JP2019022864A - Cleaning robot - Google Patents

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JP2019022864A
JP2019022864A JP2018221712A JP2018221712A JP2019022864A JP 2019022864 A JP2019022864 A JP 2019022864A JP 2018221712 A JP2018221712 A JP 2018221712A JP 2018221712 A JP2018221712 A JP 2018221712A JP 2019022864 A JP2019022864 A JP 2019022864A
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dust
main body
cleaning robot
dust collection
housing
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JP6595075B2 (en
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佑毅 矢戸
Yuki YATO
佑毅 矢戸
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Sharp Corp
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Sharp Corp
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Abstract

To provide a cleaning robot capable of improving a dust collection ability and also preventing a travel abnormality.SOLUTION: A cleaning robot includes: a suction port 6 arranged in a bottom surface of a housing so as to suck dust and air; a dust collection part 30 for collecting dust sucked from the suction port 6 and allowing an air stream to pass; an air blow part for discharging an air stream that has passed the dust collection part 30 after being sucked; and an air outlet 7 for discharging an air stream discharged from the air blow part. The dust collection part 30 has a dust collection container 31 for collecting dust sucked from the suction port 6. The air outlet 7 is arranged on an outer peripheral side of an upper surface of the housing and also on an outer peripheral side from the dust collection container 31.SELECTED DRAWING: Figure 2

Description

本発明は、床面上を自走する掃除ロボットに関する。   The present invention relates to a cleaning robot that self-propels on a floor surface.

従来の掃除ロボットは特許文献1に開示されている。この掃除ロボットは吸込口を底面に開口して電動送風機及び集塵部を内装する本体筐体が床面上を自走して掃除を行う。この時、テーブル等の下方を掃除するために本体筐体は高さの低い薄型に形成される。本体筐体には底面から突出する駆動輪及び前輪が設けられる。前輪は駆動輪に対して掃除時の進行方向の前方に配置され、前輪と駆動輪との間に吸込口が配置される。   A conventional cleaning robot is disclosed in Patent Document 1. In this cleaning robot, a suction port is opened on the bottom surface, and the main body housing that houses the electric blower and the dust collecting part runs on the floor surface for cleaning. At this time, in order to clean the lower part of the table or the like, the main body housing is formed in a thin shape with a low height. The main body housing is provided with a drive wheel and a front wheel that protrude from the bottom surface. The front wheel is disposed in front of the driving wheel in the traveling direction during cleaning, and a suction port is disposed between the front wheel and the driving wheel.

本体筐体の前部の下面には吸込口が開口し、後部の周面には排気口が開口する。本体筐体内には電動送風機及び集塵部を有する吸塵部が駆動輪の後方に配置される。電動送風機は吸込口から吸い込まれる吸込気流を発生し、集塵部は吸込気流に含まれる塵埃を捕集する。また、本体筐体内には電動送風機や駆動輪等の各部に電力を供給するバッテリーが設けられる。   A suction port opens on the lower surface of the front portion of the main body casing, and an exhaust port opens on the peripheral surface of the rear portion. In the main body housing, an electric blower and a dust collection unit having a dust collection unit are arranged behind the drive wheels. The electric blower generates a suction airflow sucked from the suction port, and the dust collecting unit collects dust contained in the suction airflow. In addition, a battery for supplying electric power to each part such as an electric blower and driving wheels is provided in the main body casing.

上記構成の掃除ロボットにおいて、掃除運転が開始されると駆動輪及び電動送風機が駆動される。本体筐体は駆動輪及び前輪の回転によって所望の掃除領域の床面上を自走する。電動送風機の駆動によって吸込口から床面上の塵埃を含む気流が吸い込まれる。気流に含まれた塵埃は集塵部で集塵され、塵埃を除去された気流が電動送風機を通過して本体筐体外に排気される。これにより、掃除領域の掃除が行われ、集塵部に堆積した塵埃は集塵部を取り外して廃棄される。   In the cleaning robot having the above configuration, when the cleaning operation is started, the drive wheels and the electric blower are driven. The main body casing is self-propelled on the floor surface of a desired cleaning area by the rotation of the driving wheel and the front wheel. Airflow including dust on the floor surface is sucked from the suction port by driving the electric blower. Dust contained in the airflow is collected by the dust collecting section, and the airflow from which the dust has been removed passes through the electric blower and is exhausted outside the main body casing. As a result, the cleaning area is cleaned, and the dust accumulated in the dust collecting part is removed after the dust collecting part is removed.

特開2000−202792号公報(第4頁−第7頁、第1図)Japanese Unexamined Patent Publication No. 2000-202792 (pages 4-7, FIG. 1)

しかしながら、上記従来の掃除ロボットによると、吸込口に対して掃除時の進行方向の前方に配した前輪によって床面上のゴミが遮られ、集塵能力が低下する問題があった。また、毛髪や糸屑等の繊維状のゴミが前輪に絡みついて前輪が正常に回転せず、床面上の段差を前輪が乗り越えられなくなる。これにより、本体筐体が停止して走行異常となり、掃除領域全体を掃除できない問題もあった。   However, according to the conventional cleaning robot, dust on the floor surface is blocked by the front wheels arranged in front of the suction direction with respect to the suction port, and there is a problem that the dust collecting ability is reduced. In addition, fibrous waste such as hair and lint entangles with the front wheels and the front wheels do not rotate normally, and the front wheels cannot get over the step on the floor surface. As a result, the main body casing stops and travels abnormally, and there is a problem that the entire cleaning area cannot be cleaned.

本発明は、集塵能力を向上するとともに走行異常を防止できる掃除ロボットを提供することを目的とする。   An object of this invention is to provide the cleaning robot which can improve a dust collection capability and can prevent driving | running | working abnormality.

