41 |
The air cleaner |
JP2005167260 |
2005-06-07 |
JP4636945B2 |
2011-02-23 |
壮一 上村; 哲生 秋山 |
|
42 |
Self-cleaning exhaust system and method |
JP2004529008 |
2003-08-08 |
JP4467432B2 |
2010-05-26 |
キム リュイ ソウ, |
A self-cleaning exhaust system including a top, a front wall, a rear wall, and side walls extending between the rear wall and the front wall. A baffle depending from the top intermediate the front wall and the rear wall. A plate extending forwardly from the rear wall to forwardly of the baffle. A first filter is located in an air flow path. A first spray outlet is located in the air flow path before the first filter for providing a first cleaning spray into the air flow so that the air flow draws the cleaning spray onto a first surface of the first filter. A method of removing contaminants is also disclosed. |
43 |
Air cleaner, case of continuously variable transmission, engine unit, and saddle-riding vehicle |
JP2007214108 |
2007-08-20 |
JP2009047247A |
2009-03-05 |
NOBUHIRA TAKAYUKI |
PROBLEM TO BE SOLVED: To provide an air cleaner in which air flows smoothly.
SOLUTION: This air cleaner 72 comprises a suction port 74a for introducing the outside air, a discharge port 73a formed on the opposite side of the suction port, and a filter 75. The filter 75 is so disposed as to extend from the suction port side to the discharge port side. The side wall part 74b of a case cover 74 forming a suction side air chamber S1 is so formed that its distance from the filter is reduced from the suction port toward the bottom of the suction side air chamber. The side wall part 73b of the case body 73 forming an exhaust side air chamber S2 is so formed that its distance from the filter is increased toward the discharge port.
COPYRIGHT: (C)2009,JPO&INPIT |
44 |
Gas transfer piping |
JP20981797 |
1997-07-18 |
JPH10128023A |
1998-05-19 |
OKADA TAKESHI; SUZUKI YASUO; YAMADA SHIYOUICHI; TAMURA KENJI |
PROBLEM TO BE SOLVED: To miniaturize the whole plant and to reduce costs by providing a gas transfer piping in which gas containing droplet particles of prescribed particle size or more flows at prescribed flow velocity of more with a droplet separating means and a liquid collecting means.
SOLUTION: This is intended for the case where droplets of ≥8μm particle size are separated from a gas flow of ≥6m/sec. A droplet separating means 3 is installed with a mesh body 31 being inclined at an angle to the axis direction of piping. In the downstream side of the mesh body 31, a liquid collecting member 4 is installed. Droplet containing gas flows from the down side toward the up side of the mesh body 31 passing through it. At this time, the gas components pass through the mesh body, but a part of the droplets cannot pass through the mesh body 31, and hit against the underside surface thereof to be turned into large droplets, which are discharged to an outside piping 200 through a discharge pipe 51. The remaining droplets which have passed through the mesh body 31 hit against the inner surface of the piping 200 to be turned into large droplets, which are collected by a liquid collecting member 4 and discharged to outside the piping 200 through a discharge pipe 52.
