Joint ring, manufacturing method of joint ring, and manufacturing method of bending tube for endoscope

What is claimed is: 1. A joint ring of an endoscope, comprising: a joint ring body including a joint ring wall having an inner surface, an outer surface, a first end surface, and a second end surface; and a first wire guide attached to the inner surface of the joint ring wall, wherein the first wire guide includes a first wire guide body including a first wire guide wall having a third end surface and a fourth end surface, wherein, in a central axis direction of the joint ring body, at least a first portion of the first end surface and at least a first portion of the third end surface are at a first axial position and at least a first portion of the second end surface and at least a first portion of the fourth end surface are at a second axial position, wherein the first end surface includes a first recess extending in the central axis direction and having a concave surface, and wherein the concave surface includes the first portion of the first end surface at the first axial position. 2. The joint ring according to claim 1 , further comprising: a second wire guide attached to the inner surface of the joint ring wall, wherein the second wire guide includes a second wire guide body including a second wire guide wall having a fifth end surface and a sixth end surface, wherein in the central axis direction of the joint ring, at least a second portion of the first end surface and at least a first portion of the fifth end surface are at a third axial position, and at least a second portion of the second end surface and at least a first portion of the sixth end surface are at a fourth axial position, wherein the second end surface includes a first protrusion extending in the central axis direction and having a convex surface, and wherein the convex surface includes the second portion of the second end surface at the fourth axial position. 3. The joint ring according to claim 2 , wherein a length in the central axis direction between the first axial position and the second axial position defines a first axial length and a length in the central axis direction between the third axial position and the fourth axial position defines a second axial length, and wherein the first axial length is shorter than the second axial length. 4. A joint ring assembly, comprising: a plurality of joint rings according to claim 3 ; a first guide wire located in the first wire guide of each of the plurality of joint rings; and a second guide wire located in the second wire guide of each of the plurality of joint rings. 5. The joint ring assembly according to claim 4 , wherein, in a central axis direction of the joint ring assembly, a first of the plurality of joint rings is positioned adjacent a second of the plurality of joint rings, wherein the first protrusion on the first of the plurality of joint rings is located in the first recess of the second of the plurality of joint rings, and wherein the convex surface of the first protrusion on the first of the plurality of joint rings located in the concave surface of the first recess of the second of the plurality of joint rings forms a joint about which the first of the plurality of joint rings pivots relative to the second of the plurality of joint rings. 6. The joint ring according to claim 2 , wherein the convex surface of the first protrusion is conformal to the concave surface of the first recess. 7. A method of manufacturing a joint ring, comprising: attaching a plurality of wire guide base materials to a joint ring base material; with the plurality of wire guide base materials attached to the joint ring base material, forming a tubular joint ring base material; and cutting the tubular joint ring base material to manufacture the joint ring, wherein, in the tubular joint ring base material, each of the plurality of wire guide base materials extends along a central axis of the tubular joint ring base material and each of the plurality of wire guide base materials is spaced apart in a circumferential direction on an inner surface of the tubular joint ring base material. 8. The method according to claim 7 , wherein, in the joint ring, each of the plurality of wire guide base materials defines one of a plurality of wire guides, and wherein, in the joint ring, a length of the joint ring in a central axis direction and a length of at least a portion of the plurality of wire guides are equal. 9. The method according to claim 7 , wherein a shape of the tubular joint ring base material is a right cylinder. 10. The method according to claim 7 , wherein the wire guide base materials includes a plate-like body and a plurality of tubular bodies formed on the plate-like body, and wherein cutting the tubular joint ring base material includes cutting the plate-like body bonded to the joint ring base material. 11. The method according to claim 10 , further comprising: manufacturing the wire guide base material, wherein manufacturing the wire guide base material includes bonding the plate-like body and the tubular body base material intermittently. 12. The method according to claim 7 , wherein, in the joint ring, a first one of the plurality of wire guide base materials defines a first wire guide and a second one of the plurality of wire guide base materials defines a second wire guide, and wherein, in a central axis direction of the joint ring, the first wire guide is longer than a second wire guide. 13. The method according to claim 7 , wherein, in the step of attaching the plurality of wire guide base materials to the joint ring base material, the joint ring base material is a flat plate including side surfaces and a first surface to which the plurality of wire guide base materials are attached. 14. The method according to claim 7 , wherein the joint ring comprises: a joint ring body including a joint ring wall having an inner surface, an outer surface, a first end surface, and a second end surface, and a first wire guide attached to the inner surface of the joint ring wall, the first wired guide formed by one of the plurality of wire guide base materials, wherein the first wire guide includes a first wire guide body including a first wire guide wall having a third end surface and a fourth end surface, and wherein, in a central axis direction of the joint ring body, at least a portion of the first end surface and at least a portion of the third end surface are at a first axial position and at least a portion of the second end surface and at least a portion of the fourth end surface are at a second axial position. 15. A method of manufacturing a bending tube for an endoscope, comprising: the method according to claim 7 , wherein the joint ring is a first joint ring; and cutting the tubular joint ring base material to manufacture a second joint ring. 16. The method according to claim 15 , wherein the cutting the tubular joint ring base material includes: forming a hinge coupling between the first joint ring and the second joint ring, and forming a space between the first joint ring and the second joint ring in a central axis direction of the bending tube, and wherein the hinge coupling includes: a first recess on a first end surface of the first joint ring, the first recess extending in the central axis direction and having a concave surface, and a first protrusion on a second end surface of the second joint ring, the first protrusion extending in the central axis direction and having a convex surface.