序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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1 | 一种压缩机隔音包裹装置 | CN201510939980.6 | 2015-12-16 | CN105416881A | 2016-03-23 | 秦伯军; 张君; 吉娇 |
本发明涉及一种压缩机隔音包裹装置,包括桶状包裹材料和两端部包裹材料,桶状包裹材料包裹于压缩机外圆周,桶状包裹材料由矩形包裹块经两对应边缘上的粘扣搭接而成,两端部包裹材料呈帽状分别套接在压缩机的两端,端部包裹材料的帽壁经粘扣搭接在桶状包裹材料上;桶状包裹材料和端部包裹材料采用的包裹材料包括皮革层、橡胶隔音层、吸音棉层和纤维布层,皮革层、橡胶隔音层、吸音棉层和纤维布层由外至内依次叠加并通过线材缝制成一体结构。 | ||||||
2 | 生物组织样本的冻存方法和生物组织冻存容器 | CN201510691181.1 | 2015-10-22 | CN105383805A | 2016-03-09 | 杜祥 |
本发明提供了一种生物组织的冻存方法和生物组织冻存容器,冻存方法包括:将生物组织置于承载片的表面,将粘附有生物组织的承载片沿生物组织冻存容器的长轴方向放置于生物组织冻存容器中,密封生物组织冻存容器并置于低温下冻存;冻存容器包括容器本体、密封盖和至少一个用于承载分离后的生物组织的承载片,该承载片可分离地置于容器本体内;本发明的冻存方法能够解决由于生物组织容易被冻存在生物组织冻存容器的内壁上而产生的生物组织不易被识别、不易被取出或者在取出时受损的问题,并且能避免生物组织在制作冰冻切片时被反复冻融的情况出现,从而有利于对生物组织的样本质量(例如所含的RNA、蛋白、抗原、抗体等生物大分子)的保护。 | ||||||
3 | 一种防潮储药装置 | CN201510887614.0 | 2015-12-03 | CN106829198A | 2017-06-13 | 沙靖轶 |
本发明公开了一种防潮储药装置,包括外箱体和箱盖,所述外箱体通过榫卯连接箱盖,所述外箱体的内腔安装有内箱体,且二者之间留有间隙,所述内箱体的底面和侧面均开有孔洞,所述内箱体的底部安装有风机和与风机电性连接的电源,所述内箱体的左侧面和右侧面均固定安装有竖直的直线导轨,在两条直线导轨上均滑动安装有直线运动电机,在两个直线运动电机沿宽度方向上均安装有传动杆,两根传动杆之间连接有弹力网,所述直线导轨的内侧设有安装在内箱体内壁上的齿条,所述直线运动电机同轴连接有齿轮,且齿轮与齿条啮合,所述电源的右侧设有开关,该防潮储药装置,通过增加空气流速和加大药物与空气接触面积达到干燥目的。 | ||||||
4 | 汽车装饰面料储存处理系统 | CN201510667259.6 | 2015-10-16 | CN106586266A | 2017-04-26 | 张翠云 |
本发明涉及一种汽车装饰面料储存处理系统,包括底部支撑系统,底部支撑系统上部安装有储存系统,储存系统下部左右两侧均安装有第一支撑连接机构,第一支撑连接机构右侧均安装有第二支撑连接机构,第一支撑连接机构和第二支撑连接机构上部设有下悬挂机构,第一支撑连接机构上部均安装有第三支撑连接机构,第三支撑连接机构右侧均安装有第四支撑连接机构,第三支撑连接机构和第四支撑连接机构下部均设有上悬挂机构;储存系统上部安装有吸粉末废弃物器。该发明系统能有效地针对汽车装饰面料予以储存,改善了汽车装饰面料的使用效果。 | ||||||
5 | 用于脂肪移植的颗粒脂肪低温收集装置 | CN201511033108.1 | 2015-12-31 | CN105438655A | 2016-03-30 | 黄海玲; 刘宏伟; 欧伟强; 欧伟光; 李升红 |
本发明公开了一种用于脂肪移植的颗粒脂肪低温收集装置,该装置由圆柱形的外壳体和内壳体两部分组成,外壳体和内壳体之间形成一存放冷却水的冷水腔,外壳体于上部和底部分别设有进水接口与出水接口;内壳体由上盖与下筒体组成,上盖上端面设有连通负压系统的吸引口、与抽脂管连接的脂肪进入口,以及连接提取脂肪针头、带有封堵塞的脂肪提取口。本发明能够把冷却水和手术操作台环境实施隔离,通过外壳体和内壳体之间形成冷水腔存放冷却水,把用小口径吸脂管在无菌、低负压等条件下获取的颗粒脂肪存放于无菌低温环境下,以保持颗粒脂肪较好的活性,以便移植操作和提高术后脂肪组织成活率。本发明还具有易于临床操作、易于清洁消毒、可重复使用的特点。 | ||||||
6 | 一种花粉储存器 | CN201510905402.0 | 2015-12-10 | CN106865011A | 2017-06-20 | 谢小燕 |
本发明涉及一种花粉储存器,包括外壳、冷腔、干燥腔、花粉室、盖子,花粉室位于花粉储存器的最内层,中间有一层冷腔和两层干燥腔将花粉室一分为二,形成左右两个花粉室;盖子上设置了冷腔、干燥腔。本发明通过在花粉室的四周设置了冷腔和干燥腔,使储存在容器里面的花粉能够在低温干燥的环境中得到更好的保存,保存效果显著,既美观又实用。 | ||||||
7 | 一种家庭用大米储存箱 | CN201510867012.9 | 2015-12-01 | CN106809525A | 2017-06-09 | 黄梁 |
本发明公开了一种家庭用大米储存箱,包括箱体,所述箱体的后侧边缘处铰接有箱盖,所述箱盖的内表面均匀固定有紫外线灭菌灯,所述箱体的底端设置有出米斗,所述出米斗的侧壁开有凹槽,所述凹槽内插接有与出米斗的出米口相适配的挡板,所述箱体的内腔设置有两组药剂盛放装置,所述药剂盛放装置的两侧通过支架与箱体的内壁固定连接,所述药剂盛放装置包括内筒与外筒,所述内筒与外筒之间固定有反渗透膜,所述内筒与外筒上分别均匀开有内透气孔与外透气孔,且内透气孔与外透气孔相互交叉排列。该家庭用大米储存装置结构简单,实用效果更好,能够更好的对大米进行保存,使得大米在储存过程中不会变质、不会生虫。 | ||||||
8 | 摩托车制造产品使用存放系统 | CN201510721431.1 | 2015-10-30 | CN106628631A | 2017-05-10 | 刘洪 |
本发明涉及一种摩托车制造产品使用存放系统,包括底部支撑系统,底部支撑系统上部左侧设有柱体系统,柱体系统右侧下部安装有下存放室,下存放室上部安装有下支撑机构,下支撑机构上部安装有上存放室,上存放室上部安装有上支撑机构;下存放室下部安装有承载装置,承载装置上部左右两侧均安装有下存放系统,下支撑机构上部安装有多个上存放系统,上存放室和下存放室右侧分别安装有上干燥处理系统和下干燥处理系统。该发明系统能有效地针对摩托车制造产品进行存放运输,改善了摩托车制造产品使用效果。 | ||||||
9 | 启动电机运输防护装置 | CN201510984028.8 | 2015-12-24 | CN105523282A | 2016-04-27 | 李雄斌; 李洋 |
