| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 空气压缩机 | CN201380071735.7 | 2013-12-13 | CN104956082B | 2016-10-12 | 太田广志; 藤元英树 |
| 本发明提供一种空气压缩机,能够解决排出水排出不良的问题,实现可靠性的提高,并且实现节能性的提高。该空气压缩机包括:压缩空气的压缩机主体;用于流通来自该压缩机主体的压缩空气的压缩空气流通路径;设置在该压缩空气流通路径上的、冷却来自压缩机主体的压缩空气的热交换器;和排水配管(62),其从压缩空气流通路径分支而与外部连通,用于流通从用热交换器冷却后的压缩空气中冷凝而得的排出水,该空气压缩机在排水配管(62)设置有去除混入排出水的异物的过滤器(65)。还设置有:位于该过滤器(65)的下游侧的开关阀(66);和位于过滤器(65)的上游侧、检测排水配管(62)内的压力的压力传感器(41)。由此解决排出水的排出不良的问题。 | ||||||
| 2 | 空气压缩机 | CN201380071735.7 | 2013-12-13 | CN104956082A | 2015-09-30 | 太田广志; 藤元英树 |
| 本发明提供一种空气压缩机,能够解决排出水排出不良的问题,实现可靠性的提高,并且实现节能性的提高。该空气压缩机包括:压缩空气的压缩机主体;用于流通来自该压缩机主体的压缩空气的压缩空气流通路径;设置在该压缩空气流通路径上的、冷却来自压缩机主体的压缩空气的热交换器;和排水配管(62),其从压缩空气流通路径分支而与外部连通,用于流通从用热交换器冷却后的压缩空气中冷凝而得的排出水,该空气压缩机在排水配管(62)设置有去除混入排出水的异物的过滤器(65)。还设置有:位于该过滤器(65)的下游侧的开关阀(66);和位于过滤器(65)的上游侧、检测排水配管(62)内的压力的压力传感器(41)。由此解决排出水的排出不良的问题。 | ||||||
| 3 | 压缩机的起动装置和起动方法 | CN201410543815.4 | 2014-10-15 | CN104579023A | 2015-04-29 | 山口元就; 黑田健志; 奥藤卓也 |
| 本发明通过使得利用星形接线向电动机供给电流的时间为对于每个温度适当的时间,从而对电动机的起动时间进行优化。本发明是压缩机的起动装置,包括:具有吸入口和排出口的压缩机主体;将压缩气体所包含的油分离并积存的油回收器;将油回收器的油供给至压缩机主体的给油线;驱动压缩机主体的电动机,其还包括:能将电动机的一次线圈的各层的接线从星形接线切换为三角形接线的星三角电路;测定对压缩机主体进行润滑的油的温度的温度测定单元;基于由温度测定单元测定的油的温度,导出利用星形接线向电动机供给电流的时间即星时间,在经过了星时间时,将星三角电路从星形接线切换为三角形接线的控制单元。 | ||||||
| 4 | 空気圧縮機 | JP2013014985 | 2013-01-30 | JP6078361B2 | 2017-02-08 | 太田 広志; 藤元 英樹 |
| 5 | air compressor | JP2013014985 | 2013-01-30 | JP2014145325A | 2014-08-14 | OTA HIROSHI; FUJIMOTO HIDEKI |
| PROBLEM TO BE SOLVED: To provide an air compressor which solves problems relating to drain discharge failures to improve the reliability and achieves improvement of the energy saving property.SOLUTION: An air compressor comprises: a compressor body which compresses air; a compressed-air circulation passage through which the compressed-air from the compressor body circulates; a heat exchanger which is provided on the compressed-air circulation passage and cools the compressed-air from the compressor body; and a drain pipeline 62 through which drain condensed from the compressed-air cooled in the heat exchanger circulates, the drain pipeline 62 being branched from the compressed-air circulation passage and communicating with the exterior. The drain pipeline 62 is provided with a strainer 65 which removes foreign objects mixed in the drain. The air compressor includes an on-off valve 66 located at the downstream side of the strainer 65 and a pressure sensor 41, which detects a pressure in the drain pipeline 62 and is located at the upstream side of the strainer 65, to solve drain discharge failures. | ||||||
| 6 | VANE-TYPE AIR MOTOR | EP17815759.0 | 2017-06-25 | EP3470623A1 | 2019-04-17 | KIM, Jae-Ho |
The present invention relates to a vane-type air motor, which is configured to enable the wear of a vane to be reduced while using high pressure and enable the output of a motor to increase, and comprises a casing, a rotor, and a plurality of vanes, and further includes: vane stoppers formed so as to respectively protrude from the inner upper and lower ends of the vane; an inner ring coupled to a center portion of the upper part of the rotor so as to push the vane stopper outward for initial driving; and stopper bearings provided so as to be respectively connected to the upper and lower parts of the rotor and restricting the vane stoppers from moving outward. |
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| 7 | Dispositif de récupération d'énergie thermique, indépendant, destiné au traitement de chaleur de l'huile vers l'eau | EP11370007.4 | 2011-07-07 | EP2405223B1 | 2016-12-14 | Boutry, Serge |
