Abstract: Inductive heating systems and method of controlling the same to reduce biological carryover are disclosed herein. An example system includes an induction heater including a tank circuit. The example system includes a controller to drive the tank circuit to selectively oscillate at a resonant frequency for the tank circuit to inductively heat a work piece disposed proximate to the tank circuit.

Abstract: Systems and methods for a container for decreasing the thawing time for a liquid, gel or other fluid material is described herein. The systems can include a container with a body. The body can include a cavity with a dispensing nozzle and a plunger disposed within the cavity. The body can further include one or more channels separate from the cavity. The channel(s) increases the rate of heat transfer associated with the container and, thus, increases the cooling or heating rate of the material within the container.

Abstract: A novel pressure control system provided for maintaining a constant predetermined excess pressure in a fluid dispensing container comprises a high-pressure plastic vessel having an inner chamber and an upper open end, and a pressure control device with a valve, which pressure control device is mounted on the upper open end of the high-pressure vessel, whereas a passageway is provided from the inner chamber to the outside, which is controlled by the valve, wherein the vessel is substantially cylindrical. The upper part of the vessel has a spherical dome with a cylindrical insert provided for receiving the pressure control device and the lower end of the vessel has an open end, which is closed by a ring-shaped closure.

Abstract: Embodiments include a bottle and method for cleaning a grill. An exemplary method may be applied to grills having an upper grill and a lower grill. Methods can include providing a bottle having a dosing chamber with a first outlet, a reservoir chamber configured to store a solution and including a second outlet, and a sprayer for dispensing solution via the second outlet. The sprayer includes a spray head and a trigger that, when actuated, draws solution from the reservoir chamber and dispenses it by spraying the solution from the spray head. Methods can include filing the dosing chamber with a predetermined dose of solution from the reservoir chamber and dispensing the solution onto the lower grill from the first outlet, and dispensing the solution onto the upper grill by spraying the solution onto the upper grill from the second outlet.

Abstract: The present disclosure describes a system, apparatus, and method for storing, transporting, delivering, and dispensing carbonated beverages that maintains a high degree of carbonation and extends the shelf life of the beverage. The system includes a container that includes an outlet for dispensing the beverage. Disposed within the container is a first bladder that contains a fluid and an apparatus for exerting a constant pressure on the first bladder. The fluid is dispensed from the first bladder through the outlet, in response to the apparatus exerting pressure on the first bladder.

Abstract: The invention relates to a method for drawing a carbonated drink from a dispenser system, in which the carbonated drink is conducted via a line through a flow controller and a filter that is downstream of said flow controller. The invention also relates to a dispenser system and to a cartridge unit comprising a filter.

Abstract: The laminated tube container has a tube body that includes a light blocking layer between an innermost layer and an outermost layer made of resin. The tube body has a butted portion in which both side edges of a laminated sheet constituting the tube body butt against each other and a reinforcing tape portion provided on an inner surface of the tube body along the butted portion. The reinforcing tape portion has a pair of resin layers and an intermediate layer that includes an aluminum layer and is disposed between the pair of resin layers.

Abstract: Multi-chamber applicator (1) comprising a multi-chamber container (2) for storing at least two subcomponents, said chamber comprising a device (3) for removing a mixture of the subcomponents.

Abstract: A method of reducing photoelectron yield (PEY) and/or secondary electron yield (SEY) of a surface of a target (10), comprises applying laser radiation to the surface of the target (10) to produce a periodic arrangement of structures on the surface, wherein the laser radiation comprises pulsed laser radiation comprising a series of laser pulses and the power density of the pulses is in a range 0.01 TW/cm2 to 3 TW/cm2, optionally 0.1 TW/cm2 to 3 TW/cm2.

Abstract: A trigger overcap assembly includes a housing having a body, a cap secured to an upper end of the body, and a trigger at least partially disposed within the body. The trigger includes a manifold having a fluid passageway, and a pivot rod of the trigger is pivotally coupled with a pivot notch of the cap.

Abstract: A cooking and draining system includes: a vessel including a bottom and an upstanding side wall forming an interior region of the vessel and an opening opposite the bottom of the vessel, the vessel further including: a heating element located in one of the bottom and the side wall; a valve located in one of the bottom and the side wall, the valve selectively controlling outflow of fluid from the interior region of the vessel; a lid selectively sealing the opening opposite the bottom of the vessel; and a base selectively coupled to the vessel and selectively causing the heating element to heat the interior region of the vessel.

Abstract: The present disclosure relates to a plastic valve and method for forming a plastic valve comprising an exterior base layer, an interior bubble layer and an exterior channel layer, wherein a flow channel is formed between the bubble layer and the channel layer. In a first aspect of the disclosure, a rigid or semi-rigid spherical ball travels between first and second ends of a channel molded into the bubble layer, thereby moving between a closed configuration and an open configuration. In a second aspect of the disclosure, a bubble is formed between the bubble layer and the base layer of plastic film, and includes a static planar footprint and a pre-tension height. The channel layer is applied to the bubble layer under tension to form a channel. Applying the channel layer decreases a height of the bubble from the pre-tension height to a post-tension height and increases an internal pressure of the bubble.