本发明具体公开了启动电机运输防护装置,包括与启动电机底座外形相配合的底板,底板的左侧设有一块挡板,底板的右侧设有压机机构,压紧机构包括支撑板、压缩弹簧以及橡胶垫,支撑板垂直于底板且与底板固定连接;压缩弹簧的一端与支撑板固定连接、另一端与橡胶垫固定连接;压缩弹簧垂直于支撑板。该防护装置针对现有技术进行了改进,通过使用压缩弹簧和橡胶垫来保证在运输过程中启动电机的转子不会来回窜动和转动。 | ||||||
10 | 一种蔬果运输用保鲜装置 | CN201510786285.0 | 2015-11-14 | CN105416876A | 2016-03-23 | 唐成奎 |
本发明提出了一种蔬果运输用保鲜装置,包括箱体、与箱体铰接的箱门、控制装置、气体浓度检测传感器、控温装置、保湿装置、温度检测装置、湿度检测装置,气体浓度检测传感器设置在箱体内,用于实时检测箱体内氧气浓度;控温装置用于调节箱体内温度;保湿装置用于调节箱体内湿度;温度检测装置设置在箱体内,用于实时检测箱体内温度;湿度检测装置设置在箱体内,用于实时检测箱体内湿度;控制装置与第一流量阀、第二流量阀、气体浓度检测传感器、控温装置、保湿装置、温度检测装置、湿度检测装置连接并控制其动作。本发明具有良好的保温保湿效果,能够进行箱内外气体交换,满足蔬果运输保鲜要求,并且能够多次使用。 | ||||||
11 | Method of reducing silicosis caused by inhalation of silica-containing proppant, such as silica sand and resin-coated silica sand, and apparatus therefor | US14686383 | 2015-04-14 | US09505569B2 | 2016-11-29 | Scott S. Stutzman; Robert Sean Reininger; David S. Balthaser |
A method of reducing silicosis caused by inhalation of silica-containing proppant, such as silica sand and resin-coated silica sand, and apparatus therefor. | ||||||
12 | Accessory Parts Packaging | US15137809 | 2016-04-25 | US20160325901A1 | 2016-11-10 | Isabell Tewes; Wolfgang Gowohr |
A packaging for holding an accessory part of a tool is disclosed. The tool may have a tool interface for transmitting torque to the accessory part. In an embodiment the packaging includes a first protrusion for engaging in the accessory part and a second protrusion for holding a portion of the accessory part, wherein the first protrusion has in one or more sections or along an entire circumference of the first protrusion a replication of a tool interface as an outer structure, and/or wherein the second protrusion has in one or more sections or along an entire circumference of the second protrusion a replication of the tool interface as an inner structure. | ||||||
13 | Methods and systems to transfer proppant for fracking with reduced risk of production and release of silica dust at a well site | US14943182 | 2015-11-17 | US09969564B2 | 2018-05-15 | John Oren; Joshua Oren |
Embodiments of methods and systems of transferring proppant for fracking to reduce risk of production and release of silica dust at a well site are provided. An embodiment of a method can include positioning a plurality of containers each having proppant for fracking contained therein onto a conveyor at a well site, downwardly discharging proppant from each respective container of the plurality of containers, funneling proppant from the one or more outlets of each of the plurality of containers through a plurality of conveyor hoppers, receiving proppant onto the conveyor belt, conveying proppant on the conveyor to a chute, and depositing the proppant into the chute for use in a blender or other location at the well site. | ||||||
14 | METHODS AND SYSTEMS TO TRANSFER PROPPANT FOR FRACKING WITH REDUCED RISK OF PRODUCTION AND RELEASE OF SILICA DUST AT A WELL SITE | US14927614 | 2015-10-30 | US20160046438A1 | 2016-02-18 | John Oren; Joshua Oren |