本発明は、塵埃及び空気を吸い込むように筐体の底面に設けられた吸込口と、前記吸込口から吸い込まれた塵埃を集塵すると共に、気流を通過させる集塵部と、前記集塵部を通過した気流を吸入した後に排出する送風部と、前記送風部から排出された気流を排気する排気口と、を備え、前記集塵部は、前記吸込口から吸い込まれた塵埃を集塵する集塵容器を有し、前記排気口は、前記筐体の上面の外周側であって、かつ、前記集塵容器よりも外周側に設けられていることを特徴としている。   The present invention includes a suction port provided on a bottom surface of the housing so as to suck dust and air, a dust collecting unit that collects dust sucked from the suction port and allows airflow to pass therethrough, and the dust collecting unit. An air outlet that exhausts the airflow that has passed through the air outlet, and an exhaust port that exhausts the airflow exhausted from the air outlet, and the dust collector collects the dust sucked in from the air inlet. A dust collecting container is provided, and the exhaust port is provided on the outer peripheral side of the upper surface of the housing and on the outer peripheral side of the dust collecting container.

本発明によると、前輪と駆動輪との間に吸込口が配され、平坦な床面を自走する際に前輪が床面から離れて駆動輪及び後輪が接地する。これにより、床面上のゴミが前輪により遮られず、掃除ロボットの集塵能力を向上することができる。また、繊維状のゴミが前輪に絡みつかないため、本体筐体の走行異常を防止することができる。   According to the present invention, the suction port is arranged between the front wheel and the drive wheel, and when the vehicle runs on a flat floor surface, the front wheel is separated from the floor surface and the drive wheel and the rear wheel are grounded. Thereby, the dust on the floor is not blocked by the front wheels, and the dust collecting ability of the cleaning robot can be improved. In addition, since fibrous dust does not entangle with the front wheels, abnormal running of the main body housing can be prevented.

本発明の実施形態の掃除ロボットを示す斜視図The perspective view which shows the cleaning robot of embodiment of this invention 本発明の実施形態の掃除ロボットを示す側面断面図Side surface sectional drawing which shows the cleaning robot of embodiment of this invention 本発明の実施形態の掃除ロボットを示す底面図The bottom view which shows the cleaning robot of embodiment of this invention 本発明の実施形態の掃除ロボットの集塵部を取り外した状態を示す側面断面図Side surface sectional drawing which shows the state which removed the dust collection part of the cleaning robot of embodiment of this invention 本発明の実施形態の掃除ロボットのモータユニットを示す斜視図The perspective view which shows the motor unit of the cleaning robot of embodiment of this invention. 本発明の実施形態の掃除ロボットのモータユニットを示す正面図The front view which shows the motor unit of the cleaning robot of embodiment of this invention 本発明の実施形態の掃除ロボットのモータユニットを示す上面図The top view which shows the motor unit of the cleaning robot of embodiment of this invention. 本発明の実施形態の掃除ロボットのモータユニットを示す側面図The side view which shows the motor unit of the cleaning robot of embodiment of this invention

以下に本発明の実施形態を図面を参照して説明する。図1は一実施形態の掃除ロボットを示す斜視図である。掃除ロボット1はバッテリー14により駆動輪29(いずれも図2参照)を駆動して自走する平面視円形の本体筐体2を有している。本体筐体2の上面には集塵部30(図2参照)を出し入れする際に開閉する蓋部3が設けられる。   Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a perspective view showing a cleaning robot according to an embodiment. The cleaning robot 1 has a main body housing 2 having a circular shape in plan view, which is driven by driving a driving wheel 29 (both shown in FIG. 2) by a battery 14. A lid 3 that opens and closes when the dust collecting unit 30 (see FIG. 2) is taken in and out is provided on the upper surface of the main body housing 2.

図2、図3は掃除ロボット1の側面断面図及び底面図を示している。本体筐体2には底面から突出して水平な回転軸29aで回転する一対の駆動輪29が配される。駆動輪29の回転軸29aは本体筐体2の中心線C上に配置される。駆動輪29の両輪が同一方向に回転すると本体筐体2が進退し、逆方向に回転すると本体筐体2が中心線Cの回りに回転する。   2 and 3 show a side sectional view and a bottom view of the cleaning robot 1. The main body housing 2 is provided with a pair of drive wheels 29 protruding from the bottom surface and rotating around a horizontal rotation shaft 29a. The rotation shaft 29 a of the drive wheel 29 is disposed on the center line C of the main body housing 2. When both wheels of the drive wheel 29 rotate in the same direction, the main body housing 2 moves forward and backward, and when rotated in the opposite direction, the main body housing 2 rotates around the center line C.

掃除を行う際に進行方向の前方となる本体筐体2の前部には吸込口6が下面に設けられる。吸込口6は本体筐体2の底面に凹設した凹部8の開放面によって床面Fに面して形成される。凹部8内には水平な回転軸で回転する回転ブラシ9が配され、凹部8の両側方には垂直な回転軸で回転するサイドブラシ10が配される。   A suction port 6 is provided on the lower surface of the front portion of the main body housing 2 that is forward in the direction of travel when cleaning. The suction port 6 is formed so as to face the floor surface F by an open surface of a recess 8 that is recessed in the bottom surface of the main body housing 2. A rotating brush 9 that rotates with a horizontal rotating shaft is disposed in the recess 8, and a side brush 10 that rotates with a vertical rotating shaft is disposed on both sides of the recess 8.

