Guide wheel shock absorbing device, carriage, and vehicle

The invention claimed is: 1. A guide wheel shock absorbing device comprising: an attachment arm connected to a guide frame disposed below a vehicle body of a vehicle; a shock absorbing link provided on the attachment arm and extending in one direction; a shock absorbing link support portion provided on the shock absorbing link and supporting the shock absorbing link in a state of being oscillatable with respect to the attachment arm; a guide wheel receiving a frictional force and rolling by coming into contact with a guide rail laid on a traveling track of the vehicle; a guide wheel support portion provided on the shock absorbing link and supporting the guide wheel in a rotatable state; and a shock absorbing elastic portion elastically supporting the shock absorbing link with respect to the attachment arm, wherein the shock absorbing elastic portion has a plurality of shock absorbing bodies different in displacement or displacement speed with respect to a load received by the guide wheel, and wherein the plurality of shock absorbing bodies include a first elastic body and a second elastic body separated from the first elastic body, the first and second elastic bodies each supporting the shock absorbing link with respect to the attachment arm. 2. The guide wheel shock absorbing device according to claim 1 , wherein the shock absorbing elastic portion includes: a first tubular member provided in a first hole penetrating the shock absorbing link; a first shaft body inserted into the first tubular member and fixed to the attachment arm; a distance adjustment member provided on a surface of an outer peripheral surface of the first shaft body, the surface facing an inner peripheral surface of the first tubular member; the first elastic body provided on an outer peripheral surface of the distance adjustment member facing the inner peripheral surface of the first tubular member and protruding to an inner peripheral surface side of the first tubular member; and the second elastic body provided so as to interconnect the outer peripheral surface of the first shaft body and the inner peripheral surface of the first tubular member, and the first elastic body is higher in rigidity than the second elastic body. 3. The guide wheel shock absorbing device according to claim 2 , further comprising a first stopper portion provided at a part of a surface of the distance adjustment member and protruding to the inner peripheral surface side of the first tubular member, wherein the first stopper portion is smaller in protrusion amount than the first elastic body. 4. The guide wheel shock absorbing device according to claim 3 , wherein a shape of the distance adjustment member is a ring shape circumferentially surrounding the outer peripheral surface of the first shaft body, and a shape of the first stopper portion and a shape of the first elastic body are ring shapes surrounding the outer peripheral surface of the distance adjustment member. 5. The guide wheel shock absorbing device according to claim 3 , wherein a second stopper portion is provided on the outer peripheral surface of the first shaft body facing the inner peripheral surface of the first tubular member or the inner peripheral surface of the first tubular member. 6. The guide wheel shock absorbing device according to claim 2 , wherein a notch portion is formed in the attachment arm, the notch portion accommodates a part of the first shaft body in a state of being in contact with a part of an outer peripheral surface of an end portion of the first shaft body, and the guide wheel shock absorbing device further comprises a first bolt fixing the first shaft body to the attachment arm from a direction orthogonal to a direction in which the guide wheel receives a load. 7. The guide wheel shock absorbing device according to claim 2 , wherein the shock absorbing link support portion includes: a second tubular member inserted into a second hole penetrating the shock absorbing link; a second shaft body inserted into the second tubular member and fixed to the attachment arm; a third stopper portion provided on an outer peripheral surface of the second shaft body facing an inner peripheral surface of the second tubular member or the inner peripheral surface of the second tubular member; a third elastic body provided between the second shaft body and the second tubular member and interconnecting the second shaft body and the second tubular member; and the second elastic body provided so as to interconnect the outer peripheral surface of the first shaft body and the inner peripheral surface of the first tubular member, and the guide wheel shock absorbing device further comprises a second bolt fixing the second shaft body to the shock absorbing link from a direction orthogonal to a direction in which the guide wheel receives a load. 8. A carriage comprising the guide wheel shock absorbing device according to claim 1 . 9. A vehicle comprising: the carriage according to claim 8 ; and the vehicle body provided on the carriage. 10. A guide wheel shock absorbing device comprising: an attachment arm connected to a guide frame disposed below a vehicle body of a vehicle; a shock absorbing link provided on the attachment arm and extending in one direction; a shock absorbing link support portion provided on the shock absorbing link and supporting the shock absorbing link in a state of being oscillatable with respect to the attachment arm; a guide wheel receiving a frictional force and rolling by coming into contact with a guide rail laid on a traveling track of the vehicle; a guide wheel support portion provided on the shock absorbing link and supporting the guide wheel in a rotatable state; and a shock absorbing elastic portion elastically supporting the shock absorbing link with respect to the attachment arm, wherein the shock absorbing elastic portion has a plurality of shock absorbing bodies different in displacement or displacement speed with respect to a load received by the guide wheel, the shock absorbing elastic portion includes: a first tubular member provided in a first hole penetrating the shock absorbing link; a first shaft body inserted into the first tubular member and fixed to the attachment arm; a pair of liquid sealing chambers provided in the first hole and filled with a liquid; a flow path formed so as to connect the pair of liquid sealing chambers, the liquid flowing through the flow path; and an elastic body provided so as to interconnect an outer peripheral surface of the first shaft body and an inner peripheral surface of the first tubular member, and the plurality of shock absorbing bodies include the elastic body absorbing the load when the load is small and a damping mechanism including the pair of liquid sealing chambers and the flow path and absorbing a large load unabsorbable by the elastic body. 11. The guide wheel shock absorbing device according to claim 10 , further comprising a first stopper portion provided on a surface of the outer peripheral surface of the first shaft body, the surface facing the inner peripheral surface of the first tubular member. 12. The guide wheel shock absorbing device according to claim 10 , further comprising an air chamber formed in the elastic body positioned around each liquid sealing chamber constituting the pair of liquid sealing chambers. 13. The guide wheel shock absorbing device according to claim 10 , wherein the pair of liquid sealing chambers are disposed so as to face each other in a direction in which the guide wheel receives a load. 14. The guide wheel shock absorbing dev