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公开(公告)号:US20080116241A1
公开(公告)日:2008-05-22
申请号:US11561202
申请日:2006-11-17
Applicant: Carl Martin
Inventor: Carl Martin
IPC: B26F1/00
CPC classification number: B26D3/169 , A61M5/1418 , B26F3/002 , Y10T83/748 , Y10T83/7493 , Y10T225/321
Abstract: A device (10) for clamping and separating a length of tubing. The device (10) comprises first and second subassemblies (12,14) for, in their closed positions, clamping the tubing at first and second locations, respectively, and at least weakening the tubing for subsequent separation. The subassemblies (12,14) face each other and are connected by a breakable connection. Each subassembly (12,14) includes clamping elements (26,34) for clamping the tubing, a perforating or cutting element (28) for perforating or otherwise weakening or cutting the tubing, and locking elements (24,32) for locking the subassembly (12,14) in the closed position. The perforating element (28) may be at least one hard plastic or metal spike. Once each subassembly (12,14) is locked in the closed position, the breakable connection is broken to result in respective lengths of clamped tubing.
Abstract translation: 一种用于夹紧和分离一段管道的装置(10)。 设备(10)包括第一和第二子组件(12,14),用于在其关闭位置中分别在第一和第二位置处夹紧管道,并且至少削弱管道以用于随后的分离。 子组件(12,14)彼此面对并通过易断连接连接。 每个子组件(12,14)包括用于夹紧管道的夹紧元件(26,34),用于穿孔或以其它方式削弱或切割管道的穿孔或切割元件(28),以及锁定元件(24,32) (12,14)处于关闭位置。 穿孔元件(28)可以是至少一个硬塑料或金属钉。 一旦每个子组件(12,14)被锁定在关闭位置,则可破坏的连接被破坏,导致夹紧管道的相应长度。
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公开(公告)号:US20070062212A1
公开(公告)日:2007-03-22
申请号:US11467852
申请日:2006-08-28
Applicant: Jimmy Frank , Thomas Guy , Kristan Dawson , Raymond Glatt , Richard Frankenberger , Carl Martin , Craig Cloud
Inventor: Jimmy Frank , Thomas Guy , Kristan Dawson , Raymond Glatt , Richard Frankenberger , Carl Martin , Craig Cloud
CPC classification number: A23G9/30 , A23G9/22 , A23G9/28 , B67D1/0081 , B67D2001/075
Abstract: A food dispensing machine includes a product chamber with a dispensing valve connected to the product chamber and having an outlet through which a product contained in the product chamber is dispensed. The product chamber has a cleaning solution inlet connectable to a cleaning solution supply source for receiving cleaning solution into the product chamber. The product chamber further has an ingredient inlet alternatively connectable to either an ingredient supply source or the dispensing valve outlet. When the ingredient inlet is connected to the dispensing valve outlet, a re-circulating flow path is created, allowing for complete cleaning and sanitizing of the product flow path.
Abstract translation: 食品分配机包括具有连接到产品室的分配阀的产品室,并且具有出口,分配产品室中包含的产品。 产品室具有可连接到清洁溶液供应源的清洁溶液入口,用于将清洁溶液接收到产品室中。 产品室还具有交替地可连接到成分供应源或分配阀出口的成分入口。 当成分入口连接到分配阀出口时,产生再循环流动路径,允许产品流动路径的完全清洁和消毒。
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公开(公告)号:USD669344S1
公开(公告)日:2012-10-23
申请号:US29415595
申请日:2012-03-12
Applicant: Edward Martin , Carl Martin , Charles Martin
Designer: Edward Martin , Carl Martin , Charles Martin
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公开(公告)号:US07661345B2
公开(公告)日:2010-02-16
申请号:US11561202
申请日:2006-11-17
Applicant: Carl Martin
Inventor: Carl Martin
CPC classification number: B26D3/169 , A61M5/1418 , B26F3/002 , Y10T83/748 , Y10T83/7493 , Y10T225/321
Abstract: A device (10) for clamping and separating a length of tubing. The device (10) comprises first and second subassemblies (12,14) for, in their closed positions, clamping the tubing at first and second locations, respectively, and at least weakening the tubing for subsequent separation. The subassemblies (12,14) face each other and are connected by a breakable connection. Each subassembly (12,14) includes clamping elements (26,34) for clamping the tubing, a perforating or cutting element (28) for perforating or otherwise weakening or cutting the tubing, and locking elements (24,32) for locking the subassembly (12,14) in the closed position. The perforating element (28) may be at least one hard plastic or metal spike. Once each subassembly (12,14) is locked in the closed position, the breakable connection is broken to result in respective lengths of clamped tubing.
