子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | Rotary vane pump with liquids separator | EP10194609.3 | 2010-12-10 | EP2336567A2 | 2011-06-22 | Thomas, Delbert L.; Blackburn, Christopher Lee; Smits, Troy |
A compact suction and separation device including a pump and a separator. The pump includes a vertically oriented rotary vane pump comprising a suction inlet and an exhaust outlet. The separator includes a collector configured to receive combinations of solids, liquids and air. The separator separates solids and liquids from the air. Air from the separator is routed from an air discharge into the suction inlet of the pump. Solids and liquids are drained from a discharge of the separator. The separator may be gravity-based or centrifuge-type separator driven by the pump motor.
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| 62 | MULTISTAGE COMPRESSOR | EP08722588.4 | 2008-03-21 | EP2053247A1 | 2009-04-29 | SATO, Hajime; KIMATA, Yoshiyuki |
There is provided a compressor using CO2 as a working gas and capable of having a high capacity. The multistage compressor includes an enclosed housing, a plurality of compression mechanisms provided in the enclosed housing, and a motor for driving the plurality of compression mechanisms, wherein at least one of the plurality of compression mechanisms is a scroll compression mechanism, and a gas including a supercritical state is used as the working gas. The scroll compression mechanism includes a fixed scroll having a spiral wrap formed on one side of an end plate thereof, and an orbiting scroll 116 provided, on one side of an end plate 117 thereof, with a spiral wrap 118 that is combined with the wrap of the fixed scroll to form a spiral compression chamber. The introduced working gas is compressed in the compression chamber as the orbiting scroll 116 orbits. Taking the thickness of the end plate 117 of the orbiting scroll 116 as Worb and the height of the wrap 118 of the orbiting scroll 116 as L, a condition of L ≥ Worb is satisfied. |
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| 63 | Multistage Roots-type vacuum pump | EP03020357.4 | 2003-09-09 | EP1398507A3 | 2006-04-19 | Kuramoto, Satoru; Kawaguchi, Masahiro; Yamamoto, Shinya; Sato, Daisuke; Uchiyama, Osamu |
A vacuum pump has a housing and a pump mechanism accommodated in the housing. An exhaust-passage forming portion (61) is located outside of the housing. The exhaust-passage forming portion forms an exhaust passage, which exhaust passage guides gas discharged from the pump mechanism toward the outside (441) of the vacuum pump. A thermal conductor (62) is connected to the outer surface of the exhaust-passage forming portion. The thermal conductor is made of a material having a thermal conductance of which is greater than that of the material for the exhaust-passage forming portion.