Abstract: The present invention disclosed herein relates to a bead discharge pump container, in particular, a bead discharge pump container, which has a cylinder-type pump structure having a check valve and designed by changing a check valve structure, a piton rod structure, a gap between a piston rod and a seal cap, and the like such that the bead contents are easily discharged without being burst.

Abstract: A system and method for distributing color-coded dilution ratios of cleaning concentrates at different dilution ratios and flow rates. The system mixes a concentrated cleaning composition with different quantities of water to produce diluted concentrates. A plurality of separate dyes or scented dyes are added to the diluted concentrates, with each color of dye correlating to a unique diluted concentrate. This provides a visual indication of the dilution ratio of the diluted concentrate. A plurality of metering devices selectively dispense the dyed diluted concentrates at different dilution ratios and at multiple flow rates. The metering devices are labeled with identification markings, indicating dilution ratios and flow rates. The dilution ratio and the flow rate are selected based on the type of cleaning that is required, and the type of dispensing means used for cleaning. A plurality of lines carry the concentrated cleaning composition, water, dyes, and dyed diluted concentrate.

Abstract: The present invention provides a spot welding method for a member to be welded constituted of a plurality of steel sheets that are overlapped with each other at at least a welding zone, in which at least an overlapped face of at least one of the plurality of steel sheets at the welding zone is coated with zinc plating, a total sheet thickness t (mm) of the plurality of steel sheets is 1.35 mm or more, a squeeze time St (seconds) from the time when welding electrodes are brought into contact with the member to be welded to the time when electric current flow for welding starts satisfies “0.020?St”, and a hold time Ht( seconds) after welding from the time when electric current flow for welding between the welding electrodes ends to the time when the welding electrodes and the member to be welded are brought out of contact satisfies “0.015t2+0.020?Ht”.

Abstract: A substrate supporting device having a feeder structure that enables a large number of electrodes to be successfully supplied with power. A ceramic heater 100 includes a base 10 having an upper surface as a support surface on which a substrate is supported, electrodes 20 embedded in the base 10, a base-supporting member 30 that is mounted on a lower surface of the base 10 and that is formed of a heat insulating material, and feeder rods 40 that extend through respective through-holes 35 formed in a circumferential wall 34 of the base-supporting member 30 and extending in the vertical direction and that are electrically connected to the electrodes 20.

Abstract: This invention provides a liquid container apparatus and method to prevent spilling of a liquid, such as oil, while adding liquid to an engine or other component, without the use of a funnel and without inverting the container, and to make the liquid-adding operation easier and safer for a user, providing a smart cap with a smart-cap opening turnably mounted upon an opening protrusion on a container body such that the smart cap can be closed and opened without detaching the smart cap from the container body, the liquid can be dispensed without inverting the container, and the rate of liquid flow can be controlled by a user, providing a container able to be placed upon or near an engine for the required time, providing a container that dispenses liquid without being inverted, and providing a container that visually indicates the amount of liquid within, consequently simplifying the use of the container.

Abstract: A reusable sealing system is provided for caulk tube or similar bulk dispense. A sealing system forms a cylindrical, pliable member having an access orifice at a proximal end and a sealed dome at an opposite, distal end. The sealing system has an overall length of approximately 3½ inches. The access orifice forms an opening diameter of approximately ?? nominal internal diameter. The sealed dome formed as a flattened extension of a pliable sidewall. A pliable sidewall is formed of a resilient elastomeric material, such as a silicone or a plastic, and is adapted to receive a tip of the nozzle n a contiguously contacting manner.

Abstract: Apparatus for feeding doses of fluidisable materials comprising one upper Intel pipe (1?, 1?), one lower outlet pipe (2?, 2?) and a Pausing (6?,6?). and a fluidising element (5?,5?) for controlling outflow of materials through the outlet pipe (2?, 2?), The apparatus further comprising a control volume constituted by a chamber (3?,3?) between the Intel pipe (1?, 8?) and the outlet pipe (2?,2?) and a fluidising element (4?, 4?) for controlling inflow of materials Into the chamber (3?, 3?). A diverter (7?,7?) la arranged between the Inlet pipe (1?, 8?) and the outlet pipe {2?, 2?) defining said chamber (3?, 3?) between said Inlet pipe (1?,8?) diverter (7?,7?) the housing (6?, 6?) and the fluidising element (5?,5?). The Invention also relates to a method for feeding doses of fluidisable materials by the apparatus.

Abstract: In order to prevent the material (52) from being pressed through the press plate seal between press plate (2) and surrounding barrel (50) by means of a press plate (2) when emptying a barrel (50) in which viscous material (52) is supplied, a two-stage construction is used in accordance with the invention: A press cylinder (22) is connected to the rear side of the press plate (2), in which in turn a conveying piston (24) is guided in a sealing manner, which in turn has a smaller end face than the press plate (2). In addition, non-return valves (19) are arranged in the press plate (2) in the region radially inside the press cylinder (22), which allow the material (52) to flow only in the direction of the conveying piston (24), but not vice versa, when the press plate (2) is pressed in the direction to the bottom (50a) of the barrel (50). After the press plate (2) has come to a standstill, the conveying piston (24) can thus be guided in the direction of the bottom of the press cylinder (22), i.e.