JPH1156731A - Electrostatic dust collector - Google Patents
Electrostatic dust collectorInfo
- Publication number
- JPH1156731A JPH1156731A JP22639397A JP22639397A JPH1156731A JP H1156731 A JPH1156731 A JP H1156731A JP 22639397 A JP22639397 A JP 22639397A JP 22639397 A JP22639397 A JP 22639397A JP H1156731 A JPH1156731 A JP H1156731A
- Authority
- JP
- Japan
- Prior art keywords
- dust
- static electricity
- dust collector
- charging
- rotating
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Landscapes
- Elimination Of Static Electricity (AREA)
- Electrostatic Separation (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は家庭などで用いる静
電気式集塵機に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrostatic precipitator used at home and the like.
【0002】[0002]
【従来の技術】従来の技術の家庭用電気掃除機はモータ
によってファンを回転させて行う真空吸引が一般的であ
る。他の従来の技術として、静電気を利用した静電掃除
機があり、例えば、特開昭61−92649号公報に示
されている。この静電掃除機は高電圧静電気発生装置に
通電してブラシに静電気を発生させ、この静電気により
塵埃をブラシに吸着するものであり、集めた塵埃を廃棄
するときはゴミ箱等の上で通電を止めて静電気を消滅さ
せるものである。2. Description of the Related Art Conventional vacuum cleaners for home use generally employ vacuum suction performed by rotating a fan with a motor. As another conventional technique, there is an electrostatic cleaner using static electricity, which is disclosed in, for example, Japanese Patent Application Laid-Open No. 61-92649. This electrostatic vacuum cleaner energizes the high-voltage static electricity generator to generate static electricity on the brush, and the static electricity attracts dust to the brush.When disposing of the collected dust, apply electricity to the trash box or the like. Stop and eliminate static electricity.
【0003】[0003]
【発明が解決しようとする課題】上記従来技術の静電掃
除機は塵埃の連続収集ができない。また、塵埃を廃棄す
るとき通電を止めただけでは静電気が残留しているため
に、ブラシについた塵埃は簡単には落ちないという問題
がある。従来の一般的な真空吸引式の電気掃除機は、連
続運転は可能なものの、騒音が高い。また、消費電力が
大きいためにコードレス化が困難であるという問題があ
った。また、ダニ等が含まれた汚れた排気を室内にまき
散らすという問題もあった。The above-mentioned prior art electrostatic vacuum cleaner cannot continuously collect dust. Further, there is a problem that the dust attached to the brush is not easily dropped because the static electricity remains when the power is turned off only when the dust is discarded. A conventional general vacuum suction type vacuum cleaner can be operated continuously, but has high noise. In addition, there is a problem that it is difficult to achieve cordless operation due to high power consumption. In addition, there is a problem that dirty exhaust air containing ticks and the like is scattered indoors.
【0004】本発明は、連続運転が可能であるとともに
確実なごみ収集が可能な掃除機であって、騒音がなく汚
れた排気も出さず、コードレス化が可能な低消費電力の
電気掃除機を提供することを目的とする。SUMMARY OF THE INVENTION The present invention provides a vacuum cleaner capable of continuous operation and capable of reliably collecting garbage, which has no noise, emits no dirty exhaust, and has a low power consumption that can be cordless. The purpose is to do.
【0005】[0005]
【課題を解決するための手段】上記課題を解決するため
に、本発明の静電集塵機は、ベルトまたはドラムにより
構成された集塵体を設け、前記集塵体を回転させなが
ら、床に対向する面に静電気を発生させて集塵する。集
塵後のごみは、集塵体の外周近傍に設けられた回収袋に
回収されるように、回収袋付近では集塵体の静電気を除
去しまたはその極性を反転させる。In order to solve the above-mentioned problems, an electrostatic precipitator of the present invention is provided with a precipitator formed of a belt or a drum, and rotates the precipitator while facing the floor. Generate static electricity on the surface to be collected and collect dust. Near the collection bag, the dust of the dust collector is removed or its polarity is reversed so that the dust after collection is collected in a collection bag provided near the outer periphery of the dust collector.
