JP2010253271A - Internal air separators in dirt separation device - Google Patents

Internal air separators in dirt separation device Download PDF

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JP2010253271A
JP2010253271A JP2010095800A JP2010095800A JP2010253271A JP 2010253271 A JP2010253271 A JP 2010253271A JP 2010095800 A JP2010095800 A JP 2010095800A JP 2010095800 A JP2010095800 A JP 2010095800A JP 2010253271 A JP2010253271 A JP 2010253271A
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vacuum cleaner
outlet
oriented
cleaner according
air
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Brian K Ruben
ケイ.ルーベン ブライアン
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Panasonic Corp of North America
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Panasonic Corp of North America
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B04CENTRIFUGAL APPARATUS OR MACHINES FOR CARRYING-OUT PHYSICAL OR CHEMICAL PROCESSES
    • B04CAPPARATUS USING FREE VORTEX FLOW, e.g. CYCLONES
    • B04C5/00Apparatus in which the axial direction of the vortex is reversed
    • B04C5/12Construction of the overflow ducting, e.g. diffusing or spiral exits
    • B04C5/13Construction of the overflow ducting, e.g. diffusing or spiral exits formed as a vortex finder and extending into the vortex chamber; Discharge from vortex finder otherwise than at the top of the cyclone; Devices for controlling the overflow
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47LDOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
    • A47L9/00Details or accessories of suction cleaners, e.g. mechanical means for controlling the suction or for effecting pulsating action; Storing devices specially adapted to suction cleaners or parts thereof; Carrying-vehicles specially adapted for suction cleaners
    • A47L9/10Filters; Dust separators; Dust removal; Automatic exchange of filters
    • A47L9/16Arrangement or disposition of cyclones or other devices with centrifugal action
    • A47L9/1658Construction of outlets
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47LDOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
    • A47L9/00Details or accessories of suction cleaners, e.g. mechanical means for controlling the suction or for effecting pulsating action; Storing devices specially adapted to suction cleaners or parts thereof; Carrying-vehicles specially adapted for suction cleaners
    • A47L9/10Filters; Dust separators; Dust removal; Automatic exchange of filters
    • A47L9/16Arrangement or disposition of cyclones or other devices with centrifugal action
    • A47L9/1616Multiple arrangement thereof
    • A47L9/1625Multiple arrangement thereof for series flow
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47LDOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
    • A47L9/00Details or accessories of suction cleaners, e.g. mechanical means for controlling the suction or for effecting pulsating action; Storing devices specially adapted to suction cleaners or parts thereof; Carrying-vehicles specially adapted for suction cleaners
    • A47L9/10Filters; Dust separators; Dust removal; Automatic exchange of filters
    • A47L9/16Arrangement or disposition of cyclones or other devices with centrifugal action
    • A47L9/1616Multiple arrangement thereof
    • A47L9/1641Multiple arrangement thereof for parallel flow
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B04CENTRIFUGAL APPARATUS OR MACHINES FOR CARRYING-OUT PHYSICAL OR CHEMICAL PROCESSES
    • B04CAPPARATUS USING FREE VORTEX FLOW, e.g. CYCLONES
    • B04C5/00Apparatus in which the axial direction of the vortex is reversed
    • B04C5/14Construction of the underflow ducting; Apex constructions; Discharge arrangements ; discharge through sidewall provided with a few slits or perforations
    • B04C5/185Dust collectors
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B04CENTRIFUGAL APPARATUS OR MACHINES FOR CARRYING-OUT PHYSICAL OR CHEMICAL PROCESSES
    • B04CAPPARATUS USING FREE VORTEX FLOW, e.g. CYCLONES
    • B04C5/00Apparatus in which the axial direction of the vortex is reversed
    • B04C5/12Construction of the overflow ducting, e.g. diffusing or spiral exits
    • B04C5/13Construction of the overflow ducting, e.g. diffusing or spiral exits formed as a vortex finder and extending into the vortex chamber; Discharge from vortex finder otherwise than at the top of the cyclone; Devices for controlling the overflow
    • B04C2005/136Baffles in the vortex finder

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Filters For Electric Vacuum Cleaners (AREA)
  • Cyclones (AREA)

Abstract

<P>PROBLEM TO BE SOLVED: To provide a vacuum cleaner using a new and improved dirt collection vessel with a cyclonic separator including a compound air flow guiding means to improve an airflow direction and cleaning efficiency. <P>SOLUTION: The vacuum cleaner comprises a body 14 having a canister assembly and a nozzle assembly 16 including a suction inlet 20. A dirt collection vessel 12 is carried on the body 14. The dirt collection vessel 12 includes a cyclonic separator having a cylindrical sidewall, a tangentially directed inlet and an axially directed outlet. The dirt collection vessel 12 is characterized by a compound airflow guide provided adjacent the axially directed outlet. The compound airflow guide includes a blade portion and a frustoconical portion. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

本発明は、全体としては、床などを掃除する装置の分野、具体的には、クリーニング効率を向上させる複合的な気流案内手段を有するサイクロン式分離装置を利用した、高効率の優れた真空掃除機に関する。   The present invention as a whole is in the field of devices for cleaning floors and the like, specifically, high-efficiency vacuum cleaning using a cyclonic separation device having a complex airflow guiding means for improving cleaning efficiency. Related to the machine.

