Abstract: An electric bending endoscope includes a bending driving portion which bends a bending portion arranged to a distal side of an inserting portion, a bending operation input portion which instructs and inputs a bending operation of the bending portion, and a preventing device which prevents the bending operation of the bending portion which is not intended by an operator.

Abstract: An endoscope shape detection system has a CPU included in a control unit. The CPU performs frequency sampling of digital data to calculate coordinates indicating the spatial positions of source coils incorporated in an insertion unit of an endoscope received in a patient and of marker coils placed on a patient. An inserted state of the insertion unit of the endoscope is estimated based on the calculated coordinate data indicating the positions of the source coils. Display data based on the shape of the endoscope is produced from the calculated coordinate data indicating the positions of the source coils, and output to a video RAM. Display data of the marker coils is produced from the calculated coordinate data indicating the positions of the marker coils, and output to the video RAM. Consequently, the positions of the markers are depicted together with the shape of the endoscope. The positional relationship between the insertion unit of the endoscope and a patient's body can therefore be ascertained.

Abstract: An insertion unit of an endoscope in accordance with the present invention comprises, from the distal end thereof, a distal section, a bending section that is freely bendable, and a soft section having flexibility. The soft section comprises a small-diameter portion formed on the distal side thereof, a large-diameter portion, and a tapered portion linking the small-diameter portion and large-diameter portion. At least part of the tapered portion is disposed forward an endoscope portion separated 70 cm from the distal endoscope end. Assume that the insertion unit is inserted into the large intestine and the distal section is introduced the shortest distance into the appendix. In this case, the distance from an endoscope portion located at the anus to the distal end of the distal section is known to generally range from approximately 60 cm to approximately 70 cm. Therefore, when at least part of the tapered portion is disposed forward the endoscope portion separated 70 cm from .

Abstract: An endoscope system in accordance with the present invention comprises first to third endoscopes having different capabilities. The outer diameter of a large-diameter portion of a soft section of the first endoscope ranges from the largest outer diameter of soft sections of the second and third endoscopes included in the same endoscope system to the smallest outer diameter thereof. When an operator handles any of the first to third endoscopes, since the outer diameters of the insertion units of the endoscopes fall within a certain range, the operator will not strongly feel that something is uncomfortable. The operator can handle the endoscopes with the same sense of handling.

Abstract: At the time of irradiation of illumination light rays of an endoscope, a shadow is eliminated by leading illumination light rays passing through a second concave portion of a protruding portion of a hood main body to a shadow part of the protruding portion of the hood main body formed in an observation visual field range of the endoscope.

Abstract: An endoscope hood of the present invention is provided with a cylindrical main hood body attached to an endoscope. The main hood body includes a fixing portion located substantially in a center. The fixing portion allows the inner circumferential surface of the main hood body to be forcibly fixed to the outer circumference of the distal end portion of the endoscope. The main hood body also includes a projection projected from the distal end portion of the main hood body and a non-fastened portion located at the rear end of the main hood body. The non-fastened portion is fitted with the outer circumference of the distal end portion of the endoscope without being fastened.

Abstract: An endoscope hood has a protrusion portion which protrudes in an observation visual field direction of an endoscope at an end of a cylindrical press fitting fixing portion attached by press fitting in a state that an attachment position in a circumferential direction is positioned at a distal end portion of an endoscope insertion portion in an appropriate direction. Further, there is provided attachment state confirming device which increases an area of the protrusion portion displayed in an endoscope observation image when the press fitting fixing portion is attached to a distal end portion of a second endoscope insertion portion having a size different from that of a first endoscope insertion portion to which the press fitting fixing portion can be appropriately attached, and gives a warning about an inappropriate attachment state.

Abstract: An endoscope characterized by a soft section thereof through which built-in components lie has a flexible tube and pluralities of metallic built-in components and nonmetallic built-in components. The flexible tube is made by sheathing a metallic tubular member with a nonmetallic tubular member. The pluralities of metallic built-in components and nonmetallic built-in components lie through the flexible tube. As one property of the flexible tube, the hardness of at least a certain portion of the flexible tube, which discourages bending, is determined so that the hardness exhibited by the metallic tubular member that is an integral part of the flexible tube and the metallic built-in components will be higher than the hardness exhibited by the nonmetallic tubular member that is an integral part of the flexible tube and the nonmetallic built-in components.

Abstract: The endoscope device comprises an endoscope suitable for high temperature autoclave sterilization, an endoscope not suitable for high temperature autoclave sterilization, an external endoscope device to which these endoscopes are connected, and an identification part for identifying whether the endoscope is suitable for high temperature autoclave sterilization.

Abstract: An endoscope shape detecting system displays an endoscope image and an insertion form image simultaneously on a display means. A first memory stores an endoscope image and a second memory stores an insertion form image. A control device controls a switching action such that the insertion form image is output to the display means during a period wherein the output of the endoscope image to the display means is turned off and stored in the first memory means, and that the output of the insertion form image to the display means is turned off and stored in the second memory during the period wherein the output of the endoscope image to the display is turned on. In addition, a control device is provided that controls the storing action such that a first period for storing endoscope images in the first memory and a second period for storing output signals from a magnetic field detecting device in the second memory do not overlap.

Abstract: It is provided an endoscope apparatus including an observing device that displays an observation view area. The observation view area is displayed on the observing device of this endoscope as a non-circular observed image. A hood member is mounted on an end of an inserted section of the endoscope and includes a hood section projecting in the direction of the observation view area. At least a part of the hood section is provided with a slope that is shaped so as to correspond to the observation view area.

