Electromagnetic clutch and method for manufacturing same

What is claimed is: 1. An electromagnetic clutch comprising: a driving-side rotatable member that is made of a magnetic material and is rotated about a rotational axis upon receiving a rotational force from a rotational drive source; a driven-side rotatable member that is rotated about the rotational axis upon receiving the rotational force from the driving-side rotatable member; an electromagnetic coil that is shaped into an annular form, which is centered on the rotational axis, wherein the electromagnetic coil generates an electromagnetic attractive force upon energization of the electromagnetic coil; a coil housing that is fixed to a non-rotatable member and is made of a magnetic material, wherein the electromagnetic coil is received in and is fixed to the coil housing; an armature that is made of a magnetic material, wherein the armature is attracted to and attached to a friction surface of the driving-side rotatable member in an axial direction of the rotational axis by the electromagnetic attractive force generated from the electromagnetic coil; an elastic connector that joins between the driven-side rotatable member and the armature and is placed to rotate integrally with the driven-side rotatable member and the armature, wherein the elastic connector holds the armature at a location, which is spaced from the friction surface of the driving-side rotatable member, when the electromagnetic coil is not energized; and a thermal fuse that is fixed to the coil housing and is placed to receive frictional heat, which is generated by friction between the armature and the friction surface of the driving-side rotatable member, wherein the thermal fuse is melted and is opened to cut supply of an electric power to the electromagnetic coil when a temperature is equal to or higher than a predetermined temperature, and wherein the thermal fuse is placed entirely on an inner side of an innermost part of the electromagnetic coil in a radial direction of the rotational axis. 2. The electromagnetic clutch according to claim 1 , wherein the coil housing has an inner ring, which is shaped into an annular form and is placed on an inner side of the electromagnetic coil in the radial direction of the rotational axis. 3. The electromagnetic clutch according to claim 2 , wherein: the inner ring has a cutout, which opens on an armature side in the axial direction; the thermal fuse is placed in the cutout in the radial direction; the cutout extends through the inner ring in the radial direction; the inner ring includes a cutout inner wall surface, which forms the cutout; and the cutout is placed between two circumferentially opposed surface sections of the cutout inner wall surface in a circumferential direction of the inner ring, while the two circumferentially opposed surface sections of the cutout inner wall surface radially inwardly extend from an outer peripheral surface of the inner ring and are opposed to each other in the circumferential direction. 4. The electromagnetic clutch according to claim 3 , wherein: the driving-side rotatable member has an inner peripheral portion, which is located on an inner side of the thermal fuse and the inner ring in the radial direction; the inner peripheral portion forms a gap relative to the thermal fuse and the inner ring in the radial direction; and the thermal fuse is placed to project inwardly from the inner ring in the radial direction. 5. The electromagnetic clutch according to claim 2 , wherein: a cutout, which opens toward an armature side in the axial direction, is formed in the inner ring, and the inner ring has a closing portion, which closes the cutout on an inner side of the cutout in the radial direction; the thermal fuse is placed in the cutout on an outer side of the closing portion in the radial direction; the inner ring includes a cutout inner wall surface, which forms the cutout; and the cutout is placed between two circumferentially opposed surface sections of the cutout inner wall surface in a circumferential direction of the inner ring, while the two circumferentially opposed surface sections of the cutout inner wall surface radially inwardly extend from an outer peripheral surface of the inner ring and are opposed to each other in the circumferential direction. 6. The electromagnetic clutch according to claim 3 , comprising a dielectric member, which is made of a dielectric material and is fixed to the coil housing, wherein: the thermal fuse is placed away from the cutout inner wall surface; and the dielectric member is formed such that the dielectric member is interposed between the cutout inner wall surface and the thermal fuse. 7. The electromagnetic clutch according to claim 6 , wherein the dielectric member is resin that is filled in a coil receiving portion of the coil housing, which receives the electromagnetic coil. 8. The electromagnetic clutch according to claim 3 , wherein: an inner ring outer peripheral surface is formed at an outer side of the inner ring, which is located on an outer side in the radial direction; the inner ring has an outer peripheral protrusion that is formed by an excess material of the inner ring, which is produced through press forming of the cutout in a presswork process of the coil housing, and the outer peripheral protrusion protrudes from the inner ring outer peripheral surface; and the outer peripheral protrusion is placed in a portion of the inner ring, which forms a bottom portion of the cutout in the axial direction. 9. The electromagnetic clutch according to claim 3 , wherein: an inner ring outer peripheral surface is formed in an outer side of the inner ring, which is located on an outer side in the radial direction; the inner ring has an outer peripheral protrusion that is formed by an excess material of the inner ring, which is produced through press forming of the cutout in a presswork process of the coil housing, and the outer peripheral protrusion protrudes from the inner ring outer peripheral surface; and the outer peripheral protrusion is placed in a portion of the inner ring, which is placed adjacent to the cutout in a circumferential direction of the inner ring. 10. The electromagnetic clutch according to claim 3 , wherein: the cutout is formed as a first cutout in the inner ring; a second cutout is also formed in the inner ring such that the second cutout opens toward the armature side in the axial direction; and in a view taken in the axial direction, the second cutout is located on an opposite side of a center of the inner ring, which is opposite from the first cutout. 11. The electromagnetic clutch according to claim 1 , wherein: the driving-side rotatable member has a friction surface forming portion, which has the friction surface; the friction surface forming portion forms a gap in the axial direction relative to the thermal fuse and the coil housing on an opposite side of the friction surface forming portion, which is opposite from the friction surface in the axial direction; and the thermal fuse projects from the coil housing toward the friction surface forming portion in the axial direction. 12. A method for manufacturing the electromagnetic clutch of claim 10 , comprising: a cutout forming step of simultaneously forming the first cutout and the second cutout in a presswork process. 13. The electromagnetic clutch according to claim 5 , wherein: the cutout is formed as a first cutout in the inner ring; a second cutout is also formed in the inner ring such that the second cutout opens toward the armature side in the axial direction; and in a view taken in the axial direction, the second cutout is loca