Ventilating exhaust fan

Information

  • Patent Grant
  • 6802770
  • Patent Number
    6,802,770
  • Date Filed
    Tuesday, December 3, 2002
    22 years ago
  • Date Issued
    Tuesday, October 12, 2004
    21 years ago
Abstract
An exhaust fan for use in bathrooms or similar areas has a generally rectangular fan housing formed from two independent structural members to reduce manufacturing waste and decrease production cost. The fan housing includes a receptacle panel that can be installed and removed from within the housing without additional tools. The fan housing includes two series of spaced view holes formed in its back wall such that during installation of the exhaust fan, the installer can view the ceiling joist to correctly position the fan housing relative to the bottom surface of the joist. The back wall of the fan housing also includes a pair of bend down tabs that can be placed in contact with the bottom surface of the joist to correctly position the bottom edge of the fan housing the required distance from the joist to accommodate the most common drywall thickness. The fan wheel contained within the fan housing includes a mounting hub having an expanded diameter insertion portion formed on its central bore to receive drive shaft of driving motor of the exhaust fan.
Description




BACKGROUND OF THE INVENTION




The present invention generally relates to a centrifugal ventilating exhaust fan, such as those typically utilized in bathrooms and other enclosed living spaces. More specifically, the present invention is a ventilating exhaust fan that includes an improved receptacle mounting panel, improved mounting alignment aids and an improved two-piece construction.




Ventilating exhaust fans, such as those typically included in bathrooms, draw air from within the enclosed area and pass the exhausted air out a vent in the gable or roof of the home. Ventilation is thus provided for the enclosed living space. Centrifugal exhaust fans include a rotating fan wheel having a plurality of vanes that create an outward airflow which, in turn, is directed out of an outlet opening by a curved fan scroll surrounding the fan wheel




Typical exhaust fans currently in use include a box-like housing positioned above a hole cut in the ceiling and are fastened to one of the ceiling joists. The fan wheel is typically directly coupled to a driving motor that is supported within the fan housing. A number of problems exist in such ventilating exhaust fans. Some of these problems arise during the installation of the fan to the ceiling joist. Since the ventilating exhaust fan is installed in new home constructions before the finishing drywall is put in place, the fan housing must be properly positioned along the ceiling joist to create the required spacing between the lower edge of the fan housing and the ceiling joist such that the drywall sheets properly abut against the edge of the ventilating exhaust fan.




In addition, the ventilating exhaust fan is typically connected to a supply of electricity to power the electric driving motor and possibly a lighting assembly associated with the exhaust fan. During installation, the supply of electricity must be fed into the enclosed fan housing and coupled to the wiring of the exhaust fan. Since the electric wiring of the exhaust fan is typically fixed within the fan housing, wiring of the ventilating exhaust fan during installation often proves to be cumbersome.




Therefore, it is an object of the present invention to provide a ventilating exhaust fan for bathrooms and other similar locations that includes a removable receptacle panel that can be removed from the fan housing to allow the exhaust fan to be connected to the electrical wiring of the home outside of the fan housing. Once the exhaust fan has been properly wired, the receptacle panel can be repositioned within the fan housing. It is a further object of the present invention to provide a fan housing that includes a series of vertically spaced view holes along the back wall of the fan housing to aid in the vertical alignment of the fan housing along the ceiling joist. Further, it is an object of the present invention to provide a pair of bend down tabs on the back wall of the fan housing to aid in vertically aligning the fan housing when the home in which the fan is being installed includes a common thickness of drywall. Further, it is an object of the present invention to provide a fan wheel that includes a mounting hub having an expanded inner diameter insertion portion that aids in the initial positioning of the fan wheel on the drive shaft of the electric driving motor. Finally, it is an object of the present invention to provide a fan housing formed from two pieces of bent, sheet-like material such that the fan housing can be constructed in a cost efficient manner.




Various other features, objects and advantages of the invention will be made apparent from the following description taken together with the drawings.




SUMMARY OF THE INVENTION




The exhaust fan of the present invention includes a generally rectangular fan housing with a base wall. When the exhaust fan is installed on a joist above the ceiling of a bathroom or similar enclosed area, the base wall forms the top of the housing. Two sidewalls, a front wall and a back wall depend from the base wall to define the generally rectangular fan housing. A fan scroll is positioned within the fan housing and is in contact with the base wall to form a centrifugal path leading to an exhaust opening formed in one of the sidewalls. The exhaust opening includes an outlet fitting to direct the flow of exhausted air from the bathroom or similar enclosed area.




