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 |
|---|---|---|---|---|---|---|
| 141 | Rotation vane type compressor, and a manufacturing method thereof | JP2010546730 | 2008-02-18 | JP5372018B2 | 2013-12-18 | キム ティオウ オオイ、; ヨング リアング テー、 |
| A revolving vane compressor comprising: a cylinder having a cylinder longitudinal axis of rotation, a rotor mounted within the cylinder and having a rotor longitudinal axis of rotation, the rotor longitudinal axis and the cylinder longitudinal axis being spaced from each other for relative movement between the rotor and the cylinder; a vane operatively engaged in a slot for causing the cylinder and the rotor to rotate together, the vane being mounted in the slot with a two degree-of-freedom motion relative to the slot for enabling the rotor and the cylinder to rotate with each other. | ||||||
| 142 | Rotation vane type compressor, and a manufacturing method thereof | JP2010546730 | 2008-02-18 | JP2011512481A | 2011-04-21 | キム ティオウ オオイ、; ヨング リアング テー、 |
| 回転ベーン式圧縮機は、シリンダー縦回転軸を有するシリンダーと、シリンダーの内部に取り付けられ且つロータ縦回転軸を有するロータと、シリンダー及びロータを一緒に回転させるためにスロットに動作可能に係合されるベーンとを備え、ロータ縦軸及びシリンダー縦軸はロータとシリンダーとの間の相対運動のために互いから間隔を置いて配置され、ロータ及びシリンダーが互いに回転することを可能にするためにベーンはスロットに対して2自由度で運動するようにスロット内に取り付けられる。 | ||||||
| 143 | Compressor | JP2003309456 | 2003-09-02 | JP2005076567A | 2005-03-24 | NAKANE YOSHIYUKI; NASUDA TSUTOMU |
| PROBLEM TO BE SOLVED: To provide a compressor capable of positively restraining temperature rise for refrigerant gas to be sucked, and improving volumetric efficiency of the compressor. SOLUTION: In this compressor 10 having at least a housing constituting an outer shell of the compressor, a compression mechanism portion for compressing the sucked air, a driving mechanism portion which drives the compression mechanism portion, and a suction passage 14 for the sucked air formed in the housing, a suction pipe 33 to communicate with the suction passage 14 is provided in the housing. A thermal insulation body 34 for restraining thermal transmission from the housing to the suction pipe 33 is interposed between the housing and the suction pipe 33, and the thermal insulation body 34 is provided with a through hole 35 for allowing the suction passage 14 to communicate with the suction pipe 33. COPYRIGHT: (C)2005,JPO&NCIPI | ||||||
| 144 | Scroll compressor | JP2001261938 | 2001-08-30 | JP2003065255A | 2003-03-05 | SUGIMOTO KAZUYOSHI; KIYOKAWA YASUNORI; NOBORI YOSHINORI |
| PROBLEM TO BE SOLVED: To provide a scroll compressor with high reliability which prevents degradation of performance caused by deformation of a fixed scroll. SOLUTION: The scroll compressor S comprises a scroll compressing element 2 in a closed container 1, a motor driving element 3 for driving the scroll compressing element 2, and a support frame 4 having in the center thereof a bearing portion 6 for journaling a rotary shaft 5 of the motor driving element 3. The closed container 1 is provided with a body 1A and an end cap 1B welded to be fixed on the body 1A in a position corresponding to a side of the fixed scroll 7. On a side surface of the fixed scroll 7 in the position corresponding to a welding portion (a welding part 74) between the end cap 1B and the body 1A, a recessed depression portion 11C is formed in a direction separated away from the closed container 1. COPYRIGHT: (C)2003,JPO | ||||||
| 145 | Scroll shape processing equipment | JP1558091 | 1991-02-06 | JP3035364B2 | 2000-04-24 | 康弘 三浦; 俊郎 樋口 |
| 146 | Vane of vane type compressor and its manufacture | JP33497394 | 1994-12-20 | JPH08177767A | 1996-07-12 | MURAYAMA TOSHIHIRO; SAITO TADASHI |
