Mobile crane

The invention claimed is: 1. A mobile crane, comprising: a lower traveling body which includes a pair of crawlers each extending in forward and rearward directions and spaced apart from each other in leftward and rightward directions; an upper slewing body supported on the lower traveling body slewably about a slewing axis; a tiltable attachment including a boom tiltably supported on the upper slewing body; and a physical quantity detector, wherein the lower traveling body has a reaction force receiving part for receiving a reaction force from the ground at a position away from the slewing axis in a boom direction in a state where the pair of crawlers is in contact with the ground, the boom direction coinciding with a horizontal component of a direction in which the boom extends from the upper slewing body, and the physical quantity detector is configured to detect a physical quantity which changes in accordance with a change in the reaction force received from the ground by the reaction force receiving part, wherein the mobile crane further comprises: a notification device for notifying an operator of stability information concerning a stability of the mobile crane based on the physical quantity detected by the physical quantity detector; a stability determination section for determining the stability based on the physical quantity detected by the physical quantity detector; and a notification control section for outputting a notification instruction of notifying in the notifying device the operator of the stability information concerning the stability determined by the stability determination section. 2. The mobile crane according to claim 1 , wherein the boom direction corresponds to one of the forward and rearward directions of the lower traveling body, each of the pair of crawlers includes: a crawler frame extending in the forward and rearward directions; and a first wheel supported on one of a front end and a rear end of the crawler frame and rotatable about a rotational axis, the one end being away from the slewing axis in the boom direction, and the first wheel serves as the reaction force receiving part. 3. The mobile crane according to claim 2 , wherein each of the pair of crawlers includes: a second wheel supported on the other of the front end and the rear end of the crawler frame and rotatable about a rotational axis; and a crawling member endlessly supported by the first wheel and the second wheel and cyclically movable, and the physical quantity detector is configured to detect, as the physical quantity, a strain that is caused in the crawler frame of at least one of the pair of crawlers by the reaction force which the first wheel receives from the ground via the crawling member. 4. The mobile crane according to claim 3 , wherein each of the pair of crawlers further includes a plurality of lower rollers rotatably supported on a lower portion of the crawler frame and arranged at intervals between the first wheel and the second wheel in the forward and rearward directions for guiding the crawling member, and the physical quantity detector is configured to detect the strain on a specific portion of the crawler frame in the forward and rearward directions, the specific portion being away in the boom direction from a rotational axis of a lower roller closest to the first wheel among the plurality of lower rollers. 5. The mobile crane according to claim 3 , wherein each of the pair of crawlers further includes a plurality of lower rollers rotatably supported on a lower portion of the crawler frame and arranged at intervals between the first wheel and the second wheel in the forward and rearward directions for guiding the crawling member, and the physical quantity detector is configured to detect the strain on a specific portion of the crawler frame in the forward and rearward directions, the specific portion being located in a region between a rotational axis of a lower roller closest to the first wheel among the plurality of lower rollers and the rotational axis of the first wheel. 6. The mobile crane according to claim 3 , wherein the physical quantity detector is configured to detect the strain occurring in the one end of the crawler frame that supports the first wheel. 7. The mobile crane according to claim 6 , wherein the crawler frame includes a frame main body extending in the forward and rearward directions, and a bracket attached to an end of the frame main body to thereby constitute the one end of the crawler frame, and the physical quantity detector is configured to detect the strain occurring in the bracket. 8. The mobile crane according to claim 1 , wherein each of the pair of crawlers includes a crawler frame extending in the forward and rearward directions, the lower traveling body includes: a center frame lying between the crawler frame of one of the pair of crawlers and the crawler frame of the other of the pair of crawlers, and connecting the crawler frames with each other; and at least one receiving member, the crawler frame of the one crawler, the crawler frame of the other crawler, and the center frame constitute a frame unit, the at least one receiving member has a connection part connected with the frame unit, and a contact part being in contact with the ground, the connection part is away from the slewing central axis in the boom direction, and the contact part is away from the connection part in the boom direction and serves as the reaction force receiving part. 9. The mobile crane according to claim 8 , wherein the at least one receiving member includes a hydraulic cylinder extendable and retractable in upward and downward directions. 10. The mobile crane according to claim 9 , further comprising: a hydraulic pump for discharging hydraulic fluid; a control valve disposed between the hydraulic pump and the hydraulic cylinder, and shiftable between a supply position for supplying the hydraulic fluid discharged by the hydraulic pump to the hydraulic cylinder through a hydraulic path and a suspension position for suspending the supply of the hydraulic fluid discharged from the hydraulic pump to the hydraulic cylinder; and an instruction device for instructing the control valve to shift between the supply position and the suspension position. 11. The mobile crane according to claim 9 , wherein the physical quantity detector includes a pressure sensor for detecting, as the physical quantity, at least one of a pressure on a head side of the hydraulic cylinder and a pressure on a rod side of the hydraulic cylinder. 12. The mobile crane according to claim 8 , wherein the at least one receiving member includes a beam including the connection part and extending from the connection part in the boom direction or in a direction oblique to the boom direction, and a leg including the contact part and attached to a distal end of the beam. 13. The mobile crane according to claim 12 , wherein the physical quantity detector is configured to detect a strain occurring in the beam as the physical quantity. 14. The mobile crane according to claim 13 , wherein the physical quantity detector includes a first device for detecting a strain occurring in an upper portion of the beam, and a second device for detecting a strain occurring in a lower portion of the beam. 15. The mobile crane according to claim 8 , wherein the boom direction corresponds to one of the leftward and rightward directions of the lower traveling body, the at least one receiving member includes: a first receiving member attached to the crawler frame of the one crawle