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| 64 | Multistage Roots-type vacuum pump | EP03020357.4 | 2003-09-09 | EP1398507A2 | 2004-03-17 | Kuramoto, Satoru; Kawaguchi, Masahiro; Yamamoto, Shinya; Sato, Daisuke; Uchiyama, Osamu |
A vacuum pump has a housing and a pump mechanism accommodated in the housing. An exhaust-passage forming portion (61) is located outside of the housing. The exhaust-passage forming portion forms an exhaust passage, which exhaust passage guides gas discharged from the pump mechanism toward the outside (441) of the vacuum pump. A thermal conductor (62) is connected to the outer surface of the exhaust-passage forming portion. The thermal conductor is made of a material having a thermal conductance of which is greater than that of the material for the exhaust-passage forming portion. |
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| 65 | 永久磁铁嵌入式电动机、压缩机和制冷空调装置 | CN201420616656.1 | 2014-10-23 | CN204517521U | 2015-07-29 | 仁吾昌弘; 土田和庆; 马场和彦 |
| 本实用新型提供一种永久磁铁嵌入式电动机、压缩机和制冷空调装置,该永久磁铁嵌入式电动机包括:定子铁芯(8),其配置在壳体(6)内部;转子(22),其配置在该定子铁芯(8)的内径侧;以及多个压缩部(18),其形成在定子铁芯(8)的外周部与壳体(6)的内周部之间,由于壳体(6)与定子铁芯(8)之间产生的按压力而发生变形,由此产生比因该按压力而在定子铁芯(8)产生的压缩应力高的压缩应力,其中,设压缩部(18)的旋转方向宽度为A、壳体(6)的径向厚度为B,压缩部(18)以满足B>A的关系的方式形成。 | ||||||
| 66 | COMBINED DRIVING SYSTEM OF AN ELECTRIC ENERGY GENERATOR WITH THE UTILIZATION OF THE PRESSURE POTENTIAL OF A HIGH-ENERGY MEDIUM GENERATED IN THE FORM OF A MIXTURE OF EXHAUST GASES AND COMPRESSED AIR WITH THE AID OF A MOTOR WITH ROCKING PISTONS WITH AN INTEGRATED COMPRESSOR SECTION | PCT/CZ2012000108 | 2012-10-26 | WO2013060309A3 | 2013-07-04 | FROLIK JIRI |
| The essence of the solution resides in that an internal combustion engine with rocking pistons is constituted by a shared working space in a shared housing (1) of the motor and a compressor in the central portion of which there are formed in a mirrored fashion combustion chambers (2, 2.1) containing rocking blades (3, 3.1) of the motor that are rigidly radially supported on a turnable central shaft (4) and in a carrier ring (4.1) and wherein the rocking blades (3, 3.1) are to advantage mutually angled with respect to each other and wherein the combustion chambers (2, 2.1) are delimited on the one side by delimiting partitions (5, 5.1) radially disposed at the inner