Abstract: A device for positioning at least one optical component within an endoscopic system has a housing, through which runs an optical axis, and in which at least one component is arranged. The component is pivotable into the beam path of the endoscopic system about a pivot axis and pivotable out of the beam path. The pivot axis is here arranged running obliquely to the optical axis.

Abstract: An endoscope with an objective lens drive mechanism for an objective lens system. The insertion instrument of the endoscope is provided with an angle section on the proximal side of the rigid tip end section for flexibly bending at least in upward and downward directions. Provided on an end face of a casing of a rigid tip end section of the insertion instrument are at least a illumination window, an observation window and an exit opening of a biopsy channel. An objective lens system includes a fixed lens mounted on a fixed lens frame, and at least a movable lens mounted on a movable lens frame. For rationally laying out internal components, the interior of the casing of the rigid tip end section is divided into right and left subsections along a center line of upward and downward flexures of the angle section. The observation window is located across the center line of upward and downward flexures to occupy part of both of the right and left subsections.

Abstract: White light emitted from a first light source is sequentially converted into green light, blue light, and red light by a first wheel. Excitation light emitted from a second light source passes through a second wheel. The green light, the blue light and the red light, and the excitation light are switched by shutters to enter a prism. The optical path of the green light, the blue light and the red light transmitted through the prism coincides with the optical path of the excitation light reflected by the prism. As a result, the green light, the blue light, the red light and the excitation light sequentially and repeatedly enter a light guide.

Abstract: A plurality of handpieces used to perform an operation is connected to a main operation apparatus, which generates a driving signal, through connectors formed on the main apparatus. When an operator holds a handpiece he/she wants to use, an output line over which the driving signal is transmitted is routed to the held handpiece owing to an output of a sensor that detects a change in capacitance stemming from the hold. The operator therefore need not manually set a mode in which the driving signal is applied to the handpiece he/she wants to use. Moreover, a port number assigned to a port to which the output line is routed is indicated on a display device. The operator can readily identify the usable handpiece.

Abstract: The invention relates to an endoscope shaft comprising a hose body which forms a central working conduit and a number of functional conduits. According to the invention, the hose body is manufactured of an extruded synthetic material surrounded by a silicone clothing or cover which forms the outer layer of the endoscope shaft.

Abstract: An anoscope for surgery and/or inspection comprising: a tubular body (2) having a distal blind end and a proximal open end; an inner light reflecting surface (7) located at said distal blind end; at least one slot (3) formed in said tubular body; a light source (6) placed in light reflection relationship with said inner reflecting surface (7), and a maneuvering handle (5) arranged to act on said proximal end of said tubular body (2).

Abstract: The present invention involves a elongated member, such as a wire guide, that is used with in a endoscopic procedure. In one aspect of the invention, the elongate member includes a first system of indicia comprising a scale reference markings that can include numeric indicia, sequentially increasing markers, etc., located at regular increments (e.g., 1 cm) on the distal portion of the elongate member, that permit measurement of structures within a body passage. In one example, an exchange wire guide having a radiopaque marker on the distal portion is positioned under fluoroscopy at a first location, such as the distal point of a stricture, and the scale reference marking on the wire guide that visible in the viewing region of the endoscope is read. The wire guide is partially withdrawn such that the marker corresponds to a second position (e.g., the proximal point of the stricture) and the new scale reference marking is read. The difference is calculated to determine the length of the structure.

Abstract: A first signal transmission apparatus installed in an operating room and a second signal transmission apparatus installed in a remote control room in a remote place are linked by a public line. Assuming that surgery is performed on a patient using a surgical instrument in the operating room while endoscopic images are viewed, the surgical instrument can be controlled using a first controller. The control and patient data are displayed on a display device via a second controller connected to the second signal transmission apparatus. The state of the surgical instrument and the patient data can always be checked in the remote control room. Surgical instructions or any other surgical support can be given easily.

Abstract: A surgical instrument includes a working sheath and an obturator. A method is also described for facilitating endoscopic examination and surgical procedures using such an instrument. The sheath is an elongated self-supporting tube with a lumen of sufficient size to accommodate other-surgical instruments. During use, the instrument is placed in the body percutaneously or through a body passage with the removable obturator located in the lumen to facilitate insertion of the sheath into the body. Once inserted, the obturator can be removed. The sheath is held in place by an inflatable bulb provided on the distal end of the sheath while the operation is being completed. A peripheral duct is also preferably provided for introducing anesthetic or lubricant during insertion.

Abstract: This endoscope apparatus utilizes a phenomenon called “curvature of field” of a lens to satisfactorily bring a shape, into focus, of an object to be observed such as unevenness especially during enlargement in accordance with a shape of unevenness or the like of the object. For example, there is provided an objective lens group having two movable lenses, and variable-power is performed and field curvature characteristics are changed by moving these movable lenses. This change in the field curvature characteristics is performed by operating an image surface curving switch and driving the movable lenses through the use of an actuator or the like. Also, information on differences in height on the image central part to the peripheral part is operated from the amount of field curvature changed by the objective lens group to display the information on differences in height on the monitor.