The fan housing of the present invention is formed from a first structural member and a second structural member joined to each other. The first structural member is formed from a sheet of stamped material that is bent to form the front wall and a pair of sidewalls. The second structural member is also a sheet of stamped material that is bent to form the base wall and the back wall. The first structural member includes a pair of mounting flanges that align with a corresponding pair of mounting flanges formed on the second structural member when the first and second structural members are joined to form the fan housing. The double thickness of the material created by the overlapping mounting flaps increases the material thickness of the fan housing in the area where the fan housing is attached to the ceiling joist.




To enhance the ease of the electrical connection between the exhaust fan of the present invention and the electrical power supply within the home, the exhaust fan includes a removable receptacle panel that can be removed from the fan housing, connected to the electrical wiring and reinstalled within the fan housing after the wiring connections have been made. The receptacle panel includes a first locking tab that engages a slot formed in the front wall of the fan housing. A second locking tab formed on the base plate of the receptacle panel is received behind a retaining clip formed on one sidewall of the fan housing to secure the receptacle panel in its installed position.




The receptacle panel further includes a removal tab that can be grasped by the user to pull the receptacle panel from its frictional interaction with the retaining clip. In this manner, the receptacle panel can be easily installed and removed from within the fan housing without any tools.




In accordance with another aspect of the invention, the fan wheel includes a central mounting hub having a central bore whose internal diameter corresponds to the outer diameter of the motor shaft. The mounting hub further includes an insertion portion formed along the central bore near the outer end of the mounting hub. The insertion portion has an increased inner diameter such that the inner diameter of the insertion portion is slightly larger than the outer diameter of the drive shaft to facilitate the initial application of the fan wheel to the drive shaft.




The fan scroll mounted to the base wall of the fan housing includes a pre-load notch having a reduced height relative to the remaining portions of the fan scroll. The reduced height pre-load notch allows the installed motor support plate to pivot slightly within the fan housing and permit removal of the motor support plate from within the four walls defining the fan housing.




In yet another aspect of the invention, the back wall of the fan housing includes two series of view holes. Each series of view holes is positioned adjacent to a side edge of the back wall of the fan housing. The view holes of each series are vertically spaced from each other such that the view holes can be aligned with the bottom edge of a ceiling joist to provide the required spacing between the bottom edge of the ceiling joist and the bottom edge surface of the fan housing to accommodate the most common thicknesses of drywall.




In an additional feature of the invention, the back wall of the fan housing includes a pair of bend down tabs that can be bent to a horizontal position. When the bend down tabs are in their horizontal position, the bend down tabs can be placed in contact with the bottom edge of the ceiling joist to provide the required spacing between the ceiling joist and the bottom-most edge of the fan housing to accommodate the most popular thickness of drywall.











BRIEF DESCRIPTION OF THE DRAWINGS




The drawings illustrate the best mode presently contemplated of carrying out the invention.




In the drawings:





FIG. 1

is a perspective view of a ventilating exhaust fan of the present invention;





FIG. 2

is an exploded perspective view illustrating the internal components of the exhaust fan of the present invention;





FIG. 3

is a partial section view taken along line


3





3


of

FIG. 1

illustrating the interaction between the motor support plate and the fan scroll of the exhaust fan;





FIG. 4

is a partial section view taken along line


44


of

FIG. 3

further illustrating the interaction between a detent formed on the motor support plate and the fan scroll;





FIG. 5

is a section view taken along line


5





5


of

FIG. 1

illustrating the view holes formed in the back wall of the fan housing as used to aid in the vertical alignment of the fan housing along the ceiling joist;





FIG. 6

is a section view taken along line


6





6


of

FIG. 1

illustrating one of the bend down tabs used to vertically align the fan housing along the ceiling joist;





FIG. 7

is a partial top plan view illustrating a receptacle panel installed within the fan housing;





FIG. 8

is a section view taken along line


8





8


of

FIG. 7

illustrating the mounting of the receptacle panel within the fan housing;





FIG. 9

is a section view taken along line


9





9


of

FIG. 7

further illustrating the mounting of the receptacle panel within the fan housing;





FIG. 10

is a section view taken along line


10





10


of

FIG. 1

illustrating the construction of the exhaust flap positioned adjacent to the exhaust outlet of the fan housing;





FIG. 11

is a section view taken along line


11





11


of

FIG. 2

illustrating the mounting of the fan wheel onto the drive shaft of the driving motor;





FIG. 12

is an exploded perspective view illustrating the two-piece construction of the fan housing;





FIG. 12



a


is a front view illustrating the stamped sheet of material used to form the first structural member that defines the fan housing; and





FIG. 12



b


is a front view of the second structural member used to define the fan housing.