| PURPOSE: To prevent seizure without increasing weight and cost by forming a vane of a vane type compressor to rotate while rubbing an inner peripheral wall of a cam ring out of an aluminium type base material and an iron type covering part to cover a surface of its base material. CONSTITUTION: A vane 14 of a vane type compressor which is slidably inserted into a vane groove of a rotor in a cam ring and whose tip rotates while rubbing an inner peripheral wall of the cam ring by jumping out of the vane groove when the rotor rotates, is formed of an aluminium type base material 14a and an iron type covering part 14b to cover its surface. When the vane 14 is manufactured by a drawing construction method, a bar-shaped aluminium type base material 34a is inserted into an iron pipe 34b being the covering part 14b, and only the iron pipe 34b is heated to 200 to 300 deg.C or more by a heater 20, and is thermally expanded. Next, the iron pipe 34b and the base material 34a are inserted into a hole 21a of a die 21, and the iron pipe 34b is drawn out while blowing a cold blast against it. | ||||||
| 147 | Scroll compressor | JP12522789 | 1989-05-18 | JPH02305391A | 1990-12-18 | SUEFUJI KAZUTAKA; ARATA TETSUYA; IBARAKI YOSHIAKI; SHIIBAYASHI MASAO; OKAMOTO JOJI |
| PURPOSE: To reduce leakage loss and friction loss and improve volume efficiency by forming a fixed scroll of material with high rigidity and low heat conductivity and forming a swirl scroll and an Oldham's ring of material with low density and high heat conductivity. CONSTITUTION: For a scroll compressor, a compressor portion 2 and a motor portion are housed in a closed container 1. For the compressor portion 2, a fixed and a swirl scrolls 4, 5 are engaged with each other to form a compression room 9. An Oldham's ring and, etc., are laid between the swirl scroll 5 and a frame 11, therefore preventing the self-rotation of the swirl scroll 5. With such constitution, the fixed scroll 4 and the frame 11 are formed of material with high rigidity and low heat conductivity. On the other hand, the swirl scroll 5 and the Oldham's ring 12 are formed of material with low density and high heat conductivity. COPYRIGHT: (C)1990,JPO&Japio | ||||||
| 148 | Scroll pump | JP3764387 | 1987-02-20 | JPS63205480A | 1988-08-24 | INOUE KIYOSHI |
| PURPOSE: To improve the accuracy of a pump and make it inexpensive, by assembling molding parts formed with a mold having a minute irregular surface, manufacturing a scroll spiral blade by means of wire-cut electrodischarge machining. CONSTITUTION: The fluid drawn in from a suction port 15 is sealed in crescent compressed spaces (a) and (b) produced by contact between a fixed spiral blade 2 and a moving spiral blade 10, whereby this fluid is compressed by contacting and rolling motion. There is a spiral groove 19, molding the spiral blade by means of wire-cut electro-discharge machining, in a core 17 of a mold forming the spiral blade 10 and a holder 11. A surface of this spiral groove 19 has minute irregular discharge marks due to discharge. Thus, sealability for a pump is improved and, it can be made inexpensive. COPYRIGHT: (C)1988,JPO&Japio | ||||||
| 149 | Scroll compressor | JP318187 | 1987-01-12 | JPS63173871A | 1988-07-18 | SEKIGAMI KAZUO; MURATA MITSURU |
| PURPOSE:To improve productivity by laminating thin metal plates of form lap parts which are erected straight from the end plates parts of fixed and swingable scrolls, and coating said end plate parts and said lap parts with engineering plastic. CONSTITUTION:Scroll laps 5 which are erected straight from fixed and swingable scroll end plates 3, 4 are formed by laminating thin metal plates which are blanked in a scroll shape and, then installed to the end plates 3, 4 which being coated with engineering plastic 6. That is, e.g., a scroll lap shaped groove 8 is press molded on the swingable scroll end plate 4 and scroll laps 5 which are formed by laminating thin metal plates are fitted into an along this groove 8 and, then, coated with the engineering plastic 6. In this case, blind-like parts 7 provided at the time of press forming exist on each scroll lap 5, ans the engineering plastic 6 enters those parts, increasing strength. | ||||||
