Automotive headlamp module

What is claimed is: 1. An automotive headlamp module, comprising: a drum type shield rotatably disposed with respect to a shield housing and having a high-beam protrusion, a low-beam protrusion, and an adaptive driving-beam (ADB) protrusion on an exterior side thereof; a shield disc coupled to the shield to rotate with the shield and having a rotational angle adjusted by the shield housing; a housing disc guided movable in a longitudinal direction of the shield by the shield housing and having an end in contact with the shield disc; and a return spring having both ends supported by the shield housing and the housing disc and pressing the housing disc to the shield disc with accumulated elastic force, wherein an upper stopper and a lower stopper configured to adjust the rotational angle of the shield disc by coming in contact with the shield disc when the shield disc is rotated are arranged vertically at a predetermined distance within the shield housing, and wherein the shield disc includes; a shank coupled to the shield, that extends in a longitudinal direction of the shield, and rotatably inserted in the a shaft guide formed within an interior of the shield housing; a male connector that extends in a longitudinal direction of the shank, disposed between the upper stopper and the lower stopper, and having a front side divided into a plurality of components by inclined surfaces having about the same inclination; and a disc protrusion formed on the exterior side of the male connector and configured to adjust the rotational angle of the shield disc by contact with the upper stopper and the lower stopper via rotation of the shield disc. 2. The automotive headlamp module of claim 1 , further comprising: a direct current (DC) motor coupled to the shield housing and configured to produce power to drive the shield; a printed circuit board (PCB) coupled to the shield housing and configured to control operation of the DC motor; and a power transmission gear that connects ends of the direct current motor and the shield to each other and is configured to transmit power. 3. The automotive headlamp module of claim 1 , further comprising: a reflector coupled to the shield housing; a light source disposed on the reflector; an exterior case that couples the shield housing and the reflector; and a case motor coupled to the exterior case and in response to a failure is configured to provide power for rotating the exterior case to perform a fail-safe function. 4. The automotive headlamp module of claim 1 , wherein a disc guide in which the housing disc is inserted is formed proximate to the upper and lower stoppers within the interior of the shield housing, and the housing disc is restricted in rotation and translates in the longitudinal direction of the shield by the disc guide. 5. The automotive headlamp module of claim 4 , wherein the housing disc includes: a rectangular parallel piped body inserted into the disc guide; a male connector that protrudes toward the shield on a first side of the body and a connector groove disposed at a front side coupled to the inclined surfaces of the male connector to contact the shield disc; and a shank that extends in the longitudinal direction of the shield on a second side of the body and translates in the longitudinal direction of the shield via an exterior flange of the shield housing. 6. The automotive headlamp module of claim 5 , wherein the return spring is coupled to the shank of the housing disc, with a first end supported on the body of the housing disc and a second end supported on an interior side of the exterior flange of the shield housing. 7. The automotive headlamp module of claim 5 , wherein with shapes of the inclined surfaces of the male connector and a shape of the connector groove of the female connector are coupled to each other, when the shield disc is rotated with the shield and the inclined surfaces of the male connector extends from the connector groove of the female connector, the housing disc translates in a linear trajectory from the shield disc against force by the return spring; and wherein the housing disc translates farthest away from the shield disc, when the shapes of the inclined surfaces fit to the shape of the connector groove or power supplied to the direct current motor is disengaged, the housing disc translates linearly toward the shield disc by return force of the return spring and the shapes of the inclined surfaces and the shape of the connector groove that correspond to each other.