Abstract: Maximum hardness of a flexible tube section of an endoscope is set such that substantial maximum hardness at a time when an over-tube is attached is equal to or lower than maximum hardness of a flexible tube section of an endoscope. That is, the maximum hardness of the flexible tube section of the endoscope is set substantially equal to hardness obtained by subtracting hardness of the over-tube itself from the maximum hardness of the flexible tube section of the endoscope. In the endoscopes including a hardness changing mechanism, maximum hardness of the endoscope, to which the over-tube is not attached, and maximum hardness of the endoscope, to which the over-tube is attached, are set substantially equal.

Abstract: An endoscope system sets a hardness variation of a thick flexible tube portion and a hardness variation of a thin flexible tube portion such that their respective ratios against base hardness are constant, and as each flexible tube portion becomes thicker, the hardness variation increases and an endoscope with a relatively thin flexible tube portion has a smaller hardness variation. This makes it possible to avoid situations like an endoscope with a thick flexible tube portion lacking hardness or an endoscope with a thin flexible tube portion becoming too hard, and makes it possible to perform optimum insertion operation in accordance with the thickness of a flexible tube.

Abstract: An endoscope system includes an endoscope including an insertion section formed in an elongated shape, a flexible tube portion provided at a proximal end side of the insertion section, and a rigidity changing mechanism portion provided inside the flexible tube portion, and configured to change rigidity of the flexible tube portion by an operation performed on a hand side, and a flexible overtube formed in a cylindrical shape extending in an axial direction, into which the insertion section is inserted, where a rigidity change region of the flexible tube portion by the rigidity changing mechanism portion is set to be from an intermediate portion to a proximal end portion of the flexible tube portion, and a total length of the overtube in the axial direction is set to be shorter than a total length of the rigidity change region.

Abstract: An endoscope apparatus includes a detecting section to which an observation image of a subject is sequentially inputted, the detecting section being configured to detect a characteristic region in the observation image based on a predetermined feature value concerning the observation image, and an emphasis processing section configured to apply, when the characteristic region is continuously detected in the detecting section, emphasis processing of a position corresponding to the characteristic region to the observation image of the subject inputted after elapse of a first predetermined time period from a time when the characteristic region is detected.

Abstract: An endoscope according to the present invention includes an elongated insertion portion, a flexible tube included in a proximal end side of the insertion portion, a rigidity changing mechanism provided inside the flexible tube and configured to change rigidity of the flexible tube by operation on a hand side, and a large diameter portion provided on an outer circumference of the flexible tube and configured to indicate a distal end of the rigidity changing region of the flexible tube by the rigidity changing mechanism.

Abstract: An endoscope includes: an insertion portion formed in an elongated shape; a mesh tube formed by braiding thin wires in a tubular shape and provided in a shape of a cylinder inside the insertion portion; and a rigidity changing mechanism including a coil inserted in the insertion portion and formed by winding an element wire, and a wire inserted in the coil and formed by intertwining element wires, the rigidity changing mechanism being configured to apply a compression force to the coil by pulling the wire, to adjust a bending rigidity of the insertion portion, wherein a dimension of a gap created between the thin wires in the mesh tube is set to be smaller than a diameter of the wire and larger than a diameter of each of the element wires of the wire.

Abstract: An endoscope system includes an endoscope including an insertion section formed in an elongated shape, a flexible tube portion provided at a proximal end side of the insertion section, and a rigidity changing mechanism portion provided inside the flexible tube portion, and configured to change rigidity of the flexible tube portion by an operation performed on a hand side, and a flexible overtube formed in a cylindrical shape extending in an axial direction, into which the insertion section is inserted, where a rigidity change region of the flexible tube portion by the rigidity changing mechanism portion is set to be from an intermediate portion to a proximal end portion of the flexible tube portion, and a total length of the overtube in the axial direction is set to be shorter than a total length of the rigidity change region.

Abstract: An endoscope includes: an insertion portion formed in an elongated shape; a mesh tube formed by braiding thin wires in a tubular shape and provided in a shape of a cylinder inside the insertion portion; and a rigidity changing mechanism including a coil inserted in the insertion portion and formed by winding an element wire, and a wire inserted in the coil and formed by intertwining element wires, the rigidity changing mechanism being configured to apply a compression force to the coil by pulling the wire, to adjust a bending rigidity of the insertion portion, wherein a dimension of a gap created between the thin wires in the mesh tube is set to be smaller than a diameter of the wire and larger than a diameter of each of the element wires of the wire.

Abstract: An endoscope apparatus includes a detecting section to which an observation image of a subject is sequentially inputted, the detecting section being configured to detect a characteristic region in the observation image based on a predetermined feature value concerning the observation image, and an emphasis processing section configured to apply, when the characteristic region is continuously detected in the detecting section, emphasis processing of a position corresponding to the characteristic region to the observation image of the subject inputted after elapse of a first predetermined time period from a time when the characteristic region is detected.

Abstract: An endoscope system sets a hardness variation of a thick flexible tube portion and a hardness variation of a thin flexible tube portion such that their respective ratios against base hardness are constant, and as each flexible tube portion becomes thicker, the hardness variation increases and an endoscope with a relatively thin flexible tube portion has a smaller hardness variation. This makes it possible to avoid situations like an endoscope with a thick flexible tube portion lacking hardness or an endoscope with a thin flexible tube portion becoming too hard, and makes it possible to perform optimum insertion operation in accordance with the thickness of a flexible tube.