circumferential surface of the shared housing (1) of the motor and the compressor and separating the combustion chambers (2, 2.1) from primary compressor chambers (6, 6.1) of the primary compressor part, and on the opposite side by a pair of rocking blades (3, 3.1) at the locations of their lower dead centers, and wherein on the opposite side of the pair of rocking blades (3, 3.1) there are formed secondary compressor chambers (7., 7.1) of a secondary compressor part delimited by end parts of a guiding segment (18) provided with secondary suction and outlet channels (19, 19.1) of a secondary compressor and wherein the turnable central shaft (4) extends with its end portions into external housings (1.1, 1.2) of a crankshaft mechanism that are connected in a mirror fashion to the shared housing (1) of the motor and the compressor, where the turnable central shaft (4) is provided with an oscillating yoke (8) having arms that are connected by means of a pair of piston rods (9, 9.1) with a pair of crankshafts (10, 10.1) on the outer ends of which there is supported a pair of flywheels (11, 11.1) that are provided on their peripheries with coils (12, 12.1) of a stator winding. A pressurized mixing chamber (17) that is connected to the outlet (28) of the exhaust gases from the rocking motor and to the outlet (29) of the pressurized air from the compressor part is provided with a main outlet (22) for the energy medium that is connected to the working expansion machine (23) that is connected with a working generator (25) of electric current, and the collection mixing chamber (17) is connected by a relief outlet (18) for the energy medium to an inlet (19) of a relief expansion machine (20) that is connected to a relief generator (21) of electric current that is electrically connected with coils (12, 12.1) of a stator winding. The combined driving system can be used primarily for the driving of generators of electric current, but its use is not limited to the driving of mobile machines and other apparatuses requiring rotary motion for their operation. | ||||||
| 67 | WATER EXPLOSION ENGINE, METHOD, AND DEVICE | PCT/DE2006001665 | 2006-09-18 | WO2007031078B1 | 2007-08-23 | BUESSELMANN MANFRED |