Embodiments of methods and systems of transferring proppant for fracking to reduce risk of production and release of silica dust at a well site are provided. An embodiment of a method can include positioning a plurality of containers each having proppant for fracking contained therein onto a conveyor at a well site, downwardly discharging proppant from each respective container of the plurality of containers, funneling proppant from the one or more outlets of each of the plurality of containers through a plurality of conveyor hoppers, receiving proppant onto the conveyor belt, conveying proppant on the conveyor to a chute, and depositing the proppant into the chute for use in a blender or other location at the well site. | ||||||
15 | ZUBEHÖRVERPACKUNG | EP16164853.0 | 2016-04-12 | EP3090958A1 | 2016-11-09 | Tewes, Isabell; Gowohr, Wolfgang |
Die Beschreibung umfasst eine Verpackung 2 zur Aufnahme eines Zubehörteils eines Werkzeugs, wobei das Werkzeug eine Werkzeugschnittstelle 16 zur Übertragung eines Drehmoments an das Zubehörteil aufweist, umfassend: eine erste Erhebung 3 zum Eingriff in das Zubehörteil und eine zweite Erhebung zur Aufnahme eines Bereichs des Zubehörteils, wobei die erste Erhebung 3 in einem oder mehreren Abschnitten oder entlang eines kompletten Umfangs der Erhebung 3 eine Nachbildung der Werkzeugschnittstelle 16 als Außenstruktur aufweist und/oder wobei die zweite Erhebung in einem oder mehreren Abschnitten oder entlang eines kompletten Umfangs der Erhebung eine Nachbildung der Werkzeugschnittstelle 16 als Innenstruktur aufweist. |
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16 | METHODS AND SYSTEMS TO TRANSFER PROPPANT FOR FRACKING | EP15807373.4 | 2015-04-08 | EP3155214A1 | 2017-04-19 | OREN, John; OREN, Joshua |
Embodiments of methods and systems of transferring proppant for fracking to reduce risk of production and release of silica dust at a well site are provided. An embodiment of a method can include positioning a plurality of containers each having proppant for fracking contained therein onto a conveyor at a well site, downwardly discharging proppant from each respective container of the plurality of containers, funneling proppant from the one or more outlets of each of the plurality of containers through a plurality of conveyor hoppers, receiving proppant onto the conveyor belt, conveying proppant on the conveyor to a chute, and depositing the proppant into the chute for use in a blender or other location at the well site. | ||||||
17 | METHODS AND SYSTEMS TO TRANSFER PROPPANT FOR FRACKING | EP15807373 | 2015-04-08 | EP3155214A4 | 2018-05-16 | OREN JOHN; OREN JOSHUA |
Embodiments of methods and systems of transferring proppant for fracking to reduce risk of production and release of silica dust at a well site are provided. An embodiment of a method can include positioning a plurality of containers each having proppant for fracking contained therein onto a conveyor at a well site, downwardly discharging proppant from each respective container of the plurality of containers, funneling proppant from the one or more outlets of each of the plurality of containers through a plurality of conveyor hoppers, receiving proppant onto the conveyor belt, conveying proppant on the conveyor to a chute, and depositing the proppant into the chute for use in a blender or other location at the well site. | ||||||
