(1) Field of the Invention
The invention relates to heating ventilation and air conditioning (HVAC) systems. More particularly, the invention relates to fans for such systems.
(2) Description of the Related Art
Fans are ubiquitous in HVAC systems. Many fan configurations exist. A typical electric fan includes a motor having a shaft protruding from one end. A fan assembly is mounted to the shaft so as to be driven by the motor. One group of fan assembly configurations involves molding a plastic component over a metallic hub insert. The plastic component includes a hub surrounding the insert and blades radiating outward from the hub. The plastic component may further include a shroud at outboard ends of the blades. In such configurations, the use of plastic generally provides lightness and ease of manufacturing and the use of a metallic insert provides a robust precise connection to the motor shaft. The engineering of the insert and its interface with the plastic component presents a number of considerations. The insert may, advantageously, be light. The insert requires an appropriate robust interface with the plastic component to reliably transmit torque and thrust. Various forms of fluting and other complex surface configurations have been proposed to achieve advantageous performance.
One aspect of the invention is a fan assembly. A central metallic element has a central longitudinal aperture and a lateral surface. A polymeric fan has a hub carrying a central metallic element and a number of blades extending from the hub. The central metallic element lateral surface is of substantially uniform, substantially square section along a majority of a length of the central metallic element.
In various implementations, the central metallic element lateral surface may have a groove. The central metallic element may consist essentially of brass or bronze. The central metallic element may have a pair of off-center threaded bores open to a forward end of the central metallic element. The central metallic element longitudinal aperture may include a keyway extending from a central circular-section bore. A polymeric cover may be secured at a forward end of the hub. The polymeric fan may further include a shroud, unitarily formed with the blades. A web portion of the polymeric fan may overlie a perimeter portion of an aft surface of the central metallic member. The fan assembly may be combined with a motor. The motor may have a shaft having a portion accommodated within the central longitudinal aperture and secured to the central metallic element against rotation. A stator may be coupled to the shaft so as to drive the fan.
The fan assembly may be manufactured by cutting a precursor of the central metallic element from a square-section bar. The central longitudinal aperture may be machined. A recess may be machined in the lateral surface. The fan may be molded over the central metallic element so that material of the fan enters the recess. The central metallic element may be first mounted in a mold for the molding of the fan.
Another aspect of the invention involves a method for remanufacturing an electric fan. A first fan assembly is removed from a motor. The first fan assembly includes a first central metallic element having a first central longitudinal aperture and a first lateral surface. The first fan assembly further includes a first polymeric fan having a first hub carrying the first central metallic member. A second fan assembly may be installed to the motor. The second fan assembly includes a second central metallic element having a second central longitudinal aperture and a second lateral surface. The second fan assembly includes a second polymeric fan having a second hub carrying the second central metallic element. The second lateral surface is of substantially uniform, substantially square section along a majority of a length of the second central metallic element.
In various implementations, the second metallic element may be heavier than the first metallic element (e.g., by at least 5%, 10%, 25%, or more). The first metallic element may have a more complex shape than the second metallic element (e.g., in principal transverse section).
The details of one or more embodiments of the invention are set forth in the accompanying drawings and the description below. Other features, objects, and advantages of the invention will be apparent from the description and drawings, and from the claims.
Like reference numbers and designations in the various drawings indicate like elements.
In the exemplary embodiment, each fan unit is mounted to the duct assembly by a pair of mounting brackets 32. In the exemplary embodiment, each fan assembly 30 is concentrically mounted within an annular cylindrical duct 40 extending from a proximal end at a flat wall 42 to a distal end carrying a grill 44. Other configurations are possible.
The metallic insert 52 has a lateral surface characterized by four facets 72 (
In an exemplary process of manufacture, insert precursors are cut from square-section bar stock. The cutting (which may include one or more stages such as rough cutting and surface milling) essentially defines the end surfaces and the principal portion of the lateral surface. The cut precursor may be fixtured (e.g., in a lathe or similar tool) and the central bore 66 drilled and the channel 74 cut. The precursor may then be refixtured for milling the keyway 68 and again refixtured for drilling and tapping the bores 82.
After the insert has been formed, it may be registered in a portion of a die (not shown) for molding the molded component 50. The die may be assembled and plastic (e.g., glass-reinforced polypropylene) injected to form the molded component. The exemplary molding nearly entirely embeds the insert within the hub. In the exemplary embodiment, webs 84 and 86 (
To remove the fan assembly from the motor, the hub cover may first be removed from the hub (e.g., by disengaging the snap fit via prying or other extraction). The fastener 71 may then be removed by unthreading. A removal tool (not shown) may be installed to the hub assembly. An exemplary removal tool includes threaded shafts (not shown) threaded into engagement with the bores 82 and retained by a tool body structure spanning such shafts. A central jack screw (not shown) may extend longitudinally between and parallel to the threaded shafts and may be rotated until its distal end contacts the motor shaft front end, with further rotation extracting the fan assembly from the motor shaft via a jacking action.
For the insert, square bar stock is relatively inexpensive source material (e.g., as compared with stock of more convoluted section). By limiting subsequent machining so as to leave a major portion of the cross-section intact, subsequent manufacturing costs are reduced (e.g., as compared with machining a complex profile such as fluting along a greater portion of the length of the insert). Thus, the present teachings may be used to form a less complex and less expensive insert than would otherwise be used. Relative to such a more complex insert, the alternative insert may be larger in cross-sectional area and thus greater in weight and may have a slightly less robust anti-torque engagement with the hub. Nevertheless, the square section may provide sufficient anti-torque engagement and the increased mass may slightly, if not negligibly, affect inertia (especially due to the relatively small radius at which most of the insert's mass exists). Accordingly, the present teachings may be used to design an insert to replace a more complex (and expensive) insert either for engineering the configuration of a new electric fan based upon an existing electric fan or as a remanufacturing of the existing electric fan.
One or more embodiments of the present invention have been described. Nevertheless, it will be understood that various modifications may be made without departing from the spirit and scope of the invention. For example, when implemented as a reengineering or remanufacturing of an existing electric fan, details of the existing fan may influence details of any particular implementation. Accordingly, other embodiments are within the scope of the following claims.