凹部8の前方にはローラー形状の前輪27が設けられる。これにより、吸込口6は前輪27と駆動輪29との間に配される。本体筐体2の後端には自在車輪から成る後輪26が設けられる。後述するように、本体筐体2は中心に配した駆動輪29に対して前後方向に重量が配分され、前輪27が床面Fから離れて回転ブラシ9、駆動輪29及び後輪26が床面Fに接地して掃除が行われる。このため、進路前方の塵埃やゴミを前輪27により遮ることなく吸込口6に導くことができる。前輪27は進路上に現れた段差に接地し、本体筐体2が段差を容易に乗り越えられるようになっている。   A roller-shaped front wheel 27 is provided in front of the recess 8. Thus, the suction port 6 is disposed between the front wheel 27 and the drive wheel 29. A rear wheel 26 composed of a free wheel is provided at the rear end of the main body housing 2. As will be described later, the weight of the main body housing 2 is distributed in the front-rear direction with respect to the driving wheel 29 disposed in the center, the front wheel 27 is separated from the floor surface F, and the rotary brush 9, the driving wheel 29 and the rear wheel 26 are disposed on the floor. Cleaning is performed by contacting the surface F. For this reason, dust and dirt in front of the course can be guided to the suction port 6 without being blocked by the front wheel 27. The front wheel 27 is in contact with a step appearing on the course so that the main body housing 2 can easily get over the step.

前輪27の前方には床面Fを検知する床面検知センサ18が設けられる。両駆動輪29の前方には同様の床面検知センサ19が設けられる。下り階段等の段差が進路上に現れると床面検知センサ18の検知によって駆動輪29が停止される。また、床面検知センサ18が誤作動した際に床面検知センサ19の検知によって駆動輪29が停止される。   A floor detection sensor 18 that detects the floor F is provided in front of the front wheel 27. Similar floor surface detection sensors 19 are provided in front of the drive wheels 29. When a step such as a descending staircase appears on the course, the driving wheel 29 is stopped by the detection of the floor detection sensor 18. Further, when the floor surface detection sensor 18 malfunctions, the drive wheels 29 are stopped by the detection of the floor surface detection sensor 19.

本体筐体2の周面の後端にはバッテリー14の充電を行う充電端子4が設けられる。本体筐体2は自走して室内に設置される充電台40に帰還し、充電台40に設けた端子部41に充電端子4が接してバッテリー14を充電する。商用電源に接続される充電台40は通常、室内の側壁Sに沿って設置される。   A charging terminal 4 for charging the battery 14 is provided at the rear end of the peripheral surface of the main body housing 2. The main body casing 2 is self-propelled and returns to the charging stand 40 installed indoors, and the charging terminal 4 contacts the terminal portion 41 provided on the charging stand 40 to charge the battery 14. The charging stand 40 connected to the commercial power supply is usually installed along the side wall S in the room.

本体筐体2内には塵埃を集塵する集塵部30が配される。集塵部30は駆動輪29の回転軸29a上に配され、本体筐体2に設けた集塵室39内に収納される。集塵室39は四方の周面及び底面が覆われた隔離室から成り、本体筐体2内を仕切るように左右方向に延びて形成される。集塵室39の各壁面は長手方向に延びた前壁を除いてそれぞれ閉塞されている。集塵室39の前壁には凹部8に連通する第1吸気路11及び凹部8の上方に配して後述するモータユニット20に連通する第2吸気路12が導出される。   A dust collection unit 30 that collects dust is disposed in the main body housing 2. The dust collection unit 30 is disposed on the rotation shaft 29 a of the drive wheel 29 and is stored in a dust collection chamber 39 provided in the main body housing 2. The dust collection chamber 39 is composed of an isolation chamber whose four circumferential surfaces and bottom are covered, and is formed extending in the left-right direction so as to partition the inside of the main body housing 2. Each wall surface of the dust collection chamber 39 is closed except for the front wall extending in the longitudinal direction. A first intake passage 11 that communicates with the recess 8 and a second intake passage 12 that is disposed above the recess 8 and communicates with a motor unit 20 described later are led out on the front wall of the dust collection chamber 39.

集塵部30は図4に示すように本体筐体2の蓋部3を開いて出し入れすることができる。集塵部30は有底筒状の集塵容器31の上面にフィルタ33を有する上部カバー32が取り付けられる。上部カバー32は可動の係止部32aにより集塵容器31に係止され、係止部32aの操作によって集塵容器31の上面を開閉する。これにより、集塵容器31に堆積した塵埃を廃棄することができる。   As shown in FIG. 4, the dust collecting unit 30 can open and close the lid 3 of the main body housing 2. The dust collecting unit 30 is provided with an upper cover 32 having a filter 33 on the upper surface of a bottomed cylindrical dust collecting container 31. The upper cover 32 is locked to the dust collecting container 31 by a movable locking part 32a, and opens and closes the upper surface of the dust collecting container 31 by operating the locking part 32a. Thereby, the dust accumulated in the dust collecting container 31 can be discarded.

集塵容器31の周面には先端に流入口34aを開口して第1吸気路11に連通する流入路34が導出される。集塵容器31内には流入路34に連続して屈曲により下方に気流を導く流入部34bが設けられる。上部カバー32の周面には先端に流出口35aを開口して第2吸気路12に連通する流出路35が導出される。   An inflow passage 34 that leads to the first intake passage 11 is opened on the peripheral surface of the dust collecting container 31 by opening an inlet 34 a at the tip. An inflow portion 34 b is provided in the dust collection container 31 so as to lead the airflow downward by bending continuously from the inflow passage 34. On the peripheral surface of the upper cover 32, an outflow passage 35 that opens to the front end and communicates with the second intake passage 12 is led out.

