Stabilizer assembly and an off-road vehicle with the stabilizer assembly

What is claimed is: 1 . A stabilizer assembly for a vehicle including a pair of wheels, the stabilizer assembly comprising: a first stabilizer coupled to a suspension part supporting a first wheel of the pair of wheels; a second stabilizer coupled to a suspension part supporting a second wheel of the pair of wheels; and a clutch mechanism capable of selectively creating a first state in which the first and second stabilizers are decoupled from each other and a second state in which the first and second stabilizers are coupled to each other, wherein the clutch mechanism includes: a clutch case that supports the first and second stabilizers such that inner ends of the first and second stabilizers are disposed on the same axis; a first engagement portion having engagement grooves formed on an outer periphery of the inner end of the first stabilizer; a second engagement portion having engagement grooves formed on an outer periphery of the inner end of the second stabilizer; an engagement slider that is incapable of rotating relatively to the first and second engagement portions and that is slidable in an axial direction, the engagement slider being capable of switching between an engaged state and a non-engaged state of the first and second engagement portion to each other; an actuator that slides the engagement slider; a first protrusion having a diameter smaller than a groove-bottom diameter of the engagement grooves, the first protrusion being formed on an end face of the inner end of the first engagement portion; a second protrusion having a diameter that is smaller than the groove-bottom diameter of the engagement grooves but is identical with the diameter of the first protrusion, the second protrusion being formed on the inner end of the second engagement portion; and a collar fitted on outer peripheral surfaces of the first and second protrusions across a mating point thereof while the first and the second protrusions are set their front ends butted against each other, the collar having an outer diameter size not exceeding a size of the groove-bottom diameter of the engagement grooves. 2 . The stabilizer assembly for a vehicle including a pair of wheels according to claim 1 , wherein the clutch case includes a first bearing that pivotally supports the first stabilizer to allow the first stabilizer to rotate and a second bearing that pivotally supports the second stabilizer to allow the second stabilizer to rotate, the first bearing and the second bearing being disposed respectively on both side walls of the clutch case, and the first stabilizer and the second stabilizer are pivotally supported by the first bearing, the second bearing, and the collar. 3 . The stabilizer assembly for a vehicle including a pair of wheels according to claim 1 , wherein the engagement grooves of the first engagement portion and the engagement grooves of the second engagement portion are of the same shape and are arranged at unequal intervals in a circumferential direction. 4 . A stabilizer assembly for a vehicle including a pair of wheels, the stabilizer assembly comprising: a first stabilizer coupled to a suspension part supporting a first wheel of the pair of wheels; a second stabilizer coupled to a suspension part supporting a second wheel of the pair of wheels; and a clutch mechanism capable of selectively creating a first state in which the first and second stabilizers are decoupled from each other and a second state in which the first and second stabilizers are coupled to each other, wherein the clutch mechanism includes: a clutch case that supports the first and second stabilizers such that inner ends of the first and second stabilizers are disposed on the same axis; a first engagement portion having engagement grooves formed on an outer periphery of the inner end of the first stabilizer; a second engagement portion having engagement grooves formed on an outer periphery of the inner end of the second stabilizer; an engagement slider that is incapable of rotating relatively to the first and second engagement portions and that is slidable in an axial direction, the engagement slider being capable of switching between an engaged state and a non-engaged state of the first and second engagement portion to each other; an actuator that slides the engagement slider; an axial guide formed on the inner end faces of the first and second stabilizers, the axial guide supporting the first and second stabilizers in such a way as to allow the first and second stabilizers to rotate relative to each other; and a pilot guide that makes the engagement slider substantially a single part, the pilot guide supporting the first and second stabilizers via the engagement slider in such a way as to allow the first and second stabilizers to rotate relative to each other, regardless of whether the engagement slider is in a slide position for an engaged state or a slide position for a disengaged state. 5 . An off-road vehicle including a pair of front wheels and a pair of rear wheels, the off-road vehicle comprising: front and rear stabilizer assemblies that work on the front wheels and the rear wheels, respectively, the front and rear stabilizer assemblies including: (1) a first stabilizer coupled to a suspension part supporting a first wheel of the pair of front wheels and a first wheel of the pair of rear wheels, (2) a second stabilizer coupled to a suspension part supporting a second wheel of the pair of front wheels and a second wheel of the pair of rear wheels, and (3) a clutch mechanism capable of selectively creating a first state in which the first and second stabilizers are decoupled from each other and a second state in which the first and second stabilizers are coupled to each other, the off-road vehicle comprising an axle drive unit that drives axles of the front wheels and axles of the rear wheels, each of the front wheel and the rear wheel including the transmission mechanism having an output shaft connected to the axle of each of the front wheel and the rear wheel, and an input shaft that receives power from the axle drive unit and that is located above the output shaft.