| 150 | Manufacture of scroll hydraulic machine | JP21568487 | 1987-08-28 | JPS63100288A | 1988-05-02 | INOUE SHUICHI; KARATO HIROSHI |
| PURPOSE:To improve the volume efficiency of a scroll compressor, by arranging a second mirror board previously applied with polishing and formed into the same shape as a recess between laps in a recess between laps of first mirror, thereby reducing gaps at the tip portion of the lap and the root section. CONSTITUTION:A movable scroll is manufactured by cutting an involute recess such that an involute lap 19 is formed on a first mirror board 20. A second mirror board 21 having same shape as the recess and previously polished surface 26 is fitted in the recess. The portion 24 facing against the first mirror board 20 side of a through-hole 22 of second mirror board 21 through which the lap 19 passes is bevelled. When such a movable scroll is employed, the root section 28 of the lap 19 is not rounded but provided with a sharp edge portion, and since the smoothness of the surface 26 of second mirror board 21 being slided with the lap at a fixed scroll side is improved, leakage of fluid decreases and the volume efficiency increases. | ||||||
| 151 | Production method for scroll | JP20100881 | 1981-12-15 | JPS58104385A | 1983-06-21 | MATSUDA KEIICHI; NAGATA JIYUNICHI |
| PURPOSE:To produce a scroll in a high precision and a low cost by fitting several convex parts provided on the bottom of a lap into blind holes on a mirror board and welding them at contacting parts. CONSTITUTION:A projection 11 of a lap 10b is inserted into a blind hole 12 on a mirror board 10a to combine the lap with the mirror board. Then, adding a power A from above the projection 11, the lap 10b is resistance-welded to the mirror board 10a. In this construction, the top of the projection 11 is melted for depositing the lap 10b with the mirror board 10a. As l1=l2 after the welding, the scroll can be produced in a high precision and a low cost. | ||||||
| 152 | Spiral member and its manufacture | JP7026381 | 1981-05-12 | JPS57149028A | 1982-09-14 | JIYON II MATSUKUKUROO |
| 153 | Manufacture of scroll compressor | JP2058481 | 1981-02-13 | JPS57135291A | 1982-08-20 | KARATO HIROSHI; INOUE SHIYUUICHI |
| PURPOSE:To enable to couple an end plate and a lap together securely, by opening small through-holes in a groove formed in the end plate for receiving the lap, and coupling the end plate and the lap together securely by injecting an adhesive agent into the small through-holes. CONSTITUTION:A groove 7 is formed in an end plate 6 for fitting a lap 5 into the groove 7, and a plurality of small through-holes 8a, 8b, 8c are opened in the groove 7. The end plate 6 and lap 5 are coupled together securely by injecting an adhesive agent or a brazing material into the small through-holes 8 from the back of the end plate 6. Here, since clearance between the lap 5 and end plate 6 is small and an adhesive agent is injected from the samll through-holes 8a, 8b, 8c as described above, the end plate 6 and lap 5 can be coupled together securely along the entire circumference of the same. | ||||||
| 154 | 회전식 베인 압축기 및 이의 제조 방법 | KR1020107018108 | 2008-02-18 | KR101452554B1 | 2014-10-21 | 오이,킴,티오우; 테,용리앙 |
| 회전식 베인 압축기는 실린더의 종방향 회전축을 가진 실린더를 포함하고, 로터의 종방향 회전축을 가지며 실린더 내에 장착된 로터를 포함하고, 상기 로터의 종방향 축과 실린더의 종방향 축은 로터와 실린더 사이에 상대 운동을 위해 서로 이격되며, 실린더와 로터를 함께 회전시키시 위해 슬롯 내에 작동가능하게 맞물린 베인을 포함하고, 상기 베인은 로터와 실린더를 함께 회전시키기 위해 슬롯에 대해 2-자유도 움직임에 따라 슬롯 내에 장착된다.
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| 155 | 1축 편심 나사 펌프 | KR1020137019897 | 2011-12-26 | KR1020130131421A | 2013-12-03 | 하시마다카시; 오가와마사키 |
| 본 발명은 스테이터를 외통과 라이닝 부재로 쉽게 분별할 수 있고, 체결값을 쉽게 조정 가능한 1축 편심 나사 펌프의 제공을 목적으로 하였다.