| Disclosed is a method for producing superheated steam in an engine by injecting highly compressed water into a very hot liquid, synthetic medium located in the engine, resulting in explosion-like evaporation. This process is to take place in a specially developed rotary-translational engine in order to be able to use a maximum of the thrust of the steam. The engine is to be provided with at least two cylinders which have a circular cross-sectional shape (10) and inside which the drive shaft (11) is disposed eccentrically. A rotor (12) is arranged on the drive shaft. Said rotor (12) is connected to an element (16) that is inserted through the drive shaft (11) and can be moved back and forth therein while the ends of said element (16) are fixedly anchored to the rotor (12). The two ends of the rotor (10) are equipped with a specially developed triple-roll seal (13) that can lengthen and shorten the rotor (10), which is required when the drive shaft (11) is placed non-axially in a circular cylinder (10). The rotor (10) has an elongate, elliptical shape and divides the cylinder chamber (10) into two expanding and contracting working chambers A and B. | ||||||
| 68 | WATER EXPLOSION ENGINE, METHOD, AND DEVICE | PCT/DE2006001665 | 2006-09-18 | WO2007031078A9 | 2007-07-05 | BUESSELMANN MANFRED |
| Disclosed is a method for producing superheated steam in an engine by injecting highly compressed water into a very hot liquid, synthetic medium located in the engine, resulting in explosion-like evaporation. This process is to take place in a specially developed rotary-translational engine in order to be able to use a maximum of the thrust of the steam. The engine is to be provided with at least two cylinders which have a circular cross-sectional shape (10) and inside which the drive shaft (11) is disposed eccentrically. A rotor (12) is arranged on the drive shaft. Said rotor (12) is connected to an element (16) that is inserted through the drive shaft (11) and can be moved back and forth therein while the ends of said element (16) are fixedly anchored to the rotor (12). The two ends of the rotor (10) are equipped with a specially developed triple-roll seal (13) that can lengthen and shorten the rotor (10), which is required when the drive shaft (11) is placed non-axially in a circular cylinder (10). The rotor (10) has an elongate, elliptical shape and divides the cylinder chamber (10) into two expanding and contracting working chambers A and B. | ||||||
| 69 | 저배압 회전식 압축기 | KR1020177004260 | 2014-12-04 | KR101751901B1 | 2017-07-11 | 가오,빈; 유,지지앙; 구오,홍 |
| 저배압회전식압축기로서, 케이스, 압축기구, 실린더로부터배출된냉매에대해오일-가스분리를진행하기위한오일분리기, 오일분리기가분리한윤활유를수용하기위한오일푸울을포함한다. 압축기구는실린더어셈블리, 피스톤, 슬라이드베인, 주베어링과부베어링을포함하고, 실린더는슬라이드베인챔버를구비하며, 슬라이드베인챔버는오일공급홀을구비하며, 슬라이드베인이왕복이동할때, 슬라이드베인의끝단은슬라이드베인챔버에넣어지거나또는슬라이드베인챔버로부터나옴으로써슬라이드베인챔버의내부용적이최대용적 V2와최소용적 V1 사이에서변하도록한다. 오일푸울은슬라이드베인오일공급경로를통해오일공급홀에연통되며, 여기서최대용적 V2와최소용적 V1의비는 35%≤V1/V2≤85%의관계를만족시킨다. | ||||||
