Bell mouth, air supply assembly including the bell mouth, and air supply control system using the bell mouth

What is claimed is: 1. A bell mouth comprising: an upstream body including an upstream-side opening formed to allow air introduced from an air supply duct to pass through and an upstream measurement portion connected with a differential-pressure acquisition device configured to use pressure of the air in the upstream-side opening, the air supply duct being configured to guide the air into a water-heating device from the outside; a differential-pressure generation part located downstream of the upstream body with respect to a flow direction of the air, the differential-pressure generation part having a structure configured to reduce the pressure of the air passing through the differential-pressure generation part; and a downstream body including a downstream-side opening formed to allow the air passing through the differential-pressure generation part to pass through and a downstream measurement portion connected with the differential-pressure acquisition device, wherein the differential-pressure acquisition device obtains a difference between the pressure of the air passing through the downstream-side opening and facing toward a blower of the water-heating device and the pressure of the air in the upstream-side opening, wherein the upstream body further includes an upstream ring portion having an inner circumferential surface configured to define the upstream-side opening and an upstream surrounding portion protruding from a periphery of the upstream ring portion along the flow direction to form, together with the upstream ring portion, an insertion space into which the downstream body is inserted, and wherein the upstream surrounding portion is open in the radial direction such that a measurement portion insertion hole through which the downstream measurement portion passes is formed. 2. The bell mouth of claim 1 , wherein the differential-pressure generation part includes a differential-pressure opening formed through the differential-pressure generation part along the flow direction to allow the air to flow from the upstream-side opening to the downstream-side opening. 3. The bell mouth of claim 2 , wherein the differential-pressure opening has a smaller diameter than the upstream-side opening and the downstream-side opening. 4. The bell mouth of claim 2 , wherein the upstream-side opening has a smaller diameter than the downstream-side opening. 5. The bell mouth of claim 2 , wherein the upstream-side opening, the downstream-side opening, and the differential-pressure opening form concentric circles. 6. The bell mouth of claim 1 , wherein the upstream measurement portion extends along a direction across the flow direction to guide the air from the upstream-side opening to the differential-pressure acquisition device, and wherein the downstream measurement portion extends along a direction across the flow direction to guide the air from the downstream-side opening to the differential-pressure acquisition device. 7. The bell mouth of claim 6 , wherein the direction in which the upstream measurement portion extends and the direction in which the downstream measurement portion extends are not parallel to each other. 8. The bell mouth of claim 1 , wherein the downstream body further includes a downstream ring portion having an inner circumferential surface configured to define the downstream-side opening, wherein in the insertion space, the differential-pressure generation part is fixed between the upstream ring portion and the downstream ring portion when the downstream ring portion is inserted into the insertion space. 9. An air supply control system of a water-heating device, comprising: a blower configured to forcibly feed air into a burner of the water-heating device; a bell mouth configured to deliver, to the blower, the air introduced from outside the water-heating device; a differential-pressure acquisition device connected to the bell mouth to obtain a differential pressure of the air passing through the bell mouth; and a processor configured to receive the obtained differential pressure and control the blower, based on the obtained differential pressure, wherein the bell mouth includes: an upstream-side opening formed to allow the introduced air to pass through and defined by a upstream body; a differential-pressure generation part located downstream of the upstream-side opening with respect to a flow direction of the air, the differential-pressure generation part having a structure configured to reduce pressure of the air passing through the differential-pressure generation part; and a downstream-side opening formed to allow the air passing through the differential-pressure generation part to pass through and defined by a downstream body, wherein the differential pressure obtained by the differential-pressure acquisition device corresponds to a difference between pressure in the upstream-side opening and pressure in the downstream-side opening, wherein the upstream body includes an upstream ring portion having an inner circumferential surface configured to define the upstream-side opening and an upstream surrounding portion protruding from a periphery of the upstream ring portion along the flow direction to form, together with the upstream ring portion, an insertion space into which the downstream body is inserted, wherein the downstream body includes a downstream measurement portion connected with the differential-pressure acquisition device, and wherein the upstream surrounding portion is open in the radial direction such that a measurement portion insertion hole through which the downstream measurement portion passes is formed. 10. An air supply assembly comprising: an air supply duct including a duct body configured to guide introduced air downward, a redirection portion configured to guide the air from the duct body in one direction parallel to a horizontal direction, and a stabilizing portion extending from the redirection portion along a flow direction of the air changed in the redirection portion; a guide part disposed in the redirection portion and forming a slope slighter than a slope of a lower end of an inner surface of the redirection portion relative to a vertical direction; and a bell mouth including a differential-pressure generation part and a measurement portion, the differential-pressure generation part being formed to allow the air delivered from the stabilizing portion to pass through and having a structure configured to reduce pressure of the air passing through the differential-pressure generation part, and the measurement portion being connected to a differential-pressure acquisition device configured to obtain a difference between pressure upstream of the differential-pressure generation part and pressure downstream of the differential-pressure generation part with respect to the flow direction of the air, wherein the stabilizing portion is longer than the redirection portion with respect to the flow direction. 11. The air supply assembly of claim 10 , wherein the redirection portion has, in the inner surface thereof, an insertion hole into which a guide fixing protrusion included in the guide part is inserted. 12. The air supply assembly of claim 10 , wherein a first plate and a second plate are pressed against each other to form the air supply duct, and wherein the guide part includes a guide fixing portion fixedly inserted into an insertion groove formed by the first plate and the second plate spaced apart from each other. 13. The air supply assembly of claim 10 , wherein the bell mouth has a plurality of bell mouth fixing protrusions, and wherein the air supply duct has coupling holes in positions cor