139results about How to "Minimize breakage" patented technology

An apparatus and method for safely cannulating a blood vessels, including but not limited retinal blood vessels, is described. In one embodiment, the apparatus can consist of a micropipette/microcannula, micromanipulator and positioner mounted to a base, which is attached to a wrist rest commonly used in eye surgery. The micropipette/microcannula is connected to tubing such that a medication may be injected through the micropipette/microcannula into the blood vessel or conversely, a small quantity of material may be removed from a blood vessel. Alternatively, a catheter, wire or stent may be placed through the micropipette/microcannula to treat or diagnose an area remote from the insertion site. The ability to cannulate a retinal blood vessel should be efficacious in the treatment of vein and artery occlusion, ocular tumors and other retinal, vascular and optic nerve disorders that would benefit from diagnosis and/or treatment. In another embodiment, a self-sealing needle is provided which allows the perforation of a blood vessel or other structure and the minimization of hemorrhaging when the needle is withdrawn from the blood vessel/structure. Another embodiment discloses an ocular implant needle.

Earloops with improved post design for increased reliability and quality for over-the-ear style headsets are disclosed. The earloop includes an earloop main body having connecting and stabilizer portions and a post extending from the connection portion for insertion into a corresponding opening in an audio receiver/transmitter assembly. An embedded hardened steel member extends from the post into the connection portion. The stabilizer portion is configured to be positioned over, around and behind a user's ear. The earloop may be incorporated in a headset that includes the audio receiver/transmitter assembly that defines an opening to receive the post therethrough. The audio assembly may be positionable along a length of the post and rotatable about the post. The hardened steel member increases the stiffness and strength and minimizes breakage of the post and thus increases the reliability, quality, and useful life of the earloop and/or headset.

The Technology described herein applies to medical dressings designed to heal wounds in the area of advanced wound care, inclusive of Negative Pressure Wound Therapy (NPWT), and describes novel wound healing absorbent scaffolds and dressing based on natural and naturally-derived material and fibers, preferentially poly (lactic) acid fibers and alginate materials.

A button head tie has a button head and a tie strap. The button head is a generally flat member having an aperture for receiving the tie strap. The aperture includes lead-in ramps to facilitate tie strap insertion and is configured to prevent angled tie strap insertion. The tie strap is a flat elongate member having a wedge that is captured within the aperture. The remainder of the strap passes through the aperture. The wedge and strap have teeth and serrations on both sides, respectively, the teeth and serrations being engageable. In use, the strap is looped around a bundle and inserted into the aperture to either side of the wedge. Strap insertion force is reduced by standoff tabs which elevate the wedge out of aperture, temporarily, during installation. When loop tension is applied to the bundle, the wedge is pulled into the aperture, compressively locking the strap.

The transportation system in this invention provides vehicle coupling units which allow the electrical connections and reconfigurations of two or more vehicles together at highway speeds. The coupling unit provides for the bidirectional exchange of electrical power between these vehicles to meet the various power demands of each vehicle. The system is designed to permit coupling and decoupling process of the vehicles while they are traveling at highway speeds. To facilitate the coupling event, each vehicle will employ vehicle active steering, vehicle active suspension, and coupler joint articulation, which will be under vehicle computer control, and will employ vehicle to vehicle data communication. This transportation system allows the electric vehicles to electrically and mechanically couple together for flexible electrical power sharing to achieve the extension of the range of electrically powered vehicles to minimize the time needed for stationary re-charging of electrical vehicles required by electrical charging stations.

Disclosed herein is a fluid control system for varying the power available to a fluid powered tool, a hydraulically driven impact wrench. The system disclosed herein varies power available to the tool by use of a bypass mechanism that is downstream of a directional control valve spool. Among other things, the advantageous placement of the bypass valve limits the thermal burden in the hydraulic circuit.

A swimming pool cleaner including a body having a debris inlet and a debris outlet and defining an elongate slotted cavity pivotably holding proximal ends of flap members forming a segmented skirt which forms with the pool surface a plenum from which water and debris are drawn into the inlet. The slotted cavity is configured for strain-free insertion of the flap-member proximal ends into the cavity. A removable nozzle within the debris inlet and retaining the flap-member proximal ends in the cavity. A method for inlet to control debris-laden water flow. The cleaner further including a tool-free nozzle-mounting structure at the debris inlet removably retaining the nozzle within the debris inlet and a tool-free wheel-mounting assembly. a plurality of removable nozzles are interchangeably secured within the debris inlet, each nozzle having a flow opening sized differently from flow opening(s) of the other nozzle(s) to control debris-laden water flow.