DETAILED DESCRIPTION OF THE INVENTION




Referring first to

FIG. 1

, thereshown is a ventilating exhaust fan


10


of the present invention. The exhaust fan


10


is typically used in an enclosed room of a home, such as an exhaust fan in a bathroom. In use, the fan


10


can be conveniently mounted in either the horizontal or vertical position. Thus, the fan


10


is fastened along one side to a ceiling joist or sub-joist or to a wall stud. A louver (not shown) extends below the ceiling or beyond the wall of the bathroom or other space. The exhaust fan


10


operates to draw air in through vents in the louver and discharge the airflow through an outlet fitting


12


. The outlet fitting


12


is connected to an exhaust duct that directs the airflow and discharges it out through a vent in the gable or roof of the home.




Referring now to

FIG. 2

, the exhaust fan


10


includes a fan housing


14


formed from sheet metal or other suitable material of a thickness sufficient to provide the necessary structural strength for the exhaust fan


10


. The fan housing


14


includes a back wall


16


, a front wall


18


, and a pair of sidewalls


20


and


22


. The back wall


16


, front wall


18


and sidewalls


20


and


22


are joined to form a generally rectangular enclosure having an open bottom end


23


and a top end closed by a base wall


24


, as best shown in FIG.


12


.




As illustrated in

FIGS. 12

,


12




a


and


12




b


, the fan housing


14


is a two-piece construction formed from a first structural member


26


and a second structural member


28


. The first structural member


26


is a flat sheet of material, such as galvanized steel, that is bent into the configuration shown in

FIG. 12

to define the front wall


18


and the pair of sidewalls


20


and


22


. In addition, the first structural member


26


defines an outlet opening


30


having three extending outlet flanges


32




a


-


32




c.






The first structural member


26


includes a first pair of mounting flanges


34




a


and


34




b


that each extend perpendicular to one of the sidewalls


20


and


22


. As can be understood in

FIGS. 12 and 12



a


, each of the mounting flanges


34




a


and


34




b


are bent at an angle of 90° relative to the respective sidewall


20


,


22


to which it is attached. Each mounting flange


34




a


,


34




b


includes an attachment hole


36


through which a support member, such as a screw, passes to support the fan housing


14


on the ceiling joist.




Referring now to

FIGS. 12 and 12



b


, the second structural member


28


is a flat sheet of material, such as galvanized steel, that is bent to define both the back wall


16


and the base wall


24


. The second structural member


28


includes a second pair of mounting flanges


38




a


and


38




b


that each extend directly from the back wall


16


and each include an attachment hole


40


. When the first structural member


26


and the second structural member


28


are joined to each other, the first pair of mounting flanges


34




a


and


34




b


are aligned with the second pair of mounting flanges


38




a


and


38




b


such that the material thickness is doubled in the area of the fan housing


14


that supports the fan housing on the ceiling joist. The second structural member


28


includes peripheral edge tabs


42


that are bent over and used to join the first structural member


26


to the second structural member


28


in a conventional manner.




In the embodiment of the invention illustrated, both the first structural member


26


and the second structural member


28


are stamped from sheets of galvanized steel, which produces only small amounts of scrap. In both the first and second structural members, the mounting flanges are formed from the continuous sheet of material, such that the mounting flanges do not need to be attached to the fan housing


14


after the fan housing has been assembled. In prior fan housings for similar exhaust fans, the mounting flanges are either attached to the fan housing in a separate step or each of the sidewalls


20


and


22


, as well as the back wall


16


, are formed from separate sheets of material to create the double thickness of material in the mounting flanges. By utilizing the two-piece construction of the present invention, significant material and labor costs can be saved during construction of the fan housing


14


.