流入口34a及び流出口35aの周囲には集塵室39の前壁に密接するパッキン(不図示)が設けられる。これにより、集塵部30を収納した集塵室39内が密閉される。流入口34aの開口面、流出口35aの開口面及び集塵室39の前壁は傾斜面に形成され、集塵部30の出し入れ時の摺動によるパッキンの劣化を防止することができる。   A packing (not shown) that is in close contact with the front wall of the dust collection chamber 39 is provided around the inflow port 34a and the outflow port 35a. Thereby, the inside of the dust collection chamber 39 in which the dust collection unit 30 is accommodated is sealed. The opening surface of the inflow port 34a, the opening surface of the outflow port 35a, and the front wall of the dust collecting chamber 39 are formed in an inclined surface, and deterioration of the packing due to sliding when the dust collecting unit 30 is put in and out can be prevented.

本体筐体2内の集塵室39の後方の上部には制御基板15が配される。集塵室39の後方の下部には着脱自在のバッテリー14が配される。これにより、制御基板15及びバッテリー14は駆動輪29と後輪26との間に配される。制御基板15は掃除ロボット1の各部を制御する制御回路が設けられる。バッテリー14は充電端子4を介して充電台40から充電され、制御基板15、駆動輪29、回転ブラシ9、サイドブラシ10及び電動送風機22等の各部に電力を供給する。   A control board 15 is disposed in the upper part of the main body housing 2 behind the dust collection chamber 39. A detachable battery 14 is disposed at the lower rear of the dust collection chamber 39. Thereby, the control board 15 and the battery 14 are arranged between the drive wheel 29 and the rear wheel 26. The control board 15 is provided with a control circuit for controlling each part of the cleaning robot 1. The battery 14 is charged from the charging stand 40 via the charging terminal 4 and supplies power to the control board 15, the drive wheel 29, the rotating brush 9, the side brush 10, the electric blower 22, and the like.

本体筐体2の前部にはモータユニット20が配置される。図5、図6、図7、図8はモータユニット20の斜視図、上面図、正面図及び側面図をそれぞれ示している。モータユニット20は樹脂成形品のハウジング21とハウジング21内に収納される電動送風機22とを備えている。電動送風機22はモータケース22aで覆われたターボファンにより形成される。   A motor unit 20 is disposed at the front of the main body housing 2. 5, 6, 7 and 8 show a perspective view, a top view, a front view and a side view of the motor unit 20, respectively. The motor unit 20 includes a housing 21 of a resin molded product and an electric blower 22 accommodated in the housing 21. The electric blower 22 is formed by a turbo fan covered with a motor case 22a.

電動送風機22のモータケース22aには軸方向の一端に吸気口(不図示)が開口し、周面の2箇所に排気口(不図示)が開口する。ハウジング21の前面にはモータケース22aの吸気口に対向して開口部23が設けられる。ハウジング21の電動送風機22の両側方にはモータケース22aの各排気口にそれぞれ連通する第1排気路24a及び第2排気路24bが設けられる。第1、第2排気路24a、24bは本体筐体2の上面に設けた排気口7(図2参照)に連通する。   The motor case 22a of the electric blower 22 has an intake port (not shown) opened at one end in the axial direction and an exhaust port (not shown) opened at two locations on the peripheral surface. An opening 23 is provided on the front surface of the housing 21 so as to face the air inlet of the motor case 22a. A first exhaust path 24a and a second exhaust path 24b communicating with the exhaust ports of the motor case 22a are provided on both sides of the electric blower 22 of the housing 21, respectively. The first and second exhaust passages 24 a and 24 b communicate with an exhaust port 7 (see FIG. 2) provided on the upper surface of the main body housing 2.

このため、第1、第2排気路24a、24b及び第2吸気路12(図2参照)は集塵部30と排気口7とを連通させる気流路を構成する。また、第1吸気路11(図2参照)は吸込口6と集塵部30とを連通させる気流路を構成する。   For this reason, the first and second exhaust passages 24 a and 24 b and the second intake passage 12 (see FIG. 2) constitute an air flow path that connects the dust collection unit 30 and the exhaust port 7. The first intake path 11 (see FIG. 2) constitutes an air flow path that allows the suction port 6 and the dust collection unit 30 to communicate with each other.

これにより、電動送風機22を含む気流路が集塵室39の前方に集約して本体筐体2の前部に配置され、気流路を短縮することができる。また、制御基板15及びバッテリー14が集塵室39の後方に集約して本体筐体2の後部に配置され、配線等を削減することができる。従って、本体筐体2の小型化を図ることができる。また、気流の流路が制御基板15から離れるため、気流が漏れた際に制御基板15への塵埃の付着を低減して制御回路の故障を低減することができる。   Thereby, the air flow path including the electric blower 22 is concentrated in front of the dust collecting chamber 39 and disposed in the front portion of the main body housing 2, and the air flow path can be shortened. Further, the control board 15 and the battery 14 are gathered behind the dust collecting chamber 39 and arranged at the rear part of the main body housing 2, and wiring and the like can be reduced. Therefore, the main body housing 2 can be reduced in size. Moreover, since the flow path of the airflow is separated from the control board 15, it is possible to reduce the adhesion of dust to the control board 15 when the airflow leaks and reduce the failure of the control circuit.

また、重量の大きい電動送風機22及びバッテリー14を駆動輪29の回転軸29aの前後に分散して配置するので、本体筐体2の中心線Cを通る回転軸29aに対して前後方向にバランスして重量が配分される。この時、電動送風機22の重量が大きいため、制御基板15及びバッテリー14を駆動輪29の回転軸29aの後方に配置することによってより良好な重量バランスにすることができる。   In addition, since the heavy electric blower 22 and the battery 14 are distributed in the front and rear of the rotation shaft 29a of the drive wheel 29, they are balanced in the front-rear direction with respect to the rotation shaft 29a passing through the center line C of the main body housing 2. The weight is distributed. At this time, since the weight of the electric blower 22 is large, a better weight balance can be achieved by disposing the control board 15 and the battery 14 behind the rotation shaft 29a of the drive wheel 29.