Abstract: A shape-of-endoscope detection system has a CPU included in a control unit. The CPU performs frequency sampling on digital data to calculate coordinates indicating the spatial positions of source coils incorporated in an insertion unit of an endoscope and of marker coils. An inserted state of the insertion unit of the endoscope is estimated based on the calculated coordinate data indicating the positions of the source coils. Display data based on which the shape of the endoscope is depicted is produced from the calculated coordinate data indicating the positions of the source coils, and output to a video RAM. Display data based on which the marker coils are depicted is produced from the calculated coordinate data indicating the positions of the marker coils, and output to the video RAM. Consequently, the positions of the markers are depicted together with the shape of the endoscope. The positional relationship between the insertion unit of the endoscope and a patient's body can therefore be grasped.

Abstract: A battery self-containing body, which self-contains a battery or a battery accommodating body, which accommodates a battery removably is attached to a capsule body including a drive circuit for driving an imaging device and an illuminating device. Thus, the power supply can be turned ON easily. In addition, the inside portion is sealed water-tightly. Thus, the battery self-containing body or a battery can be exchanged easily, which allows the easy reuse. The direction of the visual field of the imaging device is diagonal with respect to the axis of the capsule body. Furthermore, spiral-shape projections are provided on the peripheral surface of the cylinder form. Thus, the rotation allows the surface of canal cavity wall to be examined easily.

Abstract: The capsule-type medical device in accordance with the present invention is advanced the inside of the somatic cavities and lumens of humans being or animals for conducting examination, therapy, or treatment. The capsule-type medical device comprises a plurality of hard units and a soft linking unit which links the plurality of hard units and has a diameter less than that of any of the hard units, wherein one of the plurality of hard units is different in size from other hard units.

Abstract: An endoscope shape detection system has a CPU included in a control unit. The CPU performs frequency sampling on digital data to calculate coordinates indicating the spatial positions of source coils incorporated in an insertion unit of an endoscope and of marker coils. An inserted state of the insertion unit of the endoscope is estimated based on the calculated coordinate data indicating the positions of the source coils. Display data based on which shape of the endoscope depicted is produced from the calculated coordinate data indicating the positions of the source coils, and output to a video RAM. Display data based on which marker coils are depicted is produced from the calculated coordinate data indicating the positions of the marker coils, and output to the video RAM. Consequently, the positions of the markers are depicted together with the shape of the endoscope. The positional relationship between the insertion unit of the endoscope and a patient's body can therefore be ascertained.

Abstract: A source coil line-break/short-circuit detecting circuit and a probe connection detecting circuit are provided to the source coil driving circuit unit of an endoscope shape detecting apparatus. The source coil line-break/short-circuit detecting circuit detects line-breaks and short-circuits of the source coils. The probe connection detecting circuit detects whether a connection exists with a probe. A marker coil line-break/short-circuit detecting circuit detects line-breaks and short-circuits of the marker coils. A marker connection detecting circuit detects whether a connection exists with a marker. Accordingly, using the apparatus without being connected to a probe or markers can be avoided by detecting the connection of the probe and markers by the probe connection detecting circuit and marker connection detecting circuit, respectively, when the system is energized, thereby avoiding detecting noise and consequently displaying a random image on the monitor.

Abstract: A source coil line-break/short-circuit detecting circuit and a probe connection detecting circuit are provided to the source coil driving circuit unit of an endoscope shape detecting apparatus. The source coil line-break/short-circuit detecting circuit detects line-breaks and short-circuits of the source coils. The probe connection detecting circuit detects whether a connection exists with a probe. A marker coil line-break/short-circuit detecting circuit detects line-breaks and short-circuits of the marker coils. A marker connection detecting circuit detects whether a connection exists with a marker. Accordingly, using the apparatus without being connected to a probe or markers can be avoided by detecting the connection of the probe and markers by the probe connection detecting circuit and marker connection detecting circuit, respectively, when the system is energized, thereby avoiding detecting noise and consequently displaying a random image on the monitor.

Abstract: An endoscope container for high-pressure steam sterilization in accordance with the present invention consists mainly of a tray, a lid member, and a positioning member. The tray serves as a housing and has a plurality of pores. The lid member blocks the opening of the tray and has a plurality of pores. The positioning member is formed in one of the tray and lid member, and restricts bending of a predetermined portion of an insertion member having a soft part so that the bend radius of the predetermined portion thereof will be larger than the bend radius of the other portion thereof.

Abstract: The endoscope device comprises an endoscope suitable for high temperature autoclave sterilization, an endoscope not suitable for high temperature autoclave sterilization, an external endoscope device to which these endoscopes are connected, and an identification part for identifying whether the endoscope is suitable for high temperature autoclave sterilization.

Abstract: An endoscope characterized by a soft section thereof through which built-in components lie has a flexible tube and pluralities of metallic built-in components and nonmetallic built-in components. The flexible tube is made by sheathing a metallic tubular member with a nonmetallic tubular member. The pluralities of metallic built-in components and nonmetallic built-in components lie through the flexible tube. As one property of the flexible tube, the hardness of at least a certain portion of the flexible tube, which discourages bending, is determined so that the hardness exhibited by the metallic tubular member that is an integral part of the flexible tube and the metallic built-in components will be higher than the hardness exhibited by the nonmetallic tubular member that is an integral part of the flexible tube and the nonmetallic built-in components.