스테이터(20)는 내주면이 암나사형이 되도록 일체 형성된 통 형상의 라이너부(22)와 외통부(24)를 갖는다. 라이너부(22)의 양단부에는, 직경 방향 외측을 향해 돌출된 플랜지부(26, 26)가 설치되어 있고, 이들 사이에 외통 장착부(28)가 설치되어 있다. 외통부(24)는 외통 장착부(28)에 비접착 상태로 장착되어 있고, 양단부가 플랜지부(26, 26)에 접촉되어 있다. 라이너부(22)와 외통부(24) 사이에 심(25)을 삽입 또는 탈리시킴으로써, 체결값을 조정할 수 있다. |
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| 156 | 회전식 베인 압축기 및 이의 제조 방법 | KR1020107018108 | 2008-02-18 | KR1020110000547A | 2011-01-03 | 오이,킴,티오우; 테,용리앙 |
| 회전식 베인 압축기는 실린더의 종방향 회전축을 가진 실린더를 포함하고, 로터의 종방향 회전축을 가지며 실린더 내에 장착된 로터를 포함하고, 상기 로터의 종방향 축과 실린더의 종방향 축은 로터와 실린더 사이에 상대 운동을 위해 서로 이격되며, 실린더와 로터를 함께 회전시키시 위해 슬롯 내에 작동가능하게 맞물린 베인을 포함하고, 상기 베인은 로터와 실린더를 함께 회전시키기 위해 슬롯에 대해 2-자유도 움직임에 따라 슬롯 내에 장착된다.
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| 157 | 압축기의 베인 구조 | KR1020010087402 | 2001-12-28 | KR1020030057030A | 2003-07-04 | 이창수 |
| PURPOSE: A structure of a vane of a compressor is provided to improve vibration absorption performance and abrasion resistance quality. CONSTITUTION: A structure includes a vane substrate(121) inserted to a vane slot(41) of a cylinder having a compression space(P), contacting with a rolling piston(50) placed in the compression space of the cylinder on a line to linearly reciprocate following rotation of the rolling piston to divide the compression space of the cylinder into a suction area(a) and a compression area(b), and having one side curved to contact with the rolling piston on a line; and fiber material(122) inserted in the vane substrate to improve performance of the vane substrate. The vane substrate is made of carbon. The fiber material is formed by fiber wires arranged in a direction of movement of the vane substrate. Intensity of abrasion between a vane(120) and components moving relatively to the vane is reduced, and generation of vibration due to the frictional contact is reduced thereby. | ||||||
| 158 | 유체압축기(流體壓縮機) | KR2019850005389 | 1985-05-09 | KR2019870003854Y1 | 1987-12-05 | 우찌가와나오시; 다까하시미유오; 와따나베히로무 |
| 내용 없음. | ||||||
| 159 | 스크로울 압축기의 제작방법 | KR1019830002310 | 1983-05-26 | KR1019840004556A | 1984-10-22 | 다니가와미노루; 이마이즈미유다까; 스즈끼마사미; 아이바가즈미; 사도오미노루; 다까히시미네오 |
| 내용없음 | ||||||
| 160 | 스크롤 로터의 금형 및 제조방법 | KR1020120045263 | 2012-04-30 | KR1020130122156A | 2013-11-07 | 이근안; 이상목; 박훈재; 김응주; 정기호; 최호준 |
| The present invention relates to a mold of scroll rotors and a manufacturing method thereof, and more specifically to a mold of scroll motors and a manufacturing method thereof, capable of adjusting land sections for speed control of material flow. According to the present invention, a mold of scroll motors is provided, being characterized as a mold for forging by comprising; a die with formation of a forming space inside provided with an extrusion part prepared with a spiral form of extrusion path corresponding to a lap part provided for the scroll motor in a lower part; and a punch connected with the die to allow sliding move in upward/downward directions by adhering to the inner periphery face of the forming space with a lower part consisting of a shape corresponding to an upper face of a flange part of the scroll motor as well as a boss part, while the extrusion part is provided with a land section in direct contact with the extruded material and a length of the land section is characterized by being variable along a spiral direction. | ||||||
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