Actuator and assembling method thereof

What is claimed is: 1. An actuator comprising: an electric motor; a gear that transmits a drive torque of the electric motor to a shaft of a drive subject to rotate the shaft of the drive subject; a spring that has one end portion, which is installed to the gear, wherein the spring generates an urging torque for urging the shaft in a rotational direction to rotate a rotational position of the shaft to a predetermined position; and an installation member, to which another end portion of the spring is installed, wherein: the gear includes: a radially inner guide that is formed around a rotational axis of the gear; a radially outer guide that is configured into a tubular form and is placed on a radially outer side of the radially inner guide while a receiving hole, which is configured into an annular form, is interposed between the radially inner guide and the radially outer guide; and a first slit that is located adjacent to an opening of the receiving hole and is formed by recessing a portion of the radially outer guide, wherein the one end portion of the spring is engaged to or is held by the first slit; the spring includes a coil that is spirally wound and is located between the one end portion and the another end portion of the spring, and the coil is resiliently deformably received in an inside of the receiving hole; the installation member includes: a covering wall that is placed adjacent to an opposite side of the receiving hole, which is opposite from the opening of the receiving hole, wherein the covering wall is located on a radially outer side of the radially outer guide in such a manner that the covering wall partially overlaps with the radially outer guide while a predetermined radial gap is interposed between the radially outer guide and the covering wall; and a second slit that is formed by recessing a portion of the covering wall, wherein the another end portion of the spring is engaged to or held by the second slit; the second slit has an opening, which opens at an axial end surface of the covering wall in an axial direction of the rotational axis, and the second slit includes: a second slit hole that extends linearly from the opening of the second slit to a deep side in the axial direction of the rotational axis or extends from the opening of the second slit to the deep side in the axial direction of the rotational axis while the second slit is bent in a middle of the second slit, wherein the another end portion of the spring is insertable into the second slit hole from the opening of the second slit toward the deep side; and a tilted slit portion, which is formed at an opening side of the second slit hole, wherein the another end portion of the spring is moved along the tilted slit portion to twist the coil to a predetermined set angle at a time of installing the another end portion of the spring to the second slit. 2. The actuator according to claim 1 , wherein the tilted slit portion includes a tilted surface that is tilted by a predetermined angle relative to one of: an installation direction of the gear with respect to the installation member; and the axial direction of the rotational axis of the gear. 3. The actuator according to claim 1 , wherein: the receiving hole is a coil receiving chamber that is formed between the radially inner guide and the radially outer guide and has the opening, which opens at an axial end surface of the radially outer guide in the axial direction of the rotational axis, and the coil receiving chamber extends from the opening of the coil receiving chamber in the axial direction of the rotational axis to a deep side and is configured into the annular form to receive the coil of the spring. 4. The actuator according to claim 1 , wherein the one end portion of the spring includes a first linear part, which projects linearly from one axial end of the coil of the spring in a radially outward direction or a tangential direction and has a length that enables engagement of the first linear part with the first slit. 5. The actuator according to claim 1 , wherein the another end portion of the spring includes a second linear part, which projects linearly from another axial end of the coil in one of a radially outward direction, a tangential direction and the axial direction of the rotational axis and has a length that enables engagement of the second linear part with the second slit. 6. The actuator according to claim 1 , wherein the gear includes an inside-to-outside communicating portion that communicates between the inside of the receiving hole and an outside of the receiving hole. 7. The actuator according to claim 6 , wherein when the coil of the spring is installed in the receiving hole, the another end portion of the spring projects from the inside of the receiving hole to the outside of the receiving hole through the inside-to-outside communicating portion. 8. The actuator according to claim 1 , wherein: the first slit has an opening that opens in a circumferential end surface of the radially outer guide in the rotational direction; the first slit includes a first slit hole that extends linearly from the opening of the first slit toward a deep side in the rotational direction; and the one end portion of the spring is insertable into the first slit hole from the opening of the first slit toward the deep side in the rotational direction. 9. The actuator according to claim 1 , wherein: the first slit has an opening that opens in an axial end surface of the radially outer guide in the axial direction of the rotational axis; the first slit includes a first slit hole that extends from the opening of the first slit such that the first slit hole is bent in a middle of the first slit hole and extends toward a deep side in the rotational direction; and the one end portion of the spring is insertable into the first slit hole from the opening of the first slit toward the deep side. 10. An assembling method of the actuator of claim 1 , comprising: a first step of forming a gear assembly by assembling the spring to the gear; and a second step of assembling the another end portion of the spring and the gear assembly to the installation member. 11. The assembling method according to claim 10 , wherein the first step includes: inserting the coil of the spring into the receiving hole and engaging the one end portion of the spring to the first slit by twisting the one end portion of the spring; and protruding the another end portion of the spring to an outside of the gear. 12. The assembling method according to claim 10 , wherein the second step includes: positioning the gear relative to the installation member such that the another end portion of the spring is placed immediately above the tilted slit portion or immediately before the tilted slit portion; and, thereafter, approaching the gear assembly toward a side of the installation member, at which the covering wall is placed, such that the another end portion of the spring is moved toward one side in the rotational direction of the gear along a surface of the tilted slit portion and is fed from an opening side of the second slit hole toward a deep side of the second slit hole.