【0006】[0006]
【発明の実施の形態】本発明の請求項1に記載の発明
は、静電気により集塵する集塵機において、外面に帯電
層を有する筒状の集塵体と、集塵体を回転する回転手段
と、集塵体の帯電層に静電気を発生させる帯電手段と、
集塵体上の静電気を除去する放電手段と、静電気除去後
の集塵体上の塵を集める集塵手段を有する。集塵体の回
転運動に伴って、帯電手段により集塵体上に静電気を発
生したのち、集塵体を床面に対向させごみを吸着させ、
次に放電手段により静電気を除去して集塵体上のごみを
集塵手段により回収するよう構成したことを特徴とした
ものである。DESCRIPTION OF THE PREFERRED EMBODIMENTS The invention according to claim 1 of the present invention is directed to a dust collector for collecting dust by static electricity, comprising: a cylindrical dust collector having a charged layer on an outer surface; and a rotating means for rotating the dust collector. Charging means for generating static electricity on the charged layer of the dust collector,
Discharge means for removing static electricity on the dust collector, and dust collecting means for collecting dust on the dust collector after removing the static electricity. Following the rotation of the dust collector, static electricity is generated on the dust collector by the charging means, and then the dust collector is opposed to the floor surface to adsorb dust,
Next, the static electricity is removed by the discharging means and the dust on the dust collecting body is collected by the dust collecting means.
【0007】これにより、ごみの吸着と回収を連続的に
行うことができる。また、静電力によりごみを吸着する
ので、騒音がなく、消費電力が少ない。[0007] Thus, the adsorption and recovery of the waste can be performed continuously. In addition, since dust is adsorbed by electrostatic force, there is no noise and power consumption is small.
【0008】本発明の請求項2に記載の発明は、静電気
により集塵する集塵機において、外面に帯電層を有する
帯状の集塵体と、集塵体を回転する回転手段と、集塵体
に静電気を発生させる第1の帯電手段と、前記第1の帯
電手段で発生させた静電気と反対極性の静電気を前記集
塵体に発生させる第2の帯電手段と、集塵体に付着した
塵を集める回収手段を有する。集塵体の回転運動に伴っ
て、第1の帯電手段により集塵体上に静電気を発生した
のち、集塵体を床面に対向させてごみを吸着させ、次に
集塵体に前記第2の帯電手段により前記反対極性の静電
気を発生させて、回収手段により集塵体上のごみを回収
するよう構成したことを特徴としたものである。集塵体
上に、第1の帯電手段により発生した静電気と逆極性の
静電気を第2の帯電手段により発生させることにより、
集塵体上の静電気はほとんど除去され、付着したごみは
容易に集塵体から離れて回収手段に回収される。従って
請求項1記載の発明のものよりもさらに確実にごみの回
収が行えるという効果を持つ。According to a second aspect of the present invention, there is provided a dust collector for collecting dust by static electricity, a belt-shaped dust collector having a charged layer on an outer surface, a rotating means for rotating the dust collector, and a dust collector. A first charging unit for generating static electricity, a second charging unit for generating static electricity having a polarity opposite to that of the static electricity generated by the first charging means on the dust collecting body, and dust adhering to the dust collecting body. It has a collecting means for collecting. Following the rotation of the dust collector, the first charging means generates static electricity on the dust collector. Then, the dust collector is opposed to the floor surface to adsorb dust, and then the dust collector is attached to the dust collector. The second charging means generates the opposite polarity static electricity, and the collection means collects dust on the dust collector. By generating static electricity having a polarity opposite to that of the static electricity generated by the first charging means on the dust collector by the second charging means,
Most of the static electricity on the dust collector is removed, and the attached dust is easily separated from the dust collector and collected by the collecting means. Therefore, there is an effect that the waste can be more reliably collected than the one according to the first aspect of the present invention.
【0009】本発明の請求項3に記載の発明は、請求項
1および請求項2において、充電可能な電池を内蔵し、
これによって回転手段、帯電手段、放電手段に電力を供
給することを特徴としたものである。電池を内蔵するこ
とにより掃除の際に邪魔になるコードをなくすことがで
きるという効果を持つ。本発明の請求項4に記載の発明
は、静電集塵機をその保管場所の掃除機格納部に格納す
ることにより、充電が行なわれることを特徴とするもの
であり、掃除機を保管場所に置いておけば自動的に充電
ができるという効果を持つ。According to a third aspect of the present invention, in the first and second aspects, a rechargeable battery is built-in,
Thus, power is supplied to the rotating means, the charging means, and the discharging means. The built-in battery has the effect of eliminating cords that would interfere with cleaning. The invention according to claim 4 of the present invention is characterized in that charging is performed by storing the electrostatic precipitator in a vacuum cleaner storage section of the storage location, and placing the vacuum cleaner in the storage location. It has the effect that it can be charged automatically if it is set.
