Abstract:
Disclosed is a video camera head comprised of at least two rigid printed circuit boards (PCBs) arranged in parallel planes. The at least two PCBs are mechanically supported one above the other by at least two external pins attached to the perimeters of the PCBs. The external pins fit into grooves cut into the edges of the PCBs. Several embodiments of the video camera head are described.
Abstract:
An endoscopic device in which the empty spaces between the plurality of tubes, wires, and cables are utilized as a channel that enables liquid or gas to flow from the handle section to the distal tip is described. Also described is a method of reducing the diameter of an endoscope device by utilizing the empty spaces between the plurality of tubes, wires, and cables as a channel that enables liquid or gas to flow from the handle section to the distal tip. Additionally a distal tip comprising a pattern of alternating grooves and lands on its outer surface and a cap that fits tightly over the lands is described. The tight fitting cap changes the grooves into closed channels through which liquid or gas can flow.
Abstract:
A video camera head is comprised of at least two rigid printed circuit boards (PCBS) arranged in parallel planes. The at least two PCBs are mechanically supported one above the other by pins made of an electricity conducting material that conduct electrical power from the bottom PCB to electronic components or illumination means mounted on the other PCBs and signals from a solid state sensor chip mounted on one of the other PCBs of the at least two PCBs to the bottom PCB. Several embodiments of the video camera head are described.
Abstract:
Disclosed are a system and method to accurately determine the location and orientation of a part of an elongated insertion shaft of an endoscope-like device or of an object located on or in the elongated insertion shaft when the elongated insertion shaft is inserted into a lumen or cavity of a human or animal body or into the interior of a manufactured object such that direct visual observation of the part of the elongated insertion shaft or of the object located on or in the elongated insertion shaft is blocked.
Abstract:
In a first aspect the invention is a video camera head comprising an objective lens assembly and a solid state imager (SSI) comprised of a solid state pick up device and integrated circuitry adapted to produce an output video signal. The SSI is configured to allow video signals to be sent from the SSI and power to be supplied to the SSI by means of four or less electrically connecting pads. In a second aspect the invention is a video camera head comprising a 0.7 mm×0.7 mm sensor and an integral 1.4 mm inner diameter light ring. In a third aspect the invention is a visualization probe comprising illumination means and a video camera head of the first aspect. The visualization probe has a maximum outer diameter of 2.8 mm or less. In a fourth aspect the invention is a medical device comprising a visualization probe of the third aspect. The medical device has a maximum outer diameter of 3.2 mm or less.
Abstract:
A video camera head is comprised of at least two rigid printed circuit boards (PCBS) arranged in parallel planes. The at least two PCBs are mechanically supported one above the other by pins made of an electricity conducting material that conduct electrical power from the bottom PCB to electronic components or illumination means mounted on the other PCBs and signals from a solid state sensor chip mounted on one of the other PCBs of the at least two PCBs to the bottom PCB. Several embodiments of the video camera head are described.
Abstract:
A video camera head is comprised of at least two rigid printed circuit boards (PCBS) arranged in parallel planes. The at least two PCBs are mechanically supported one above the other by pins made of an electricity conducting material that conduct electrical power from the bottom PCB to electronic components or illumination means mounted on the other PCBs and signals from a solid state sensor chip mounted on one of the other PCBs of the at least two PCBs to the bottom PCB. Several embodiments of the video camera head are described.
Abstract:
In a first aspect the invention is an endoscopic device in which the empty spaces between the plurality of tubes, wires, and cables are utilized as a channel that enables liquid or gas to flow from the handle section to the distal tip. In a second aspect the invention is a method of reducing the diameter of an endoscope device by utilizing the empty spaces between the plurality of tubes, wires, and cables as a channel that enables liquid or gas to flow from the handle section to the distal tip. In a third aspect the invention is a distal tip comprising a pattern of alternating grooves and lands on its outer surface and a cap that fits tightly over the lands. The tight fitting cap changes the grooves into closed channels through which liquid or gas can flow.
Abstract:
A stapling device for a surgical endoscopic device provided with at least one flexible portion, comprising a staple-firing portion and an anvil portion, wherein one of the staple firing portions and one of the anvil portions are located longitudinally displaced from one another along the longitudinal axis of the endoscopic device, with at least a part of said flexible portion between them. The parts of the stapling device are in correct working relationship when one or more alignment and/or locking pins or screws that are stored in one of the staple firing portions or one of the anvil portions are extended and engage and lock or screw into receptacles that have been provided on the other of the staple firing portion or of the anvil portion.
Abstract:
Disclosed is an endoscopic device comprising an insertion tube, a distal tip, and at least one camera located at an initial location on or in the distal tip or the insertion tube. The endoscopic device is characterized in that it comprises a mechanical arrangement that is activated from the proximal end of the endoscopic device and is configured to do at least one of the following: (a) to move the at least one camera from the initial location to one or more different locations on, in or spaced away from the distal tip or the insertion tube; and (b) to change the direction of view of the at least one camera. Also disclosed are methods of performing endoscopic procedures using embodiments of the endoscopic device.