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公开(公告)号:US20050091730A1
公开(公告)日:2005-05-05
申请号:US10634620
申请日:2003-11-17
Applicant: John Stanko
Inventor: John Stanko
CPC classification number: A41D13/0012 , A41D27/20
Abstract: This invention refers to a pocket protector for the pockets on clothing. The pocket protector of the present invention consists of an outer pocket fabric, and an inner pocket fabric, secured along their edges to form a pocket; wherein the improvement comprises a reinforcing material that is affixed to and runs down the outer fabric of the pocket and is affixed to and runs up the inner fabric of the pocket. Thus, when a pickpocket cuts the pocket fabric, the reinforcing material is not cut, and the reinforcing material cradles the contents of the pocket, and keeps the contents of the pocket from falling into the hands of the thief
Abstract translation: 本发明涉及一种用于衣服口袋的口袋保护装置。 本发明的口袋保护器由外袋织物和内袋织物组成,沿其边缘固定形成口袋; 其中改进包括固定在口袋的外部织物上并向下延伸的增强材料并且固定到袋体的内部织物上并使其向上运动。 因此,当扒手切割口袋织物时,加强材料不被切割,并且增强材料支撑袋的内容物,并且保持口袋的内容物不会落入小偷的手中
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公开(公告)号:US5112024A
公开(公告)日:1992-05-12
申请号:US600841
申请日:1990-10-17
Applicant: John Stanko
Inventor: John Stanko
CPC classification number: F24F1/027 , F16F15/046 , F24F13/20
Abstract: A bulkhead joint with interfitted flanges set at different angles and nested junctions capable of relative pivotal movement with a free edge of one flange abutting the side of another with the bulkheads jointed by a screw.
Abstract translation: 隔板接头具有设置在不同角度的相互配合的凸缘和嵌套接头,能够进行相对枢转运动,其中一个凸缘的自由边缘与另一个凸缘的侧面邻接,而隔板由螺钉连接。
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公开(公告)号:US06360992B1
公开(公告)日:2002-03-26
申请号:US09546121
申请日:2000-04-10
Applicant: John Stanko , Lowell Pearson
Inventor: John Stanko , Lowell Pearson
IPC: B64D1500
Abstract: A hybrid deicing system for deicing ice or snow covered surfaces comprises a source of pressurized air and a source of pressurized deicing fluid. A nozzle assembly receives the pressurized air and the pressurized deicing fluid at a forward position, a middle position or a rearward position of the nozzle assembly. The nozzle assembly discharges the pressurized deicing fluid and pressurized air as a first independent stream within a second independent stream.
Abstract translation: 用于除冰或覆盖冰雪的表面的混合除冰系统包括加压空气源和加压除冰流体源。 喷嘴组件在喷嘴组件的前部位置,中间位置或后部位置处接收加压空气和加压除冰流体。 喷嘴组件将加压的除冰流体和加压空气作为第二独立流中的第一独立流排出。
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公开(公告)号:US6047926A
公开(公告)日:2000-04-11
申请号:US877272
申请日:1997-06-17
Applicant: John Stanko , Lowell Pearson
Inventor: John Stanko , Lowell Pearson
CPC classification number: B64F5/0054 , B64F5/0063
Abstract: This invention overcomes the disadvantage of the prior systems and produces a high velocity specially formed and constituted pressure aerodynamic stream system for efficiently and effectively removing ice from an aircraft. The specially formed stream system includes a stream within a stream, wherein a deicing fluid such a glycol is entrained within and encased by a surrounding jacket of entraining fluid such as air. This deicing is now known as coaxial stream/stream within a stream deicing. The special nozzle allows the stream to maintain fluid separation over its flight path so that aircraft contact is made by to be known as coaxial stream/stream within a stream deicing. The coaxial stream/stream within a stream deicing is further enhanced by pressurizing the stream to deliver the stream as a high pressure, high velocity stream to improve the aerodynamic sweeping action of the airstream.
Abstract translation: 本发明克服了现有系统的缺点,并且产生高速特别形成和构成的压力空气动力流系统,用于有效地和有效地从飞机上去除冰。 特殊形成的流系统包括流内的流,其中除冰流体如二醇被夹带在夹带流体例如空气的周围夹套内。 这种除冰现在被称为流除冰中的同轴流/流。 专用喷嘴允许流在其飞行路径上保持流体分离,使得飞行器接触通过在流除冰中被称为同轴流/流来制造。 通过对流进行加压来进一步增强流除冰中的同轴流/流,以将流作为高压高速流输送以改善气流的气动扫荡动作。
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公开(公告)号:US4736689A
公开(公告)日:1988-04-12
申请号:US684503
申请日:1984-12-21
Applicant: John Stanko
Inventor: John Stanko
CPC classification number: A47B21/0314 , A47B2021/0321 , A47B2021/0335 , A47B2210/15
Abstract: A housing adapted to be mounted beneath the top of a table and a shelf sized to fit substantially within the housing are operatively connected by a pair of telescoping rails which guide movement of the shelf between a retracted position in which the shelf is substantially within the housing and an extended position in which the shelf has a substantial portion thereof outside the housing. The rails pivot about an axis to change the height of the shelf with respect to the top of the table and the entire assembly includes a mechanism for securing the shelf in the extended position. The housing includes a vertically stepped slot in which a pin secured to the rails is movable to hold the shelf at predetermined heights with respect to the top of the table corresponding to the steps of the vertically stepped slot.