サイクロン式真空掃除機は、古くから知られている掃除機である。この真空掃除機の場合、渦動分離によって空気流れからごみその他の屑を除去する。具体的には、サイクロンと普通呼ばれている円筒室内部に高速回転する空気の流れを発生維持する。空気は螺旋パターンで流動し、その後に軸方向に配向した出口からサイクロンを出ていく。回転作用、遠心力および重力すべてが同時に作用して、空気流れからごみやその他の屑を分離する。回転流れに大きな粒子があると、慣性があまりにも大きいため、強い流動曲線に追従することができない。このような粒子は、サイクロンの外壁に衝突し、サイクロンの底部に落下し、ここで回収されるか、取り除かれる。相対的にクリーン化した空気が、次に、軸方向に配向した出口から吸引される。   The cyclone vacuum cleaner is a vacuum cleaner that has been known for a long time. In this vacuum cleaner, dust and other debris are removed from the air flow by vortex separation. Specifically, a flow of air rotating at a high speed is generated and maintained in a cylindrical chamber called a cyclone. The air flows in a spiral pattern and then exits the cyclone from an axially oriented outlet. Rotational action, centrifugal force and gravity all work simultaneously to separate garbage and other debris from the air stream. If there are large particles in the rotating flow, the inertia is too great to follow a strong flow curve. Such particles impinge on the outer wall of the cyclone and fall to the bottom of the cyclone where they are collected or removed. The relatively clean air is then drawn from the axially oriented outlet.

本発明は、気流の向きを改善し、クリーニング効率を改善する、複合的な気流案内手段を設けた、サイクロン式分離装置を有する新規かつ改良ごみ回収容器を利用した真空掃除機に関する。   The present invention relates to a vacuum cleaner using a new and improved waste collection container having a cyclonic separation device provided with a composite airflow guiding means for improving the direction of airflow and improving cleaning efficiency.

以下説明する本発明は、キャニスター装置と、ノズル装置とを有する掃除機本体からなる真空掃除機を提供するものである。このノズル装置は、吸引口を有する。本体に、吸引力発生装置を設ける。この本体には、ごみ回収容器も設ける。ごみ回収容器は、円筒形側壁、接線方向に配向した入口および軸方向に配向した出口を有するサイクロン式分離器を有する。ごみ回収容器は、この軸方向に配向した出口に隣接して複合的な気流案内手段を配設した点に特徴がある。複合的な案内手段は、羽根部と、円錐台形(frustoconical)部とを有する。   The present invention described below provides a vacuum cleaner comprising a cleaner body having a canister device and a nozzle device. This nozzle device has a suction port. A suction force generator is provided on the main body. The main body is also provided with a waste collection container. The waste collection container has a cyclonic separator having a cylindrical side wall, a tangentially oriented inlet and an axially oriented outlet. The garbage collection container is characterized in that a composite air flow guide means is disposed adjacent to the axially oriented outlet. The compound guide means has a blade part and a frustoconical part.

羽根部は、円錐台形部と軸方向に配向した出口との間に設ける。この羽根部によって、軸方向に配向した出口に連絡する複数の供給チャネルが形成する。羽根部の横断面は、実質的に+形状である。円錐台形部は、羽根部に向かって収斂する。円錐台形部は、閉じられた凹部を有する。具体的に述べると、軸方向に配向した出口は導管によって形成され、複合的な気流案内する案内手段の羽根部は、この導管に係合する複数のノッチを有する。   The vane portion is provided between the frustoconical portion and the axially oriented outlet. The vanes form a plurality of supply channels that communicate with axially oriented outlets. The cross section of the blade is substantially + -shaped. The frustoconical portion converges toward the blade portion. The frustoconical part has a closed recess. Specifically, the axially oriented outlet is formed by a conduit, and the vanes of the guiding means for complex airflow guidance have a plurality of notches that engage the conduit.

また、本発明は、サイクロン式分離器に流れる気流を案内する方法であって、このサイクロン式分離器が、円筒形側壁と、軸方向に配向した出口を有する方法を提供するものでもある。具体的に説明すると、この案内方法は、(a)出口に隣接するサイクロン式分離器に複合的な気流案内手段を設ける工程、(b)複合的な気流案内手段の円錐台形表面に空気を流して、気流をサイクロン化する工程、および(c)複合的な気流案内手段の羽根部によって構成されるチャネルに空気を流して、この空気を再び軸方向に配向した出口に向ける工程を有する。さらに、この方法は、空気が軸方向に配向した出口に送られている間、空気のサイクロン流れを消散させる工程を有する。   The present invention also provides a method for guiding an airflow flowing through a cyclonic separator, wherein the cyclonic separator has a cylindrical side wall and an axially oriented outlet. More specifically, this guide method includes (a) a step of providing a composite airflow guide means in a cyclonic separator adjacent to the outlet, and (b) flowing air over the frustoconical surface of the composite airflow guide means. And (c) flowing air through a channel constituted by the blades of the composite airflow guiding means and directing the air toward the axially oriented outlet again. In addition, the method includes dissipating the cyclone flow of air while the air is being sent to an axially oriented outlet.