COPYRIGHT: (C)1998,JPO |
45 |
High capacity marine separator |
JP52573395 |
1995-03-23 |
JPH09511178A |
1997-11-11 |
テイラ,デイヴィド; ハシェム,アラン、エイ; フューウェル,ケニス、ジェイ、ジューニア; レイニ,ケヴィン、エヌ |
(57)【要約】 慣性翼分離器(32)により形成した第1段と、コアレッサー段(36)により形成した第2段と、慣性翼分離器(34)により形成した第3段とを使う高能力船舶用分離器(30)を提供する。 コアレッサー段(36)は、空気流方向に対して上下方向から傾斜させ、空気流に対し表面積を増し、コアレッサー区間からの水の排出割合を増し、第2の慣性翼分離器(34)の頂部の付近で一層高い速度でこの第2の慣性翼分離器(34)に対し改良された空気流分布を生ずる。 各慣性翼分離器(32,34)は、空気流に対する障害を減らすように同一平面の空洞を備え、又波長が3インチより大きく1インチ以上の間隔を置いてた翼を持つ。 本発明船舶用分離器は50標準ft/secの流れ速度が可能である。 |
46 |
Diagnostic control system for dust collector |
JP50875895 |
1994-08-31 |
JPH09502391A |
1997-03-11 |
サール、デヴィド・エー; ジョーゲンセン、ロナルド・エル |
(57)【要約】 集塵装置を診断し制御するプログラマブルな統合制御システム。 マイクロプロセッサに基づくサブシステムが、集塵装置の作動条件に関連する情報を受け取るために集塵装置とインターフェースする。 このマイクロプロセッサは、埋め込まれたソフトウェアを実行してその情報を分析し、診断を行う。 この分析に応じて、該マイクロプロセッサは制御信号を該集塵装置へ出力するとともに、該集塵装置の作動条件を表示するために表示パネルを作動させる。 |
47 |
Small capacity expeimental filterer |
JP28409586 |
1986-11-28 |
JPS62221405A |
1987-09-29 |
MATHUS GREGORY; LYMAN GEORGE F; LOONEY KEVIN |
A small volume laboratory filter having a thin rectangular body and coaxial inlet and outlet sleeves connected to opposite ends thereof. A very thin filter cavity is formed in the body and lies in a plane inclined slightly to the common axis of the inlet and outlet sleeves. The cavity is divided by a filter membrane into extremely thin chambers, one communicating with the inlet sleeve and the other with the outlet sleeve. A rigid package for the filter is sealed across one end by a flexible cover which when stripped from the package exposes the inlet sleeve so that it may be readily engaged by a syringe nipple or other fluid source without the user having to touch the filter. When the inlet sleeve is engaged, the filter may be withdrawn from the package. |
48 |
Air cleaner |
JP2439981 |
1981-02-23 |
JPS56158120A |
1981-12-05 |
SUTANREI POORU UITSUTOCHIERU |
|
49 |
エアフィルタ |
JP2014543860 |
2012-11-27 |
JP5711857B2 |
2015-05-07 |
スヴェン アレクサンダー カイザー |
|
50 |
Oil separator |
JP2010258139 |
2010-11-18 |
JP5566862B2 |
2014-08-06 |
孝聡 松井 |
|
51 |
Forced air open ventilation system and electrical machinery, including the air cleaner |
JP2010503595 |
2008-04-21 |
JP5432887B2 |
2014-03-05 |
フレム,グラハム レ |
|
52 |
Method for regenerating the dust-collecting filter |
JP2008152872 |
2008-06-11 |
JP5293941B2 |
2013-09-18 |
政宏 清水; 和彦 品川 |
A particulate filter regeneration system according to the present invention, which regenerates a particulate filter (4) provided in an exhaust line (3) of an engine (2) equipped with a turbocharger (1) by burning matter trapped on the particulate filter (4) by raising the temperature of exhaust gas at times that the particulate filter (4) requires regeneration, comprises an electric motor (5) functioning as an intake quantity regeneration means capable of increasing the flow rate of compressed air without depending on the flow rate of exhaust gas flowing across a turbine (1t) of the turbocharger (1), a bypass line (7) connecting an engine intake line (6e) upstream of the engine (2) to a section of the exhaust line (3) upstream of the particulate filter (4), a flow rate regulation valve (8) regulating the flow rate in the bypass line (7), and a control means (9) controlling the electric motor (5) and the flow rate regulation means (8). |
53 |
High capacity marine separator |
JP52573395 |
1995-03-23 |
JP4148478B2 |
2008-09-10 |
テイラ,デイヴィド; ハシェム,アラン、エイ; フューウェル,ケニス、ジェイ、ジューニア; レイニ,ケヴィン、エヌ |
|
54 |
Gas transfer pipe |
JP20981797 |
1997-07-18 |
JP4132143B2 |
2008-08-13 |
詳一 山田; 剛 岡田; 健二 田村; 康夫 鈴木 |
|
55 |
Air cleaner |
JP2006019437 |
2006-01-27 |
JP2007007637A |
2007-01-18 |
PARK CHAN JUN; KIN EISEI; OH SUN A |
PROBLEM TO BE SOLVED: To provide an air cleaner capable of easily and quickly removing a dust deposited on a surface of a dust-collection filter without separating the dust-collection filter.
