Bracket and in-tire electric device

The invention claimed is: 1. A bracket that is pressed against and fixed to an outer peripheral surface of a rim of a tire wheel by a belt wound around the outer peripheral surface of the rim, and detachably holds an electric circuit unit, the bracket comprising: a pair of rim contact portions that are provided at both ends in a circumferential direction of the rim in a rim facing surface facing the outer peripheral surface of the rim, and come into contact with the outer peripheral surface of the rim in such a way as to cause a portion between the both ends to be spaced apart from the outer peripheral surface of the rim; a base portion that extends in the circumferential direction of the rim and has the rim facing surface inside the base portion; a pressed portion that is provided between the pair of rim contact portions in the base portion and pressed by the belt toward the outer peripheral surface of the rim, causing the base portion to sag; a pair of facing support portions that protrude from both ends of the base portion toward a side opposite to the rim facing surface and receive and support the electric circuit unit between the pair of facing support portions; and a pair of slits that pass through base end portions of the pair of facing support portions to allow the belt to pass through, wherein: the base portion sags toward the outer peripheral surface of the rim in such a way that the pair of facing support portions tilt toward each other, the base portion is curved at an intermediate portion of a strip-shaped sheet metal, except for both ends, in an arc shape, and the pair of facing support portions are bent in such a way that the both ends of the strip-shaped sheet metal are erected from the base portion, and a pair of bent portions between the base portion and the pair of facing support portions constitute the pair of rim contact portions. 2. A bracket that is pressed against and fixed to an outer peripheral surface of a rim of a tire wheel by a belt wound around the outer peripheral surface of the rim, and detachably holds an electric circuit unit, the bracket comprising: a pair of rim contact portions that are provided at both ends in a circumferential direction of the rim in a rim facing surface facing the outer peripheral surface of the rim, and come into contact with the outer peripheral surface of the rim in such a way as to cause a portion between the both ends to be spaced apart from the outer peripheral surface of the rim; a base portion that extends in the circumferential direction of the rim and has the rim facing surface inside the base portion; a pressed portion that is provided between the pair of rim contact portions in the base portion and pressed by the belt toward the outer peripheral surface of the rim, causing the base portion to sag; a pair of facing support portions that protrude from both ends of the base portion toward a side opposite to the rim facing surface and receive and support the electric circuit unit between the pair of facing support portions; and a pair of slits that pass through base end portions of the pair of facing support portions to allow the belt to pass through, wherein: the base portion sags toward the outer peripheral surface of the rim in such a way that the pair of facing support portions tilt toward each other; the electric circuit unit includes a first engagement protrusion that protrudes toward a first facing support portion that is one of the pair of facing support portions, and a second engagement protrusion that protrudes toward a second facing support portion that is an other one of the pair of facing support portions, and the bracket further comprises: a first engagement hole that passes through the first facing support portion to allow the first engagement protrusion to be inserted from the second facing support portion side; a second engagement hole that passes through the second facing support portion and has a protrusion receiving port that opens on a tip surface or side surface of the second facing support portion to allow the second engagement protrusion to be inserted from the protrusion receiving port; and a retainer that is inserted into the second engagement hole into which the second engagement protrusion has been inserted, from a side opposite to the first facing support portion to restrict the second engagement protrusion from moving toward the protrusion receiving port. 3. A bracket that is pressed against and fixed to an outer peripheral surface of a rim of a tire wheel by a belt wound around the outer peripheral surface of the rim, and detachably holds an electric circuit unit, the bracket comprising: a pair of rim contact portions that are provided at both ends in a circumferential direction of the rim in a rim facing surface facing the outer peripheral surface of the rim, and come into contact with the outer peripheral surface of the rim in such a way as to cause a portion between the both ends to be spaced apart from the outer peripheral surface of the rim; a base portion that extends in the circumferential direction of the rim and has the rim facing surface inside the base portion; and a pair of slits that pass through both ends of the base portion or positions close to the both ends to allow the belt to pass through, wherein: a portion between the pair of slits in the rim facing surface faces the outer peripheral surface of the rim interposing the belt interposed in between, the electric circuit unit includes a pair of engagement protrusions that protrude in pairs toward the outer peripheral surface of the rim, and foot portions having tip portions enlarged with respect to base end portions in a direction perpendicular to both a direction in which the pair of engagement protrusions protrude and a direction in which the pair of engagement protrusions face each other, the bracket comprises: a pair of pedestal protrusions that protrude from the both ends of the base portion to a side opposite to the rim facing surface and have, at tip portions, upper surface walls perpendicular to a direction of the protrusion; a pair of engagement holes that pass through the upper surface walls of the pair of pedestal protrusions; wide portions that are provided in the pair of engagement holes and just suitable for the foot portions of the pair of engagement protrusions to pass through; narrow portions that are provided in the pair of engagement holes, located on one side of the wide portions in a direction in which the pair of pedestal protrusions are aligned, and suitable for the base end portions of the pair of engagement protrusions to pass through; and a retainer that is inserted into one of the wide portions, and the pair of engagement protrusions are inserted into the wide portions of the pair of engagement holes, the electric circuit unit is moved in the direction in which the pair of pedestal protrusions are aligned, the base end portions of the pair of engagement protrusions are engaged with the narrow portions of the pair of engagement holes, and then the retainer is inserted into the wide portion of any of the pair of engagement holes. 4. The bracket according to claim 2 , wherein the pair of rim contact portions extend in a width direction of the outer peripheral surface of the rim. 5. The bracket according to claim 2 , wherein the rim facing surface forms an arc surface having a radius of curvature smaller than a radius of curvature of the outer peripheral surface of the rim, and both ends of the arc surface constitute the pair of rim contact portions. 6. The bracket according to claim 2 , wherein the base portion is provided with a variable contact portion that comes into contact with the outer peripheral surface of the rim in a state where the base portion sags.