As can be understood in

FIG. 12

, the fan housing


14


is formed from two individual pieces of material that are each bent to desired configuration and joined to each other. Most importantly, the two-piece configuration for the fan housing


14


provides for a double material thickness in the area of the fan housing that supports the weight of both the fan housing


14


and the internal operating components.




Referring now to

FIG. 2

, the fan housing


14


generally defines an open interior that includes a curved sheet of metallic material that defines a centrifugal fan scroll


44


. As can be seen in

FIG. 12

, top edge surface


46


of the fan scroll


44


contacts the inner surface of the base wall


24


. Fan scroll


44


is secured to the sidewall


22


, back wall


16


and the front wall


18


. The fan scroll


44


includes a bottom edge surface


48


that includes a reduced height pre-load notch


50


, the significance of which will be discussed in greater detail below. The fan scroll


44


defines a fan wheel chamber


52


that is sized to receive a fan wheel


54


, as best illustrated in FIG.


2


. The fan wheel


54


includes a plurality of individual vanes that create a centrifugal flow of air when the fan wheel


54


rotates. The fan wheel


54


is mounted to a driving motor


56


that is operable to rotate the fan wheel to create a flow of air out of the outlet opening


30


and through the outlet fitting


12


. The motor


56


is supported within the fan wheel chamber


52


by a motor support plate


58


and an attached motor mounting bracket


60


.




Referring now to

FIGS. 2 and 3

, the motor support plate


58


includes a first peripheral edge flange


62


having a pair of tabs


64


that extend completely through corresponding slots


66


formed in the sidewall


22


of the fan housing


14


. The interaction between the pair of tabs


64


formed on the motor support plate


58


and the slots


66


formed in the sidewall


22


aid in holding the motor support plate


58


within the fan housing


14


against the force of gravity.




Once the pair of tabs


64


have been inserted into the slots


66


in the sidewall


22


, the opposite edge of the motor support plate


58


can be pushed upward, as illustrated by arrow


68


, until an angled tab


70


formed on a second peripheral edge flange


72


engages a slot


74


formed in the sidewall


20


. When the angled tab


70


is received within the slot


74


, the motor support plate


58


is securely held within the open interior of the fan housing


14


between the rectangular sidewalls


20


and


22


.




When the motor support plate


58


is installed within the fan housing


14


, as best illustrated in

FIG. 3

, a detent


76


stamped into the motor support plate


58


contacts the bottom edge surface


48


of the fan scroll


44


. The detent


76


spaces the remaining portions of the motor support plate


58


slightly above the bottom edge surface


48


of the fan scroll


44


. The pre-load notch


50


formed on the fan scroll


44


creates a larger physical separation between the motor support plate


58


and the fan scroll


44


in that area, which allows the motor support plate


58


to move slightly upward, as illustrated by arrow


68


, such that the angled tab


70


can be removed from slot


74


to permit the motor support plate


58


to be removed from within fan housing


14


. Without the decreased height of the fan scroll


44


along the area identified by the pre-load notch


50


, removal of the motor support plate


58


would be much more difficult due to the nearly identical dimensions of the fan housing


14


and the motor support plate


58


.




Referring back to

FIG. 2

, the exhaust fan


10


includes a receptacle panel


78


that supports at least one electrical receptacle


80


within the fan housing


14


. In the embodiment of the invention illustrated, the single electrical receptacle


80


receives the plug


81


of the motor


56


. An additional electrical receptacle


80


could also be supported by the receptacle panel


78


to provide power for an optional lighting assembly (not shown). Electrical receptacle


80


includes a pair of wires


82


that are connected to the supply of electricity for the home in which the exhaust fan


10


is installed to provide power for the fan. In accordance with the present invention, the receptacle panel


78


is removably mounted within the fan housing


14


and can be removed and installed without the aid of any tools. The wires


82


are field-connected to power source wires that pass through a wire plate


84


connected to both the base wall


24


and the sidewall


20


. The wire plate


84


includes a horizontal access hole


86


and a vertical access hole


88


to permit the power source wires to pass through either the base wall


24


or the sidewall


20


. The vertical access hole


88


is shown in the preferred embodiment of the invention as including a knockout that can be removed if vertical wiring access is required. The wire plate


84


can be removed from the fan housing


14


to provide unlimited wiring access from the outside of the fan housing


14


. The wire plate


84


can be reverse-mounted to the fan housing


14


to permit the power source wires to pass through either the base wall


24


or the sidewall


20


without removing the knockout.