本発明のさらに別な態様では、真空掃除機を、キャニスター装置およびノズル装置を有する掃除機本体で構成する。ノズル装置は、吸引口を有する。吸引力発生装置とごみ回収容器の両者を掃除機本体に設ける。ごみ回収容器は、一次サイクロンと少なくとも一つの二次サイクロンを有するサイクロン式分離器で構成する。一次サイクロンは、円筒形の第1側壁、接線方向に配向した第1入口および軸方向に配向した第1出口を有する一次ごみ回収室を有する。少なくとも一つの二次サイクロンは、円筒形の第2側壁、接線方向に配向した第2入口および軸方向に配向した第2出口を有するごみ回収室を有する。第2の軸方向に配向した出口に隣接して複合的な気流案内手段を設ける。この気流案内手段は、羽根部と円錐台形部とを有する。   In still another aspect of the present invention, the vacuum cleaner is constituted by a cleaner body having a canister device and a nozzle device. The nozzle device has a suction port. Both the suction force generator and the waste collection container are provided in the cleaner body. The garbage collection container is constituted by a cyclonic separator having a primary cyclone and at least one secondary cyclone. The primary cyclone has a primary waste collection chamber having a cylindrical first side wall, a tangentially oriented first inlet and an axially oriented first outlet. At least one secondary cyclone has a waste collection chamber having a cylindrical second sidewall, a second inlet oriented tangentially and a second outlet oriented axially. Compound airflow guide means is provided adjacent to the second axially oriented outlet. This airflow guiding means has a blade portion and a truncated cone portion.

以下、本発明のいくつかの異なる実施態様を説明するが、いずれも、本発明の最良の実施形態を例示することを目的とするものである。また、本発明は、他の異なる実施態様でも実施でき、細部については、本発明から逸脱せずに、各種の変更などが可能である。従って、添付図面および説明は、例示のみを目的とするもので、限定を目的とするものではない。   In the following, several different embodiments of the invention will be described, all of which are intended to illustrate the best embodiment of the invention. Further, the present invention can be implemented in other different embodiments, and various changes can be made without departing from the present invention. Accordingly, the accompanying drawings and descriptions are intended for purposes of illustration only and are not intended to be limiting.

本明細書に添付され、明細書の一部を構成する添付図面は、本発明のいくつかの態様を示すもので、本開示とともに、本発明のいくつかの原理を説明するものである。   The accompanying drawings, which are included in and constitute a part of this specification, illustrate several aspects of the present invention and, together with the present disclosure, illustrate some of the principles of the invention.

本発明の新規なごみ回収容器を利用した真空掃除機の左側面図である。It is a left view of the vacuum cleaner using the novel garbage collection container of this invention. ごみ回収容器の展開斜視図である。It is an expansion perspective view of a garbage collection container. 本発明のごみ回収容器およびこの容器を流れる気流を示す横断面図である。It is a cross-sectional view which shows the waste collection container of this invention, and the airflow which flows through this container. 本発明のごみ回収容器に設けられる形式の複合的な気流案内手段を示す詳細な斜視図である。It is a detailed perspective view which shows the composite airflow guide means of the type provided in the garbage collection container of this invention. 複合的な気流案内手段に臨んだ状態にある、二次サイクロンの軸方向に配向した出口を形成する導管の詳細な横断面図である。FIG. 3 is a detailed cross-sectional view of a conduit forming an axially oriented outlet of a secondary cyclone, facing a composite airflow guide. 本発明のごみ回収容器の別な実施態様を示す横断面図である。It is a cross-sectional view showing another embodiment of the waste collection container of the present invention.

以下、添付図面について、本発明の好適な実施態様を詳細に説明する。   Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

まず、本発明の直立式真空掃除機10を図1について説明する。真空掃除機10を直立式として説明するが、本発明は、これ以外にも、本発明の新規なごみ回収容器を利用する他の形式の真空掃除機に適用可能であり、例示すれば、キャニスター式真空掃除機にも適用できる。   First, an upright vacuum cleaner 10 according to the present invention will be described with reference to FIG. Although the vacuum cleaner 10 is described as an upright type, the present invention can be applied to other types of vacuum cleaners that use the novel waste collection container of the present invention. For example, the canister type It can also be applied to vacuum cleaners.

真空掃除機10は、参照符号14で全体を示す掃除機本体からなる。この本体14は、ノズル装置16および制御装置18を有する。よく知られているように、制御装置18は、ノズル装置16にピボット接続しているため、真空掃除機10を前後に動かして床を楽に掃除することができる。また、本体14に車輪19を取り付けているため、真空掃除機10による床掃除がスムーズになる。図示のように、ノズル装置16には、吸引口20を設ける。剛毛ブラシ、ワイパーまたはクリーニングリブ23を備えた回転式撹拌装置22をノズル装置16に取り付け、これを吸引口20間に延設する。従来公知なように、回転式撹拌装置22は、ノズル装置16に対して回転する。   The vacuum cleaner 10 is composed of a main body of a cleaner indicated by the reference numeral 14 as a whole. The main body 14 includes a nozzle device 16 and a control device 18. As is well known, since the control device 18 is pivotally connected to the nozzle device 16, the vacuum cleaner 10 can be moved back and forth to easily clean the floor. Moreover, since the wheel 19 is attached to the main body 14, the floor cleaning by the vacuum cleaner 10 becomes smooth. As shown, the nozzle device 16 is provided with a suction port 20. A rotary stirring device 22 having a bristle brush, wiper or cleaning rib 23 is attached to the nozzle device 16 and extends between the suction ports 20. As is conventionally known, the rotary stirring device 22 rotates with respect to the nozzle device 16.

