Optical connector, optical transmission module, and plug for optical connector

The invention claimed is: 1. An optical connector, comprising: a receptacle which is fastened to a base comprising a first optical transmission line; and a plug configured to hold a second optical transmission line and to be positioned with respect to the receptacle, wherein the receptacle comprises an exposing opening which exposes an end face of the first optical transmission line, and a hole for a pin which opens in an opening direction of the exposing opening, the plug comprises a facing surface which faces the receptacle, a protruding part which protrudes from the facing surface, is integrally formed with the facing surface, exposes an end face of the second optical transmission line on a front end face thereof, and is configured to be inserted into the exposing opening, and a pin which is located on the facing surface and is configured to be fitted in the hole, and the front end face of the protruding part is located further toward to a side of an insertion direction than a front end of the pin. 2. The optical connector according to claim 1 , wherein the exposing opening comprises an inclined surface which expands in diameter toward the opening portion at the side where the plug is inserted. 3. The optical connector according to claim 1 , wherein, in the receptacle, on a cross-section vertical to the insertion direction, a clearance between the pin and the hole is smaller than a clearance between the protruding part and the exposing opening. 4. The optical connector according to claim 1 , wherein two or more the pins are comprised, and the protruding part is located between the two pins. 5. The optical connector according to claim 1 , wherein the protruding part holds two or more the optical transmission lines in a state of arrangement in a diameter direction, and the protruding part and the pin are located in a line in a direction of arrangement of the two or more second optical transmission lines. 6. The optical connector according to claim 1 , further comprising a holder which is consist of a folded single metal sheet and nips the receptacle and the base in a direction making them be superimposed by a restoring force of the holder. 7. The optical connector according to claim 1 , wherein the protruding part is formed by a resin, and the pin is formed by a metal. 8. The optical connector according to claim 1 , further comprising: a receptacle housing which comprises a housing opening and which fastens the receptacle to the first optical transmission line in a state where the exposing opening is exposed from the housing opening and a plug housing which holds the plug is configured to be movable in a direction perpendicular to the protruding part with a play larger than the clearance between the pin and the hole in a state where the protruding part and the pin are exposed and which is fitted in the housing opening. 9. The optical connector according to claim 1 , wherein the plug comprises an engagement portion which is coupled to the pin and can engage backward with respect to the receptacle in the state where the pin is fitted in the hole and a slider which can move backward with respect to the pin while making the engagement portion displace to a direction releasing the engagement thereof. 10. The optical connector according to claim 9 , wherein the slider comprises an inclined surface which can abut backward with respect to the engagement portion and is located further in the direction releasing the engagement the further to the front. 11. The optical connector according to claim 9 , wherein the slider is a hollow shape configuring the upper surface, lower surface, and side surfaces of the plug. 12. The optical connector according to claim 9 , wherein the plug comprises an advancement stopper which is coupled to the pin and with which the slider engages forward at the time when the slider is located at a position where the engagement of the engagement portion is not released and a retraction stopper which is coupled to the pin and with which the slider engages backward at the time when the slider is located at a position releasing the engagement of the engagement portion. 13. The optical connector according to claim 9 , wherein two the engagement portions are located at two sides in a direction perpendicular to a connection direction of the first optical transmission line and the second optical transmission line with respect to them. 14. The optical connector according to claim 9 , wherein the receptacle can be connected with a plurality of plugs which are located on a lateral line, and the engagement portion is located in a direction which crosses a connection direction of the first optical transmission line and the second optical transmission line and crosses a arrangement direction of the plurality of plugs. 15. An optical transmission module, comprising: a substrate, a first optical transmission line which is disposed on a major surface of the substrate and comprises an end face which is exposed at a side surface of the substrate, a second optical transmission line, a receptacle which is fastened to the substrate, and a plug configured to hold the second optical transmission line and to be positioned relative to the receptacle, the receptacle comprises an exposing opening which exposes the end face of the first optical transmission line and a hole for pin which opens in an opening direction of the exposing opening, the plug comprises a facing surface which faces the receptacle, a protruding part which protrudes from the facing surface, is integrally formed with the facing surface, exposes an end face of the second optical transmission line on its front end face, and configures to be inserted into the exposing opening, and a pin which is located on the facing surface and configures to be fitted in the hole, and the front end face of the protruding part is located previous position toward an insertion direction than a front end of the pin. 16. The optical transmission module according to claim 15 , wherein at least a portion of the hole is superimposed at the side surface of the substrate when viewed in the insertion direction.