【0010】本発明の請求項5に記載の発明は、請求項
1および請求項2において、集塵体が床面と非接触で対
向していることを特徴とするものであり、掃除の際に本
静電集塵機を前後に動かしても集塵体を床面で傷つけた
り、床面との摩擦で無用な静電気を発生することを防ぐ
という効果を持つ。According to a fifth aspect of the present invention, in the first and second aspects, the dust collector faces the floor surface in a non-contact manner. In addition, even if the electrostatic precipitator is moved back and forth, the dust collector is prevented from being damaged on the floor surface and unnecessary static electricity is prevented from being generated due to friction with the floor surface.
【0011】本発明の請求項6に記載の発明は、請求項
1および請求項2において、本静電集塵機を操作者が前
後に移動させる力を利用して集塵体を回転させることを
特徴としたものであり、集塵体の回転のために電動力を
用いないのでさらに省電力化ができるという効果を持
つ。本発明の請求項7に記載の発明は、請求項6におい
て、本静電集塵機を操作者が前後いずれの方向に動かし
ても、集塵体は1方向にのみ回転することを特徴とした
ものであり、集塵体の回転方向を1方向にすることによ
りごみの収集が容易にできるという効果を持つ。According to a sixth aspect of the present invention, in the first and second aspects, the dust collector is rotated by using a force of an operator to move the electrostatic precipitator back and forth. Since no electric power is used for rotating the dust collecting body, there is an effect that power can be further saved. The invention according to claim 7 of the present invention is characterized in that, in claim 6, even if the operator moves the electrostatic precipitator in any direction, the dust collector rotates in only one direction. By setting the direction of rotation of the dust collector to one direction, there is an effect that dust can be easily collected.
【0012】《実施例1》以下、図1ないし図3を用い
て本発明の実施例1を説明する。図1は本発明の実施例
1の静電集塵機の主要部の断面図である。集塵体101
は、アルミなどの導電体によりつくられた例えば直径1
0cm長さ30ないし50cmの円筒状の集塵体ベース
102の外周に、フタロシアニンなどの絶縁物質の塗布
による帯電層103を形成して構成される。帯電層の厚
さは例えば20〜30ミクロンである。前記の絶縁物質
による帯電層103は光を照射することにより帯電した
静電気が除去される。他の絶縁物質としては、例えばポ
リビニルカルバゾール(PVK)、シリコンの多結晶を
含む層(例えばSiの蒸着又は塗着膜)等を用いてもよ
い。集塵体ベース102は接地線104により、図3に
示す回路のグランドGに接続されている。集塵体101
は集塵体ベース102の内部に配置された回転手段のモ
ータ105により、床面113に接触しないように所定
の間隔を保って、矢印Xの方向に回転する。Embodiment 1 Hereinafter, Embodiment 1 of the present invention will be described with reference to FIGS. FIG. 1 is a sectional view of a main part of an electrostatic precipitator according to a first embodiment of the present invention. Dust collector 101
Is, for example, a diameter of 1 made of a conductor such as aluminum.
A charging layer 103 formed by applying an insulating material such as phthalocyanine is formed on the outer periphery of a cylindrical dust collector base 102 having a length of 0 cm and a length of 30 to 50 cm. The thickness of the charging layer is, for example, 20 to 30 microns. The charged layer 103 made of the insulating material is irradiated with light to remove charged static electricity. As another insulating material, for example, polyvinyl carbazole (PVK), a layer containing polycrystalline silicon (for example, a deposited or coated film of Si), or the like may be used. The dust collector base 102 is connected to the ground G of the circuit shown in FIG. Dust collector 101
Is rotated in the direction of arrow X by a motor 105 of rotating means disposed inside the dust collector base 102 at a predetermined interval so as not to contact the floor surface 113.
【0013】帯電器106は集塵体101の表面の帯電
層103に静電気を発生させるものであり、回転する集
塵体101の床面113に対向する部分101Aの上流
側において帯電層103に近接して設けられている。帯
電器106は、集塵体101に対向する面にのみ開口を
有しその他の面を覆う導電カバー107と、集塵体10
1に対向する開口に取り付けたグリッド108とタング
ステンなどで作られ導電カバー107内に収納されたコ
ロナワイヤ109よりなる。コロナワイヤ109は導電
カバー107と絶縁を保ちつつ保持されている。コロナ
ワイヤ109を図3に示す回路の高電圧発生回路303
の出力端に接続して4kV程度の電圧を印加することに
より、集塵体101の表面に約700Vの静電気を発生
させることができる。The charger 106 generates static electricity on the charged layer 103 on the surface of the dust collector 101, and is close to the charged layer 103 on the upstream side of the portion 101 A of the rotating dust collector 101 facing the floor surface 113. It is provided. The charger 106 has a conductive cover 107 having an opening only on a surface facing the dust collector 101 and covering other surfaces, and a dust collector 10.