制御装置18は、吸引力発生装置28(即ち、ファン/モーター装置)およびごみ回収容器12を有する。ごみ回収容器12の細部については、後で詳しく説明する。制御装置18は、また、制御シャフト30、および真空掃除機10をオンオフするアクチュエータースイッチ(図示省略)を有する。真空掃除機10の電源としては、壁などのコンセントに差し込んだコード(図示省略)や、内臓電池を使用することができる。   The control device 18 includes a suction force generator 28 (ie, a fan / motor device) and a waste collection container 12. Details of the garbage collection container 12 will be described in detail later. The control device 18 also includes a control shaft 30 and an actuator switch (not shown) that turns the vacuum cleaner 10 on and off. As a power source of the vacuum cleaner 10, a cord (not shown) inserted into an outlet such as a wall or a built-in battery can be used.

掃除時、回転式撹拌装置22が、下のカーペットのけばからごみや屑などを静かに、かつ効率よく吸い取る。緩い結合状態にあるごみや屑などが、最初に、吸引口20に吸い込まれ、吸引力発生装置28によってごみ回収容器12に送られる。ごみや屑などがごみ回収容器12に取りこまれ、そしてごみなどが除去された空気が、吸引力発生装置28のモーターに送られ、これを冷却してから、排気口34から環境中に戻される。   At the time of cleaning, the rotary agitator 22 gently and efficiently sucks up dust and debris from the bottom of the carpet. Garbage, debris and the like in a loosely coupled state are first sucked into the suction port 20 and sent to the garbage collection container 12 by the suction force generator 28. Garbage and debris are taken into the garbage collection container 12, and the air from which the dust is removed is sent to the motor of the suction force generator 28, cooled, and then returned to the environment through the exhaust port 34. It is.

図2および図3に明示するように、ごみ回収容器12は、円筒形の第1側壁42および底壁44をもつ一次サイクロン40を有する。一つの考えられる実施態様では、ヒンジ46/ラッチ機構48によって底壁44を側壁42に接続する。このため、底壁44がピボット動作により開き、側壁42内に設けられている一次ごみ回収室50を空にできる。底壁44と側壁42との間をシール52によってシールする。   As clearly shown in FIGS. 2 and 3, the waste collection container 12 has a primary cyclone 40 having a cylindrical first side wall 42 and a bottom wall 44. In one possible embodiment, the bottom wall 44 is connected to the side wall 42 by a hinge 46 / latch mechanism 48. For this reason, the bottom wall 44 is opened by the pivot operation, and the primary waste collection chamber 50 provided in the side wall 42 can be emptied. A seal 52 seals between the bottom wall 44 and the side wall 42.

一次サイクロン40は、また、接線方向に配向した第1入口54を有する。側壁42内に同心円状に受け取られるシュラウド56は、上部リップ58、下部リップ60、および一連の開口をもつ側壁62を有し、この上部リップ58が、一次サイクロン40の軸方向に配向した出口を構成する。   The primary cyclone 40 also has a first inlet 54 oriented tangentially. A shroud 56 received concentrically within the side wall 42 has an upper lip 58, a lower lip 60, and a side wall 62 having a series of openings, the upper lip 58 providing an axially oriented outlet for the primary cyclone 40. Constitute.

ごみ回収容器12は、また、シュラウド56および円筒形の第1側壁42の内部に同心円状に受け取られる内壁64を有する。接続手段66によって内壁64の下端を底壁44(ドア44)に接続する。内壁64の上端には、回収装置68を設ける。この回収装置68が、内側の二次サイクロン装置70を支持する基部になる。   The waste collection container 12 also has an inner wall 64 that is received concentrically within the shroud 56 and the cylindrical first side wall 42. The lower end of the inner wall 64 is connected to the bottom wall 44 (door 44) by the connecting means 66. A recovery device 68 is provided at the upper end of the inner wall 64. This collection device 68 becomes a base for supporting the inner secondary cyclone device 70.

二次サイクロン装置70は、ほぼ星形の支持体72を有し、この支持体72は、一連の凹状側壁74、同心円状に設けた空気偏向器76および5つの半径方向に並んだ開口78を有する。支持体72上の仕切り板80は、中心開口82を有する。内側の二次サイクロンハウジング84は、5つの二次サイクロン86を有する。   The secondary cyclone device 70 has a generally star-shaped support 72 that includes a series of concave side walls 74, concentric air deflectors 76 and five radially aligned openings 78. Have. The partition plate 80 on the support 72 has a central opening 82. The inner secondary cyclone housing 84 has five secondary cyclones 86.

図示のように、内側の二次サイクロンハウジング84は、仕切り板80の中心開口82に保持する。固定手段88によって、支持体72、仕切り板80および内側の二次サイクロンハウジング84を一体に固定する。具体的には、固定手段88が、内側の二次サイクロンハウジング84上のボス90にねじ係合する。   As illustrated, the inner secondary cyclone housing 84 is held in the central opening 82 of the partition plate 80. The support 72, the partition plate 80, and the inner secondary cyclone housing 84 are fixed integrally by the fixing means 88. Specifically, the fixing means 88 is threadedly engaged with the boss 90 on the inner secondary cyclone housing 84.

