Axial air gap rotating electric machine

The invention claimed is: 1. An axial air gap rotating electric machine comprising: a circular ring-shaped stator formed by a plurality of stator cores arranged about a rotational axis direction in a ring shape, the stator cores each comprising an iron core, a tubular bobbin and a coil, the iron core having a columnar body whose side surface has a substantially trapezoidal shape, the tubular bobbin having the iron core inserted into a bobbin inner tubular portion substantially matching an outer peripheral shape of the iron core, the coil being wound around an outer tubular portion of the bobbin; at least one rotor plane-opposing to the side surface with a predetermined air gap interposed therebetween in a radial direction of a rotating shaft; a substantially tubular shaped housing having an inner circumferential surface which supports the stator; a bracket which rotatably supports the rotating shaft connected with the housing and with the rotor through a bearing; and a plate-like first conductive member having a horizontal portion extending from one opening portion of the bobbin inner tubular portion on an inner peripheral surface of the bobbin inner tubular portion in parallel with the rotating shaft and a vertical portion bent in a direction perpendicular to an extending direction of the horizontal portion and contacting an end surface of the opening portion, wherein the horizontal portion contacts a part of an outer peripheral surface of the iron core and a part of the inner peripheral surface of the bobbin inner tubular portion, and the vertical portion is conductively connected to an inner circumferential surface of the housing. 2. The axial air gap rotating electric machine according to claim 1 , wherein an end surface of the opening is present on a side facing the rotor. 3. The axial air gap rotating electric machine according to claim 1 , wherein the horizontal portion contacts a part of the outer peripheral surface of the iron core on the housing side and a part of the inner peripheral surface of the bobbin inner tubular portion. 4. The axial air gap rotating electric machine according to claim 1 , wherein the horizontal portion is bent in a vicinity of a center thereof in the extending direction toward the iron core side. 5. The axial air gap rotating electric machine according to claim 1 , wherein the end surface of the opening portion of the bobbin has a protrusion portion, and the vertical portion has a hole for inserting the protrusion portion. 6. The axial air gap rotating electric machine according to claim 1 , wherein a part of the inner peripheral surface of the bobbin inner tubular portion which the horizontal portion contacts has a groove portion having a length equal to or more than a length of the horizontal portion and a thickness less than that of the conductive member. 7. The axial air gap rotating electric machine according to claim 1 , wherein the bobbin has a flange portion provided around the opening portion and extending in the direction perpendicular to the outer tubular portion by a predetermined length, a plate-like second conductive member is further provided, the second conductive member being present on a surface of the flange portion which faces the rotor, and being arranged in a part between the iron core and the housing, and the vertical portion contacts the end surface of the opening portion through the second conductive member. 8. The axial air gap rotating electric machine according to claim 1 , wherein the bobbin has a flange portion provided around the opening portion and extending in the direction perpendicular to the outer tubular portion by a predetermined length, a plate-like third conductive member is further provided, the third conductive member being present on a surface of the flange portion which faces the rotor, and a part of the third conductive member being discontinuous, and the vertical portion is engaged with the end portion of the opening portion through the third conductive member. 9. The axial air gap rotating electric machine according to claim 1 , further comprising a plate-like second conductive member which is present on a surface of the flange portion which faces the rotor, and is arranged in a part between the iron core and the housing, wherein the vertical portion contacts the end portion of the opening portion through the second conductive member and the third conductive member. 10. The axial air gap rotating electric machine according to claim 1 , wherein the horizontal portion is extended to another opening portion of the bobbin inner tubular portion, and another vertical portion is further provided, the other vertical portion being bent in a direction perpendicular to the extending direction of the horizontal portion and contacting the end surface of the other opening portion. 11. The axial air gap rotating electric machine according to claim 1 , further comprising another conductive member which has the vertical portion and the horizontal portion extending from another opening of the bobbin inner tubular portion, wherein both tips of the horizontal portions overlap one another in the bobbin inner tubular portion. 12. The axial air gap rotating electric machine according to claim 1 , wherein the bobbin has a flange portion provided around the opening portion and extending in the direction perpendicular to the outer tubular portion by a predetermined length, a plate-like second conductive member is further provided, the second conductive member being present on a surface of the flange portion which faces the rotor, and being arranged in a part between the iron core and the housing, and the second conductive member has fastening means on both end portions thereof in a rotating direction of the rotating shaft, the fastening means being provided for connecting to one end portion of the second conductive member of an adjacent stator core in the rotating direction of the rotating shaft. 13. The axial air gap rotating electric machine according to claim 1 , comprising a tubular fourth conductive member which is provided between the rotating shaft and the stator, wherein the fourth conductive member is conductively connected to an inner circumferential surface of the housing through the first conductive member. 14. The axial air gap rotating electric machine according to claim 1 , wherein the iron core is formed by laminating magnetic metal plates in the radial direction of the rotating shaft.