Referring now to

FIG. 9

, the receptacle panel


78


generally includes a horizontal base plate


90


and a first locking tab


92


that extends vertically from the base plate


90


. Locking tab


92


extends through a mounting slot


94


formed in the front wall


18


to aid in holding the receptacle panel


78


in contact with the front wall


18


. Additionally, a pair of ears


96


extend vertically from the base plate


90


and pass through corresponding slots in the front wall


18


to aid in holding the receptacle panel


78


in place.




After the locking tab


92


and ears


96


are positioned in the corresponding slots in the front wall


18


, a locking flange


98


extending vertically from the base plate


90


is pressed behind a retaining clip


100


formed as part of the sidewall


20


. The retaining clip


100


includes a curved portion


102


that is received within an open notch


104


formed in the locking flange


98


such that the retaining clip


100


retains the receptacle panel


78


in the position shown.




When the receptacle panel


78


is pressed into its installed position as shown in

FIG. 8

, a spacer tab


106


protruding from the base plate


90


contacts the bottom edge surface


48


of the fan scroll


44


to create an opening


108


between the base plate


90


and the fan scroll


44


. The opening


108


provides adequate spacing between the base plate


90


and the fan scroll


44


to allow a wire


82


of the receptacle


80


to pass between the top edge


48


of the fan scroll


44


and the base plate


90


. The spacing between the base plate


90


and the fan scroll


44


prevents inadvertent severing of the wire


82


during installation of the receptacle panel


78


.




Referring now to

FIGS. 7 and 9

, the receptacle panel


78


further includes a horizontal removal tab


110


that can be grasped by the user to pull the receptacle panel


78


from its installed position. Specifically, the removal tab


110


is positioned between the fan scroll


44


and the sidewall


20


and can be grasped by the user to pull the receptacle panel


78


out of the fan housing


14


, as illustrated by arrow


112


, against the frictional interaction formed between the retaining clip


100


and the locking flange


98


.




The removable receptacle panel


78


of the present invention allows a builder or electrician installing the exhaust fan


10


to connect the wires


82


to the supply of electricity for the house outside of the fan housing


14


. Once the wires


82


have been connected to the supply of electricity for the home, the wires


82


can be pulled through the fan housing


14


and the receptacle panel


78


installed within the fan housing


14


as previously described.




Referring now to

FIGS. 1 and 5

, the back wall


16


of the fan housing


14


includes two series of vertically spaced view holes


114


. The view holes


114


allow the installer of the exhaust fan


10


to look through the back wall


16


and the open interior defined by the fan housing


14


and view the position of the ceiling joist


116


relative to the fan housing


14


. The view holes


114


are spaced from each other by set distances to accommodate common thickness' of drywall. For example, the uppermost hole


114




a


shown in

FIG. 5

can be aligned with the bottom of the joist


116


when drywall having a thickness of 1¼ inches is utilized. The middle hole


114




b


corresponds to one inch thick drywall, while the bottom hole


114




c


is spaced for use with ⅝ inch thick drywall. In the preferred embodiment of the invention, an indicia corresponding to the drywall thickness for the individual view hole


114


is stamped into the back wall


16


immediately next to the view hole


114


.




In the past, the installer of an exhaust fan had to measure the distance from the bottom edge of the fan housing


14


to the bottom of the joist in order to determine the proper placement of the fan housing. By utilizing the two spaced series of view holes


114


, the installer or electrician can not only correctly space the bottom edge of the fan housing from the bottom of the ceiling joist, but also ensure that the fan housing


14


is level by properly aligning the two series of view holes


114


.




Referring now to

FIGS. 1 and 6

, the back wall


16


further includes a pair of bend down tabs


118


that can be moved from the generally vertical, storage position shown in

FIG. 1

to a horizontal, operating position shown in FIG.


6


. When the bend down tabs


118


are in the horizontal, operating position, the tabs


118


can be pressed against the bottom edge of the ceiling joist


116


to provide the required spacing for ½ inch thick drywall


119


, which is the most common drywall used in newly constructed homes. Thus, if the installer or builder knows that ½ inch thick drywall is going to be used in the bathroom in which the exhaust fan


10


is installed, the installer can press the bend down tabs


118


into their horizontal position, as indicated by arrow


120


, and place the bend down tabs


118


in contact with the bottom edge surface of the ceiling joist


116


, thus quickly and accurately positioning the fan housing


14


on the ceiling joists


116


. In addition to being contained on the back wall


116


, a pair of similar bend down tabs


118


can also be formed in the front wall


18


of the fan housing


14


, as illustrated in FIG.


