Torque limiter

The invention claimed is: 1. A torque limiter comprising: a first meshing portion provided at a surface of an input shaft which transmits a drive force of a drive motor, the surface intersecting with an axial direction of the input shaft; a disc spring portion including a second meshing portion which is arranged facing the first meshing portion in the axial direction and which is configured to mesh with the first meshing portion, the disc spring portion being integrally rotatable with an output shaft which is provided coaxially with the input shaft and which is rotatable relative to the input shaft, the disc spring portion being deflected to displace the second meshing portion in a direction opposite to the first meshing portion in a case where a load equal to or greater than a set value is applied to the disc spring portion while the second meshing portion is being biased towards the first meshing portion; and a support portion integrally provided with the disc spring portion and including a tubular form, the support portion including a plurality of raised portions at an outer peripheral surface, the plurality of raised portions extending in the axial direction and being spaced away from one another in a circumferential direction, wherein the output shaft includes a sliding member sliding in the axial direction between a first position at which the sliding member is positioned within the plurality of raised portions so that the disc spring portion is integrally rotatable with the output shaft and a second position at which the sliding member is away from the plurality of raised portions so that the disc spring portion is rotatable relative to the output shaft. 2. The torque limiter according to claim 1 , wherein the support portion is restricted from moving in the axial direction by being fixed to the input shaft. 3. The torque limiter according to claim 1 , wherein the first meshing portion includes a plurality of first protruding portions arranged to be spaced away from one another and radially extending, the second meshing portion includes a plurality of second protruding portions arranged to be spaced away from one another and radially extending. 4. The torque limiter according to claim 3 , wherein the plurality of second protruding portions is provided at a reference surface in an annular region of the disc spring portion, each of the plurality of second protruding portions including a main surface which extends in a radial direction from a first end to a second end in parallel to the reference surface towards an outer circumferential edge of the annular region, a first inclination surface which extends in the radial direction by connecting between the main surface and the reference surface, and a second inclination surface which extends in the radial direction by connecting between the main surface and the reference surface while sandwiching the main surface with the first inclination surface. 5. The torque limiter according to claim 4 , wherein each of the plurality of second protruding portions includes a third inclination surface which extends in the radial direction towards a center axis of the disc spring portion from the first end of the main surface and inclines towards the reference surface, the third inclination surface forms an angle relative to the reference surface, the angle being smaller than an angle formed by each of the first inclination surface and the second inclination surface relative to the reference surface. 6. The torque limiter according to claim 1 , wherein the disc spring portion includes a radius which decreases from a first end to a second end in a state where an external force is inhibited from being applied to the disc spring portion, the disc spring portion including a penetration bore at the second end. 7. The torque limiter according to claim 3 , wherein the second meshing portion including the plurality of second protruding portions is provided at a surface of the disc spring portion, the surface facing the first meshing portion including the plurality of first protruding portions, one of the plurality of second protruding portions and the other one of the plurality of second protruding portions adjacent to each other in the plurality of second protruding portions define an interval therebetween, the interval at which one of the plurality of first protruding portions is configured to be arranged. 8. The torque limiter according to claim 1 , wherein the support portion includes a radius which increases from a first end to an intermediate portion of the support portion, the radius being constant from the intermediate portion to a second end of the support portion. 9. A torque limiter comprising: a first meshing portion provided at a surface of an input shaft which transmits a drive force of a drive motor, the surface intersecting with an axial direction of the input shaft; and a disc spring portion including a second meshing portion which is arranged facing the first meshing portion in the axial direction and which is configured to mesh with the first meshing portion, the disc spring portion being integrally rotatable with an output shaft which is provided coaxially with the input shaft and which is rotatable relative to the input shaft, the disc spring portion being deflected to displace the second meshing portion in a direction opposite to the first meshing portion in a case where a load equal to or greater than a set value is applied to the disc spring portion while the second meshing portion is being biased towards the first meshing portion, wherein the first meshing portion includes a plurality of first protruding portions arranged to be spaced away from one another and radially extending, the second meshing portion includes a plurality of second protruding portions arranged to be spaced away from one another and radially extending, and the plurality of second protruding portions is provided at a reference surface in an annular region of the disc spring portion, each of the plurality of second protruding portions including a main surface which extends in a radial direction from a first end to a second end in parallel to the reference surface towards an outer circumferential edge of the annular region, a first inclination surface which extends in the radial direction by connecting between the main surface and the reference surface, and a second inclination surface which extends in the radial direction by connecting between the main surface and the reference surface while sandwiching the main surface with the first inclination surface. 10. The torque limiter according to claim 9 , wherein each of the plurality of second protruding portions includes a third inclination surface which extends in the radial direction towards a center axis of the disc spring portion from the first end of the main surface and inclines towards the reference surface, and the third inclination surface forms an angle relative to the reference surface, the angle being smaller than an angle formed by each of the first inclination surface and the second inclination surface relative to the reference surface. 11. A torque limiter comprising: a first meshing portion provided at a surface of an input shaft which transmits a drive force of a drive motor, the surface intersecting with an axial direction of the input shaft; and a disc spring portion including a second meshing portion which is arranged facing the first meshing portion in the axial direction and which is configured to mesh with the first meshing portion, the disc spring portion being integrally rotatable with an output shaft which is provided coaxially with the input shaft and which is rotatable relative to the input