1 comprises a grid 108 attached to the opening facing and a corona wire 109 made of tungsten or the like and housed in a conductive cover 107. The corona wire 109 is held while keeping insulation from the conductive cover 107. The corona wire 109 is connected to the high voltage generation circuit 303 of the circuit shown in FIG.
By applying a voltage of about 4 kV by connecting to the output terminal of the above, about 700 V static electricity can be generated on the surface of the dust collecting body 101.
【0014】帯電器106のさらに上流側の集塵体10
1の表面近傍に複数個のLED110が集塵体101の
軸方向に配列されている。LED110によって集塵体
101表面に光を照射することにより、集塵体101表
面の静電気を除去することができる。帯電器106とL
ED110の間にゴム等により形成されたごみ収集つめ
111が設けられ、集塵体101上のごみをごみ回収袋
112にかき落とす。The dust collector 10 further upstream of the charger 106
A plurality of LEDs 110 are arranged in the axial direction of the dust collecting body 101 in the vicinity of one surface. By irradiating the surface of the dust collector 101 with light by the LED 110, static electricity on the surface of the dust collector 101 can be removed. Charger 106 and L
A garbage collection pawl 111 made of rubber or the like is provided between the EDs 110 and scrapes garbage on the dust collector 101 into a garbage collection bag 112.
【0015】以上のように構成された静電集塵機によ
り、ごみが回収される過程を以下に示す。帯電器106
により帯電され静電気をおびた帯電層103は集塵体1
01の矢印X方向の回転により床面113に接近する。
また、集塵体101を含む静電集塵機本体は床面113
に並行して矢印Y方向へ移動するものとする。このと
き、床面113上のごみ114は帯電層103の静電気
に引かれ、ごみ115のように床面113から離れ、集
塵体101の表面に付着する。集塵体101は、ごみが
付着したまま回転し、LED110の部分に到るとLE
D110による光照射を受け、静電気が除去される。そ
の結果ごみと集塵体101との間の吸着力はほとんどな
くなり集塵体101が更に回転して、表面に付着したご
みがごみ収集つめ111に達すると、ごみはごみ収集つ
め111により集塵体101の表面から離れごみ回収袋
112に回収される。The process of collecting dust by the electrostatic precipitator configured as described above will be described below. Charger 106
The charged layer 103 charged by the electrostatic and charged with static electricity is the dust collector 1
By rotating the arrow 01 in the X direction, it approaches the floor surface 113.
The main body of the electrostatic precipitator including the precipitating body 101 is a floor surface 113.
Move in the direction of the arrow Y in parallel with. At this time, the dust 114 on the floor 113 is attracted by the static electricity of the charged layer 103, separates from the floor 113 like the dust 115, and adheres to the surface of the dust collector 101. The dust collector 101 rotates with the dust attached thereto, and when reaching the LED 110, the LE
Upon receiving light irradiation by D110, static electricity is removed. As a result, the suction force between the dust and the dust collecting body 101 is almost eliminated, and the dust collecting body 101 further rotates, and when the dust attached to the surface reaches the dust collecting nail 111, the dust is collected by the dust collecting nail 111. It is separated from the surface of the body 101 and collected in the garbage collection bag 112.
