Thermal type flow sensor

What is claimed is: 1. A thermal type flow sensor comprising: an elongated measurement flow passage separately having a fluid inlet that separates from a main flow path and is provided at an upstream side of the flow passage, and a fluid outlet that joins the main flow path and is provided at a downstream side of the flow passage, whereby a fluid entering the measurement flow passage flows in a flow path from the fluid inlet to the fluid outlet; a temperature sensor disposed in the measurement flow passage; a heater disposed in the measurement flow passage at a location downstream of the temperature sensor and at a location such that fluid flowing in the flow path past the temperature sensor subsequently flows past the heater; a heat transfer preventing wall provided between the temperature sensor and the heater for preventing fluid which has risen in temperature due to heat generated by the heater from coming into contact with the temperature sensor, wherein the heat transfer preventing wall is separated from the heater and from the temperature sensor, wherein a widthwise dimension of the heat transfer preventing wall, which is perpendicular to a direction of extension of the flow path, is two times or greater than a widthwise dimension of the temperature sensor, which is perpendicular to the direction of extension of the flow path; and an orifice that rectifies a streaming flow of the fluid that has flown past the temperature sensor such that the streaming flow of the fluid reaching the heater is thereby rectified, wherein the orifice is disposed in the flow path on a downstream side of the heat transfer preventing wall and between the temperature sensor and the heater. 2. The thermal type flow sensor according to claim 1 , wherein the heat transfer preventing wall includes a surrounding portion that surrounds the temperature sensor. 3. A thermal type flow sensor comprising: an elongated measurement flow passage separately having a fluid inlet that separates from a main flow path and is provided at an upstream side of the flow passage, and a fluid outlet that joins the main flow path and is provided at a downstream side of the flow passage, whereby a fluid entering the measurement flow passage flows in a flow path from the fluid inlet to the fluid outlet; a temperature sensor disposed in the measurement flow passage; a heater disposed in the measurement flow passage at a location downstream of the temperature sensor and at a location such that fluid flowing in the flow path past the temperature sensor subsequently flows past the heater; a heat transfer preventing wall provided between the temperature sensor and the heater for preventing fluid which has risen in temperature due to heat generated by the heater from coming into contact with the temperature sensor, wherein the heat transfer preventing wall is separated from the heater and from the temperature sensor, wherein a widthwise dimension of the heat transfer preventing wall, which is perpendicular to a direction of extension of the flow path, is two times or greater than a widthwise dimension of the temperature sensor, which is perpendicular to the direction of extension of the flow path; and a ventilating element in which a ventilation hole is formed, to rectify a streaming flow of the fluid that has flown past the temperature sensor such that the streaming flow of the fluid reaching the heater is thereby rectified, wherein the ventilating element is disposed in the flow path on a downstream side of the heat transfer preventing wall and between the temperature sensor and the heater. 4. The thermal type flow sensor according to claim 3 , wherein the ventilating element is a structure including a porous member, a mesh, or a honeycomb.