Bending operation mechanism for endoscope, and endoscope

What is claimed is: 1 . A bending operation mechanism for use with an endoscope, the bending operation mechanism comprising: an operation lever; a wire pulling member connected to the operation lever and including first and second arms tiltable along with tilt of the operation lever about a fixed axis; first and second pulling wires extending from the first and second arms, respectively, and configured to move with tilt of the wire pulling member; a tubular member having an opening configured for insertion of a button, the tubular member being disposed in a region between the first and second arms in a direction extending between the first and second arms; and first and second pulleys corresponding to the first and second arms, respectively, the first and second pulleys receiving the first and second pulling wires, respectively, wherein a rotation shaft of each of the first and second pulleys is inclined relative to a plane orthogonal to the fixed axis such that a first side of each of the first and second pulleys that is closer to the first and second arms, respectively, is closer to the fixed axis than a second side of each of the first and second pulleys that is further from the first and second arms, respectively; and the first side and the second side are on a same surface of each of the first and second pulleys. 2 . The bending operation mechanism according to claim 1 , wherein the tubular member is disposed between the first and second pulleys in the direction and the the first and second pulleys are disposed at positions separated from a rotation trajectory formed by the the first and second arms when the operation lever is tilted closer to the tubular member. 3 . The bending operation mechanism according to claim 2 , wherein the operation lever is tiltable in any of a first direction, a second direction, a third direction, a fourth direction, and a combined direction of two of the first direction, the second direction, the third direction and the fourth direction, wherein the bending operation mechanism further comprises third and fourth arms, third and fourth pulling wires and third and fourth pulleys, the tubular member is disposed between the third and fourth arms in the direction, and the third and fourth pulling wires from the third and fourth arms, respectively, are wound about third and fourth pulleys, respectively. 4 . The bending operation mechanism according to claim 3 , wherein when the second direction corresponds to the operation lever being tilted closer to the tubular member, the first direction is opposite to the second direction, and the third direction and the fourth direction are orthogonal to the first direction and the second direction, respectively, a first tilt angle of one of the third and fourth pulleys corresponding to a respective one of the third and fourth arms aligns with a tangent line direction of a circular rotation trajectory of the operation lever at a maximum tilt angle of the operation lever in the third direction, and a second tilt angle of another of the third and fourth pulleys corresponding to another of the third and fourth arms aligns with a tangent line direction of the circular rotation trajectory of the operation lever at a maximum tilt angle of the operation lever in the fourth direction. 5 . The bending operation mechanism according to claim 1 , wherein the button is a suction button. 6 . The bending operation mechanism according to claim 1 , wherein the tubular member is a cylinder. 7 . The bending operation mechanism according to claim 1 , wherein the tubular member is a connection portion for an electric button. 8 . The bending operation mechanism according to claim 1 , wherein the tubular member is a connection portion for a button of an engagement mechanism. 9 . The bending operation mechanism according to claim 1 , wherein the tubular member is a connection portion for an angle lock button of a bending portion. 10 . An endoscope comprising: an operation portion; and a bending operation mechanism comprising: an operation lever rotatably disposed relative to the operation portion; a wire pulling member connected to the operation lever and including first and second arms tiltable along with tilt of the operation lever about a fixed axis; first and second pulling wires extending from the first and second arms, respectively, and configured to move with tilt of the wire pulling member; a tubular member having an opening configured for insertion of a button, the opening being on an external surface of the operation portion, the tubular member being disposed in a region between the first and second arms in a direction extending between the first and second arms; and first and second pulleys corresponding to the first and second arms, respectively, the first and second pulleys receiving the first and second pulling wires, respectively, wherein a rotation shaft of each of the first and second pulleys is inclined relative to a plane orthogonal to the fixed axis such that a first side of each of the first and second pulleys that is closer the first and second arms, respectively, is closer to the fixed axis than a second side of each of the first and second pulleys that is further from the first and second arms, respectively; and the first side and the second side are on a same surface of each of the first and second pulleys. 11 . The endoscope according to claim 10 , wherein the button is a suction button. 12 . The endoscope according to claim 10 , wherein the tubular member is a cylinder. 13 . The endoscope according to claim 10 , wherein the tubular member is a connection portion for an electric button. 14 . The endoscope according to claim 10 , wherein the tubular member is a connection portion for a button of an engagement mechanism. 15 . The endoscope according to claim 10 , wherein the tubular member is a connection portion for an angle lock button of a bending portion. 16 . The bending operation mechanism according to claim 1 , wherein a first outside dimension of the tubular member adjacent the first sides of the first and second pulleys is smaller than a second outside dimension of the tubular member adjacent the second sides of the first and second pulleys. 17 . A bending operation mechanism for use with an endoscope, the bending operation mechanism comprising: an operation lever; a wire pulling member connected to the operation lever and including first and second arms tiltable along with tilt of the operation lever; first and second pulling wires extending from the first and second arms, respectively, and configured to move with tilt of the wire pulling member; a tubular member having an opening configured for insertion of a button, the tubular member being disposed in a region between the first and second arms in a direction extending between the first and second arms; and first and second pulleys corresponding to the first and second arms, respectively, the first and second pulleys receiving the first and second pulling wires, respectively, wherein a first rotation axis of the first and second pulleys are each inclined relative to a line orthogonal to a center axis of the tubular member such that a first intersection of each first rotation axis with the center axis is further from a pivot axis of the operation lever than a second intersection of a virtual second rotation axis of each of the first and second pulleys if not inclined. 18 . The bending operation mechanism according to claim 17 , wherein the first and second pul