【0016】図2は本発明の実施例1の静電集塵機の全
体形状を示す側面図である。本体201の内部に上記に
示した主要部の機構が内蔵されている。本体201には
柄202がついており、操作者はこの柄202を持って
静電集塵機(以下掃除機と称する)を操作し掃除をす
る。柄202には図3の回路図に示すスイッチ203が
ついている。本体201内には二次電池302が内蔵さ
れており、使用時は二次電池302の電力で動作する。
本体201には二次電池302につながっている接点2
04がある。掃除機を使用しないときには掃除機を掃除
機格納部205に格納する。掃除機格納部205には整
流回路を有する電源回路301が設けられている。電源
回路301の入力端にはコンセント207がついてお
り、常時コンセント207を商用電源の差込口に接続し
ておく。掃除機格納部205には電源回路301の出力
端に接続された接点206が設けられており、掃除機を
格納した状態ではこれら接点206と接点204が接触
し、本体201内の二次電池302へ電力を供給して充
電を行う。FIG. 2 is a side view showing the overall shape of the electrostatic precipitator according to the first embodiment of the present invention. The main mechanism described above is built in the main body 201. The main body 201 has a handle 202, and an operator operates the electrostatic precipitator (hereinafter referred to as a vacuum cleaner) with the handle 202 to perform cleaning. The handle 202 has a switch 203 shown in the circuit diagram of FIG. A rechargeable battery 302 is built in the main body 201, and operates with the power of the rechargeable battery 302 during use.
The main body 201 has a contact 2 connected to the secondary battery 302.
04. When the cleaner is not used, the cleaner is stored in the cleaner storage unit 205. A power supply circuit 301 having a rectifier circuit is provided in the cleaner storage unit 205. An outlet 207 is provided at an input terminal of the power supply circuit 301, and the outlet 207 is always connected to an outlet of a commercial power supply. The cleaner storage unit 205 is provided with a contact 206 connected to the output terminal of the power supply circuit 301. When the cleaner is stored, the contact 206 and the contact 204 are in contact with each other, and the secondary battery 302 in the main body 201 is contacted. To charge the battery.
【0017】掃除機の使用時には、スイッチ203を押
すことにより、二次電池302からモータ105に電流
が流れ、集塵体101を回転させる。また、LED11
0にも電力を与えて点灯し静電気の除去を行う。二次電
池302の電力はさらに高電圧発生回路303に供給さ
れ帯電器106のコロナワイヤ109に電圧を印加し、
帯電層103に静電気を発生させる。When the cleaner is used, by pressing the switch 203, a current flows from the secondary battery 302 to the motor 105, and the dust collector 101 is rotated. LED11
Power is also applied to 0 to light up and remove static electricity. The power of the secondary battery 302 is further supplied to a high voltage generation circuit 303 to apply a voltage to the corona wire 109 of the charger 106,
Static electricity is generated in the charging layer 103.
【0018】《実施例2》次に、図4ないし図7を用い
て本発明の実施例2を説明する。図4は実施例2の掃除
機本体の断面図である。図6は実施例2の電気回路のブ
ロック図である。実施例2では集塵体130はベルト状
であり、ローラ402、403、410、411、41
2により回転可能に本体201内に支持されている。集
塵体130は薄いステンレススチールのシートなど導電
体のベルトで構成され、その外表面にはフタロシアニン
等の塗付による帯電層103が設けられている。前記ベ
ルトは図6示す回路のグランドGに接続されている。本
体201内には二次電池302と二次電池302にスイ
ッチ203を介して接続された高電圧発生回路303及
び313が内蔵されている。Embodiment 2 Next, Embodiment 2 of the present invention will be described with reference to FIGS. FIG. 4 is a sectional view of the main body of the cleaner according to the second embodiment. FIG. 6 is a block diagram of an electric circuit according to the second embodiment. In the second embodiment, the dust collector 130 has a belt shape, and the rollers 402, 403, 410, 411, and 41.
2 rotatably supported in the main body 201. The dust collector 130 is formed of a conductive belt such as a thin stainless steel sheet, and the outer surface thereof is provided with a charging layer 103 formed by applying phthalocyanine or the like. The belt is connected to the ground G of the circuit shown in FIG. The main body 201 includes a secondary battery 302 and high voltage generation circuits 303 and 313 connected to the secondary battery 302 via a switch 203.
【0019】本体201はローラ405、406により
床面113から離れて支えられており、集塵体130が
床面113に接触しないようにしてある。本体201の
下面には集塵体130を保護するために導電性の目の粗
い網408が設けられている。回転する集塵体130の
床面113に対向する部分の上流側において、集塵体1
30の外表面に近接して高電圧発生回路303に接続さ
れた第1の帯電器106が設けられている。帯電器10
6のさらに上流側には、ごみをかき落とすブラシ407
と、落ちたごみを回収するごみ回収袋112が設けられ
ている。ごみ回収袋112の外面近傍に高電圧発生回路
313に接続された第2の帯電器401が設けられてい
る。帯電器401には帯電器106とは逆極性の電圧を
印加して、集塵体130に逆極性の静電気を生じさせ
る。The main body 201 is supported away from the floor 113 by rollers 405 and 406 so that the dust collector 130 does not contact the floor 113. A conductive mesh 408 is provided on the lower surface of the main body 201 to protect the dust collector 130. On the upstream side of the portion of the rotating dust collector 130 facing the floor surface 113, the dust collector 1
A first charger 106 connected to the high voltage generation circuit 303 is provided near the outer surface of the first charger 30. Charger 10
6 is a brush 407 for scraping dust.