SOLUTION: The air cleaner is provided with a vibration member arranged adjacently to the dust-collection filter; and an oscillation motor assembly arranged on the vibration member. The dust-collection filter is inclinedly arranged such that an upper end is deviated to a front surface of a housing as compared with a lower end. A tray for receiving the dust dropping off from the dust-collection filter when the dust-collection filter is vibrated by vibration of the vibration member is arranged on the lower part of the dust-collection filter. A rear surface plate of the tray is extended toward the lower end of the dust-collection filter and prevents the dust collected on the tray from being scattered and deposited on the dust-collection filter again. At least one surface of the dust-collection filter is coating-treated such that electro-static force is not generated and facilitates removal of the dust.
COPYRIGHT: (C)2007,JPO&INPIT |
56 |
Self-cleaning exhaust system and method |
JP2004529008 |
2003-08-08 |
JP2005535863A |
2005-11-24 |
キム リュイ ソウ, |
A self-cleaning exhaust system including a top, a front wall, a rear wall, and side walls extending between the rear wall and the front wall. A baffle depending from the top intermediate the front wall and the rear wall. A plate extending forwardly from the rear wall to forwardly of the baffle. A first filter is located in an air flow path. A first spray outlet is located in the air flow path before the first filter for providing a first cleaning spray into the air flow so that the air flow draws the cleaning spray onto a first surface of the first filter. A method of removing contaminants is also disclosed. |
57 |
Small capacity laboratory filter |
JP28409586 |
1986-11-28 |
JPH0636842B2 |
1994-05-18 |
グレゴリー・マチュース; ケヴィン・ルーニー; ジョージ・ライマン |
A small volume laboratory filter having a thin rectangular body and coaxial inlet and outlet sleeves connected to opposite ends thereof. A very thin filter cavity is formed in the body and lies in a plane inclined slightly to the common axis of the inlet and outlet sleeves. The cavity is divided by a filter membrane into extremely thin chambers, one communicating with the inlet sleeve and the other with the outlet sleeve. A rigid package for the filter is sealed across one end by a flexible cover which when stripped from the package exposes the inlet sleeve so that it may be readily engaged by a syringe nipple or other fluid source without the user having to touch the filter. When the inlet sleeve is engaged, the filter may be withdrawn from the package. |
58 |
JPS6340126B2 - |
JP2439981 |
1981-02-23 |
JPS6340126B2 |
1988-08-09 |
SUTANREI HOORU UITSUTOCHERU |
|
59 |
공기청정기 |
KR1020050058106 |
2005-06-30 |
KR1020070002528A |
2007-01-05 |
박찬정; 김영생; 오선아 |
An air cleaner comprising a vibration member and a vibration motor assembly, which can remove dust adhered onto the surface of a dust collecting filter simply and promptly in the state that the dust collecting filter is not separated, and prevents electrostatic force from being generated on the surface of the dust collecting filter to allow dust to be easily separated from the dust collecting filter, is provided. In an air cleaner comprising a housing, and a dust collecting filter(20) and a blowing fan installed within the housing, the air cleaner further comprises: a vibration member(50) disposed adjacently to the dust collecting filter; and a vibration motor assembly(60) installed on the vibration member so as to remove dust adhered onto the dust collecting filter. The dust collecting filter comprises a frame(21) formed as a rectangular frame, and a filter part inserted into the frame to collect dust, wherein slide projections(23) are formed on an upper end and a lower end of the frame such that the slide projections are inserted into slide grooves of the housing to guide sliding movement of the dust collecting filter. |
60 |
공기 청정 장치 및 방법 |
KR1020030057426 |
2003-08-20 |
KR100514716B1 |
2005-09-13 |
임창수; 안요한; 임숙희; 박선욱 |
오염 사고로 인해 발생한 국부 영역의 공기 오염을 제어하기에 적합한 공기 청정 장치 및 방법이 개시되어 있다. 공기를 내부로 흡입하는 흡입부 및 내부 공기를 외부로 배출하는 배기부를 포함하고, 내부가 외부 공간과 차단되는 하우징, 상기 하우징 내의 공기 흡입부에 인접하여 위치하고, 상기 공기 흡입부를 통해 흡입된 공기에서 제1 오염물군을 제거하기 위한 제1 필터들이 병렬 배치된 제1 필터부, 및 상기 하우징 내에 구비하고, 상기 하우징 내로 외부 공기를 흡입시키기 위한 송풍기를 구비하는 공기 청정 장치를 제공한다. 상기 제1 필터들이 병렬 배치되어 있어 상기 제1 오염물군을 빠르게 제거하므로 국부 영역의 오염을 제어할 수 있다. |