| 70 | 저배압 회전식 압축기 | KR1020157023406 | 2014-12-04 | KR101710350B1 | 2017-02-27 | 가오,빈; 유,지지앙; 구오,홍 |
| 저배압회전식압축기로서, 케이스, 압축기구, 실린더로부터배출된냉매에대해오일-가스분리를진행하기위한오일분리기, 오일분리기가분리한윤활유를수용하기위한오일푸울을포함한다. 압축기구는실린더어셈블리, 피스톤, 슬라이드베인, 주베어링과부베어링을포함하고, 실린더는슬라이드베인챔버를구비하며, 슬라이드베인챔버는오일공급홀을구비하며, 슬라이드베인이왕복이동할때, 슬라이드베인의끝단은슬라이드베인챔버에넣어지거나또는슬라이드베인챔버로부터나옴으로써슬라이드베인챔버의내부용적이최대용적 V2와최소용적 V1 사이에서변하도록한다. 오일푸울은슬라이드베인오일공급경로를통해오일공급홀에연통되며, 여기서최대용적 V2와최소용적 V1의비는 35%≤V1/V2≤85%의관계를만족시킨다. | ||||||
| 71 | 저배압 회전식 압축기 | KR1020157023406 | 2014-12-04 | KR1020160082351A | 2016-07-08 | 가오,빈; 유,지지앙; 구오,홍 |
| 저배압회전식압축기로서, 케이스, 압축기구, 실린더로부터배출된냉매에대해오일-가스분리를진행하기위한오일분리기, 오일분리기가분리한윤활유를수용하기위한오일푸울을포함한다. 압축기구는실린더어셈블리, 피스톤, 슬라이드베인, 주베어링과부베어링을포함하고, 실린더는슬라이드베인챔버를구비하며, 슬라이드베인챔버는오일공급홀을구비하며, 슬라이드베인이왕복이동할때, 슬라이드베인의끝단은슬라이드베인챔버에넣어지거나또는슬라이드베인챔버로부터나옴으로써슬라이드베인챔버의내부용적이최대용적 V2와최소용적 V1 사이에서변하도록한다. 오일푸울은슬라이드베인오일공급경로를통해오일공급홀에연통되며, 여기서최대용적 V2와최소용적 V1의비는 35%≤V1/V2≤85%의관계를만족시킨다. | ||||||
| 72 | 2단형 건식 진공펌프 | KR1020140119019 | 2014-09-05 | KR1020160029453A | 2016-03-15 | 김데이비드 |
| 본발명은고진공영역의진공도를얻을수 있고, 낮은압력하에서도기존펌프에비해배기속도가크며, 2단의실린더구조만으로고진공의달성이가능하여배기되는공정가스의경로가복잡하지않고또 길지않아펌프내를지나는가스의운반속도를최대로높일수 있는 2단형건식진공펌프를제공하는데 있다. 이를위해본 발명의 2단형건식진공펌프는내부수용공간을가지고있으며, 일측에는흡입구가구비되고, 타측에는배기구가구비되어있는펌프몸체실린더; 상기펌프몸체실린더의내부수용공간을형성하는 1단실린더와 2단실린더; 상기 1단실린더와 2단실린더를관통하여나란히설치되는 2개의펌프축, 상기 1단실린더를통과하는펌프축에서로맞물려동기하여반대방향으로회전하도록설치되는한 쌍의루츠형로터; 상기 2단실린더를통과하는펌프축에서로맞물려동기하여반대방향으로회전하도록설치되는한 쌍의스크류형로터; 상기어느한 펌프축을회전구동하기위한모터; 상기 2개의펌프축이연동하여회전하도록상기펌프축 상에서로맞물려설치되는한 쌍의기어; 상기흡입구와상기 1단실린더를연결하는 1단흡입통로; 상기 1단실린더와 2단실린더를연결하는배기이송통로; 상기배기이송통로와상기배기구를연결하는 1단배기통로; 상기 2단실린더의후단과상기배기구를연결하는 2단배기통로; 상기 1단배기통로를통해배기되는가스압력에의해개폐되는 1단배기밸브; 상기 2단배기통로를통해배기되는가스압력에의해개폐되는 2단배기밸브; 적어도상기 2단실린더와상기펌프축의베어링지지부를냉각하도록냉각수가순환하는냉각수재킷;을포함하여구성되어있다. | ||||||
| 73 | 진공펌프용 감압장치 | KR1020140062829 | 2014-05-26 | KR1020150135822A | 2015-12-04 | 김선길 |
| 본발명은진공펌프용감압장치에관한것으로, 본발명의일 측면에따르면, 유입홀이마련된전면부와토출홀이마련된배면부를포함하고, 상기전면부와배면부를관통하는유동홀을갖는배관연결부; 상기유입홀과연결되는제1 유로와상기토출홀에연결되고, 상기제1 유로와합류되는제2 유로가각각마련된이젝터부; 상기이젝터부에회전가능하게장착되며, 선택적으로상기배관연결부를둘러싸기위한배관고정부; 및상기유동홀을선택적으로개폐시키기위한체크밸브를포함하는진공펌프용감압장치가제공된다. | ||||||
| 74 | 압축기 | KR1020140058160 | 2014-05-15 | KR1020150132622A | 2015-11-26 | 신호열 |
| 본발명에서는유체순환장치를이용한압축기를제공한다. 이를위해, 본발명은원통형상의실린더와, 상기실린더와동일한동심원축을가지며, 상기동심원축을중심으로회전하며, 상기실린더와의사이에밀폐되는환형공간을형성하는원통형상의회전로터와, 상기회전로터에형성되며, 상기환형공간의단면에대응되는형태를가지고있어상기환형공간을차폐하는압축블레이드와, 상기실린더의양 측면에결합되며, 상기회전로터가회전함에따라상기압축블레이드와의사이에압축영역을형성하도록상기환형공간을차단하고, 상기압축블레이드의회전이이루어지도록상기환형공간을개방하는회전원판부와, 상기회전로터와상기회전원판부의회전운동타이밍을조절하는회전조절부와, 회전축에연결되어상기회전로터를회전시키는모터를포함하는압축기를제공한다. | ||||||
| 75 | 싱글 스크류 공기압축기 | KR1020140058107 | 2014-05-15 | KR1020150132613A | 2015-11-26 | 정태경 |