And a garbage collection bag 112 for collecting the dropped garbage. A second charger 401 connected to the high voltage generation circuit 313 is provided near the outer surface of the refuse collection bag 112. A voltage having a polarity opposite to that of the charger 106 is applied to the charger 401 to generate static electricity having a polarity opposite to that of the dust collector 130.
【0020】集塵体130の帯電器106の前を通過す
る表面に静電気が発生し、静電力によって床面113上
にあるごみが集塵体130に吸着される。集塵体130
の回転によって集塵体130に付着したごみがごみ回収
袋112付近にきたとき、ごみはごみ回収袋112の外
面に設けた帯電器401に引き寄せられ、ごみ回収袋1
12内に落ちる。Static electricity is generated on the surface of the dust collecting body 130 passing in front of the charger 106, and dust on the floor 113 is attracted to the dust collecting body 130 by electrostatic force. Dust collector 130
When the dust attached to the dust collecting body 130 comes to the vicinity of the dust collection bag 112 due to the rotation of the dust, the dust is drawn to the charger 401 provided on the outer surface of the dust collection bag 112 and the dust collection bag 1
Fall into 12.
【0021】帯電器401の詳細な構造を図5に示す。
図5において、帯電器401は、集塵体130に対向す
る面にのみ開口を有する導電カバー501を有し、その
開口には網状に穴の開いたグリッド502が設置してあ
る。導電カバー501は4つの部屋に仕切られ、4つの
部屋にはそれぞれタングステンなどで作られたコロナワ
イヤ503ないし506が設けられている。コロナワイ
ヤ503、504、505及び506は図6の高電圧発
生回路313に接続されている。帯電器106のコロナ
ワイヤ109には例えば4kVの正電圧を印加し、コロ
ナワイヤ503ないし506には4kVの負の電圧をか
けることにより、集塵体130の帯電の極性を反転さ
せ、ゴミをごみ回収袋112にとばすことができる。ま
た、コロナワイヤ503ないし506にそれぞれ−1k
V、−2kV、−3kV、−4kVと下部のものほど高
い負の電圧を加えることにより、ごみのとぶ方向を下向
きにすることができ、回収効率が高まる。さらに集塵体
130表面を、グランドGに接続された導電性のブラシ
407でこすることにより、ごみの回収を確実におこな
うことができる。FIG. 5 shows the detailed structure of the charger 401.
In FIG. 5, the charger 401 has a conductive cover 501 having an opening only on a surface facing the dust collector 130, and a grid 502 having a net-like hole is installed in the opening. The conductive cover 501 is divided into four rooms, and each of the four rooms is provided with corona wires 503 to 506 made of tungsten or the like. The corona wires 503, 504, 505 and 506 are connected to the high voltage generation circuit 313 in FIG. A positive voltage of, for example, 4 kV is applied to the corona wire 109 of the charger 106, and a negative voltage of 4 kV is applied to the corona wires 503 to 506, thereby inverting the polarity of charging of the dust collecting body 130 and removing dust. It can be skipped to the collection bag 112. In addition, each of the corona wires 503 to 506 has -1 k
By applying a higher negative voltage to the lower portion such as V, -2 kV, -3 kV, and -4 kV, the direction of dust can be directed downward, and the collection efficiency increases. Further, by rubbing the surface of the dust collecting body 130 with the conductive brush 407 connected to the ground G, it is possible to surely collect dust.
【0022】本実施例2においては、集塵体130の回
転を、モータを使わずに、本体201を図4の左右方向
に動かすとき床113に接して回転するローラ406の
回転を集塵体130を動かすローラ402及び403等
に伝えることにより行う。実際の掃除の場合には掃除機
を図4の左右両方向に動かして行うため、ローラ406
がいずれの方向に回転しても集塵体130が常に一定方
向に回転するような回転伝達機構が必要である。このよ
うな機構の例を図7に示す。In the second embodiment, the rotation of the roller 406, which rotates in contact with the floor 113 when the main body 201 is moved in the left-right direction in FIG. This is performed by transmitting 130 to rollers 402 and 403 that move. In the case of actual cleaning, the cleaner is moved in both the left and right directions in FIG.