| 8 | Dispositif de récupération d'énergie thermique, indépendant, destiné au traitement de chaleur de l'huile vers l'eau | EP11370007.4 | 2011-07-07 | EP2405223A1 | 2012-01-11 | Boutry, Serge |
L'invention concerne un dispositif (1) de récupération d'énergie thermique, indépendant, destiné au transfert de chaleur de huile vers l'eau, destiné à être raccordé, d'une part, au circuit d'huile d'un compresseur (2) rotatif à injection d'huile pour la production d'air comprimé, et d'autre part, à un circuit d'eau (4) Ledit dispositif de récupération d'énergie thermique comprend : |
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| 9 | AIR COMPRESSOR AND EXTRANEOUS-MATTER REMOVING APPARATUS | US15795412 | 2017-10-27 | US20180154869A1 | 2018-06-07 | Yasutaka YAMANAKA; Tomohisa KOSEKI; Masashi OTOMI |
| An air compressor according to an embodiment, which includes a cylinder and a rotating body provided to be rotatable around a rotation axis in the cylinder so as to generate compressed air through intake and exhaustion caused by rotation of the rotating body, includes an intake valve. The intake valve takes air in the intake and exhaustion. The intake valve is provided in the cylinder. | ||||||
| 10 | MOTOR DRIVEN COOLED COMPRESSOR SYSTEM | US15333447 | 2016-10-25 | US20180111676A1 | 2018-04-26 | Debabrata Pal |
| A cooled compressor system is provided including: a compressor that in operation compresses air; an electric motor that in operation drives the compressor, the electric motor having a back iron, a motor stator radially inward from the back iron, and a motor rotor radially inward from the motor stator; an airflow system fluidly connected to the compressor, the airflow system in operation directs air through the back iron and in between the motor stator and motor rotor; an airflow inlet that in operation allows an inflow of air to the airflow system; and an airflow outlet that in operation allows an outflow of air from the airflow system; wherein the air travels from the airflow inlet to the airflow outlet through the compressor and the airflow system. | ||||||
| 11 | High efficiency air delivery system and method | US15241725 | 2016-08-19 | US09897336B2 | 2018-02-20 | Gilbert S. Staffend; Nancy A. Staffend; Nicholas A. Staffend |
| HVAC systems and methods for delivering highly efficient heating and cooling using ambient air as the working fluid. A plenum has an upstream inlet and a downstream outlet, each in fluid communication with a target space to be heated or cooled. Ambient air is drawn into the inlet at an incoming pressure and an incoming temperature. The inlet and outlet are gated, respectively, by first and second rotary pumps. A heat exchanger in the plenum transfers heat into or out of the air, provoking a change in air volume within the plenum. Work is harvested in response to change in air volume. The systems and methods can be configured to replace a traditional blower fan used to circulate the interior and exterior air. The systems and methods can be configured to implement a technique referred to as Convergent Refrigeration. | ||||||
| 12 | HIGH EFFICIENCY HEATING AND/OR COOLING SYSTEM AND METHODS | US15241725 | 2016-08-19 | US20160377303A1 | 2016-12-29 | Gilbert S. Staffend; Nancy A. Staffend; Nicholas A. Staffend |
| HVAC systems and methods for delivering highly efficient heating and cooling using ambient air as the working fluid. A plenum has an upstream inlet and a downstream outlet, each in fluid communication with a target space to be heated or cooled. Ambient air is drawn into the inlet at an incoming pressure and an incoming temperature. The inlet and outlet are gated, respectively, by first and second rotary pumps. A heat exchanger in the plenum transfers heat into or out of the air, provoking a change in air volume within the plenum. Work is harvested in response to change in air volume. The systems and methods can be configured to replace a traditional blower fan used to circulate the interior and exterior air. The systems and methods can be configured to implement a technique referred to as Convergent Refrigeration. | ||||||
