The present invention relates to rooftop ventilation systems.
Rooftop ventilation systems are employed in various applications. They are used in general ventilation applications to exhaust air from a building. They are also employed on rooftop commercial kitchens to exhaust smoky and grease-laden air that is exhausted through a kitchen hood. These ventilation systems must be cleaned, maintained and even inspected by regulatory officials. This means that they must be opened in order that access can be gained to components of the exhaust fan and to an underlying duct. Opening some rooftop exhaust systems and maintaining them opened is not always easy. Once opened, the task becomes maintaining them opened without inadvertently closing.
The present invention relates to a rooftop exhaust fan that is pivotally mounted to a curb or other support structure and which in response to pivoting the exhaust fan from a closed position to an inclined open position, the exhaust fan is automatically locked in the inclined open position.
In one particular embodiment, a spring loaded locking pin is disposed adjacent the exhaust fan. As the exhaust fan is pivoted from the closed position towards the open position, the locking pin engages and rides on a cam surface until a locking pin opening aligns with the locking pin, after which the spring loaded locking pin is projected into the locking pin opening, thereby stationing and locking the exhaust fan in an inclined open position.
In another embodiment, a pivot art is attached to the exhaust fan and in the course of pivoting from the closed position to the open position, the exhaust fan rotates about an axis. The cam surface and locking pin opening are formed on the pivot arm. As the pivot arm pivots with the exhaust fan, the cam surface is brought in contact with the locking pin and moves the locking pin against the biasing force of the spring, after which the locking pin opening comes into alignment with the locking pin and the locking pin springs back and is projected into the locking pin opening.
Other objects and advantages of the present invention will become apparent and obvious from a study of the following description and the accompanying drawings which are merely illustrative of such invention.
With further reference to the drawings, an exhaust fan or exhaust fan assembly is shown therein and indicated generally by the numeral 10. In the embodiment illustrated, the exhaust fan is what is generally referred to as an upblast type. It is understood and appreciated by those skilled in the art that the present invention can easily be employed with a downblast-type exhaust fan. As noted above, the exhaust fan 10 can be used for general ventilation or can be used in conjunction with a commercial kitchen to exhaust smoky and grease-laden air that emanates from a cooking surface generally disposed underneath a hood.
Viewing the exhaust fan in more detail, it is seen that the same includes a base 12. Extending upwardly from the base 12 is a baffle 13. Baffle 13 transitions into an apron 14. Apron 14 forms a large bowl having a central opening that is aligned with the baffle 13.
Exhaust fan 10 is provided with a means for inducing air to move upwardly through the exhaust fan where the air is exhausted to the atmosphere. Various fan and motor arrangements can be incorporated into the exhaust fan 10. In this exemplary embodiment, the exhaust fan 10 includes a fan wheel or propeller for generating an upwardly moving system of air. In the case of the exhaust fan assembly shown in the drawings, a fan wheel is provided. It is understood and appreciated to those skilled in the art that various types of fans can be incorporated into the exhaust fan assembly 10. Fan wheel 16 is centrally mounted in the exhaust fan 10 and is supported by internal structure that is well appreciated by those skilled in the art. Fan wheel 16 is driven by a motor 18. Typically the motor 18 is aligned with and disposed over or under the fan wheel or propeller in the case of a direct drive design. Generally when a direct drive is employed, the fan wheel or propeller is essentially mounted to the drive shaft of the motor 18 or to an extension therefrom. In other cases, the fan wheel or propeller can be driven from a side mounted motor through a belt drive.
In order to protect the motor 18, as well as the fan wheel or propeller, the exhaust fan is provided with a housing 20. Note that the housing 20 partially encompasses both the motor 18 and the fan wheel 16. When the fan wheel 16 is driven by the motor 18, this results in a system of air moving upwardly through the exhaust fan 10. There is provided an annular opening formed generally between the housing 20 and the apron 14. It is through this annular opening that the air is exhausted from the exhaust fan.
Typically, the exhaust fan 10 is of the type that is mounted on the roof of a building. See
As discussed above, the exhaust fan 10 is pivotally mounted to the curb or support structure 22 such that it can move from a closed position (
In order to secure the exhaust fan 10 in the inclined open position for maintenance, cleaning or inspection, the exhaust fan of the present invention is provided with a locking assembly, indicated generally by the numeral 30, for stationing and locking the exhaust fan in the inclined open position. Viewing the locking assembly 30 in detail, a support plate 32 is fixed to the curb or other support structure 22. A locking pin 34 is supported on the support plate 32. In particular, the locking pin 34 is held by a locking pin holder 36 that projects outwardly from the support plate 32. Locking pin holder includes an upper plate 36A and a pair of spaced apart flanges 36B and 36C. See
A tab 40 extends outwardly from one edge of the support plate 32. See
A pivot arm 50 is connected to the exhaust fan 10. In the case of this embodiment, as shown in the drawings, the pivot arm 50 is fixed to the base 12 of the fan assembly 10. Pivot arm 50 in this embodiment assumes a generally L-shape. Another portion of the pivot arm 50 is pivotally connected to the plate 32 about pivot pin 60 or another adjacent fixed structure. It is the pivot arm 50 that enables the exhaust fan to be pivoted back and forth between the closed and open positions.
Pivot arm 50 includes a flange 50A that projects outwardly from the pivot arm. Flange 50A about a terminal end thereof includes a cam surface or ramp 52 disposed on one terminal end. Furthermore, formed in the flange 50A is a locking pin opening 54. Note that the cam surface 52 and the locking pin opening 54 lie in the same plane as the locking pin 34. As seen in the drawings, when exhaust fan 10 assumes the closed position, the cam surface 52 is angled with respect to that portion of the flange 50A that contains the locking pin opening 54. In this position, the cam surface 52 lies above the locking pin opening 54.
A brief review of the locking assembly 30 and how it stations and locks the exhaust fan 10 in the inclined open position follows. To gain access to the interior of the exhaust fan 10 and to at least a portion of the curb 22, the exhaust fan is pivoted from the closed position to the inclined open position. As the exhaust fan is rotated clockwise, as viewed in
To bring the exhaust fan 10 back to the closed position, the locking pin 34 is manually retracted from the locking pin opening 54 and the fan assembly is slowly lowered from the open position to the closed position where the base 12 of the fan assembly 10 seats on the curb or support structure 22.
There are many advantages to the automatic locking assembly 30 that is incorporated into the exhaust fan 10. First, the locking assembly 30 is simple in design and operation. Secondly, the locking assembly 30 is designed such that it will automatically lock the exhaust fan 10 in the inclined open position simply as a result of the exhaust fan being sufficiently rotated to engage the locking assembly. Finally, the locking assembly is strong and robust and designed to securely support the weight of the fan assembly when it assumes the inclined opening position.
The present invention may, of course, be carried out in other specific ways than those herein set forth without departing from the scope and the essential characteristics of the invention. The present embodiments are therefore to be construed in all aspects as illustrative and not restrictive and all changes coming within the meaning and equivalency range of the appended claims are intended to be embraced therein.