部
42、43 流路遮断部
47 検知部
61 動力部
62 圧力変換部
63 弾性体部
71 回転子
73 歯付きベルト(伝達部)
74 動力変換部
81 圧力貯蔵部
21 Vacuum Cleaner Body 22 Electric Blower 24 Floor Suction Tool 25a, 25b Traveling Roller (Projection)
26 Extension pipe 28 Flexible hose 41 Opening part 42, 43 Flow path blocking part 47 Detection part 61 Power part 62 Pressure conversion part 63 Elastic body part 71 Rotor 73 Toothed belt (transmission part)
74 Power conversion part 81 Pressure storage part

Claims (5)

電気掃除機の本体と、前記本体に内蔵され吸引力を発生させる電動送風機と、一端を前記本体に接続され他端を延長管に接続される可撓性ホースと、前記延長管の一端に接続される床用吸込具と、前記床用吸込具の下方に設けた開口部と、前記開口部と床面との間に隙間を設定する突部と、前記開口部の全周囲あるいは少なくとも周囲のいずれか1箇所に設けた流路遮断部と、負圧を蓄える圧力貯蔵部を有し、前記流路遮断部が前記開口部と床面との間の隙間通じて前記開口部へ流れる吸引通路を開閉制御することで前記床用吸込具内部を減圧すると同時に前記圧力貯蔵部に蓄えられた負圧も加えて前記床用吸込具の内圧をさらに減圧する構成とした電気掃除機。 A main body of a vacuum cleaner, an electric blower that is built in the main body and generates a suction force, a flexible hose that has one end connected to the main body and the other end connected to an extension pipe, and is connected to one end of the extension pipe A floor suction tool, an opening provided below the floor suction tool, a protrusion that sets a gap between the opening and the floor, and the entire periphery of the opening or at least the periphery of the opening A suction passage having a flow passage blocking portion provided in any one place and a pressure storage portion that stores negative pressure, and the flow passage blocking portion flows to the opening through a gap between the opening and the floor surface A vacuum cleaner configured to further reduce the internal pressure of the floor suction tool by adding a negative pressure stored in the pressure storage unit at the same time that the inside of the floor suction tool is decompressed by controlling opening and closing of the floor. 流路遮断部を、弾性体とした請求項1に記載の電気掃除機。 The vacuum cleaner according to claim 1, wherein the flow path blocking portion is an elastic body. 流路遮断部は、床面に最も近接した場合において、床面とは非接触とする構成とした請求項1または2に記載の電気掃除機。 The electric vacuum cleaner according to claim 1 or 2, wherein the flow path blocking unit is configured to be in non-contact with the floor surface when closest to the floor surface. 流路遮断部は、吸引通路の遮断と再開を交互かつ自動的に連続して行う構成とした請求項1〜3のいずれか1項に記載の電気掃除機。 The vacuum cleaner according to any one of claims 1 to 3, wherein the flow path blocking unit is configured to alternately and automatically continuously block and restart the suction passage. 電気掃除機の塵埃吸引経路のいずれかの箇所に塵埃吸引の有無を検知する検知部と、前記検知部での検知信号を基に前記流路遮断部を制御する制御装置とを有し、塵埃の吸引を前記検知部にて検知した場合にのみ流路遮断部の開閉動作を行い、塵埃の吸引を検知していない場合には、流路遮断部を床面から離し隙間の開いた位置に固定する構成とした請求項1〜4のいずれか1項に記載の電気掃除機。 A detection unit that detects presence / absence of dust suction in any part of the dust suction path of the vacuum cleaner, and a control device that controls the flow path blocking unit based on a detection signal from the detection unit; Only when the suction is detected by the detection unit, the opening / closing operation of the flow path blocking unit is performed, and when the suction of dust is not detected, the flow path blocking unit is separated from the floor surface and the gap is opened. The vacuum cleaner according to any one of claims 1 to 4, wherein the vacuum cleaner is configured to be fixed.
JP2005251146A 2005-08-31 2005-08-31 Vacuum cleaner Expired - Fee Related JP4696789B2 (en)

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CN110101337A (en) * 2019-05-24 2019-08-09 杰之深(苏州)科技有限公司 A kind of height-adjustable floor brush of dust collector of suction inlet
WO2020246026A1 (en) * 2019-06-07 2020-12-10 三菱電機株式会社 Vacuum cleaner head and electric vacuum cleaner
CN110403535A (en) * 2019-09-02 2019-11-05 深圳商斯迈科技有限公司 A kind of hand-held floor-cleaning machine
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