18 | METHODS AND SYSTEMS TO TRANSFER PROPPANT FOR FRACKING WITH REDUCED RISK OF PRODUCTION AND RELEASE OF SILICA DUST AT A WELL SITE | US15878568 | 2018-01-24 | US20180148269A1 | 2018-05-31 | John Oren; Joshua Oren |
Embodiments of methods and systems of transferring proppant for fracking to reduce risk of production and release of silica dust at a well site are provided. An embodiment of a method can include positioning a plurality of containers each having proppant for fracking contained therein onto a conveyor at a well site, downwardly discharging proppant from each respective container of the plurality of containers, funneling proppant from the one or more outlets of each of the plurality of containers through a plurality of conveyor hoppers, receiving proppant onto the conveyor belt, conveying proppant on the conveyor to a chute, and depositing the proppant into the chute for use in a blender or other location at the well site. | ||||||
19 | Methods and systems to transfer proppant for fracking with reduced risk of production and release of silica dust at a well site | US14927614 | 2015-10-30 | US09862551B2 | 2018-01-09 | John Oren; Joshua Oren |
Embodiments of methods and systems of transferring proppant for fracking to reduce risk of production and release of silica dust at a well site are provided. An embodiment of a method can include positioning a plurality of containers each having proppant for fracking contained therein onto a conveyor at a well site, downwardly discharging proppant from each respective container of the plurality of containers, funneling proppant from the one or more outlets of each of the plurality of containers through a plurality of conveyor hoppers, receiving proppant onto the conveyor belt, conveying proppant on the conveyor to a chute, and depositing the proppant into the chute for use in a blender or other location at the well site. | ||||||
20 | METHODS AND SYSTEMS TO TRANSFER PROPPANT FOR FRACKING WITH REDUCED RISK OF PRODUCTION AND RELEASE OF SILICA DUST AT A WELL SITE | US14943182 | 2015-11-17 | US20160068342A1 | 2016-03-10 | John Oren; Joshua Oren |
Embodiments of methods and systems of transferring proppant for fracking to reduce risk of production and release of silica dust at a well site are provided. An embodiment of a method can include positioning a plurality of containers each having proppant for fracking contained therein onto a conveyor at a well site, downwardly discharging proppant from each respective container of the plurality of containers, funneling proppant from the one or more outlets of each of the plurality of containers through a plurality of conveyor hoppers, receiving proppant onto the conveyor belt, conveying proppant on the conveyor to a chute, and depositing the proppant into the chute for use in a blender or other location at the well site. |