| 13 | PUMPING METHOD IN A SYSTEM OF VACUUM PUMPS AND SYSTEM OF VACUUM PUMPS | US15126875 | 2014-04-07 | US20170089339A1 | 2017-03-30 | Didier Müller; Jean-Eric LARCHER; Théodore ILTCHEV |
| The present invention relates to a pumping method in a pumping system (SP) comprising: a primary dry screw-type vacuum pump (3) with a gas entry orifice (2) connected to a vacuum chamber (1) and a gas exit orifice (4) leading into a conduit (5) before coming out into the gas outlet (8) of the pumping system (SP), a non-return valve (6) positioned in the conduit (5) between the gas exit orifice (4) and the gas outlet (8), and an ejector (7) connected in parallel to the non-return valve (6). According to this method, the primary dry screw-type vacuum pump (3) is put into operation in order to pump the gases contained in the vacuum chamber (1) through the gas exit orifice (4); in a simultaneous way, the ejector (7) is fed with working fluid, and the ejector (7) continues to be fed with working fluid all the time that the primary dry screw-type vacuum pump (3) pumps the gases contained in the vacuum chamber (1) and/or all the time that the primary dry screw-type vacuum pump (3) maintains a defined pressure in the vacuum chamber (1). The present invention also relates to a pumping system (SP) able to be used for implementing this method. | ||||||
| 14 | COMPRESSOR WITH A CLOSED LOOP WATER COOLING SYSTEM | US14959673 | 2015-12-04 | US20160186757A1 | 2016-06-30 | James Christopher Collins |
| The present disclosure provides a compressor system having at least one fluid compressor for compressing a working fluid. A lubrication supply system is operable for supplying lubrication fluid to the compressor. A closed loop cooling system using R718 refrigerant is provided to cool the working fluid. The closed loop cooling system includes a refrigerant compressor for compressing the refrigerant, a condenser operable for receiving compressed refrigerant gas and removing heat to form liquid refrigerant, and an expansion device for expanding and cooling the liquid refrigerant into a cooled gaseous refrigerant. | ||||||
| 15 | Air Compressor | US14764332 | 2013-12-13 | US20150361984A1 | 2015-12-17 | Hiroshi OHTA; Hideki FUJIMOTO |
| Provided is an air compressor which exhibits improved reliability by resolving problems relating to drainage discharge defects, and exhibits improved energy efficiency. The air compressor comprises: a compressor body which compresses air; a compressed air flow path through which the compressed air from the compressor body flows; a heat exchanger which is provided to the compressor flow path so as to cool the compressed air from the compressor body; and a drainage pipe (62) which branches from the compressed air flow path so as to connect to the exterior, and through which drainage condensed from the compressed air cooled in the heat exchanger flows. A strainer (65) which removes foreign matter contaminating the drainage is provided to the drainage pipe (62). An on-off valve (66) at the downstream side of the strainer (65), and a pressure sensor (41) at the upstream side thereof, said sensor detecting pressure inside the drainage pipe (62), are each provided so as to resolve drainage discharge defects. | ||||||