1


. In this manner, the two pair of bend down tabs


118


can be used to level and support the fan housing


14


between adjacent ceiling joists


116


.




Referring now to

FIG. 10

, the outlet fitting


12


includes a plastic damper flap


122


that pivots about a pivot pin


124


to open or block access to the outlet opening


30


formed in the fan housing


14


. When the motor


56


and fan wheel


54


are rotating, airflow from the exhaust fan


10


forces the damper flap


122


to rotate outward in a clockwise direction to permit airflow to be vented to the outside of the home. However, when the motor


56


and fan wheel


54


are inactive, a back draft causes the damper flap


122


to rotate in the counter-clockwise direction to prevent the back draft from entering into the bathroom or enclosed area in which the exhaust fan


10


is mounted.




In the preferred embodiment of the invention illustrated, a pair of stop pins


126


extend from the back face surface


127


of the damper flap


122


and contact a stop surface


128


formed in the outlet fitting


12


. The stop pins


126


provide small points of contact with the stop surface


128


to reduce the amount of noise generated when the damper flap


122


is pressed against the stop surface


128


by a back draft. In previous embodiments of similar exhaust fans, entire damper flap


122


contacts the stop surface


128


and generates a perceptible amount of flapping noise.




Referring now to

FIG. 11

, the fan wheel


54


includes a central mounting hub


130


having independent fingers


131


that receives a drive shaft


132


of the driving motor


56


. The mounting hub


130


includes a central bore


134


having an internal diameter approximately equal to the outer diameter of the drive shaft


132


. A retaining band


133


surrounds the base of the independent fingers


131


to limit the outward flexing of the fingers


131


. Thus, the mounting hub


130


is sized to receive the drive shaft


132


and retains the drive shaft


132


in the central bore


134


through a tight friction fit.




In accordance with the present invention, an insertion portion


136


is formed in the outer end of the mounting hub


130


to aid in insertion of the drive shaft


132


into the mounting hub


130


. The insertion portion


136


is counterbored in the fingers


131


and has an inner diameter that is slightly greater than the inner diameter of the remaining portion of the central bore and thus slightly larger than the outer diameter of the drive shaft


132


. In this manner, the drive shaft


132


can be easily inserted into the insertion portion


136


without any force being applied between the drive shaft


132


and the fan wheel


54


. This feature is particularly important during assembly of the exhaust fan


10


since the fan wheel


54


is initially applied to the drive shaft


132


by a human assembly person during fabrication of the exhaust fan


10


. After the human assembly person has placed the fan wheel


54


on the drive shaft


132


, an automated machine presses the fan wheel


54


completely downward onto the drive shaft


132


to finally install the fan wheel


54


on the drive shaft


132


. Without the insertion portion


136


, the human assembly person would have a significantly more difficult time initially placing the fan wheel


54


on the drive shaft


132


.




Various alternatives and embodiments are contemplated as being within the scope of the following claims particularly pointing out and distinctly claiming the subject matter regarded as the invention.



