Abstract: An interface is provided for a device having a touch screen such as a smart phone or tablet computer that extends the touch screen input to areas outside the touch screen area. The interface has a housing which attaches to the device. One or more input controls are mounted on the housing. The controls can be joysticks, buttons, touch pads, levers, triggers, keyboards, etc. Conductive pads are connected to the housing and capacitively interact with the touch screen. The interface contains circuitry that transmits an electrical or capacitive signal from the user's manipulation of the controls to the conductive pads in order to activate selected areas of the touch screen. The housing may be made in multiple pieces to connect to different sides of the touch screen device.

Abstract: An interface is provided for a device having a touch screen such as a smart phone or tablet computer that extends the touch screen input to areas outside the touch screen area. The interface has a housing which attaches to the device. One or more input controls are mounted on the housing. The controls can be joysticks, buttons, touch pads, levers, triggers, keyboards, etc. Conductive pads are connected to the housing and and capacitively interact with the touch screen. The interface contains circuitry that transmits an electrical or capacitive signal from the user's manipulation of the controls to the conductive pads in order to activate selected areas of the touch screen. The housing may be made in multiple pieces to connect to different sides of the touch screen device.

Abstract: A thermal actuator, also known as a heat capacitance motor, derives its energy from the physical expansion of paraffin wax as it changes from solid to liquid when heated within an enclosure such as a cylinder. This energy is converted into mechanical force which causes translation of a piston slidably mounted within the cylinder, thus creating hydrostatic pressure which is converted to work. The thermal actuator may be utilized in various drug delivery systems in which the hydrostatic pressure created by the actuator is used expel the contents of a syringe.

Abstract: A thermal actuator, also known as a heat capacitance motor, derives its energy from the physical expansion of paraffin wax as it changes from solid to liquid when heated within an enclosure such as a cylinder. This energy is converted into mechanical force which causes translation of a piston slidably mounted within the cylinder, thus creating hydrostatic pressure which is converted to work. The thermal actuator may be utilized in various drug delivery systems in which the hydrostatic pressure created by the actuator is used expel the contents of a syringe.

Abstract: A thermal actuator, also known as a heat capacitance motor, derives its energy from the physical expansion of paraffin wax as it changes from solid to liquid when heated within an enclosure such as a cylinder. This energy is converted into mechanical force which causes translation of a piston slidably mounted within the cylinder, thus creating hydrostatic pressure which is converted to work. The thermal actuator may be utilized in various drug delivery systems in which the hydrostatic pressure created by the actuator is used expel the contents of a syringe.

Abstract: A thermal actuator, also known as a heat capacitance motor, derives its energy from the physical expansion of paraffin wax as it changes from solid to liquid when heated within an enclosure such as a cylinder. This energy is converted into mechanical force which causes translation of a piston slidably mounted within the cylinder, thus creating hydrostatic pressure which is converted to work. The thermal actuator may be utilized in various drug delivery systems in which the hydrostatic pressure created by the actuator is used expel the contents of a syringe.

Abstract: A continuous flow water heater has a sealed chamber containing an electrical heating element and a diaphragm having an orifice through which water must flow upon a demand for hot water. The center of the diaphragm translates axially in response to the water flow and moves an internal magnet which influences an external magnet to throw a flow switch. A heat sink made from a material exhibiting high thermal conductivity extends from within the sealed chamber to a position in heat exchanging relationship with a thermostat, the contacts of which are closed unless the water exceeds a set value. The flow switch and thermostat are in series with a source of electricity and the heating element such that the heating element is only energized if there is water flow through the heater and if the exiting water does not exceed a selected temperature. The sealed chamber is contained within a housing made of heat-resistant plastic.