Abstract: The electric bending endoscope device according to the present invention comprises: an endoscope having a bending portion; a bending control mechanism for electrically driving the bending portion of the endoscope; a power source voltage monitoring portion for monitoring the source voltage supplied to this bending control mechanism; and a change-over switch for releasing the bent state of the bending portion, when the above-mentioned bending portion is in a bent state, on the basis of an output signal from the source voltage monitoring portion.

Abstract: An endoscope apparatus has a side view endoscope 10 for side viewing an object in a radial direction of a distal end constitutional portion 14 and a balloon catheter 40. With an insert portion 13 of a side view endoscope 10 inserted in an insert tube 41 of the balloon catheter 40, the balloon catheter 40 is inserted into a blood vessel B. The insert tube 41 is provided at its distal end with a transparent balloon 42. This balloon 42 encloses the distal end constitutional portion 14. By feeding air (fluid) to this balloon 42, the balloon 42 is expanded so as to be urged against an inside wall of the blood vessel B. This causes the blood to be discharged between the inside wall of the blood vessel B and the balloon 42, thus enabling to observe the inside wall of the blood vessel B through the side view endoscope 10.

Abstract: An endoscope system in which a normal observation image and a near observation image are photographed by a solid-state image sensor upon operation of a focus adjustment device for changing a focal length and a working distance satisfies: WDWide>WDtele fwide≧ftele where fwide is a focal length in a normal observation mode, WDwide is a working distance in the normal observation mode, ftele is a focal length in a near observation mode, and WDtele is a working distance in the near observation mode. Whereby, the endoscope system is provided with a wide depth of field so as to allow even a person without considerable skills to easily manipulate the system in the magnifying observation mode, is able to improve accuracy of diagnosis information by enhancing seeming resolution of the magnified information, and is able to improve accuracy of diagnosis by facilitating discussion among a plurality of medical doctors.

Abstract: An endoscope includes an insertion section inserted into the body cavity and a probe provided inside the insertion section for detecting the form of the endoscope. The probe includes a plurality of coil portions arranged in the longitudinal direction of the insertion section of the endoscope and a wire electrically connecting the coil portions. The coil portions and the wire are covered with a flexible member. And the outer diameter of the covered wire is smaller than the outer diameter of the covered coil portions.

Abstract: This endoscope includes a magnification change manipulative switch made easy to manipulate in relation to an angle manipulative knob. That is, in an endoscope manipulative section with an angle manipulative knob for bending a front end and a magnification change manipulative switch disposed, two switch bodies making up the above magnification change manipulative switch are arranged in a direction nearly perpendicular to a rotation axis of the angle manipulation knob and disposed nearly in contact with each other so as to be retained by a retaining member to which a rubber cover is attached in an airtight condition. On an outer surface of this rubber cover, a convex portion for identifying function is provided. According to this endoscope, movement of a thumb between the angle manipulation knob and the magnification change manipulative switch is smoothed and the above convex portion enables a magnification change, for example, to a near side or to the far side, to be manipulated.

Abstract: The present invention provides a system for endoscopes which can supply air and water according to each application by regulating air and water flow rates independently. Although air and water may be supplied with one pump, the present invention controls air and water flow rates separately by using an air supply pump and water supply pump and by controlling a plurality of open-close valves installed, for example, on atmospheric escape pipes. The air channel and water channel are connected, for draining, by a first connecting pipe. If the air supply pump is used also for water supply and the water supply pump is used also for air supply, it is possible to supply air and water at a high flow rate fast enough even for high-speed water injection. If a fixed flow rate is used for a specified time at the start, specific operations can be simplified.

Abstract: Exercise weights and method, regarding belts, handweights, arm weights, ankle weights, and knuckles weights.

Abstract: An endoscopic optical adapter freely attachable to and detachable from an endoscope according to the present invention includes an adapter-side observational optical system facing an endoscope-side observational optical system provided with a solid-state image device placed in a tip constituent member of the endoscope, a unit body in which the adapter-side observational optical system is fixedly placed, an adapter body on which a first concave portion with the unit body placed therein while being free to rotate and a second concave portion with at least a part of the tip constituent member placed therein are formed, and a positioning portion which is provided in each of the adapter body and the tip constituent member and which adjusts the positional relationship between the tip constituent member and the adapter body to be a predetermined positional relationship.

Abstract: An endoscope is described, in which a shaft is included with inner and outer sheath pipes (1, 2) multiple illumination units (10) with LED's (25) provided for producing illumination light cascade-like, axially sequentially. The illumination units (10) consist of light transmissive carriers, upon which the LED's (25) are bonded. The light produced by the sequentially arranged illumination units (10) is emitted at the distal end with a high intensity of illumination, preferably after reflection from a mirror (11) provided at the proximal end.

Abstract: According to the centering mechanism of this invention for an electrically bendable endoscope, the control circuit, in response to an instruction for centering, computes residual bending angles in U/D and L/R directions based on the values obtained as a result of feeding values indicated by the U/D and L/R potentiometers to an A/D converter. The control circuit conducts bending angle adjustment by bending the tip of the endoscope in directions appropriate to cancel out residual bending angles: for example, if the tip has been bent upward immediately before the centering switch is activated, the control circuit causes the tip to be bent downward, and if the tip has been bent leftward immediately before the centering switch is activated, the control circuit causes the tip to be bent rightward. Then, the bending angle is adjusted to zero.