Abstract translation: 适于安装在桌子的顶部下方的壳体和尺寸适于基本上配合在壳体内的搁架的壳体通过一对伸缩轨道可操作地连接,所述一对伸缩轨道引导搁板的运动在缩回位置,在该缩回位置,搁架基本上位于壳体内 以及延伸位置,其中搁架在壳体的外部具有大部分。 轨道围绕轴线枢转以改变搁架相对于桌子顶部的高度,并且整个组件包括用于将货架固定在伸出位置的机构。 壳体包括一个垂直的阶梯槽,固定在轨道上的销可移动,以相对于对应于垂直阶梯槽的台阶的桌子顶部将搁架保持在预定高度。
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Patent Agency Ranking
公开(公告)号:US07082780B2
公开(公告)日:2006-08-01
申请号:US10992027
申请日:2004-11-18
Applicant: John Stanko , George P. Gabriel
Inventor: John Stanko , George P. Gabriel
CPC classification number: F24F1/027
Abstract: A room air conditioner has a front side portion and a rear side portion for location at an area to receive unwanted heat. The room air conditioner includes an evaporator coil at the front side portion of the air conditioner, and having a left-right centerline extending parallel to a front to rear direction. A condenser coil is at the rear side portion of the air conditioner, and has a left-right centerline extending parallel to the front to rear direction. An air-moving device is located between the evaporator coil and the condenser coil, and has a left-right centerline extending parallel to the front to rear direction. A chassis supports the evaporator coil, the condenser coil, and the air-moving device, and has a left-right centerline extending parallel to the front to rear direction. The centerlines of the evaporator coil, the condenser coil and the air-moving device are all co-linear, and the centerline of the chassis is laterally offset from the centerlines of the evaporator coil, the condenser coil and the air-moving device.
Abstract translation: 室内空调器具有前侧部分和后侧部分,用于位于不能接收热量的区域。 室内空调器包括在空调的前侧部分的蒸发器盘管,并且具有平行于前后方向延伸的左右中心线。 冷凝器盘管位于空调机的后侧部分,并且具有平行于前后方向延伸的左右中心线。 空气移动装置位于蒸发器盘管和冷凝器盘管之间,并且具有平行于前后方向延伸的左右中心线。 底盘支撑蒸发器盘管,冷凝器盘管和空气移动装置,并且具有平行于前后方向延伸的左右中心线。 蒸发器盘管,冷凝器盘管和气动装置的中心线都是共线的,底盘的中心线横向偏离蒸发器盘管,冷凝器盘管和气动装置的中心线。
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公开(公告)号:US06293498B1
公开(公告)日:2001-09-25
申请号:US09507404
申请日:2000-02-18
Applicant: John Stanko , Lowell Pearson
Inventor: John Stanko , Lowell Pearson
IPC: B64D1500
Abstract: This invention overcomes the disadvantage of the prior systems and produces a high velocity specially formed and constituted pressure aerodynamic stream system for efficiently and effectively removing ice from an aircraft. The specially formed stream system includes a stream within a stream, wherein a deicing fluid such a glycol is entrained within and encased by a surrounding jacket of entraining fluid such as air. This deicing is now known as coaxial stream/stream within a stream deicing. The special nozzle allows the stream to maintain fluid separation over its flight path so that aircraft contact is made by to be known as coaxial stream/stream within a stream deicing. The coaxial stream/stream within a stream deicing is further enhanced by pressurizing the stream to deliver the stream as a high pressure, high velocity stream to improve the aerodynamic sweeping action of the airstream.
Abstract translation: 本发明克服了现有系统的缺点,并且产生高速特别形成和构成的压力空气动力流系统,用于有效地和有效地从飞机上去除冰。 特殊形成的流系统包括流内的流,其中除冰流体如二醇被夹带在夹带流体例如空气的周围夹套内。 这种除冰现在被称为流除冰中的同轴流/流。 专用喷嘴允许流在其飞行路径上保持流体分离,使得飞行器接触通过在流除冰中被称为同轴流/流来制造。 通过对流进行加压来进一步增强流除冰中的同轴流/流,以将流作为高压高速流输送以改善气流的气动扫荡动作。
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公开(公告)号:US07431240B1
公开(公告)日:2008-10-07
申请号:US09640063
申请日:2000-08-17
Applicant: John Stanko , Lowell Pearson
Inventor: John Stanko , Lowell Pearson
IPC: B64D15/00
Abstract: This invention overcome the disadvantage of the prior systems and produces a high velocity specially formed and constituted pressure aerodynamic stream for efficiently and effectively removing ice from an aircraft. The specially formed stream includes a stream within a stream, wherein a deicing fluid such a glycol is entrained within and encased by a surrounding jacket of entraining fluid such air. This deicing is now known as coaxial stream/stream within a stream deicing. The special nozzle allows the stream to maintain fluid separation over its flight path so that aircraft contact is made by to be known as coaxial stream/stream within a stream deicing. The coaxial stream/stream within a stream deicing is further enhanced by pressurizing the stream to deliver the stream as a high pressure high velocity stream to improved the aerodynamic sweeping action of the airstream.