Abstract: An endoscope conduit switching apparatus configured to have a cylinder to which a plurality of conduits provided in an endoscope are connected, a piston that is fitted and inserted into the cylinder to be capable of advancing and retreating, and an urging member that urges the piston to the normal position, and switch communication states of the plurality of conduits, includes: a seal member configured to isolate the gas flow conduit from an outside, when the piston is in the normal position, and a leak portion configured to be provided on the wall face of the other one, and open the gas flow conduit to the outside in a space between the cylinder and the piston when the piston is in a position that closes the liquid flow conduit and allows the gas flow conduit to be continuous.

Abstract: An endoscope including: a tube having flexibility and extending from a hand side to a distal end side along a longitudinal direction, the tube being provided to an insertion portion configured to be inserted into an object; and a strand formed by twining a plurality of wires each other and arranged so as to extend in the tube, the strand having a distal end portion fixed to a distal end side of the tube, wherein the strand is pulled from the hand side of the tube and a twining direction of the plurality of wires of the strand is reversed in a middle of extension in the tube.

Abstract: Maximum hardness of a flexible tube section of an endoscope is set such that substantial maximum hardness at a time when an over-tube is attached is equal to or lower than maximum hardness of a flexible tube section of an endoscope. That is, the maximum hardness of the flexible tube section of the endoscope is set substantially equal to hardness obtained by subtracting hardness of the over-tube itself from the maximum hardness of the flexible tube section of the endoscope. In the endoscopes including a hardness changing function, maximum hardness of the endoscope, to which the over-tube is not attached, and maximum hardness of the endoscope, to which the over-tube is attached, are set substantially equal.

Abstract: A bending tube for an endoscope, which is provided inside a bending portion of an insertion portion of an endoscope and includes a plurality of bending pieces covered by a flexible tube body, the bending tube including a distalmost end bending piece connected to a distal end portion of an insertion portion, a proximalmost end bending piece connected to a flexible tube portion of the insertion portion, and a net-like tube covering an outer periphery of the plurality of bending pieces except the distalmost end bending piece and the proximalmost end bending piece and including a distal end part fixed to a first bending piece joined to the distalmost end bending piece and a proximal end part fixed to a second bending piece joined to the proximalmost end bending piece.

Abstract: An endoscope conduit switching apparatus configured to have a cylinder to which a plurality of conduits provided in an endoscope are connected, a piston that is fitted and inserted into the cylinder to be capable of advancing and retreating, and an urging member that urges the piston to the normal position, and switch communication states of the plurality of conduits, includes: a seal member configured to isolate the gas flow conduit from an outside, when the piston is in the normal position, and a leak portion configured to be provided on the wall face of the other one, and open the gas flow conduit to the outside in a space between the cylinder and the piston when the piston is in a position that closes the liquid flow conduit and allows the gas flow conduit to be continuous.

Abstract: An endoscope system includes an endoscope and a plurality of over-tubes provided with tube insertion sections having flexibility, through which an insertion section of the endoscope is inserted, and balloons to be expanded and contracted disposed on distal end sides of the tube insertion sections, in which at least outer diameters of the tube insertion sections are different from one another. A size relation of effective lengths of the respective tube insertion sections in the plurality of over-tubes is set to be opposite to a size relation of outer diameters of the tube insertion sections.

Abstract: A bending tube for an endoscope, which is provided inside a bending portion of an insertion portion of an endoscope and includes a plurality of bending pieces covered by a flexible tube body, the bending tube including a distalmost end bending piece connected to a distal end portion of an insertion portion, a proximalmost end bending piece connected to a flexible tube portion of the insertion portion, and a net-like tube covering an outer periphery of the plurality of bending pieces except the distalmost end bending piece and the proximalmost end bending piece and including a distal end part fixed to a first bending piece joined to the distalmost end bending piece and a proximal end part fixed to a second bending piece joined to the proximalmost end bending piece.

Abstract: An endoscope includes an active bending portion provided in an insertion portion and bendable according to a bending operation, the active bending portion including bending pieces adjacent to each other and pivotably connected together via a plurality of rotation shafts, the rotation shafts being located at positions differing by 90° in a circumferential direction J of the bending pieces, and a passive bending portion provided closer to the proximal end side than the active bending portion and passively bendable when an external force is applied thereto, the passive bending portion including bending pieces adjacent to each other and pivotably connected together via a plurality of rotation shafts, the rotation shafts being located at positions differing by 60° in the circumferential direction J.

Abstract: An endoscope includes a distal rigid portion, a bending portion comprising a first bending portion and a second bending portion and a flexible tube portion. The endoscope further includes an operation wire, a wire guide member, a bending operation portion. The endoscope further includes a regulation wire, the regulation wire being longer than the bending portion, the regulation wire being inserted through the first bending portion and the second bending portion, the regulation wire being provided to face the operation wire in the diametrical direction of the bending portion, the regulation wire regulating the bending of the bending portion so that the second bending portion is bent in a direction opposite to the bending direction of the first bending portion and the bending portion is bent in an S-shape when the first bending portion is bent.

Abstract: An endoscope includes a distal rigid portion, a bending portion comprising a first bending portion and a second bending portion and a flexible tube portion. The endoscope further includes an operation wire, a wire guide member, a bending operation portion. The endoscope further includes a regulation wire, the regulation wire being longer than the bending portion, the regulation wire being inserted through the first bending portion and the second bending portion, the regulation wire being provided to face the operation wire in the diametrical direction of the bending portion, the regulation wire regulating the bending of the bending portion so that the second bending portion is bent in a direction opposite to the bending direction of the first bending portion and the bending portion is bent in an S-shape when the first bending portion is bent.