Abstract translation: 一种用于夹紧和分离一段管道的装置(10)。 设备(10)包括第一和第二子组件(12,14),用于在其关闭位置中分别在第一和第二位置处夹紧管道,并且至少削弱管道以用于随后的分离。 子组件(12,14)彼此面对并通过易断连接连接。 每个子组件(12,14)包括用于夹紧管道的夹紧元件(26,34),用于穿孔或以其它方式削弱或切割管道的穿孔或切割元件(28),以及锁定元件(24,32) (12,14)处于关闭位置。 穿孔元件(28)可以是至少一个硬塑料或金属钉。 一旦每个子组件(12,14)被锁定在关闭位置,则可破坏的连接被破坏,导致夹紧管道的相应长度。
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公开(公告)号:US20070295369A1
公开(公告)日:2007-12-27
申请号:US11850173
申请日:2007-09-05
Applicant: William Martin , Carl Martin
Inventor: William Martin , Carl Martin
IPC: B08B3/00
CPC classification number: B08B15/00 , B08B3/003 , B08B7/0014 , B08B15/04 , B09B3/0066 , E04G21/30 , E04G23/08
Abstract: An improved process for removal of particulate matter having airborne potential. The process includes applying a foam to the particulate matter in a particulate matter area to prevent the particulate matter from becoming airborne. The particulate matter area may then be removed, prior to the foam draining, and encased in a storage device.
Abstract translation: 一种改进的具有空气传播潜力的颗粒物的去除方法。 该方法包括将泡沫应用于颗粒物质区域中的颗粒物质以防止颗粒物质变得空气传播。 然后在泡沫排出之前可以除去颗粒物质区域,并且包裹在存储装置中。
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Patent Agency Ranking
公开(公告)号:US08616814B2
公开(公告)日:2013-12-31
申请号:US13217201
申请日:2011-08-24
Applicant: Edward Martin , Carl Martin , Charles Martin
Inventor: Edward Martin , Carl Martin , Charles Martin
IPC: B60P7/08
CPC classification number: B60P7/08
Abstract: A trailer wall hook is provided as a single unit that includes a U-shaped hook with a rounded or square base. The U-shaped hook includes an open eye-loop and j-hook support brackets. The open eye-loop is attached to the top front of the U-shaped hook and two smaller j-hooks are attached upside down on the rear of the U-shaped hook. The j-hooks provide for mounting the trailer wall hook on a cargo control or tie-down system on the inside wall of a trailer. The trailer wall hook provides for loading and supporting linear shaped or irregular shaped freight onto the wall.
Abstract translation: 提供拖车壁挂钩作为单个单元,其包括具有圆形或正方形底座的U形钩。 U形钩包括一个开放的眼环和j-钩支架。 开放的眼圈连接到U形钩的顶部前部,并且两个较小的j形钩被倒置在U形钩的后部上。 j型挂钩用于将挂车挂钩安装在拖车内壁上的货物控制或系固系统上。 拖车墙挂钩提供负载和支撑线性或不规则形状的货物到墙上。
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公开(公告)号:US08281961B2
公开(公告)日:2012-10-09
申请号:US11753717
申请日:2007-05-25
Applicant: Carl Martin
Inventor: Carl Martin
IPC: B67D3/00
CPC classification number: B67D7/0294 , Y10T137/86501
Abstract: A device (10) and method for aseptically or non-aseptically accessing a fluid in a container (210) using an existing container opening (211). The device (10) includes a sanitary fitting (12) for attaching the device to the container over the existing container opening, and a sample coupling (14) associated with the sanitary fitting. The sanitary fitting (12) includes a first port (32), and the sample coupling (14) includes at least two second ports (52). The sample coupling (14) is rotatable relative to the sanitary fitting (12) in one direction to cause the first port (32) to successively align with each of the second ports (52), and thereby allows access to the fluid through the aligned first and second ports (32,52).
Abstract translation: 一种使用现有容器开口(211)无菌或非无菌地进入容器(210)中的流体的装置(10)和方法。 装置(10)包括用于将装置连接到现有容器开口上的容器的卫生用品(12)和与卫生配件相关联的样品联接器(14)。 卫生配件(12)包括第一端口(32),并且样品联接器(14)包括至少两个第二端口(52)。 样品联接器(14)可以在一个方向上相对于卫生配件(12)旋转,以使第一端口(32)与每个第二端口(52)连续对准,从而允许通过对准 第一和第二端口(32,52)。
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公开(公告)号:US08201594B2
公开(公告)日:2012-06-19
申请号:US12136412
申请日:2008-06-10
Applicant: Carl Martin
Inventor: Carl Martin
IPC: B65B3/04
CPC classification number: B65B39/004 , B65B55/00
Abstract: A system (10) and method for substantially automatically aseptically or non-aseptically filling a container with a fluid. The transfer of fluid occurs via a movable nozzle mechanism (20) substantially automatically inserted into a side opening (32) in a connector (12) attached to the container. More specifically, the side opening (32) in the connector (12) is exposed, the nozzle mechanism (20) is moved into the side opening (32), the fluid is transferred into the container via the nozzle mechanism (20) and the connector (12), the nozzle mechanism (20) is removed from the side opening (32) in the connector (12), and the side opening (32) in the connector (12) is closed. The aseptic transfer of fluid includes a substantially automatic sterilization procedure accomplished by both spray and contact components (54,56).