図示のように、各二次サイクロン86は、ごみ分離室92を有し、この分離室92は、円筒形の第2側壁94および接線方向に配向した第2入口96を有する。各二次サイクロン86の底部は、ごみ粒子排出口98を有する。各排出口98は、支持体72に形成した5つの開口78に位置決めされ、これに受け取られる。   As shown, each secondary cyclone 86 has a waste separation chamber 92 that has a cylindrical second side wall 94 and a second tangentially oriented inlet 96. The bottom of each secondary cyclone 86 has a dust particle outlet 98. Each outlet 98 is positioned in and received by five openings 78 formed in the support 72.

空気流れ分配装置100は、内側の二次サイクロンハウジング84内に受け取られ、ここに保持される。空気分配装置100は、中心開口102および5つの半径方向に並べたチャネル104を有する。一つのチャネル104は、二次サイクロン86の接線方向に配向した各第2入口96に連絡する。外側の二次サイクロンハウジング106は、二次サイクロン86の上部を閉じる上壁108、および内側の二次サイクロンハウジング84上でその周りに受け取られる下向きに配向したフランジ110を有する。このフランジ110の下部リップ112が、仕切り板80および側壁42の上縁部に係合する。上壁108内に5つの半径方向に並んだ導管114を設け、これによって、二次サイクロン86それぞれの軸方向に配向した第2出口116を形成する。   The air flow distribution device 100 is received and retained within the inner secondary cyclone housing 84. The air distributor 100 has a central opening 102 and five radially aligned channels 104. One channel 104 communicates with each second inlet 96 oriented in the tangential direction of the secondary cyclone 86. The outer secondary cyclone housing 106 has an upper wall 108 that closes the top of the secondary cyclone 86, and a downwardly oriented flange 110 that is received around on the inner secondary cyclone housing 84. The lower lip 112 of the flange 110 engages with the upper edge of the partition plate 80 and the side wall 42. Five radially aligned conduits 114 are provided in the top wall 108 to form an axially oriented second outlet 116 for each secondary cyclone 86.

外側の二次サイクロンハウジング106の上にトップ部材118を固定する。トップ部材118と外側の二次サイクロンハウジング106との間にシール部材120を設けて、トップ部材118と外側の二次サイクロンハウジング106の上壁108との間の排出マニホルド122をシールする。トップ部材118に排出口124を設ける。一つの考えられる実施態様では、このトップ部材118にハンドル126をピボット接続する。ごみ回収容器12を真空掃除機10から取り外すさいに、このハンドル126を使用すれば、ごみ回収容器12を持ち上げ、これを支えることができ便利である。   A top member 118 is fixed on the outer secondary cyclone housing 106. A seal member 120 is provided between the top member 118 and the outer secondary cyclone housing 106 to seal the discharge manifold 122 between the top member 118 and the upper wall 108 of the outer secondary cyclone housing 106. A discharge port 124 is provided in the top member 118. In one possible embodiment, a handle 126 is pivotally connected to the top member 118. Use of this handle 126 when removing the garbage collection container 12 from the vacuum cleaner 10 is convenient because the garbage collection container 12 can be lifted and supported.

参照符号126で全体を示す複合的な気流案内手段を各二次サイクロン86に設ける。図2、図3および図4に明示するように、気流案内手段126それぞれは、羽根部128および円錐台形部130を有する。羽根部128は、円錐台形部130と各二次サイクロン86の軸方向に配向した第2出口116との間に設ける。図5に明示するように、各羽根部128は、複数の供給チャネル132を構成するものである。従って、羽根部の横断面がほぼ+形状の場合には、4本の供給チャネル132が存在することになり、対応する導管114に空気流れを供給することができる。図3および図4に明示するように、各羽根部128は、軸方向に配向する出口116に対向する導管端部において導管114に係合する一連のノッチ134を有する。効果が永続する接着剤を利用すれば、二次サイクロン86の導管114に複合的な気流案内手段126を固定することができる。さらに図3に示すように、各円錐台形部130は、羽根部128に向かって収斂する底部において閉じられた凹部136を有する。   Each secondary cyclone 86 is provided with a composite airflow guide, indicated generally by the reference numeral 126. As clearly shown in FIGS. 2, 3, and 4, each of the airflow guiding means 126 has a blade portion 128 and a truncated cone portion 130. The blade portion 128 is provided between the frustoconical portion 130 and the second outlet 116 oriented in the axial direction of each secondary cyclone 86. As clearly shown in FIG. 5, each blade part 128 constitutes a plurality of supply channels 132. Therefore, when the cross section of the vane portion has a substantially + shape, four supply channels 132 exist, and an air flow can be supplied to the corresponding conduit 114. As clearly shown in FIGS. 3 and 4, each vane 128 has a series of notches 134 that engage the conduit 114 at the end of the conduit opposite the axially oriented outlet 116. If an adhesive with a long-lasting effect is used, the composite airflow guiding means 126 can be fixed to the conduit 114 of the secondary cyclone 86. As further shown in FIG. 3, each frustoconical portion 130 has a recess 136 closed at the bottom that converges toward the vane portion 128.