第1排気路24aには一対の電極28aを有したイオン発生装置28が配される。電極28aには交流波形またはインパルス波形から成る電圧が印加され、電極28aのコロナ放電により生成されたイオンが第1排気路24aに放出される。   An ion generator 28 having a pair of electrodes 28a is disposed in the first exhaust path 24a. A voltage having an AC waveform or an impulse waveform is applied to the electrode 28a, and ions generated by corona discharge of the electrode 28a are discharged to the first exhaust path 24a.

一方の電極28aには正電圧が印加され、コロナ放電による水素イオンが空気中の水分と結合して主としてH+(H2O)mから成るプラスイオンを発生する。他方の電極28aには負電圧が印加され、コロナ放電による酸素イオンが空気中の水分と結合して主としてO2−(H2O)nから成るマイナスイオンを発生する。ここで、m、nは任意の自然数である。H+(H2O)m及びO2−(H2O)nは空気中の浮遊菌や臭い成分の表面で凝集してこれらを取り囲む。   A positive voltage is applied to one electrode 28a, and hydrogen ions generated by corona discharge combine with moisture in the air to generate positive ions mainly composed of H + (H2O) m. A negative voltage is applied to the other electrode 28a, and oxygen ions generated by corona discharge combine with moisture in the air to generate negative ions mainly composed of O2- (H2O) n. Here, m and n are arbitrary natural numbers. H + (H2O) m and O2- (H2O) n aggregate around the surface of airborne bacteria and odorous components and surround them.

そして、式(1)〜(3)に示すように、衝突により活性種である[・OH](水酸基ラジカル)やH2O2(過酸化水素)を微生物等の表面上で凝集生成して浮遊菌や臭い成分を破壊する。ここで、m’、n’は任意の自然数である。従って、プラスイオン及びマイナスイオンを発生して排気口7(図2参照)から送出することにより室内の除菌及び脱臭を行うことができる。   Then, as shown in the formulas (1) to (3), the active species [.OH] (hydroxyl radical) and H2O2 (hydrogen peroxide) are agglomerated on the surface of the microorganism or the like by collision to cause floating bacteria or Destroy odorous components. Here, m ′ and n ′ are arbitrary natural numbers. Therefore, it is possible to sterilize and deodorize the room by generating positive ions and negative ions and sending them out from the exhaust port 7 (see FIG. 2).

H+(H2O)m+O2−(H2O)n→・OH+1/2O2+(m+n)H2O ・・・(1)
H+(H2O)m+H+(H2O)m’+O2−(H2O)n+O2−(H2O)n’
→ 2・OH+O2+(m+m'+n+n')H2O ・・・(2)
H+(H2O)m+H+(H2O)m’+O2−(H2O)n+O2−(H2O)n’
→ H2O2+O2+(m+m'+n+n')H2O ・・・(3)
また、第1排気路24aの下部には前面を開口した戻り口25が設けられる。戻り口25はハウジング21の前面に突出する突出部25aにより上方を覆われ、開口面を凹部8(図2参照)の壁面に沿った曲面に形成される。これにより、戻り口25は凹部8の壁面に設けた孔部(不図示)を介して凹部8内に臨み、第1排気路24aを流通するイオンを含む気流の一部が吸気側に導かれる。
H + (H2O) m + O2- (H2O) n → OH + 1/2 O2 + (m + n) H2O (1)
H + (H2O) m + H + (H2O) m '+ O2- (H2O) n + O2- (H2O) n'
→ 2 OH + O2 + (m + m ′ + n + n ′) H2O (2)
H + (H2O) m + H + (H2O) m '+ O2- (H2O) n + O2- (H2O) n'
→ H2O2 + O2 + (m + m ′ + n + n ′) H2O (3)
Further, a return port 25 having an open front is provided at the lower part of the first exhaust path 24a. The return port 25 is covered upward by a protruding portion 25a protruding from the front surface of the housing 21, and the opening surface is formed as a curved surface along the wall surface of the recess 8 (see FIG. 2). As a result, the return port 25 faces into the recess 8 through a hole (not shown) provided on the wall surface of the recess 8, and a part of the airflow including ions flowing through the first exhaust path 24 a is guided to the intake side. .

上記構成の掃除ロボット1において、掃除運転が指示されると、電動送風機22、イオン発生装置28、駆動輪29、回転ブラシ9及びサイドブラシ10が駆動される。これにより、本体筐体2は回転ブラシ9、駆動輪29及び後輪26が平坦な床面Fに接地して所定の掃除領域を自走する。   In the cleaning robot 1 having the above configuration, when a cleaning operation is instructed, the electric blower 22, the ion generator 28, the driving wheel 29, the rotating brush 9, and the side brush 10 are driven. As a result, the main body housing 2 is self-propelled in a predetermined cleaning area with the rotating brush 9, the driving wheel 29 and the rear wheel 26 contacting the flat floor F.

本体筐体2の前進によって床面F上の塵埃やゴミは前輪27の下方を通過し、吸込口6から吸い込まれる。この時、回転ブラシ9の回転によって床面F上の塵埃が掻き上げられて凹部8内に導かれる。また、サイドブラシ10の回転によって吸込口6の側方の塵埃が吸込口6に導かれる。   Due to the advancement of the main body housing 2, dust and dirt on the floor surface F pass under the front wheel 27 and are sucked from the suction port 6. At this time, the dust on the floor surface F is scraped up by the rotation of the rotating brush 9 and guided into the recess 8. Further, the dust on the side of the suction port 6 is guided to the suction port 6 by the rotation of the side brush 10.

