Motor and electric tool equipped with the same

1 . A motor comprising: a stator; a rotor axially aligned with the stator; a circuit board disposed at one end, in an axial direction, of the stator, and having a sensor for detecting a rotational angle of the rotor and a switching element for controlling a flow of current based on a detection result of the sensor; and a heat dissipating plate disposed at the one end, in the axial direction, of the stator, wherein the stator includes: an iron core including a cylinder and teeth protruding radially inward relative to the cylinder; an insulator covering the teeth and one end surface, in the axial direction, of the cylinder; and a coil wound around the teeth covered by the insulator, the insulator includes an electrically insulating material having a lower rate of heat transfer than a material included in the iron core, the heat dissipating plate is attached to the insulator in a state in which the heat dissipating plate is in contact with the insulator without being in contact with the iron core, and the circuit board is attached to the heat dissipating plate in a state in which the circuit board is in contact with the heat dissipating plate without being in contact with the iron core. 2 . The motor according to claim 1 , wherein in a view along the axial direction, the heat dissipating plate is smaller in size than the cylinder, and the heat dissipating plate is attached to the insulator in a location further radially inward than an outer circumferential surface of the cylinder. 3 . The motor according to claim 2 , wherein the insulator includes: an annular ring that covers the one end surface, in the axial direction, of the cylinder; and teeth covers spaced apart on the annular ring in a circumferential direction and covering the teeth, and the location in which the heat dissipating plate is attached to the insulator is between two pairs of adjacent teeth covers among the teeth covers on the annular ring. 4 . The motor according to claim 3 , wherein a portion, of the heat dissipating plate, contacting the annular ring, and a portion, of the annular ring, contacting the heat dissipating plate have an interlocking structure, and positioning of the heat dissipating plate in the circumferential direction of the stator is determined by the interlocking structure interlocking. 5 . The motor according to claim 3 , wherein a screw hole compatible with a screw for fastening the heat dissipating plate is formed in the annular ring, on a surface on a side opposite a side adjacent to the one end surface, in the axial direction, of the cylinder, the heat dissipating plate includes: a first major surface that faces the stator; and a second major surface on an opposite side relative to the first major surface, a recess is formed in the second major surface, a screw hole is formed in a bottom surface of the recess and penetrates through the heat dissipating plate, the heat dissipating plate and the insulator are fixed together by the screw being inserted in both the screw hole formed in the recess and the screw hole formed in the annular ring, and a screw head of the screw does not protrude beyond the second major surface in the axial direction in a state in which the screw is screwed down. 6 . The motor according to claim 1 , further comprising a housing that houses the stator, wherein a protrusion is formed on an inner circumferential surface of the housing, a recess is formed on an outer circumferential surface of the stator, and positioning of the stator relative to the housing is determined by the recess and the protrusion interlocking, the insulator includes an annular ring in close contact with a cylinder end surface of the one end, in the axial direction, of the cylinder, and the recess in the stator is formed by forming a notch in a portion of an outer circumferential surface of the annular ring, in an area including a portion in close contact with the cylinder end surface. 7 . The motor according to claim 6 , wherein a groove extending in the axial direction is formed in the outer circumferential surface of the annular ring, and in a state in which the stator is housed in the housing, the groove creates a gap between the housing and the outer circumferential surface of the annular ring, and a connection terminal for supplying power to the coil is inserted in the gap. 8 . An electric tool, comprising the motor according to claim 1 .