Abstract translation: 一种用于基本上自动无菌或非无菌地填充容器的流体系统(10)和方法。 流体的传送通过基本上自动插入连接到容器的连接器(12)中的侧开口(32)中的可移动喷嘴机构(20)发生。 更具体地,连接器(12)中的侧开口(32)露出,喷嘴机构(20)移动到侧开口(32)中,流体经由喷嘴机构(20)被转移到容器中,并且 连接器(12)中,喷嘴机构(20)从连接器(12)中的侧开口(32)移除,并且连接器(12)中的侧开口(32)关闭。 流体的无菌转移包括由喷雾和接触组分两者完成的基本上自动的灭菌程序(54,56)。
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公开(公告)号:US07530374B2
公开(公告)日:2009-05-12
申请号:US11694365
申请日:2007-03-30
Applicant: Carl Martin
Inventor: Carl Martin
CPC classification number: B65B55/10 , B65B39/004 , Y10T137/4245
Abstract: A system (10) and method for substantially automatically aseptically or non-aseptically filling a container with a fluid. The transfer of fluid occurs via a movable nozzle mechanism (20) substantially automatically inserted into a side opening (32) in a connector (12) attached to the container. More specifically, the side opening (32) in the connector (12) is exposed, the nozzle mechanism (20) is moved into the side opening (32), the fluid is transferred into the container via the nozzle mechanism (20) and the connector (12), the nozzle mechanism (20) is removed from the side opening (32) in the connector (12), and the side opening (32) in the connector (12) is closed. The aseptic transfer of fluid includes a substantially automatic sterilization procedure accomplished by both spray and contact components (54,56).
Abstract translation: 一种用于基本上自动无菌或非无菌地填充容器的流体系统(10)和方法。 流体的传送通过基本上自动插入连接到容器的连接器(12)中的侧开口(32)中的可移动喷嘴机构(20)发生。 更具体地,连接器(12)中的侧开口(32)露出,喷嘴机构(20)移动到侧开口(32)中,流体经由喷嘴机构(20)被转移到容器中,并且 连接器(12)中,喷嘴机构(20)从连接器(12)中的侧开口(32)移除,并且连接器(12)中的侧开口(32)关闭。 流体的无菌转移包括由喷雾和接触组分两者完成的基本上自动的灭菌程序(54,56)。
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公开(公告)号:US20080302443A1
公开(公告)日:2008-12-11
申请号:US12136412
申请日:2008-06-10
Applicant: Carl Martin
Inventor: Carl Martin
IPC: B65B3/04
CPC classification number: B65B39/004 , B65B55/00
Abstract: A system (10) and method for substantially automatically aseptically or non-aseptically filling a container with a fluid. The transfer of fluid occurs via a movable nozzle mechanism (20) substantially automatically inserted into a side opening (32) in a connector (12) attached to the container. More specifically, the side opening (32) in the connector (12) is exposed, the nozzle mechanism (20) is moved into the side opening (32), the fluid is transferred into the container via the nozzle mechanism (20) and the connector (12), the nozzle mechanism (20) is removed from the side opening (32) in the connector (12), and the side opening (32) in the connector (12) is closed. The aseptic transfer of fluid includes a substantially automatic sterilization procedure accomplished by both spray and contact components (54,56).
Abstract translation: 一种用于基本上自动无菌或非无菌地填充容器的流体系统(10)和方法。 流体的传送通过基本上自动插入连接到容器的连接器(12)中的侧开口(32)中的可移动喷嘴机构(20)发生。 更具体地,连接器(12)中的侧开口(32)露出,喷嘴机构(20)移动到侧开口(32)中,流体经由喷嘴机构(20)被转移到容器中,并且 连接器(12)中,喷嘴机构(20)从连接器(12)中的侧开口(32)移除,并且连接器(12)中的侧开口(32)关闭。 流体的无菌转移包括由喷雾和接触组分两者完成的基本上自动的灭菌程序(54,56)。
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