However, a rotation transmission mechanism is required so that the dust collecting body 130 always rotates in a fixed direction regardless of the direction of rotation. FIG. 7 shows an example of such a mechanism.
【0023】図7は一定方向の回転機構600の構成図
である。歯車601の軸611はローラ406の軸に図
示を省略した回転伝達機構で連結されている。また歯車
604の軸614は集塵体130を駆動するローラ40
3の軸に直結している。歯車602および605は、歯
車601を恒星とした遊星歯車となっている。本体20
1の移動によりローラ406が回転し、歯車601が矢
印A方向に回転すると、遊星歯車602は矢印Mのよう
に移動して歯車603にかみ合い、歯車603を矢印C
の方向に回す。歯車603はこれにかみ合っている歯車
604を矢印Dの方向にまわす。一方、本体201の上
記と逆方向の移動により歯車601が矢印B方向に回転
すると、遊星歯車605は矢印Nのように移動して歯車
606にかみ合い、歯車606を矢印Eの方向に回す。
歯車606はこれにかみ合う歯車607、604をそれ
ぞれ矢印F、Dの方向に回す。すなわち、歯車604
は、歯車601がA方向に回転してもB方向に回転して
も同じD方向に回転することになり、集塵帯101を一
方向に回転させることができる。FIG. 7 is a diagram showing the structure of the rotation mechanism 600 in a fixed direction. The shaft 611 of the gear 601 is connected to the shaft of the roller 406 by a rotation transmission mechanism (not shown). The shaft 614 of the gear 604 is a roller 40 for driving the dust collecting body 130.
Directly connected to axis 3. The gears 602 and 605 are planetary gears having the gear 601 as a star. Body 20
1 rotates the roller 406 and the gear 601 rotates in the direction of arrow A, and the planetary gear 602 moves as shown by arrow M and meshes with the gear 603, and the gear 603 is moved in the direction of arrow C.
Turn in the direction of. The gear 603 turns the meshing gear 604 in the direction of arrow D. On the other hand, when the gear 601 rotates in the direction of arrow B due to the movement of the main body 201 in the direction opposite to the above, the planetary gear 605 moves as shown by the arrow N and engages with the gear 606 to rotate the gear 606 in the direction of arrow E.
The gear 606 turns the gears 607 and 604 meshing therewith in the directions of arrows F and D, respectively. That is, the gear 604
Will rotate in the same D direction regardless of whether the gear 601 rotates in the A direction or the B direction, and can rotate the dust collection zone 101 in one direction.
【0024】[0024]
【発明の効果】本発明によれば、静電力でごみの回収を
行うので、真空掃除機のような騒音がなく、汚れた排気
もでない掃除機を実現することができる。また、消費電
力が小さいため、二次電池を用いるコードレス化が実現
しやすくなり、掃除の邪魔となるコードがなくなること
により、掃除の作業性が高まる。さらに、静電気の発生
と除去を集塵体上の別々の場所で行うことにより連続し
たごみ回収作業が可能となり、良好な作業性が得られ
る。According to the present invention, since the refuse is collected by the electrostatic force, it is possible to realize a vacuum cleaner which does not generate noise and does not have dirty exhaust unlike a vacuum cleaner. In addition, since power consumption is small, cordless operation using a secondary battery is easily realized, and cleaning workability is improved by eliminating cords that hinder cleaning. Furthermore, since the generation and removal of static electricity are performed at different places on the dust collector, continuous dust collection work becomes possible, and good workability is obtained.
【図1】本発明の実施例1の静電集塵機の要部の断面図FIG. 1 is a sectional view of a main part of an electrostatic precipitator according to a first embodiment of the present invention.
【図2】本発明の実施例1の静電集塵機の全体形状を示
す側面図FIG. 2 is a side view showing the overall shape of the electrostatic precipitator according to the first embodiment of the present invention.
【図3】本発明の実施例1の電気回路ブロック図FIG. 3 is a block diagram of an electric circuit according to the first embodiment of the present invention.
【図4】本発明の実施例2の静電集塵機の要部断面図FIG. 4 is a sectional view of a main part of an electrostatic precipitator according to a second embodiment of the present invention.