吸込口6から吸い込まれた気流は矢印A1に示すように第1吸気路11を後方に流通し、流入口34aを介して集塵部30に流入する。集塵部30に流入した気流はフィルタ33により塵埃を捕集され、流出口35aを介して集塵部30から流出する。これにより、集塵容器31内に塵埃やゴミが集塵して堆積する。集塵部30から流出した気流は矢印A2に示すように第2吸気路12を前方に流通し、開口部23を介してモータユニット20の電動送風機22に流入する。   The airflow sucked from the suction port 6 flows rearward through the first intake passage 11 as indicated by an arrow A1, and flows into the dust collecting unit 30 via the inflow port 34a. The airflow that has flowed into the dust collector 30 collects dust by the filter 33 and flows out of the dust collector 30 through the outlet 35a. As a result, dust and dirt are collected and accumulated in the dust collecting container 31. The airflow flowing out from the dust collection unit 30 flows forward through the second intake passage 12 as indicated by an arrow A2, and flows into the electric blower 22 of the motor unit 20 through the opening 23.

電動送風機22を通過した気流は第1排気路24a及び第2排気路24bを流通し、第1排気路24aを流通する気流にはイオンが含まれる。そして、本体筐体2の上面に設けた排気口7から矢印A3に示すように上方後方に向けて斜め方向にイオンを含む気流が排気される。これにより、室内の掃除が行われるとともに、自走する本体筐体2の排気に含まれるイオンが室内に行き渡って室内の除菌や脱臭が行われる。この時、排気口7から上方に向けて排気するので、床面Fの塵埃の巻き上げを防止して室内の清浄度を向上することができる。   The airflow that has passed through the electric blower 22 flows through the first exhaust path 24a and the second exhaust path 24b, and the airflow that flows through the first exhaust path 24a contains ions. Then, an air flow containing ions in an oblique direction is exhausted upward and rearward from an exhaust port 7 provided on the upper surface of the main body housing 2 as indicated by an arrow A3. As a result, the room is cleaned, and ions contained in the exhaust of the self-propelled main body casing 2 are distributed into the room to be sterilized and deodorized in the room. At this time, since the air is exhausted upward from the exhaust port 7, it is possible to prevent the dust on the floor surface F from being rolled up and improve the cleanliness of the room.

第1排気路24aを流通する気流の一部は矢印A4に示すように戻り口25を介して凹部8に導かれる。このため、吸込口6から第1吸気路11に導かれる気流内にイオンが含まれる。これにより、集塵部30の集塵容器31やフィルタ33の除菌及び脱臭を行うことができる。   A part of the airflow flowing through the first exhaust path 24a is guided to the recess 8 through the return port 25 as indicated by an arrow A4. For this reason, ions are included in the airflow guided from the suction port 6 to the first intake passage 11. Thereby, sterilization and deodorization of the dust collection container 31 and the filter 33 of the dust collection part 30 can be performed.

また、本体筐体2が掃除領域の周縁に到達した場合や進路上の障害物に衝突すると、駆動輪29が停止される。そして、駆動輪29の両輪を互いに逆方向に回転し、本体筐体2が中心線Cを中心に回転して向きを変える。これにより、掃除領域全体に本体筐体2を自走させるとともに障害物を避けて自走させることができる。尚、駆動輪29の両輪を前進時に対して反転して本体筐体2を後退させてもよい。   Further, when the main body housing 2 reaches the peripheral edge of the cleaning area or when it collides with an obstacle on the course, the driving wheel 29 is stopped. Then, both wheels of the drive wheel 29 rotate in opposite directions, and the main body housing 2 rotates around the center line C and changes its direction. Thereby, while making the main body housing | casing 2 self-propelled to the whole cleaning area | region, an obstacle can be avoided and self-propelled. Note that the main body housing 2 may be moved backward by reversing both wheels of the drive wheel 29 with respect to forward movement.

掃除が終了すると、本体筐体2は自走して充電台40に帰還する。これにより、充電端子4が端子部41に接してバッテリー14が充電される。   When the cleaning is completed, the main body housing 2 self-propels and returns to the charging stand 40. Thereby, the charging terminal 4 contacts the terminal part 41 and the battery 14 is charged.

また、設定によって本体筐体2の帰還状態でバッテリー14の充電中や充電終了後に電動送風機22及びイオン発生装置28を駆動することができる。これにより、排気口7から上方後方にイオンを含む気流が送出される。充電端子4が本体筐体2の後端に設けられるため、イオンを含む気流は充電台40の方向に流通して側壁Sに沿って上昇する。該気流は室内の天井壁及び対向する側壁に沿って流通する。従って、イオンが室内全体に行き渡り、除菌効果や脱臭効果を向上させることができる。   In addition, the electric blower 22 and the ion generator 28 can be driven while the battery 14 is being charged or after the charging is completed in the feedback state of the main body housing 2 depending on the setting. As a result, an airflow containing ions is sent from the exhaust port 7 upward and rearward. Since the charging terminal 4 is provided at the rear end of the main body housing 2, the airflow including ions flows in the direction of the charging base 40 and rises along the side wall S. The airflow circulates along the indoor ceiling wall and the opposite side wall. Accordingly, the ions are spread throughout the room, and the sterilizing effect and the deodorizing effect can be improved.

本実施形態によると、前輪27と駆動輪29との間に吸込口6が配され、平坦な床面Fを自走する際に前輪27が床面Fから離れて駆動輪29及び後輪26が接地する。これにより、床面F上のゴミが前輪27により遮られず、掃除ロボット1の集塵能力を向上することができる。また、繊維状のゴミが前輪27に絡みつかないため、本体筐体2の走行異常を防止することができる。   According to the present embodiment, the suction port 6 is disposed between the front wheel 27 and the drive wheel 29, and the front wheel 27 moves away from the floor surface F when traveling on the flat floor surface F, and the drive wheel 29 and the rear wheel 26. Is grounded. Thereby, the dust on the floor F is not blocked by the front wheels 27, and the dust collection capability of the cleaning robot 1 can be improved. In addition, since fibrous dust does not entangle with the front wheel 27, abnormal running of the main body housing 2 can be prevented.