真空掃除機の作用について、以下詳しく説明する。真空掃除機の動作時、回転式撹拌装置22が、掃除を受けている下のカーペットのけばからごみやその他の屑をたたき出す。同時に、吸引力発生装置28が空気流れを吸引し、吸引口20からごみや屑を取りこむ。空気流れ、ごみおよび屑が、次に、一次サイクロン40の接線方向に配向した入口42からダクト(図示省略)により運びこまれる。ごみや屑が取りこまれている空気流れが、次に、ごみ回収室50(矢印Aで示すように)内においてサイクロン化気流パターンで流動する。この気流の流動パターンによって、遠心力が発生し、空気流れ中のごみや屑を外側に側壁42に向けて押し出す。この後、ごみや屑が徐々に一次ごみ回収室50に向かって落下し、ここで回収される。次に、相対的にクリーンな空気がシュラウド56の側壁62の開口、および上部リップ58によって形成される軸方向に配向した出口(矢印B)から吸引される。この後、空気流れは、支持体72の凹状側壁74を過ぎてから、支持体の上部に回りこみ、空気偏向器76にそって、二次サイクロン86間を上向きに流れる(矢印C)。   The operation of the vacuum cleaner will be described in detail below. During operation of the vacuum cleaner, the rotary stirrer 22 knocks out debris and other debris from the bottom of the carpet that is being cleaned. At the same time, the suction force generator 28 sucks the air flow and takes in dust and debris from the suction port 20. Air flow, debris and debris are then carried by a duct (not shown) from a tangentially oriented inlet 42 of the primary cyclone 40. The air flow in which garbage and debris are taken in then flows in a cyclonic airflow pattern in the garbage collection chamber 50 (as indicated by arrow A). Centrifugal force is generated by the flow pattern of the air flow, and dust and debris in the air flow are pushed outward toward the side wall 42. Thereafter, garbage and waste gradually fall toward the primary garbage collection chamber 50 and are collected here. Next, relatively clean air is drawn from the opening in the side wall 62 of the shroud 56 and the axially oriented outlet (arrow B) formed by the upper lip 58. Thereafter, the air flow passes through the concave side wall 74 of the support 72 and then wraps around the upper portion of the support and flows upward along the air deflector 76 between the secondary cyclones 86 (arrow C).

具体的に説明すると、仕切り板が二次サイクロン86の周囲に、そしてフランジ110にそってシール80し、開口82を通る空気流れを作りだす。次に、この空気流れは二次サイクロン86の間を通り、空気分配装置100の中心開口102に流れ込む。空気流れが、チャネル104を通って二次サイクロン86(矢印D)の接線方向に配向した入口96のそれぞれに向かっている間、空気分配装置100が空気流れを5つに分配する。次に、空気流れが、二次サイクロン86のごみ分離室92内においてサイクロン化気流パターンで流動する。この間に、空気流れが、複合的な気流案内手段126の円錐台形部130の円錐台形面上でその周囲に流れる。この円錐台形面は乱流のないスムーズな流れを加速するため、微粒子が遠心力の作用を受けてより効率よく流動し、円筒形の第2側壁94に接触する。これらの微粒子は、ごみ粒子排出口98を通って回収装置68に落下し、回収装置68によって内壁64に設けた二次ごみ回収室136に運ばれる。   Specifically, the partition plate seals 80 around the secondary cyclone 86 and along the flange 110 to create an air flow through the opening 82. This air flow then passes between the secondary cyclones 86 and flows into the central opening 102 of the air distributor 100. The air distributor 100 distributes the air flow into five while the air flow is directed through the channel 104 to each of the tangentially oriented inlets 96 of the secondary cyclone 86 (arrow D). The air flow then flows in a cyclonic airflow pattern within the dust separation chamber 92 of the secondary cyclone 86. During this time, an air flow flows around the frustoconical surface of the frustoconical portion 130 of the composite airflow guiding means 126. Since this frustoconical surface accelerates a smooth flow without turbulent flow, the fine particles flow more efficiently under the action of centrifugal force and come into contact with the cylindrical second side wall 94. These fine particles fall through the dust particle discharge port 98 to the recovery device 68 and are transported by the recovery device 68 to the secondary waste recovery chamber 136 provided on the inner wall 64.

同時に、微粒子が取り除かれた空気流れは、軸方向に配向した出口116の方に吸引される。空気流れが、出口116を構成する導管114に向かって流れている間、複合的な気流案内手段126の羽根部128によって空気流れの方向が再び設定される。この結果、サイクロン化気流が消散するため、空気流れが、よりスムーズにかつより効率的に流れ、導管114および軸方向に配向した出口116を通って、排出マニホルド122に流れ込む。ここから、空気流れは、排出口124から排出され、導管(図示省略)によって吸引力発生装置28に送り込まれる。次に、空気流れは、吸引力発生装置28のモーターに流れ、これを冷却してから、最後のフィルター(図示省略)から排出され、排気口34から環境内に流出する。   At the same time, the air stream from which the particulates have been removed is sucked towards the axially oriented outlet 116. While the air flow is flowing toward the conduit 114 constituting the outlet 116, the direction of the air flow is again set by the vanes 128 of the composite air flow guiding means 126. As a result, the cyclonic air flow is dissipated so that the air flow flows more smoothly and more efficiently and flows into the exhaust manifold 122 through the conduit 114 and the axially oriented outlet 116. From here, the air flow is discharged from the discharge port 124 and sent to the suction force generator 28 by a conduit (not shown). Next, the air flow flows to the motor of the suction force generator 28, cools it, and then is discharged from the last filter (not shown) and flows out from the exhaust port 34 into the environment.

