In one aspect, the invention is directed to a portable paste dispenser having a container for storing paste, the container having a cylindrical part and a conical part, a nozzle at the end of the conical part, a piston, disposed inside the cylindrical part of the container, and a shaft connected to the piston, the shaft having a limited foldability so that when the shaft is pushed towards the piston, it still is able to move the piston along the cylindrical part, where the piston includes foldable bellows walls, thereby upon applying force on the piston, the piston straightens up, resulting in a conical form correspondingly to the conical part, thereby allowing fully emptying the container.

In one aspect, the invention is directed to a portable paste dispenser having a container for storing paste, the container having a cylindrical part and a conical part, a nozzle at the end of the conical part, a piston, disposed inside the cylindrical part of the container, and a shaft connected to the piston, the shaft having a limited foldability so that when the shaft is pushed towards the piston, it still is able to move the piston along the cylindrical part, where the piston includes foldable bellows walls, thereby upon applying force on the piston, the piston straightens up, resulting in a conical form correspondingly to the conical part, thereby allowing fully emptying the container.

A method of manufacturing a sealing element for use in a fluid conveyance device comprising the steps of: forming an elastomeric sealing body including a first body portion defining at least one annular sealing rib, and a second body portion arranged on an end of the first body portion, the second body portion comprising an annular protrusion extending radially beyond the first body portion; and forming a layer of barrier material on a free end of the second body portion, wherein the forming steps are carried out in a single molding operation.

A dispenser for dispensing a viscous material contained in a flexible package has a hollow body extending along a longitudinal axis, a first end with a handle assembly, an opposite second end with a dispensing valve, and a cavity configured to receive the flexible package. A piston is movably disposed in the cavity for engagement with the flexible package to force viscous material from the flexible package. A diverter insert is also disposed in the cavity and is configured to receive the viscous material from the flexible package as the piston moves and divert the viscous material to the dispensing valve.

A dispenser for dispensing a viscous material contained in a flexible package has a hollow body extending along a longitudinal axis, a first end with a handle assembly, an opposite second end with a dispensing valve, and a cavity configured to receive the flexible package. A piston is movably disposed in the cavity for engagement with the flexible package to force viscous material from the flexible package. A diverter insert is also disposed in the cavity and is configured to receive the viscous material from the flexible package as the piston moves and divert the viscous material to the dispensing valve.

A dispenser for dispensing a viscous material contained in a flexible package has a hollow body extending along a longitudinal axis, a first end with a handle assembly, an opposite second end with a dispensing valve, and a cavity configured to receive the flexible package. A piston is movably disposed in the cavity for engagement with the flexible package to force viscous material from the flexible package. A diverter insert is also disposed in the cavity and is configured to receive the viscous material from the flexible package as the piston moves and divert the viscous material to the dispensing valve.

A dispenser for dispensing a viscous material contained in a flexible package has a hollow body extending along a longitudinal axis, a first end with a handle assembly, an opposite second end with a dispensing valve, and a cavity configured to receive the flexible package. A piston is movably disposed in the cavity for engagement with the flexible package to force viscous material from the flexible package. A diverter insert is also disposed in the cavity and is configured to receive the viscous material from the flexible package as the piston moves and divert the viscous material to the dispensing valve.

A dispenser for dispensing a viscous material contained in a flexible package has a hollow body extending along a longitudinal axis, a first end with a handle assembly, an opposite second end with a dispensing valve, and a cavity configured to receive the flexible package. A piston is movably disposed in the cavity for engagement with the flexible package to force viscous material from the flexible package. A diverter insert is also disposed in the cavity and is configured to receive the viscous material from the flexible package as the piston moves and divert the viscous material to the dispensing valve.

A dispenser for dispensing a viscous material contained in a flexible package has a hollow body extending along a longitudinal axis, a first end with a handle assembly, an opposite second end with a dispensing valve, and a cavity configured to receive the flexible package. A piston is movably disposed in the cavity for engagement with the flexible package to force viscous material from the flexible package. A diverter insert is also disposed in the cavity and is configured to receive the viscous material from the flexible package as the piston moves and divert the viscous material to the dispensing valve.

An apparatus for processing a fluid module, including a collapsible vessel supported on a planar substrate, comprises a first actuator component configured to be movable in a first direction is generally parallel to the plane of the substrate, a second actuator component configured to be movable in a second direction having a component that is normal to the plane of the substrate, and a motion conversion mechanism coupling the first actuator component with the second actuator component and configured to convert movement of the first actuator component in the first direction into movement of the second actuator component in the second direction.