Abstract translation: 本发明克服了现有系统的缺点,并且产生高速特别形成和构造的压力空气动力流,用于有效地和有效地从飞机上去除冰。 特殊形成的流包括流内的物流,其中除冰流体如二醇被夹带在夹带流体这样的空气的周围夹套内。 这种除冰现在被称为流除冰中的同轴流/流。 专用喷嘴允许流在其飞行路径上保持流体分离,使得飞行器接触通过在流除冰中被称为同轴流/流来制造。 流除冰中的同轴流/流通过对流进行加压来进一步增强,以将流作为高压高速流输送以改善气流的空气动力学清扫作用。
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公开(公告)号:US20050115262A1
公开(公告)日:2005-06-02
申请号:US10992027
申请日:2004-11-18
Applicant: John Stanko , George Gabriel
Inventor: John Stanko , George Gabriel
CPC classification number: F24F1/027
Abstract: A room air conditioner has a front side portion and a rear side portion for location at an area to receive unwanted heat. The room air conditioner includes an evaporator coil at the front side portion of the air conditioner, and having a left-right centerline extending parallel to a front to rear direction. A condenser coil is at the rear side portion of the air conditioner, and has a left-right centerline extending parallel to the front to rear direction. An air-moving device is located between the evaporator coil and the condenser coil, and has a left-right centerline extending parallel to the front to rear direction. A chassis supports the evaporator coil, the condenser coil, and the air-moving device, and has a left-right centerline extending parallel to the front to rear direction. The centerlines of the evaporator coil, the condenser coil and the air-moving device are all co-linear, and the centerline of the chassis is laterally offset from the centerlines of the evaporator coil, the condenser coil and the air-moving device.
Abstract translation: 室内空调器具有前侧部分和后侧部分,用于位于不能接收热量的区域。 室内空调器包括在空调的前侧部分的蒸发器盘管,并且具有平行于前后方向延伸的左右中心线。 冷凝器盘管位于空调机的后侧部分,并且具有平行于前后方向延伸的左右中心线。 空气移动装置位于蒸发器盘管和冷凝器盘管之间,并且具有平行于前后方向延伸的左右中心线。 底盘支撑蒸发器盘管,冷凝器盘管和空气移动装置,并且具有平行于前后方向延伸的左右中心线。 蒸发器盘管,冷凝器盘管和空气移动装置的中心线都是共线的,底盘的中心线横向偏离蒸发器盘管,冷凝器盘管和气动装置的中心线。
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公开(公告)号:US5738492A
公开(公告)日:1998-04-14
申请号:US677106
申请日:1996-07-09
Applicant: John Stanko , Scott Febo
Inventor: John Stanko , Scott Febo
CPC classification number: F24F1/027 , F04D29/422 , F04D29/441 , F24F13/06
Abstract: An air-conditioning unit including a centrifugal blower for centrifugally blowing air having a generally horizontal axis a rotation and a scroll having an elongated discharge plenum above the blower and an air guide about the blower for directing air exiting the blower to the discharge plenum through a discharge port having first and second ends. The air guide has a radius from the rotational axis of the fan which increases from a cutoff point near the first end of the discharge port to the second end of the discharge port. The scroll also has a curved air foil located above the blower and to a side of the blower toward the second end of the discharge port. The air foil has a leading edge near the blower and a trailing edge in the discharge plenum effective to divert a portion of air exiting the blower toward the second end of the discharge port to equally distribute air across the discharge plenum. The air foil intersects the discharge port near the lateral center of the discharge port and near the center of the air foil. Preferably, the air-foil is either forwardly curved or double-curved.
Abstract translation: 一种空调机组,包括离心式鼓风机,用于将大体上水平的轴线旋转的空气和具有在鼓风机上方的细长的排放气室的涡旋件和围绕鼓风机的空气引导件引导,用于将排出鼓风机的空气引导到排放气室 排出口具有第一和第二端。 空气引导件具有从排出口的第一端附近的截止点到排出口的第二端的从风扇的旋转轴线起的半径。 涡卷还具有位于鼓风机上方并且朝向排出口的第二端的鼓风机侧面的弯曲的气翼。 空气箔具有靠近鼓风机的前缘,并且排出气室中的后缘有效地使从吹风机排出的一部分空气朝向排出口的第二端转移,以将空气均匀地分布在排气室中。 空气箔与排出口的横向中心附近的排出口相邻,并且靠近气翼的中心。 优选地,空气箔是向前弯曲的或双曲的。
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