| 제목 : 싱글스크류공기압축기본 발명은외부로부터주입된공기를통해생성된압축공기에오일이혼입되어유막을형성, 밀봉되면서공기가압축되는오일인젝션( Oil Injection) 싱글스크류공기압축기에관한것으로본 발명은에어앤드하우징(1) 중앙부에있는메인스크류로터(5)와좌우측부에대칭으로위치한 2개의게이트로터(16)로구분되며외측에외부로부터공기를받아들이는흡기부(13)와생성된압축공기를배출하는배기부(14)가있으며하우징(1) 외부로부터회전동력을전달받는하우징(1)의외부로돌출된구동축(4), 구동축(4)과연동하여하우징(1)내에서회전되는메인스크류로터(5)와일체로결합되어회전력을전달받아맞물려공기압축을하는좌우대칭게이트로터(16)로구성된다. | ||||||
| 76 | 압축기 | KR1020140050639 | 2014-04-28 | KR1020150124164A | 2015-11-05 | 이재섭 |
| 본발명은압축기에관한것으로, 케이싱내에암로터및 수로터를배치하고, 구동모터의회전력으로암로터를회전시킴과동시에이에결합되는수로터를회전시켜유체를압축하는압축기르구성함에있어서, 상기케이싱내에평행하게배치되어상호결합하는한쌍의암로터와수로터를포함하고, 상기암로터에는둘레에는각각사이에곡부를형성하는 6개의기어부를축방향으로평행하게형성하고, 상기수로터의둘레에는상기곡부에결합되는 4개의로브를축방향으로평행하게형성한압축기를제공함으로써, 암로터의기어부및 수로터의로브가각각축방향으로평핸하고구성되어있으므로가공을용이하게이룰수 있고, 나아가제작정밀도를높일수 있어압축효율을향상시킬수 있는효과를갖는다. | ||||||
| 77 | 스크롤 압축기 | KR1020130163931 | 2013-12-26 | KR1020150075711A | 2015-07-06 | 윤석현 |
| 본발명의일 실시예에따른스크롤압축기는일측에배출구가형성되며, 타단에개방면이형성된케이스와, 케이스의개방면을통해케이스의내면일측에삽입되는디스차지플레이트와, 케이스의개방면을통해디스차지플레이트에밀착되는고정스크롤와, 케이스의일면과디스차지플레이트의일면을관통하여고정스크롤에결합되는고정구를포함하며, 케이스디스차지플레이트및 고정스크롤에는대응되는위치에관통공이형성되며, 디스차지플레이트에는실링부가배치되는것이바람직하다. 본발명에따른스크롤압축기는디스차지플레이트에코팅을하여케이스와고정스크롤사이에배치한뒤 케이스와고정스크롤을결합함으로써고정스크롤의조립시케이스와고정스크롤이밀착되어발생되는과도한힘의소모를줄일수 있는효과가있으며, 종래사용하던고정스크롤측면의오링과고정스크롤을고정하기위한볼트에삽입되는오링을사용하지않고조립할수 있도록함으로써스크롤압축기의제작시시간및 비용이절감되는효과가있다. | ||||||
| 78 | 유로에 노즐을 갖는 전동 진공 펌프 | KR1020130157096 | 2013-12-17 | KR1020150071060A | 2015-06-26 | 이재문; 김회문; 박무열; 박경섭; 박위근 |
| 본발명은전동진공펌프에관한것으로, 전기모터를포함하여외부에서인가되는전원에의하여구동력을제공하는모터모듈과; 일측에상기모터모듈을결합가능하게마련된하우징과; 공기가흡입되는펌프흡입구와흡입된공기가배출되는펌프배출구를구비하고, 상기하우징의타측에결합되는펌프모듈과; 상기펌프모듈로유입하도록안내하는유로인흡입라인과상기펌프모듈에서가압된공기를배출하는유로인배출라인과; 상기흡입라인또는상기배출라인중에는공기가통과하는유로의면적을변화시키는노즐;이포함된것을특징으로한다. 이에, 구조가간단하고사용이편리하면서도소음및 맥동을저감시킬수 있는전동진공펌프를제공할수 있다. | ||||||
| 79 | 오일 배출 장치 | KR1020130137115 | 2013-11-12 | KR1020150054548A | 2015-05-20 | 오영준 |
| 본발명은오일배출장치를개시한다. 본발명은, 압축기의작동시 외부로기어박스로오일을배출하는오일배출장치에있어서, 상기압축기의작동시 발생하는오일미스트, 압축기체및 오일이이동하는제 1 배관과, 상기제 1 배관이측면에연결되며, 상기오일미스트및 상기압축기체는상측으로안내하며, 상기오일은하측으로배출하는바디부와, 상기바디부에설치되어상측으로안내되는상기오일미스트를응결시키고, 외기의유입시 외기에포함된이물질을제거하는필터를포함한다. | ||||||
| 80 | 베인 팽창기 | KR1020140136605 | 2014-10-10 | KR101514687B1 | 2015-04-23 | 김종문 |
| 본발명은유체의압력에너지를기계적인에너지로변환하는팽창기에관한것으로, 더욱상세하게는로터로부터출몰가능하게구성되는베인을이용한베인팽창기에관한것이다. 본발명베인팽창기는, 내부에전후로개방된작동실이형성되고, 작동실의전후단이전판과후판에의해각각막히며, 측면에유체가흡입및 토출되는흡입구및 토출구가형성된하우징; 작동실내에회전샤프트를통해회전가능하게설치되고둘레에복수개의베인홈이형성되며, 전단의회전샤프트는전판을관통하고후단의회전샤프트는후판에회전가능하게장착되는로터; 베인홈내에출몰가능하게삽입되어로터회전시작동실의내면에접촉하면서이동하는베인; 전,후판의양면중 작동실쪽에형성된일면의베어링삽입홈에삽입되고, 중심을회전샤프트가관통하도록된 스러스트베어링; 및로터및 베인의양측면에각각밀착되면서함께회전하고스러스트베어링의내륜외측에안착되어내륜과함께회전하는라이닝;을포함한다. | ||||||
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