また、駆動輪29の回転軸29aを本体筐体2の中心線C上からずれて配置してもよいが、本実施形態のように回転軸29aを中心線C上に配置するとより望ましい。これにより、駆動輪29の両輪を逆方向に回転し、本体筐体2の向きを同じ位置で容易に変えることができる。この時、本実施形態のように本体筐体2が平面視円形に形成されると、向きを変える際に本体筐体2と障害物との衝突を防止することができる。   In addition, the rotation shaft 29a of the drive wheel 29 may be arranged so as to be shifted from the center line C of the main body housing 2, but it is more desirable to arrange the rotation shaft 29a on the center line C as in the present embodiment. Thereby, both wheels of the drive wheel 29 can be rotated in the opposite directions, and the orientation of the main body housing 2 can be easily changed at the same position. At this time, when the main body housing 2 is formed in a circular shape in plan view as in the present embodiment, collision between the main body housing 2 and the obstacle can be prevented when the orientation is changed.

また、掃除を行う際に回転ブラシ9が接地するので、床面Fから前輪27が離れた本体筐体2を回転ブラシ9、駆動輪29及び後輪26により安定して接地することができる。   Further, since the rotating brush 9 is grounded during cleaning, the main body housing 2 from which the front wheel 27 is separated from the floor surface F can be stably grounded by the rotating brush 9, the driving wheel 29 and the rear wheel 26.

また、駆動輪29と後輪26との間にバッテリー14及び制御基板15を配置したので、床面Fから前輪27が離れた本体筐体2をバッテリー14及び制御基板15の重量により駆動輪29及び後輪26で安定して接地することができる。
<付記>
本発明は、床面に対峙する吸込口を底面に開口する本体筐体と、水平な回転軸を有して前記本体筐体を自走させる一対の駆動輪と、前記駆動輪に対して掃除時の進行方向の前方に配される前輪と、前記駆動輪に対して掃除時の進行方向の後方に配される後輪とを備え、前記前輪と前記駆動輪との間に前記吸込口が配されるとともに、平坦な床面を自走する際に前記前輪が床面から離れて前記駆動輪及び前記後輪が接地することを特徴としている。
In addition, since the battery 14 and the control board 15 are disposed between the drive wheel 29 and the rear wheel 26, the main body housing 2 with the front wheel 27 separated from the floor F is placed in the drive wheel 29 by the weight of the battery 14 and the control board 15. In addition, the rear wheel 26 can be stably grounded.
<Appendix>
The present invention includes a main body housing that opens a suction port facing the floor surface to the bottom surface, a pair of drive wheels that have a horizontal rotation shaft and that self-runs the main body housing, and cleaning the drive wheels. A front wheel disposed in front of the traveling direction of the hour, and a rear wheel disposed rearward of the traveling direction of the cleaning with respect to the drive wheel, wherein the suction port is provided between the front wheel and the driving wheel. In addition, when the vehicle is self-propelled on a flat floor surface, the front wheel is separated from the floor surface and the driving wheel and the rear wheel are grounded.

この構成によると、平坦な床面から前輪が離れて駆動輪及び後輪が接地し、一対の駆動輪の駆動によって本体筐体が掃除領域内を自走する。本体筐体の前進によって床面上の塵埃やゴミは前輪の下方を通過し、吸込口から吸い込まれる。塵埃等を含む気流は本体筐体内で塵埃等を除去された後、排気される。本体筐体の進路上に段差が現れると、前輪が段差に接地して駆動輪の回転によって本体筐体が段差を乗り越える。   According to this configuration, the front wheels are separated from the flat floor surface, the driving wheels and the rear wheels are grounded, and the main body housing is self-propelled in the cleaning area by the driving of the pair of driving wheels. As the main body casing advances, dust and debris on the floor surface pass under the front wheels and are sucked from the suction port. The airflow including dust and the like is exhausted after dust and the like are removed in the main body casing. When a step appears on the path of the main body casing, the front wheel touches the step and the main body casing gets over the step by the rotation of the driving wheel.

また本発明は、上記構成の掃除ロボットにおいて、前記回転軸が前記本体筐体の中心線上に配されることを特徴としている。この構成によると、駆動輪の両輪が逆方向に回転すると本体筐体が鉛直な中心線の回りに回転する。   According to the present invention, in the cleaning robot configured as described above, the rotation shaft is arranged on a center line of the main body casing. According to this configuration, when both wheels of the drive wheels rotate in the opposite direction, the main body casing rotates around a vertical center line.

また本発明は、上記構成の掃除ロボットにおいて、前記吸込口に配される回転ブラシを備え、掃除を行う際に前記回転ブラシが接地することを特徴としている。この構成によると、回転ブラシ、駆動輪及び後輪が接地して本体筐体が自走し、回転ブラシの回転によって床面の塵埃が掻き上げられて吸込口に導かれる。   According to the present invention, in the cleaning robot having the above-described configuration, a rotating brush disposed in the suction port is provided, and the rotating brush is grounded when cleaning is performed. According to this configuration, the rotating brush, the driving wheel, and the rear wheel are grounded and the main body casing is self-propelled, and the dust on the floor is scraped up and guided to the suction port by the rotation of the rotating brush.

