초록 ▼

A mixed flow fan assembly uses induced reverse ambient air flow through the in-line motor enclosure for motor cooling, motor segregation from primary exhaust contamination, and augmentation of volumetric flow rate. Induced ambient airflow through openings in and/or around the base of the fan housing

A mixed flow fan assembly uses induced reverse ambient air flow through the in-line motor enclosure for motor cooling, motor segregation from primary exhaust contamination, and augmentation of volumetric flow rate. Induced ambient airflow through openings in and/or around the base of the fan housing balances low pressure around the fan wheel and the inlet cone to inhibit primary exhaust recirculation and increase volumetric flow rate. Straightening vanes downstream of the fan wheel are used to axially reorient radial and tangential velocity components of primary effluent flow. Airfoil impeller blades have a scalloped and/or perforated single-thickness trailing edge to attenuate fan noise.

대표청구항 ▼

1. A mixed flow fan assembly, comprising: a fan housing, having a top and a base that is supported on a mounting plenum, and having an upper portion that is internally divided into an axially central motor enclosure surrounded by an exhaust plenum, and having a lower portion that contains a fan whee

1. A mixed flow fan assembly, comprising: a fan housing, having a top and a base that is supported on a mounting plenum, and having an upper portion that is internally divided into an axially central motor enclosure surrounded by an exhaust plenum, and having a lower portion that contains a fan wheel and an inlet bell;the fan wheel, comprising a back plate, a shroud, a wheel cone, and multiple impeller blades attached to both the wheel cone and the shroud, wherein the shroud has an inverted bell shape and has a lower end which opens into the inlet bell, and wherein the inlet bell has a substantially frusto-conical shape and has a lower end which opens into the mounting plenum, through which a primary exhaust gas flow flows upward into the fan housing;a fan motor located in the motor enclosure and rotatably coupled to the fan wheel through a motor-impeller shaft coupler, such that the fan motor imparts rotation to the fan wheel and the impeller blades, and such that the rotation of the impeller blades draw the primary exhaust gas flow upward through the inlet bell and the shroud and accelerates the primary exhaust gas flow upward into the exhaust plenum, from which the primary exhaust gas flow is discharged through the top of the fan housing;wherein the motor enclosure has a bottom that opens into the lower portion of the fan housing, and wherein a multi-purpose port accesses the motor enclosure from outside the fan housing through the exhaust plenum;wherein the back plate of the fan wheel has multiple back plate blades, such that rotation of the back plate blades draws a first ambient air flow through the multi-purpose port into the motor enclosure and down into the fan wheel;wherein the first ambient air flow cools the fan motor, and wherein the first ambient air flow maintains a positive pressure in the motor enclosure so as to pneumatically segregate the fan motor from the primary exhaust gas flow through the exhaust plenum, and wherein the flow of the first ambient air flow into the fan wheel dilutes the primary exhaust gas flow and produces a combined air/gas exhaust flow, which is expelled from the shroud with an increased volumetric flow rate, thereby increasing the static efficiency of the mixed flow fan assembly;wherein multiple straightening vanes are radially disposed within the exhaust plenum, and wherein the straightening vanes have a vertical profile which transitions from a lower curved leading edge to an upper substantially axial trailing edge, and wherein the straightening vanes divert the air/gas exhaust flow in the axial direction, and increase the volumetric flow of the air/gas exhaust flow, thereby increasing the static efficiency of the mixed flow fan assembly; andwherein one or more inlet openings are located between the base of the fan housing and the mounting plenum, and wherein a second ambient air flow is induced through the inlet openings by a venturi effect of the air/gas exhaust flow expelled from the shroud of the fan wheel, and wherein the aforesaid venturi effect draws the second ambient air flow through the lower portion of the fan housing and into an area of a low pressure generated by the air/gas exhaust flow expelled from the shroud and surrounding the shroud and the inlet bell, and wherein the second ambient air flow around the shroud and the inlet bell offsets the low pressure generated by the air/gas exhaust flow expelled from the shroud, thereby reducing an efficiency loss caused by a recirculation of the air/gas exhaust flow within the fan wheel, and thereby increasing volumetric flow rate through the fan wheel. 2. The mixed flow fan assembly according to claim 1, wherein the impeller blades have air foil profiles with a single-thickness trailing edge. 3. The mixed flow fan assembly according to claim 2, wherein the trailing edge of the impeller blades is scalloped or perforated, so as to attenuate fan noise.