| 16 | 空気圧縮装置および付着物除去装置 | JP2016234295 | 2016-12-01 | JP2018091200A | 2018-06-14 | 山中 康誉; 古石 朋久; 大富 將司 |
| 【課題】シンプルな構成で優れた空気圧縮性能を確保すること。 【解決手段】実施形態に係る空気圧縮装置は、シリンダとシリンダ内に回転軸を中心に回転可能に設けられる回転体とを有し、回転体の回転による吸排気を経て圧縮空気を生成する空気圧縮装置であって、吸気弁を備える。吸気弁は、吸排気において空気を吸気する。また、吸気弁は、シリンダ内に設けられる。 【選択図】図1B |
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| 17 | 真空ポンプシステムの圧送方法および真空ポンプシステム | JP2016557278 | 2014-04-07 | JP2017519141A | 2017-07-13 | ミュラー,ディディエ; ラルヒャー,ジーン−エリック; イルチェフ,セオドア |
| 本発明は、真空チャンバ(1)に連結されたガス入口オリフィス(2)と、圧送システム(SP)のガス出口(8)に出てくる前の導管(5)に繋がるガス出口オリフィス(4)とを有するプライマリドライスクリュータイプ真空ポンプ(3)と、ガス出口オリフィス(4)とガス出口(8)との間の導管(5)に位置決めされた逆止弁(6)と、逆止弁(6)に対して並列に連結されたイジェクタ(7)と、を備える真空ポンプシステム(SP)における圧送方法に関する。この方法によれば、プライマリドライスクリュータイプ真空ポンプ(3)が、真空チャンバ(1)の中に収容されたガスをガス出口オリフィス(4)を通して圧送するために、動作状態に置かれ、同時に起こる方法で、イジェクタ(7)に作業流体が供給され、プライマリドライスクリュータイプ真空ポンプ(3)が真空チャンバ(1)の中に収容されたガスを圧送する間ずっと、および/またはプライマリドライスクリュータイプ真空ポンプ(3)が真空チャンバ(1)内で所定の圧力を維持する間ずっと、イジェクタ(7)に作業流体が供給され続ける。本発明は、この方法を実施するために使用することができる圧送システム(SP)にも関する。 | ||||||
| 18 | SCREW EXPANDER | EP18166189.3 | 2018-04-06 | EP3418491A1 | 2018-12-26 | LIU, Yao-Chung |
A screw expander includes a main body (110), at least an expansion screw (120) and an adjusting component (130). The main body (110) has a high pressure region (R1), an expansion region (R2) and a low pressure region (R3). The expansion screw (120) is disposed at the expansion region (R2) and has an air inlet end (120a) and an air outlet end (120b), wherein the air inlet end is connected to the high pressure region, and the air outlet end is connected to the low pressure region. The adjusting component (130) covers the expansion screw (120), and is adapted to move relatively to the expansion screw to change an opening area of the air inlet end or an opening area of the air outlet end, such that a pressure of an air exhausted from the air outlet end is adjusted.
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| 19 | MÉTHODE DE POMPAGE DANS UN SYSTÈME DE POMPES À VIDE ET SYSTÈME DE POMPES À VIDE | EP14715334.0 | 2014-04-07 | EP3123030A1 | 2017-02-01 | MÜLLER, Didier; LARCHER, Jean-Eric; ILTCHEV, Théodore |
| A pumping system and method comprising: a dry primary screw vacuum pump (3) having a gas inlet orifice (2) connected to a vacuum chamber (1) and a gas outlet orifice (4) that opens into a duct (5) before leading into the gas outlet (8) of the pumping system (SP), a non-return valve (6) positioned in the duct (5) between the gas outlet orifice (4) and the gas outlet (8), and an ejector (7) connected in parallel to the non-return valve (6). The dry primary screw vacuum pump (3) is started up in order to pump the gases contained in the vacuum chamber (1) through the gas outlet orifice (4). Simultaneously, the ejector (7) is supplied with pump fluid, and the ejector (7) continues to be supplied with pump fluid for the entire time that the dry primary screw vacuum pump (3) pumps the gases contained in the vacuum chamber (1) and/or for the entire time that the dry primary screw vacuum pump (3) maintains a defined pressure in the vacuum chamber (1). | ||||||
| 20 | 진공 펌프 시스템 및 진공 펌프 시스템에서의 펌핑 방법 | KR1020167029509 | 2014-04-07 | KR1020160137596A | 2016-11-30 | 뮬러디디에; 라흐쉬장-에릭; 일트쉐브테오도르 |
| 본발명에따른펌프시스템및 방법은: 진공챔버(1)에연결된가스진입구멍(2)과, 진공펌프시스템(SP)의가스배출부(8)로나오기전에있는도관(5)으로이어지는가스이탈구멍(4)을구비한스크류유형의 1차건식진공펌프; 가스이탈구멍(4)과가스배출부(8) 사이에서도관(5) 안에배치된비-복귀밸브(6); 및비-복귀밸브(6)에대해병렬로연결된이젝터(7)를포함한다. 상기스크류유형의 1차건식진공펌프(3)는, 진공챔버(1) 안에격납된가스를가스이탈구멍을통해서펌핑하기위하여작동개시된다. 동시에, 이젝터(7)에는펌프유체가공급되고, 스크류유형의 1차건식진공펌프(3)가상기진공챔버(1) 안에격납된가스를펌핑하는모든시간동안및/또는스크류유형의 1차건식진공펌프(3)가진공챔버(1) 내의정해진압력을유지하는모든시간동안에, 이젝터(7)에는계속하여작동유체가공급된다. | ||||||
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