また本発明は、上記構成の掃除ロボットにおいて、前記駆動輪と前記後輪との間に、各部に電力を供給するバッテリー及び各部を制御する制御基板を配置したことを特徴としている。この構成によると、前輪が床面から離れる本体筐体がバッテリー及び制御基板の重量により安定して接地される。   According to the present invention, in the cleaning robot configured as described above, a battery that supplies power to each unit and a control board that controls each unit are disposed between the driving wheel and the rear wheel. According to this configuration, the main body housing in which the front wheels are separated from the floor surface is stably grounded by the weight of the battery and the control board.

本発明によると、床面上を自走する掃除ロボットに利用することができる。   ADVANTAGE OF THE INVENTION According to this invention, it can utilize for the cleaning robot which self-runs on a floor surface.

1 掃除ロボット
2 本体筐体
3 蓋部
4 充電端子
6 吸込口
7 排気口
8 凹部
9 回転ブラシ
10 サイドブラシ
11 第1吸気路
12 第2吸気路
14 バッテリー
15 制御基板
18、19 床面検知センサ
20 モータユニット
21 ハウジング
22 電動送風機
23 開口部
24a 第1排気路
24b 第2排気路
25 戻り口
28 イオン発生装置
29 駆動輪
30 集塵部
31 集塵容器
32 上部カバー
33 フィルタ
34 流入路
35 流出路
40 充電台
41 端子部
DESCRIPTION OF SYMBOLS 1 Cleaning robot 2 Main body housing | casing 3 Cover part 4 Charging terminal 6 Suction port 7 Exhaust port 8 Recessed part 9 Rotating brush 10 Side brush 11 1st intake path 12 2nd intake path 14 Battery 15 Control board 18, 19 Floor surface detection sensor 20 Motor unit 21 Housing 22 Electric blower 23 Opening 24a First exhaust path 24b Second exhaust path 25 Return port 28 Ion generator 29 Drive wheel 30 Dust collection part 31 Dust collection container 32 Upper cover 33 Filter 34 Inflow path 35 Outflow path 40 Charge stand 41 Terminal

Claims (4)

塵埃及び空気を吸い込むように筐体の底面に設けられた吸込口と、
前記吸込口から吸い込まれた塵埃を集塵すると共に、気流を通過させる集塵部と、
前記集塵部を通過した気流を吸入した後に排出する送風部と、
前記送風部から排出された気流を排気する排気口と、を備え、
前記集塵部は、前記吸込口から吸い込まれた塵埃を集塵する集塵容器を有し、
前記排気口は、前記筐体の上面の外周側であって、かつ、前記集塵容器よりも外周側に設けられていることを特徴とする自走式掃除ロボット。
A suction port provided on the bottom surface of the housing so as to suck dust and air;
While collecting dust sucked from the suction port, a dust collecting part that allows airflow to pass through,
An air blower that discharges the airflow that has passed through the dust collecting part after inhaling;
An exhaust port for exhausting the airflow discharged from the blower unit,
The dust collection unit has a dust collection container for collecting dust sucked from the suction port,
The self-propelled cleaning robot is characterized in that the exhaust port is provided on the outer peripheral side of the upper surface of the housing and on the outer peripheral side of the dust collecting container.
前記筐体の上面に開閉可能に設けられ、前記集塵容器を前記筐体の上面より出し入れ可能にする蓋部を備え、
前記排気口は、前記蓋部の外縁に沿って設けられていることを特徴とする請求項1に記載の自走式掃除ロボット。
The lid is provided to be openable and closable on the upper surface of the housing, and includes a lid that allows the dust collection container to be taken in and out from the upper surface of the housing.
The self-propelled cleaning robot according to claim 1, wherein the exhaust port is provided along an outer edge of the lid portion.
前記集塵容器は、上部から底部に向かって窄まった形状をなすと共に、前記送風部へと
気流を導く流出口が上部から底部に向かって傾斜している面に形成され、
前記流出口とパッキンを介して密接される前記送風部に繋がる経路の開口は、上部から下部に向かって傾斜していることを特徴とする請求項2に記載の自走式掃除ロボット。
The dust collecting container has a shape narrowed from the top toward the bottom, and is formed on a surface where an outlet that guides the air flow to the blower is inclined from the top toward the bottom,
The self-propelled cleaning robot according to claim 2, wherein an opening of a path connected to the air blowing unit in close contact with the outlet through packing is inclined from the upper part toward the lower part.
前記送風部から排出された気流は、前記筐体の上面より複数の気流に分かれて排気されることを特徴とする請求項1、2又は3に記載の自走式掃除ロボット。   The self-propelled cleaning robot according to claim 1, 2 or 3, wherein the airflow discharged from the blower is divided into a plurality of airflows from the upper surface of the housing.
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JP2002360482A (en) * 2002-03-15 2002-12-17 Matsushita Electric Ind Co Ltd Self-propelled cleaner
JP2006296683A (en) * 2005-04-19 2006-11-02 Funai Electric Co Ltd Self-propelled vacuum cleaner and vacuum cleaner
JP2007275361A (en) * 2006-04-07 2007-10-25 Toshiba Battery Co Ltd Cleaning robot
JP2017012907A (en) * 2016-10-26 2017-01-19 シャープ株式会社 Cleaning robot

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH10117973A (en) * 1996-10-23 1998-05-12 Minolta Co Ltd Autonomous moving vehicle
JPH10248764A (en) * 1997-03-13 1998-09-22 Matsushita Electric Ind Co Ltd Vacuum cleaner
JP2002360482A (en) * 2002-03-15 2002-12-17 Matsushita Electric Ind Co Ltd Self-propelled cleaner
JP2006296683A (en) * 2005-04-19 2006-11-02 Funai Electric Co Ltd Self-propelled vacuum cleaner and vacuum cleaner
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JP2017012907A (en) * 2016-10-26 2017-01-19 シャープ株式会社 Cleaning robot

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