Abstract: A water control device includes a valve pipe section with a controllable valve configured for controlling flow of a fluid and/or a gas therethrough having a fluid inlet opposite a fluid outlet. A first pipe stub defines a first end opposite a flanged end. An inlet-side nut is configured to be disposed around the first pipe stub and the first end of the first pipe stud is configured to be permanently attached to a first pipe section. The flanged end is configured to attach to the fluid inlet of the valve pipe section by the inlet-side nut abutting the flanged end of the first pipe stub when internal screw threads of the inlet-side nut threadably engages with external screw threads of fluid inlet of the valve pipe section. A second pipe stub is similarly attached to the fluid outlet by a similarly constructed outlet-side nut.

Abstract: A water control device includes a valve pipe section with an inlet, an outlet and a lower diaphragm valve housing with an internally disposed fluid aperture. An upper diaphragm valve housing includes an extension with an adjustment screw opening for a flow adjustment screw. A diaphragm valve assembly seals and unseals to the fluid aperture by an electric motor driven mechanical actuation fluid pressure diverter assembly. The flow adjustment screw includes a tamper proof surface that can be engaged by a flow adjustment tool. A base structure and cover protect sensitive components and are removable via a cover nut that also has a tamper proof surface. A flow turbine assembly is also removably disposed within the valve pipe section. The entire water control device can be removed and replaced through the use of pipe stub fittings using connecting nuts to engage the inlet and outlet of the valve pipe section.

Abstract: A water control device includes a valve pipe section with an inlet, an outlet and a lower diaphragm valve housing with an internally disposed fluid aperture. An upper diaphragm valve housing includes an extension with an adjustment screw opening for a flow adjustment screw. A diaphragm valve assembly seals and unseals to the fluid aperture by an electric motor driven mechanical actuation fluid pressure diverter assembly. The flow adjustment screw includes a tamper proof surface that can be engaged by a flow adjustment tool. A base structure and cover protect sensitive components and are removable via a cover nut that also has a tamper proof surface. A flow turbine assembly is also removably disposed within the valve pipe section. The entire water control device can be removed and replaced through the use of pipe stub fittings using connecting nuts to engage the inlet and outlet of the valve pipe section.

Abstract: A water control device includes a valve pipe section with an inlet, an outlet and a lower diaphragm valve housing with an internally disposed fluid aperture. An upper diaphragm valve housing includes an extension with an adjustment screw opening for a flow adjustment screw. A diaphragm valve assembly seals and unseals to the fluid aperture by an electric motor driven mechanical actuation fluid pressure diverter assembly. The flow adjustment screw includes a tamper proof surface that can be engaged by a flow adjustment tool. A base structure and cover protect sensitive components and are removable via a cover nut that also has a tamper proof surface. A flow turbine assembly is also removably disposed within the valve pipe section. The entire water control device can be removed and replaced through the use of pipe stub fittings using connecting nuts to engage the inlet and outlet of the valve pipe section.

Abstract: One example embodiment includes a pre-cut strip of kinesiology tape. The pre-cut strip of kinesiology tape includes a fabric. The fabric includes a weave of fibers, where the fibers include an elastic fiber covered by a covering material. The fabric also includes a first end and a second end, where the second end is opposite the first end. The fabric further includes one or more rounded corners. The pre-cut strip of kinesiology tape also includes a longitudinal cut in the fabric. The longitudinal cut passes through at least a portion of the fabric and extends from the first end to a pre-determined distance from the second end. The pre-cut strip of kinesiology tape also includes adhesive on a first surface of the fabric, where the adhesive is configured to adhere the fabric to a human body.

Abstract: One example embodiment includes a pre-cut strip of kinesiology tape. The pre-cut strip of kinesiology tape includes a fabric. The fabric includes a weave of fibers, where the fibers include an elastic fiber covered by a covering material. The fabric also includes a first end and a second end, where the second end is opposite the first end. The fabric further includes one or more rounded corners. The pre-cut strip of kinesiology tape also includes a longitudinal cut in the fabric. The longitudinal cut passes through at least a portion of the fabric and extends from the first end to a pre-determined distance from the second end. The pre-cut strip of kinesiology tape also includes adhesive on a first surface of the fabric, where the adhesive is configured to adhere the fabric to a human body.

Abstract: One example embodiment includes a continuous feed variable depth die cut. The die cut includes a housing, including a first opening configured to allow kinesiology tape to enter the housing and a second opening configured to allow the kinesiology tape to exit the housing. The die cut also includes a roller inside the housing, where the roller is configured to rotate as the kinesiology tape passes over the roller and a die formed on the outer surface of the roller, where the die includes a cutting edge for cutting the kinesiology tape and where the cutting edge is formed in the shape of the strip of kinesiology tape to be cut. The shape is approximately rectangular and includes rounded exterior corners. The die cut further includes a surface inside the housing, where the kinesiology tape passes over the surface when the kinesiology tape is cut.

Abstract: One example embodiment includes an elastic strand for use in kinesiology tape. The elastic strand includes an elastic core. The elastic core is configured to elongate under an external force and return to its original size after an external force is removed. The elastic strand also includes at least one outer strand, where the outer strand is wound around the elastic core.

Abstract: An embodiment of the invention includes a continuous feed variable depth die cut for use in cutting kinesiology tape. The die cut includes a housing, including a first opening configured to allow the kinesiology tape to enter the housing and a second opening configured to allow the kinesiology tape to exit the housing. The die cut also includes a roller inside the housing, wherein the roller is configured to rotate as the kinesiology tape passes over the roller and a die formed on the outer surface of the roller, wherein the die includes a cutting edge for cutting the kinesiology tape and wherein the cutting edge is formed in the shape of the strip of kinesiology tape to be cut. The die cut further includes a surface inside the housing, wherein the kinesiology tape passes over the surface when the kinesiology tape is being cut.

Abstract: One example embodiment includes body-adhesive kinesiology tape. The body-adhesive kinesiology tape includes a strip of kinesiology tape. The strip of kinesiology tape includes a first end and a second end where the second end is opposite the first end. The body-adhesive kinesiology tape also includes a longitudinal cut in the strip of kinesiology tape extending from the first end to a pre-determined distance from the second end and adhesive on a first surface of the strip of kinesiology tape. The adhesive is configured to adhere the strip of kinesiology tape to a human body. The body-adhesive kinesiology tape further includes a backing material on the first surface of the strip of kinesiology tape. The backing material is configured to cover the adhesive and protect the adhesive from drying until a user is ready to apply the strip of kinesiology tape to the human body.

Abstract: A disposable, portion controlled container for condiments and other comestibles formed from heat sealable material is disclosed, featuring an easy opening of the container by virtue of a unique fold and heat seal made at one corner of the container during manufacture. An inside reverse fold is made in one corner of the container and a heat seal made along a four thickness layer of this inside reverse fold defines a tear line, stronger than the adjacent material. A tab extended from this four thickness heat seal of the inside reverse fold provides the means for opening the container along the tear line. The size of the opening in the container is controlled by the initial width of material used to form the inside reverse fold.