Thermal flow meter with a protrusion having an orifice surface and recovery surface provided on a wall surface of a bypass passage

The invention claimed is: 1. A thermal flow meter comprising: a bypass passage configured to flow a measurement target gas received from a main passage, an air flow sensing portion that measures a heat amount by performing heat transfer with the measurement target gas flowing through the bypass passage using a heat transfer surface, and a support body that supports the air flow sensing portion inside the bypass passage to expose at least the heat transfer surface, wherein a wall surface of the bypass passage facing the heat transfer surface, where the heat transfer surface of the air flow sensing portion of the support body is exposed, is provided with a protrusion including an orifice surface, approaching the support body from the wall surface along a flow direction of the measurement target gas, and a recovery surface, returning from a downstream side end of the orifice surface to the wall surface, a first intersection line between the orifice surface and the wall surface is arranged upstream from an upstream side end of the support body in the flow direction of the measurement target gas, a second intersection line between the recovery surface and the wall surface is arranged downstream from a downstream side end of the support body in the flow direction of the measurement target gas, and a portion of the protrusion farthest from the wall surface is arranged downstream from the heat transfer surface of the air flow sensing portion in the flow direction of the measurement target gas and upstream from the downstream side end of the support body, wherein the orifice surface and the recovery surface are asymmetrical to a plane perpendicular to the flow direction of the measurement target gas and passing through the portion of the protrusion farthest from the wall surface. 2. The thermal flow meter according to claim 1 , wherein at least one of the orifice surface and the recovery surface has a plane surface, a curved surface, or both a plane surface and a curved surface. 3. The thermal flow meter according to claim 1 , wherein at least one of the orifice surface and the recovery surface has a shape convex to the support body or concave to the support body. 4. The thermal flow meter according to claim 1 , wherein at least one of the orifice surface and the recovery surface has a plurality of planes having different inclinations or a plurality of curved surfaces having different curvatures. 5. The thermal flow meter according to claim 4 , wherein the orifice surface has a plurality of planes having different inclinations and has a shape convex to the support body, and at least one intersection between neighboring planes of the plurality of planes is arranged to face the heat transfer surface of the air flow sensing portion in the flow direction of the measurement target gas. 6. The thermal flow meter according to claim 5 , wherein the intersection between the neighboring planes is arranged upstream from a center of the heat transfer surface of the air flow sensing portion in the flow direction of the measurement target gas. 7. The thermal flow meter according to claim 1 , wherein the orifice surface has a plane parallel to the heat transfer surface of the air flow sensing portion, an upstream end of the parallel plane is arranged upstream from the heat transfer surface of the air flow sensing portion in the flow direction of the measurement target gas, and a downstream end of the parallel plane is arranged downstream from the heat transfer surface of the air flow sensing portion in the flow direction of the measurement target gas. 8. The thermal flow meter according to claim 1 , wherein the recovery surface has a plane perpendicular to the wall surface. 9. The thermal flow meter according to claim 8 , wherein the perpendicular plane is provided downstream from the downstream side end of the support body in the flow direction of the measurement target gas. 10. The thermal flow meter according to claim 9 , wherein the perpendicular plane is provided downstream of the recovery surface. 11. A thermal flow meter comprising: a bypass passage configured to flow a measurement target gas received from a main passage, an air flow sensing portion that measures a heat amount by performing heat transfer with the measurement target gas flowing through the bypass passage using a heat transfer surface, and a support body that supports the air flow sensing portion inside the bypass passage to expose at least the heat transfer surface, wherein a wall surface of the bypass passage facing the heat transfer surface, where the heat transfer surface of the air flow sensing portion of the support body is exposed, is provided with a protrusion including an orifice surface, approaching the support body from the wall surface along a flow direction of the measurement target gas, and a recovery surface, returning from a downstream side end of the orifice surface to the wall surface, a first intersection line between the orifice surface and the wall surface is arranged upstream from an upstream side end of the support body in the flow direction of the measurement target gas, a second intersection line between the recovery surface and the wall surface is arranged downstream from a downstream side end of the support body in the flow direction of the measurement target gas, and a portion of the protrusion farthest from the wall surface is arranged downstream from the heat transfer surface of the air flow sensing portion in the flow direction of the measurement target gas and upstream from the downstream side end of the support body, wherein a plurality of sloped surfaces widened toward the wall surface facing the measurement surface are provided around the heat transfer surface of the air flow sensing portion out of the support body. 12. The thermal flow meter according to claim 11 , wherein a sloped surface provided along the flow direction of the measurement target gas out of the sloped surfaces extends from the upstream side end of the support body to the downstream side end of the support body. 13. A thermal flow meter comprising: a bypass passage configured to flow a measurement target gas received from a main passage, an air flow sensing portion that measures a heat amount by performing heat transfer with the measurement target gas flowing through the bypass passage using a heat transfer surface, and a support body that supports the air flow sensing portion inside the bypass passage to expose at least the heat transfer surface, wherein a wall surface of the bypass passage facing the heat transfer surface, where the heat transfer surface of the air flow sensing portion of the support body is exposed, is provided with a protrusion including an orifice surface, approaching the support body from the wall surface along a flow direction of the measurement target gas, and a recovery surface, returning from a downstream side end of the orifice surface to the wall surface, a first intersection line between the orifice surface and the wall surface is arranged upstream from an upstream side end of the support body in the flow direction of the measurement target gas, a second intersection line between the recovery surface and the wall surface is arranged downstream from a downstream side end of the support body in the flow direction of the measurement target gas, and a portion of the protrusion farthest from the wall surface is arranged downstream from the heat transfer surface of the air flow sensing portion in the flow direction of the measurement target gas and upstream from the downstream side end of the support body, wherein the measurement t