Claims
  • 1. A ventilation exhaust fan, comprising:a two-piece housing having six sides surrounding and defining an interior space of the housing, the six sides including five sides defined by walls of the housing and a sixth open side; first and second housing portions defining the five sides of the housing, wherein the first housing portion is formed from a single substantially flat sheet of material; and the second housing portion is formed from a single substantially flat sheet of material; a fluid outlet through which fluid exits the housing, the sixth open side of the housing permitting access into the housing and through which fluid is received within the housing; a fan wheel rotatably positioned within the housing; and a motor supported within the housing and coupled to the fan wheel, the motor operable to rotate the fan wheel in the housing to direct a flow of fluid out of the fluid outlet.
  • 2. A ventilation exhaust fan, comprising:a two-piece housing having a first housing portion formed from a single substantially flat sheet of material; a second housing portion formed from a single substantially flat sheet of material; a fluid outlet through which fluid exits the housing; and an open side permitting access into the housing and through which fluid is received within the housing; a fan wheel rotatably positioned within the housing; and a motor supported within the housing and coupled to the fan wheel, the motor operable to rotate the fan wheel in the housing to direct a flow of fluid out of the fluid outlet; wherein the first housing portion defines three sides of the housing and the second housing portions defines two other sides of the housing.
  • 3. The ventilation exhaust fan as claimed in claim 1, wherein the first and second housing portions each have a mounting portion at which the housing is mounted to a structural member, the mounting portion of the first housing portion overlapping the mounting portion of the second housing portion.
  • 4. The ventilation exhaust fan as claimed in claim 1, wherein the mounting portions are flanges of the first and second housing portions.
  • 5. The ventilation exhaust fan as claimed in claim 1, further comprising a plate coupled to the housing and substantially covering the open side of the housing to enclose the fan wheel within the housing.
  • 6. The ventilation exhaust fan as claimed in claim 1, wherein at least one of the first and second housing portions is shaped to define the fluid outlet.
  • 7. A ventilation exhaust fan, comprising:a two-piece box-shaped housing substantially enclosing an interior space on five sides and having a substantially open sixth side, the housing having a first piece substantially defining first, second, and third sides of the housing; and a second piece substantially defining fourth and fifth sides of the housing, each of the first and second pieces being a single integral element of sheet material; a fan wheel rotatably positioned within the housing; and a motor supported within the interior space of the housing and coupled to the fan wheel, the motor operable to rotate the fan wheel in the housing to direct a flow of fluid out of the fluid outlet.
  • 8. The ventilation exhaust fan as claimed in claim 7, further comprising a fan scroll located within the housing and at least partially encircling the fan wheel.
  • 9. The ventilation exhaust fan as claimed in claim 7, wherein a portion of the first piece overlaps a portion of the second piece, the portions of the first and second pieces defining a strengthened mounting location of the housing adapted for mounting the ventilation exhaust fan to a structural member.
  • 10. The ventilation exhaust fan as claimed in claim 9, further comprising at least one mounting aperture passing through the portions of the first and second piece, the mounting aperture dimensioned to receive a fastener therethrough.
  • 11. The ventilation exhaust fan as claimed in claim 7, wherein the first and second overlapping portions of the first and second pieces are flanges extending from the first and second pieces, respectively.
  • 12. The ventilation exhaust fan as claimed in claim 7, further comprising a plate positioned to cover a sixth side of the interior space.
  • 13. The ventilation exhaust fan as claimed in claim 7, wherein one of the first and second pieces is shaped to at least partially define a fluid outlet of the housing through which fluid exits the housing.
  • 14. A method of manufacturing a ventilation exhaust fan, comprising:forming a first housing portion from a substantially flat piece of sheet material; forming a second housing portion from a substantially flat piece of sheet material; coupling the first and second housing portions together to define a housing having an interior space substantially enclosed on all but one first side by the first and second housing portions; forming first, second, and third sides of the housing from the first housing portion; forming fourth and fifth sides of the housing from the second housing portion; coupling the motor to the housing; inserting a fan wheel within the housing; and drivably coupling the fan wheel to the motor.
  • 15. The method as claimed in claim 14, wherein forming the first and second housing portions includes bending the substantially flat pieces of material.
  • 16. The method as claimed in claim 14, wherein forming the first and second housing portions includes bending tabs located on peripheries of the first and second housing portions.
  • 17. The method as claimed in claim 16, wherein coupling the first and second housing portions together includes coupling tabs of the first and second housing portions together.
  • 18. The method as claimed in claim 14, further comprising overlapping portions of the first and second housing portions to define at least one mounting portion of the housing, mounting portion having at least one aperture therethrough dimensioned to receive a fastener.
  • 19. The method as claimed in claim 14, further comprising coupling a plate to the first and second housing portions to substantially enclose the interior space of the housing.
  • 20. The method as claimed in claim 14, further comprising coupling a fan scroll in the housing in a position at least partially encircling the fan wheel.
Parent Case Info

This application is a continuation of Ser. No. 09/907,134 filed Jul. 17, 2001 now U.S. Pat. No. 6,488,579, which is a continuation of Ser. No. 09/465,252 filed Dec. 18, 1999 now U.S. Pat. No. 6,261,175.

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Continuations (2)
Number Date Country
Parent 09/907134 Jul 2001 US
Child 10/308932 US
Parent 09/465252 Dec 1999 US
Child 09/907134 US