本発明の別な実施態様を図6に示す。空気偏向器76を利用しない点を除けば、以上の実施態様と同じである。この点を除いて、気流は、以上の実施態様と全く同じである。   Another embodiment of the present invention is shown in FIG. The embodiment is the same as the above embodiment except that the air deflector 76 is not used. Except for this point, the airflow is exactly the same as in the above embodiment.

以上の、本発明の好適な実施態様の説明は、例示を目的としたものである。即ち、本発明を以上説明してきた形態に厳密に制限するものではない。以上の記載から、自明な変更などが可能である。以上の実施態様は、発明の原理および応用の最良の説明であり、当業者ならば、本発明を各種の実施態様で実施できるとともに、具体的な用途に応じて、各種の変更などを加えることができるはずである。これら変更などは、公正かつ法的かつ等価的な範囲に従って解釈すべき特許請求の範囲によって判断されるべき本発明の範囲内に含まれるものである。従って、添付図面および好適な実施態様は、公正かつ広い範囲で解釈される限り、特許請求の範囲の通常の意味を制限するものではない。   The above description of preferred embodiments of the invention is for purposes of illustration. That is, the present invention is not strictly limited to the form described above. From the above description, obvious changes are possible. The above embodiment is the best explanation of the principle and application of the invention, and those skilled in the art can implement the present invention in various embodiments and make various modifications depending on the specific application. Should be able to. Such changes are intended to be included within the scope of the present invention to be determined by the following claims, which are to be construed in accordance with the fair, legal and equivalent scope. Accordingly, the accompanying drawings and preferred embodiments do not limit the ordinary meaning of the claims, so long as they are construed fairly and broadly.

10:真空掃除機
12:ごみ回収容器
14:掃除機本体
16:ノズル装置
18:制御装置
22:回転式撹拌装置
28:吸引力発生装置
40:一次サイクロン
68:回収装置
70:二次サイクロン装置
86:二次サイクロン
100:空気分配装置
126:気流案内装置
128:羽根部
130:円錐台形部
10: Vacuum cleaner 12: Garbage collection container 14: Vacuum cleaner main body 16: Nozzle device 18: Control device 22: Rotary stirring device 28: Suction force generator 40: Primary cyclone 68: Recovery device 70: Secondary cyclone device 86 : Secondary cyclone 100: air distributor 126: airflow guide device 128: blade part 130: frustoconical part

Claims (20)

