Distal end portion of endoscope, distal end frame, endoscope, and electric conduction confirmation method

What is claimed is: 1. A distal end frame for use with an endoscope, the distal end frame comprising: a body comprising an electric insulating material, the body comprising: a through hole through which a lens frame is inserted; a first electrical conductor pattern comprising: a first end disposed on an inner surface of the through hole and formed in contact with the lens frame, and a second end connected to a first terminal formed on a proximal end side of an outer peripheral portion of the distal end frame; and a second electrical conductor pattern formed independently of the first electrical conductor pattern, the second electrical conductor pattern comprising: a third end disposed on the inner surface of the through hole and formed in contact with the lens frame, and a fourth end connected to a second terminal. 2. The distal end frame according to claim 1 , further comprising a protrusion that includes the second terminal and protrudes from a distal end surface or a proximal end surface of the distal end frame. 3. The distal end frame according to claim 2 , wherein the distal end frame is configured to directly or indirectly conduct electricity to the second terminal only when the lens frame is attached to the distal end frame. 4. The distal end frame according to claim 1 , wherein the second end of the second electrical conductor pattern is formed in a channel through hole. 5. A distal end portion for use with an endoscope, the distal end portion comprising: the distal end frame according to claim 1 ; the lens frame including an objective optical system and an image sensor; and an electrically conductive exterior portion having a distal end side connected to a proximal end side of the distal end frame and a proximal end side configured to be connected to a ground of an external device; wherein the second end of the first electrical conductor pattern is in contact with the exterior portion, the fourth end of the second electrical conductor pattern is not in contact with the exterior portion, and the second terminal is configured to directly or indirectly conduct electricity only when the lens frame and the exterior portion are attached to the distal end frame. 6. An endoscope comprising: the distal end portion according to claim 5 . 7. The distal end portion according to claim 5 , wherein the second terminal is provided on the proximal end side of the outer peripheral portion of the distal end frame, and the exterior portion having a cut-out exposing the second terminal through the cut out. 8. The distal end portion according to claim 5 , further comprising a treatment tool channel frame comprising metal, wherein the distal end frame includes a channel through hole through which the treatment tool channel frame is inserted, the second terminal is formed in the channel through hole and is in contact with the treatment tool channel frame, and the second terminal is configured to conduct electricity through the treatment tool channel frame. 9. The distal end portion according to claim 8 , further comprising a resin tube externally fitted to a proximal end side of the treatment tool channel frame. 10. The distal end frame according to claim 1 , wherein the first electrical conductor pattern extends proximally from the first end, and the second electrical conductor pattern extends proximally from the third end. 11. The distal end frame according to claim 1 , wherein the first terminal is disposed distally relative to the second end, and the second terminal is disposed distally relative to the fourth end. 12. An electric conduction confirmation method comprising: testing electrical conduction between a first terminal and a second terminal of a distal end frame of an endoscope, wherein the distal end frame comprising: a through hole through which a lens frame is inserted, a first electrical conductor pattern comprising: a first end disposed on an inner surface of the through hole and formed in contact with the lens frame, and a second end connected to the first terminal formed on a proximal end side of an outer peripheral portion of the distal end frame, and a second electrical conductor pattern formed independently of the first electrical conductor pattern, the second electrical conductor pattern comprising: a third end disposed on the inner surface of the through hole and formed in contact with the lens frame, and a fourth end connected to the second terminal, wherein the testing comprises: connecting an electrode of a tester to the second terminal to establish electric conduction between the first terminal and the second terminal; and confirming whether electric conduction is established between the first terminal and the second terminal based on the connecting. 13. The electric conduction confirmation method according to claim 12 , wherein the second terminal is provided at a protrusion that protrudes from a distal end surface or a proximal end surface of the distal end frame. 14. The electric conduction confirmation method according to claim 13 , further comprising cutting off the protrusion at the distal end surface or at the proximal end surface after the confirming whether the electric conduction is established. 15. A distal end portion for use with an endoscope, the distal end portion comprising: a lens frame including an objective optical system and an image sensor; a distal end frame comprising an electric insulating material and including a through hole through which the lens frame is inserted; an electrically conductive exterior portion having a distal end side connected to a proximal end side of the distal end frame and a proximal end side configured to be connected to a ground of an external device; and a treatment tool channel frame comprising metal, wherein the distal end frame comprising: a first electrical conductor pattern comprising: a first end being formed in the through hole and in contact with the lens frame, and a second end being connected to a first terminal formed on a proximal end side of an outer peripheral portion of the distal end frame and in contact with the exterior portion; and a second electrical conductor pattern formed independently of the first electrical conductor pattern, the second electrical conductor pattern comprising: a third end being formed in the through hole and in contact with the lens frame, and a fourth end being connected to a second terminal formed outside the through hole of the distal end frame and not in contact with the exterior portion, and a channel through hole through which the treatment tool channel frame is inserted, and the second terminal is formed in the channel through hole and is in contact with the treatment tool channel frame, the second terminal is configured to conduct electricity through the treatment tool channel frame only when the lens frame and the exterior portion are attached to the distal end frame. 16. The distal end portion according to claim 15 , wherein the second terminal is provided on the proximal end side of the outer peripheral portion of the distal end frame, and the exterior portion having a cut-out exposing the second terminal through the cut-out. 17. The distal end portion according to claim 15 , further comprising a protrusion including the second terminal and protruding from a distal end surface or a proximal end surface of the distal end frame. 18. An electric conduction confirmation method comprising: testing electrical conduction between a first terminal and a second te