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公开(公告)号:WO2022138658A1
公开(公告)日:2022-06-30
申请号:PCT/JP2021/047379
申请日:2021-12-21
Applicant: 株式会社テックコーポレーション
IPC: A61L101/08 , B05B9/03 , A61L2/18 , B05B12/16 , B05B15/00 , B05B1/00 , B05B1/06 , B05B1/14 , A61L9/01 , A61L9/14
Abstract: 設計の自由度を向上させ得る噴霧システムを提供できる。 本発明は、次亜塩素酸水を供給する次亜塩素酸水供給部と、前記次亜塩素酸水のミストを生成するミスト生成部と、ミストを上方向へ誘導する上誘導配管と、前記上誘導配管に接続され、横方向に延びる横誘導配管と前記横誘導配管の下端よりも下方向に設けられ、ミストを下方向へ誘導する下誘導管と、前記下誘導管の下流側に設けられ、ミストを噴射する噴射部とを有するようにした。
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公开(公告)号:WO2021256122A1
公开(公告)日:2021-12-23
申请号:PCT/JP2021/017897
申请日:2021-05-11
Applicant: 畑田 康司
Inventor: 畑田 康司 HATADA Koji
IPC: B05B17/00 , B05B12/16 , A61L2/10 , A61L9/12 , B05B12/04 , B05B12/08 , B05B17/06 , B05B5/08 , C02F1/32
Abstract: 本発明の微粒子群の空間配置制御システムは、液体又は固体に対して外部からエネルギーを印加して、微粒子群を生成する微粒子群生成部と、微粒子群生成部が生成した微粒子群に対して赤外線を照射して、前記微粒子群の一部を除去する照射部と、を備えている。
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公开(公告)号:WO2018089462A2
公开(公告)日:2018-05-17
申请号:PCT/US2017/060593
申请日:2017-11-08
Applicant: NELSON IRRIGATION CORPORATION
Inventor: SESSER, George, L. , NELSON, Craig, B. , NELSON, Barton, R.
IPC: B05B12/16
Abstract: A rotary nozzle sprinkler includes a base assembly with a bearing, a stem mounted rotatably in the bearing, and an elbow coupled at a proximal end to and rotatable with the stem and including an elbow bend. A nozzle is secured to a distal end of the elbow, and a diffuser assembly including a brake mechanism is cooperable with the elbow. By positioning the nozzle downstream of the elbow, the sprinkler can achieve a greater throw radius.
Abstract translation: 旋转喷嘴喷洒器包括具有轴承的基座组件,可旋转地安装在轴承中的杆,以及在近端联接到杆并与杆可旋转并且包括弯头弯头的弯头。 喷嘴固定到肘部的远端,并且包括制动机构的扩散器组件可与肘部配合。 通过将喷嘴定位在肘部的下游,喷洒器可以实现更大的抛掷半径。
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公开(公告)号:WO2022156422A1
公开(公告)日:2022-07-28
申请号:PCT/CN2021/137083
申请日:2021-12-10
Applicant: 江苏徐瓷精密科技有限公司
Inventor: 王忠宇
Abstract: 本发明公开了一种花洒装置,涉及花洒设备技术领域,包括花洒头,所述花洒头设置有出水挡板,所述出水挡板上开设有多个锥形孔,所述锥形孔穿出所述出水挡板内侧面形成进水孔,所述锥形孔穿出所述出水挡板外侧面形成出水孔,所述出水孔尺寸小于所述进水孔尺寸。本发明具有提高水流压强、提高用户体验并且节水节能的优点。
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公开(公告)号:WO2022094667A1
公开(公告)日:2022-05-12
申请号:PCT/AU2021/051307
申请日:2021-11-05
Applicant: PRESTON, Jonathan Carvell
Inventor: PRESTON, Jonathan Carvell
Abstract: An irrigation device features a geometric template arranged to rotate along with a rotating sprinkler. The effective radius of the template determines the degree to which a valve is opened to control water pressure. An adjustable tuning arm permits control of the sensitivity of the system. The result is a rotating sprinkler which can follow the contours of a non-circular region requiring watering.
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Patent Agency Ranking
公开(公告)号:WO2022005468A1
公开(公告)日:2022-01-06
申请号:PCT/US2020/040446
申请日:2020-07-01
Applicant: HEWLETT-PACKARD DEVELOPMENT COMPANY, L.P.
Inventor: CHOU, Beverly , ROGACS, Anita , ABELOVSKI, Benjamin
Abstract: The present disclosure describes methods of forming hydrophobic flow barriers in porous substrates. In one example, a method of forming a hydrophobic flow barrier in a porous substrate can include applying a flow modifier composition onto an area of a surface of a porous substrate. The flow modifier composition can include an aqueous solvent, dispersed hydrophobic material particles, and a dispersant. The flow modifier composition can wick through pores of the porous substrate. The method can also include controlling the lateral spread, or penetration depth, or both, of the flow modifier composition through the porous substrate to form a hydrophobic flow barrier.
