Flow sensor with a protruding portion for height control and a cover for suppressing sinking of the cover during welding

The invention claimed is: 1. A flow rate sensor, comprising: a housing made from a resin material and having a bottom base portion and a side wall, at least one surface side of the housing being open; a cover made from a resin material, covering the one surface side of the housing, welded to an upper surface of the side wall of the housing, and defining, with the bottom base portion and the side wall of the housing, an auxiliary passage within which a gas to be measured flows that is taken in from a main passage; a flow rate detection unit disposed within the auxiliary passage; and a throttling portion provided, facing the flow rate detection unit, on the cover within the auxiliary passage; wherein: a protruding portion for height control is provided to the housing and the cover at least in a vicinity of the side wall around the flow rate detection unit so as to suppress sinking in of the cover during welding; and the throttling portion has a triangular shape formed with a sloping surface toward an upstream side of the auxiliary passage that is more gently inclined than a sloping surface toward a downstream side of the auxiliary passage. 2. The flow rate sensor according to claim 1 , wherein: the flow rate detection unit is constituted as a circuit package that comprises a plate and a flow rate detection element mounted upon the plate; and the protruding portion for height control is provided between at least one end portion of the circuit package and a portion of the side wall that opposes the one end portion of the circuit package. 3. The flow rate sensor according to claim 2 , wherein: the circuit package is formed integrally with the housing by insert molding; and the protruding portion for height control is formed at a plurality of spots in surroundings of the one end portion of the circuit package. 4. The flow rate sensor according to claim 3 , wherein: the protruding portion for height control is provided at least at three spots in the surroundings of the one end portion of the circuit package. 5. The flow rate sensor according to claim 2 , wherein: the auxiliary passage has a cavity portion that is formed by the bottom base portion being cut away at surroundings of the circuit package; and the protruding portion for height control is provided continuously along a portion of a circumference of the cavity portion. 6. The flow rate sensor according to claim 1 , wherein: the cover comprises a front cover that covers the one surface side of the housing and a rear cover that covers another surface side of the housing; and the protruding portion for height control is provided upon one of the front cover and the housing, and upon one of the rear cover and the housing. 7. The flow rate sensor according to claim 6 , wherein: a flow conduit surface for measurement that contacts the gas to be measured is provided in the flow rate detection unit on a side facing the front cover, and the resin material from which the front cover is made includes an alloy material whose glass transition temperature is higher than a glass transition temperature of an alloy material that is included in the resin material from which the rear cover is made. 8. The flow rate sensor according to claim 1 , wherein: the flow rate detection unit is constituted as a circuit package that comprises a plate and a flow rate detection element mounted upon the plate; the auxiliary passage has a cavity portion that is formed by the bottom base portion being cut away at surroundings of the circuit package; the side wall comprises a curved portion between an inlet at which the gas to be measured is taken in or an outlet at which the gas to be measured is discharged and the cavity portion; and the protruding portion for height control is further provided at the curved portion of the side wall. 9. The flow rate sensor according to claim 8 , wherein: the protruding portion for height control is provided continuously along the curved portion of the side wall. 10. The flow rate sensor according to claim 8 , wherein: a plurality of protruding portions for height control, each of which is identical to the protruding portion for height control, are provided at the curved portion of the side wall; and at least one of the plurality of the protruding portions for height control that are provided at the curved portion of the side wall is formed to be of a height that is different from a height of another protruding portion for height control that is provided at the curved portion of the side wall, or from a height of the protruding portion for height control that is provided at the circumference of the cavity portion. 11. The flow rate sensor according to claim 1 , wherein: the protruding portion for height control is disposed so that a gap is left open between the protruding portion and a resin burr that is formed when the cover and the side wall are welded together. 12. The flow rate sensor according to claim 1 , wherein: the protruding portion for height control is set to a position that is lower than a penetration boundary surface of the housing and the cover. 13. The flow rate sensor according to claim 1 , wherein: the protruding portion for height control is provided to the housing; and a concave portion that contains the side wall and the protruding portion for height control is formed on the cover. 14. The flow rate sensor according to claim 1 , wherein: around a welded portion of the cover, irregularities having a surface roughness greater than a surface roughness of the welded portion of the cover are formed. 15. The flow rate sensor according to claim 1 , wherein: in the cover, at least a portion facing a welded portion to the side wall and a portion facing the protruding portion for height control have an average transmittivity of 35% or greater with respect to light of wavelength between 450 nm through 1100 nm. 16. The flow rate sensor according to claim 1 , wherein: in the cover, at least a portion facing a welded portion to the side wall and a portion facing the protruding portion for height control have lightness L* less than or equal to 75 and chroma C* less than or equal to 10 in L*a*b* color system. 17. The flow rate sensor according to claim 1 , wherein: the cover is formed from a crystalline resin, and contains an amorphous alloy material. 18. The flow rate sensor according to claim 1 , wherein: the cover and the housing are formed from a resin material that includes an alloy material, and a glass transition temperature of the alloy material included in the housing is higher than a glass transition temperature of the alloy material included in the cover. 19. The flow rate sensor according to claim 1 , wherein: the resin material of the cover includes a glass material, wherein an amount of the glass material is less than or equal to an amount of a glass material included in the resin material of the housing. 20. The flow rate sensor according to claim 1 , wherein: a degree of crystallinity of the resin material of which the housing is made is higher than a degree of crystallinity of the resin material of which the cover is made.