キャニスター装置、および吸引口を備えたノズル装置を有する掃除機本体、
掃除機本体に設けられた吸引力発生装置、および
掃除機本体に設けられ、円筒形側壁、接線方向に配向した入口および軸方向に配向した出口を有するサイクロン式分離装置を備えたごみ回収容器を有する真空掃除機であって、
上記ごみ回収容器が、上記の軸方向に配向し出口に隣接して複合的な気流案内手段を有し、上記複合的な気流案内手段が、羽根部と円錐台形部を有することを特徴とする真空掃除機。
A vacuum cleaner body having a canister device and a nozzle device with a suction port;
A suction collecting device provided in the vacuum cleaner main body, and a garbage collection container provided with a cyclonic separation device provided in the vacuum cleaner main body and having a cylindrical side wall, a tangentially oriented inlet and an axially oriented outlet. A vacuum cleaner having
The garbage collection container has a composite airflow guide means oriented in the axial direction and adjacent to the outlet, and the composite airflow guide means has a blade portion and a frustoconical portion. Vacuum cleaner.
上記円錐台形部と上記の軸方向に配向した出口との間に上記羽根部を設けた請求項1に記載の真空掃除機。
The vacuum cleaner according to claim 1, wherein the blade portion is provided between the frustoconical portion and the outlet oriented in the axial direction.
上記羽根部が、上記の軸方向に配向した出口に連絡する複数の供給チャネルを構成する請求項2に記載の真空掃除機。
The vacuum cleaner according to claim 2, wherein the blade portion constitutes a plurality of supply channels communicating with the axially oriented outlet.
上記羽根部の横断面が実質的に+形状をもつ請求項3に記載の真空掃除機。
The vacuum cleaner according to claim 3, wherein a cross section of the blade portion has a substantially + shape.
上記円錐台形部が、上記羽根部に向かって収斂する請求項4に記載の真空掃除機。
The vacuum cleaner according to claim 4, wherein the frustoconical portion converges toward the blade portion.
上記円錐台形部が、閉じた凹部を有する請求項5に記載の真空掃除機。
The vacuum cleaner according to claim 5, wherein the frustoconical portion has a closed recess.
上記の軸方向に配向した出口を導管によって構成し、上記羽根部が、この導管に係合する複数のノッチを有する請求項5に記載の真空掃除機。
6. The vacuum cleaner according to claim 5, wherein the axially oriented outlet is constituted by a conduit, and the blade has a plurality of notches engaging the conduit.
円筒形側壁および軸方向に配向した出口を備えたサイクロン式分離装置の気流案内方法であって、
上記出口に隣接する上記サイクロン式分離装置内に複合的な気流案内手段を配設し、
上記の複合的な気流案内手段の円錐台形表面に空気を流して、空気のサイクロン化を加速し、そして
上記の複合的な気流案内手段の羽根部によって構成されるチャネルに上記空気を送り込んで、上記空気の向きを再び上記の軸方向に配向した出口に向けることからなることを特徴とする案内方法。
An airflow guiding method for a cyclonic separation device having a cylindrical side wall and an axially oriented outlet,
A complex airflow guiding means is disposed in the cyclonic separator adjacent to the outlet,
Flowing air over the frustoconical surface of the composite airflow guide means to accelerate the cyclonation of the air, and feeding the air into a channel constituted by the vanes of the composite airflow guide means; A guide method characterized in that the direction of the air is directed again toward the outlet oriented in the axial direction.
上記の軸方向に配向した出口に上記空気が供給されている間、上記空気のサイクロン化気流を消散させることからなる請求項8に記載の方法。
9. The method of claim 8, comprising dissipating the cyclonic air stream of the air while the air is supplied to the axially oriented outlet.
キャニスター装置、および吸引口を備えたノズル装置を有する掃除機本体、
掃除機本体に設けられた吸引力発生装置、および掃除機本体に設けられたごみ回収容器を有する真空掃除機であって、
上記ごみ回収容器が、一次サイクロンおよび少なくとも一つの二次サイクロンを有し、
上記一次サイクロンが、円筒形の第1側壁、接線方向に配向した第1入口、および軸方向に配向した第1出口をもつ一次ごみ回収室を有し、
上記の少なくとも一つの二次サイクロンが、円筒形の第2側壁、接線方向に配向した第2入口、軸方向に配向した第2出口、およびこの軸方向に配向した第2出口に隣接した、複合的な気流案内手段をもつ第2ごみ分離室を有し、そして
上記複合的な気流案内手段が、羽根部と円錐台形部を有することを特徴とする真空掃除機。
A vacuum cleaner body having a canister device and a nozzle device with a suction port;
A vacuum cleaner having a suction force generator provided in the vacuum cleaner body, and a waste collection container provided in the vacuum cleaner body,
The waste collection container has a primary cyclone and at least one secondary cyclone;
The primary cyclone has a primary waste collection chamber having a cylindrical first sidewall, a first inlet oriented in a tangential direction, and a first outlet oriented in an axial direction;
A composite wherein the at least one secondary cyclone is adjacent to the cylindrical second sidewall, a tangentially oriented second inlet, an axially oriented second outlet, and the axially oriented second outlet. A vacuum cleaner comprising: a second dust separation chamber having a typical air flow guiding means; and the composite air flow guiding means having a blade portion and a truncated cone shape portion.
上記円錐台形部と上記の軸方向に配向した第2出口との間に上記羽根部を設けた請求項10に記載の真空掃除機。
The vacuum cleaner according to claim 10, wherein the blade portion is provided between the frustoconical portion and the second outlet oriented in the axial direction.
上記羽根部が、上記の軸方向に配向した第2出口に連絡する複数の供給チャネルを構成する請求項11に記載の真空掃除機。
The vacuum cleaner according to claim 11, wherein the blade portion constitutes a plurality of supply channels communicating with the second outlet oriented in the axial direction.
上記羽根部の横断面が実質的に+形状をもつ請求項12に記載の真空掃除機。
The vacuum cleaner according to claim 12, wherein a cross section of the blade portion has a substantially + shape.
上記円錐台形部が、上記羽根部に向かって収斂する請求項13に記載の真空掃除機。
The vacuum cleaner according to claim 13, wherein the frustoconical portion converges toward the blade portion.
上記円錐台形部が、閉じた凹部を有する請求項14に記載の真空掃除機。
The vacuum cleaner according to claim 14, wherein the frustoconical portion has a closed recess.
上記の軸方向に配向した第2出口を導管によって構成し、上記羽根部が、この導管に係合する複数のノッチを有する請求項14に記載の真空掃除機。
15. The vacuum cleaner according to claim 14, wherein the second axially oriented outlet is constituted by a conduit, and the blade has a plurality of notches engaging the conduit.
さらに、二次ごみ回収室を有する請求項10に記載の真空掃除機。
Furthermore, the vacuum cleaner of Claim 10 which has a secondary garbage collection chamber.
上記の少なくとも一つの二次サイクロンが、上記二次ごみ回収室と流体連絡するごみ粒子排出口を有する請求項17に記載の真空掃除機。
The vacuum cleaner of claim 17, wherein the at least one secondary cyclone has a dust particle outlet in fluid communication with the secondary waste collection chamber.
さらに、上記の円筒形の第1側壁内に同心円状に受け取られる内壁を有し、上記二次ごみ回収室にこの内壁を設けた請求項18に記載の真空掃除機。
The vacuum cleaner according to claim 18, further comprising an inner wall concentrically received in the cylindrical first side wall, wherein the inner wall is provided in the secondary garbage collection chamber.
上記の軸方向に配向した第1出口が、上記の接線方向に配向した第2入口の上流側にある請求項10に記載の真空掃除機。   The vacuum cleaner according to claim 10, wherein the first outlet oriented in the axial direction is upstream of the second inlet oriented in the tangential direction.
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