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公开(公告)号:WO2020164848A1
公开(公告)日:2020-08-20
申请号:PCT/EP2020/051052
申请日:2020-01-16
Inventor: WOLL, Bernhard , DOLL, Fredy
IPC: H01M2/02 , H01M2/10 , B05B1/08 , B05B1/30 , B05B9/00 , B05B9/04 , B05B12/16 , B05B13/02 , B05B13/04 , B05B15/555 , B05C5/02 , B05C9/04 , B05C11/10 , B05C15/00 , B05D1/26 , B05D1/30 , B05D3/06
Abstract: Bei Kfz-Traktionsbatterien ist es aufgrund dynamischen mechanischen Belastungen, denen solche Batterien unterworfen sind, von Vorteil, wenn die Gehäuse von Batteriezellen der Traktionsbatterien zumindest partiell mit einer elektrischisolierenden Schicht aus Beschichtungsmaterial überzogen sind. Hierfür werden ein Verfahren sowie eine Beschichtungsstation zur Durchführung des Verfahrens vorgeschlagen. Das Verfahren erfolgt mit einem flüssigen elektrisch isolierenden Beschichtungsmaterial (100) und unter Verwendung eines Beschichtungsapplikators (20) durch Aufbringung diskret erzeugter Einzeltropfen (102) des Beschichtungsmaterials (100). Diese bilden auf einer Außenfläche (210A, 210B, 210C) des Gehäuses (204) Beschichtungspunkte (104), welche mittels des Beschichtungsapplikators (20) sequentiell aneinander angrenzend oder überlappend aufgebrachtwerden, so dass sie gemeinsam Beschichtungslinien (106) bilden.
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公开(公告)号:WO2018042399A1
公开(公告)日:2018-03-08
申请号:PCT/IB2017/055311
申请日:2017-09-04
Inventor: BAMBI, Domenico , BOSI, Gildo , BALLARDINI, Matias
Abstract: A plant (100) to enamel sanitary fixtures, in particular a sanitary fixture (AIS). The plant (100) comprises: - an application device (10) to apply an enamelling spray (JT) onto the sanitary fixture (AIS); and - a support device 20 to support the sanitary fixture (AIS). The plant (100) is characterized in that it is further provided with a detection device (30) to detect at least one feature of the morphology of the spray (JT).
Abstract translation: 搪瓷卫生器具,特别是卫生器具(AIS)的设备(100)。 该设备(100)包括: - 施加装置(10),用于将搪瓷喷雾(JT)施加到卫生器具(AIS)上; 和 - 用于支撑卫生器具(AIS)的支撑装置20。 该设备(100)的特征在于其还设置有检测装置(30)以检测喷雾(JT)的形态的至少一个特征。
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公开(公告)号:WO2022236331A1
公开(公告)日:2022-11-10
申请号:PCT/US2022/072183
申请日:2022-05-06
Applicant: PRC-DESOTO INTERNATIONAL, INC.
Inventor: YEONG, Yong Han , KHUDIAKOV, Mikhail , ARBAB, Mehran
Abstract: Disclosed herein is a method of measuring edge sharpness of coating droplets deposited on a substrate. The method comprises selecting a maximum allowable droplet diameter for coating droplets deposited outside a target edge of the coating, selecting a maximum size distribution of the coating droplets deposited outside of the target edge of the coating, selecting a maximum surface edge roughness of a deposited edge of the coating, measuring an actual maximum droplet diameter of the coating droplets deposited outside the target edge of the coating and comparing the actual maximum droplet diameter with the maximum allowable droplet diameter, measuring an actual size distribution of the coating droplets deposited outside the target edge of the coating and comparing the actual size distribution with the maximum size distribution, and measuring an actual surface edge roughness of the deposited edge of the coating and comparing the actual surface edge roughness with the maximum surface edge roughness. Also disclosed herein is a method for controlling liquid coating droplets during deposition onto a substrate. The method comprises directing atomized liquid coating droplets in a flow path toward the substrate, and controlling at least one of droplet size, droplet size distribution, droplet flight path; droplet drift, and droplet splash.
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公开(公告)号:WO2021216379A2
公开(公告)日:2021-10-28
申请号:PCT/US2021/027802
申请日:2021-04-16
Applicant: PYKA INC.
Inventor: NORCIA, Michael , WHITE, Nathan , WURFT, Tobias , MOORE, Kyle , RINI, Garrett , PETERSEN, Jason , OGUNWOLE, Chukwuma
IPC: B64D1/18 , A01N63/14 , B05B12/16 , A01M7/0089 , B64C19/00 , B64C2201/021 , B64C2201/145
Abstract: Methods, systems, and apparatus, including computer programs encoded on computer storage media, for controlling spraying of chemicals by an unmanned aerial vehicle (UAV). An unmanned aerial vehicle system includes one or more processors configured to perform operations of autonomously performing a flight path by the UAV and dispersing a chemical by the UAV along portions of the flight path. The UAV may include a chemical spray system having one or more spray booms with multiple nozzles for dispersing a chemical. The chemical spray system may include one or more tanks attached to the body of the UAV and a pump fluidly connected to the tanks to disperse chemical via the spray booms.
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