An improved combination card and card retaining member for removably securing the card to the card retaining member, the card having formed within it an aperture and a slot connecting the aperture with an edge of the card, and the card retaining member being a member, such as a ring, which may be passed through the slot and into the aperture to secure the card to the card retaining member. The aperture and slot are configured and located on the card in such a manner as to improve the ease of attachment and detachment of the card to and from the card retaining member while minimizing the risk of accidental detachment of the card from the card retaining member. One or more cards may be used simultaneously with a single card retaining member. A preferred use of the invention is to retain and organize credit cards.

The stalk strength tester of the present invention includes an internal shaft and an external shaft in telescopic relationship. Pivotally associated with the upper end of the internal shaft is a trough-like stalk cradle. A set of measurement markers are on the upper end of the internal shaft and a rubber ring is around the internal shaft and abuts the external shaft. Associated with the other end of the internal shaft is a tension member. A tension adjustment structure is provided for adjusting the tension in the tension member. In operation, a stalk is positioned into the cradle and the tester is pushed against it. The internal shaft telescopically slides against the tension member and into the external shaft until the cradle pivots at which time the rubber ring remains in a position relative to one of the markers as an indicator of the tension measured.

A process for making a device comprising a thin functional substrate (107) comprising bonding the functional substrate to a carrier substrate (101), forming functional components (109) on the functional substrate, and debonding the functional substrate from the carrier substrate by applying ultrasonic wave (205) to the bonding interface. The application of ultrasonic wave aids the debonding step by reducing the tensile stress the functional substrate may experience.

An apparatus and method for safely cannulating a retinal blood vessel is described. The apparatus consists of a micropipette/microcannula, micromanipulator and positioner mounted to a base, which is attached to a wrist rest commonly used in eye surgery. The micropipette/microcannula is connected to tubing such that a medication may be injected through the micropipette/microcannula into the blood vessel or conversely, a small quantity of material may be removed from a blood vessel. Alternatively, a catheter, wire or stent may be placed through the micropipette/microcannula to treat or diagnose an area remote from the insertion site. The ability to cannulate a retinal blood vessel should be efficacious in the treatment of vein and artery occlusion, ocular tumors and other retinal, vascular and optic nerve disorders that would benefit from diagnosis and/or treatment.

Tissue modification devices, methods of using them, and devices, systems and methods of adapting them to form tissue modification devices.

An ultrasound system has a catheter including an elongate flexible catheter body having a main lumen extending longitudinally therethrough. The catheter further includes an ultrasound transmission member extending longitudinally through the main lumen of the catheter body, the ultrasound transmission member having a proximal end connectable to an ultrasound generating device and a distal end coupled to the distal end of the catheter body.

Disclosed is a flexible electronic device having an adhesive function, including an adhesive tape that includes a flexible film and an adhesive layer formed on one side of the flexible film, and an electronic device formed on a remaining side of the flexible film of the adhesive tape. Accordingly, the flexible electronic device of the present invention is transferred on a surface of various flexible materials or materials having a curved surface so as to freely adhere and minimize breakage of the electronic device and maintain performance over a long period of time, even if the substrate is modified or repeatedly bent.

A method is used to provide a toner image with a metallic effect. After forming a latent image, it is developed with metallic dry toner particles to form a developed toner image that is transferred and fixed to a receiver material. Each metallic dry toner particle consists essentially of a polymeric binder phase and non-conductive metal oxide particles. Before fixing, the metallic dry toner particle has a mean volume weighted diameter (D_vol) of at least 15 μm and up to and including 40 μm. The non-conductive metal oxide particles are present in an amount of 20-50 weight %. The ratio of the metallic dry toner particle D_vol to the average equivalent circular diameter (ECD) of the non-conductive metal oxide particles in the metallic dry toner particles, before fixing, is greater than 0.1 and up to and including 10.