【図5】本発明の実施例2に用いる第2の帯電器の断面
図FIG. 5 is a sectional view of a second charger used in Embodiment 2 of the present invention.
【図6】本発明の実施例2の電気回路ブロック図FIG. 6 is an electric circuit block diagram according to a second embodiment of the present invention.
【図7】本発明の実施例2に用いる一定方向回転機構の
構成図FIG. 7 is a configuration diagram of a fixed-direction rotating mechanism used in Embodiment 2 of the present invention.
101、130 集塵体 103 帯電層 105 モータ 106、401 帯電器 110 LED 111 ごみ収集つめ 112 回収袋 205 掃除機格納部 302 二次電池 600 回転機構 101, 130 Dust collecting body 103 Charging layer 105 Motor 106, 401 Charger 110 LED 111 Garbage collection pawl 112 Collection bag 205 Vacuum cleaner storage unit 302 Secondary battery 600 Rotating mechanism
Claims (7)
向させて回転させ、集塵体に付着したごみを、前記放電
手段により静電気を除去した後回収する集塵手段と、 を有することを特徴とする静電集塵機。A dust collector having a charging layer on an outer surface thereof; a rotating unit configured to rotate the dust collector; a charging unit configured to generate static electricity in a charged layer of the dust collector; Discharging means for removing static electricity, and rotating the dust collection body where the static electricity is generated by the charging means so as to face the floor, and collecting dust attached to the dust collection body after removing the static electricity by the discharging means. An electrostatic precipitator comprising: a dust collecting means.
段と、 前記第1の帯電手段で発生させた静電気と反対極性の静
電気を前記集塵体に発生させる第2の帯電手段と、 前記第1の帯電手段により静電気が発生した集塵体を床
面に対向させて回転させ、ごみが付着した集塵体に、前
記第2の帯電手段により前記反対極性の静電気を発生さ
せて前記集塵体上のごみを回収する回収手段と、 を有することを特徴とする静電集塵機。2. A belt-shaped dust collector having a charging layer on an outer surface thereof; a rotating means for rotating the dust collecting body; a first charging means for generating static electricity on the charging layer of the dust collecting body; A second charging means for generating static electricity having a polarity opposite to the static electricity generated by the first charging means on the dust collecting body, and a dust collecting body on which the static electricity is generated by the first charging means facing a floor surface. Rotating the dust collecting body to which the dust adheres, the second charging means generating the opposite polarity static electricity, and collecting the dust on the dust collecting body. Electrostatic dust collector.
として、充電可能な電池を内蔵することを特徴とする請
求項1又は2記載の静電集塵機。3. The electrostatic precipitator according to claim 1, wherein a rechargeable battery is incorporated as a power source for the rotating means, the charging means, and the discharging means.
し、静電集塵機を格納することにより前記電池に充電を
行う充電装置を前記掃除機格納部に設けた請求項3記載
の静電集塵機。4. The vacuum cleaner according to claim 3, further comprising a cleaner storage unit for storing the electrostatic precipitator, and a charging device for charging the battery by storing the electrostatic precipitator. Electrostatic dust collector.
ることを特徴とする請求項1又は2記載の静電集塵機。5. The electrostatic precipitator according to claim 1, wherein the charging layer faces the floor surface in a non-contact state.
床面に沿って前後に移動させることにより集塵体を回転
させる手段を有することを特徴とする請求項1又は2記
載の静電集塵機。6. The dust collector according to claim 1, wherein the dust collector rotating means has means for rotating the dust collector by moving the electrostatic precipitator back and forth along the floor surface. Electrostatic dust collector.
ずれの方向に動かしても、集塵体を一方向にのみ回転さ
せる手段を有することを特徴とする請求項6記載の静電
集塵機。7. The electrostatic precipitator according to claim 6, wherein the rotating means has means for rotating the precipitator only in one direction even when the electrostatic precipitator is moved in any of the front and rear directions. .
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP22639397A JP3261342B2 (en) | 1997-08-22 | 1997-08-22 | Electrostatic dust collector |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP22639397A JP3261342B2 (en) | 1997-08-22 | 1997-08-22 | Electrostatic dust collector |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH1156731A true JPH1156731A (en) | 1999-03-02 |
JP3261342B2 JP3261342B2 (en) | 2002-02-25 |
Family
ID=16844425
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Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP22639397A Expired - Fee Related JP3261342B2 (en) | 1997-08-22 | 1997-08-22 | Electrostatic dust collector |
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JP (1) | JP3261342B2 (en) |
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