An airflow control damper is a valve that stops or regulates the flow of air in a duct or other air handling equipment. An airflow control damper can be used to stop or reduce flow of conditioned air to a room or section of a home or building, or to permit/deny a specific airflow stream to be introduced into a closed system. Airflow control dampers are often divided into two main categories; manual or automatic. Manual dampers may be actuated with the use of an exterior handle, while automatic dampers may be actuated by means of an electric or pneumatic device that supplies motive power to the damper valve. The motive power can be used to either exclusively open or close the damper, or to both open and close the damper. In a motorized or pneumatic actuated damper where the actuation is constant and occurs in only one direction, a mechanical storage device, such as a spring, is used to return the valve plate to the “normal” position in the absence of motive power. A damper such as this will be fully open or fully closed when powered or unpowered and is often the least expensive style of automatic damper for certain applications.
In a typical configuration, the damper uses a rotating shaft with a valve plate affixed to it. The rotation of the shaft determines the position of a valve plate. In turn, the position of the valve plate regulates the amount of resistance on the airflow through the damper. The position of the valve plate is changed according to the attached rod coupler that interfaces with the motivating power device. This coupler or means of coupling the motivating power to the damper plate is common in automatic dampers. A plate parallel to the airflow provides nearly unrestricted flow, while a plate position perpendicular to the flow maximizes restriction of the airflow through the damper. Plate positions other than these two extremes will result in flow consistent with the characteristics of the fluid, determined by the temperature and quality of the air. The position of the damper plate in relation to airflow is not linear; 20% open does not equate to 20% flow.
In some situations, it is desirable to adjust the damper so that it operates in positions other than fully closed or fully open. Manual dampers are sometimes equipped with locking mechanisms that indicate the position of the plate. This allows the user to adjust the airflow. Some automatic dampers also employ systems to adjust airflow based on the relative position of the valve plate. Moderately expensive adjustable automatic dampers use end-stops about the valve plate coupler to limit the positions. Like the inexpensive full-open/full-closed dampers, these types also utilize constant actuation with spring-return when un-powered. More expensive automatic dampers apply actuation in both directions and can also limit the plate position via end-stops. Some automatic dampers typically employ open or closed loop systems with stepper or brushless DC motors. These types offer proportional control via an 0-10V or 4-20 mA signal wire to maintain their plate position. This is often the most expensive option for automatic airflow control.
Due to the variation in equipment and uniqueness of each HVAC or ventilation system, it is important for a general purpose automatic airflow control damper to be as versatile as possible. In some cases, it is important that the damper does not completely stop the flow of air when closed, as this condition can cause damage to a blower system; especially if the damper is acting in conjunction with others. Alternatively, it is sometimes beneficial to restrict some airflow in the “open” state to properly balance a system.
There are currently damper systems on the market that satisfy system variables, however these systems are often expensive and complicated putting them out of reach for the average home or building owner.
It is an object of the present invention to provide a versatile general purpose duct damper which is capable of meeting many different types of needs.
It is a feature of the present invention for the coupler assembly to enable switching a normally open configuration to a normally closed configuration.
It is an advantage to provide a retail general purpose duct damper with a single SKU which is easily configurable to be used in a wide variety of applications.
Accordingly the present invention is a remote controlled adjustable duct damper comprising:
Additionally the present invention is the remote controlled adjustable duct damper comprising:
Now referring to the drawings, wherein like numerals refer to like matter throughout and more particularly referring to
The present invention is made up of a sheet metal damper 1200 and a control system 1300. The sheet metal damper 1200 comprises a damper duct 101, a damper plate 106 and a damper plate shaft 132. The control system 1300 comprises a motor bracket 120, a two-part coupler 1100, extension spring 108, motor 110, and screws 124 and 130. See
The adjustable outer arm 118 is designed as a ring 116 on one end that fits around the coupler 100. The ring 116 has two screw bosses that can accept a self-tapping screw 124. The adjustable outer ring 116 slides onto the coupler 100 and is rotated into position. Once in the desired position, the self-tapping screw 124 is used to affix the outer adjustable arm 118 to the coupler 100.
A hysteresis motor 110 with integrated gear reduction is used. It is mounted to a motor bracket 120 that is also used to attach one end of an extension spring 108. The other end of the extension spring 108 is attached to the coupler 100 and exerts a force opposed to the rotation of the energized motor 110. When de-energized the motor 110 is back driven by the spring 108. This de-energized position is considered the “normal” or “return” position since it is the position the damper will be in when unpowered.
The standard arrangement for the damper is to be open when the motor 110 is not energized (normally open). When the inner arm 102 on the coupler 100 and the adjustable outer arm 118 are aligned, the damper will act as a traditional two-position damper; open will be parallel to the air flow (100% open), see
Alternatively, the damper can also be adjusted to operate as normally closed (closed when the motor is de-energized), this is done by loosening the outer adjustment arm 118 and sliding it forward to expose the screw 130 fastening the coupler 100 to the damper plate shaft 132. This screw 130 is then loosened and, while keeping the inner coupler arm in the same position (relative to the motor 110 and bracket 120), the damper plate shaft 132 is rotated 90 degrees to the desired position. The coupler screw 130 is then tightened; outer adjustment arm 118 is slid back into place, positioned, and fastened to the coupler. The adjustments to either the powered or unpowered position are as described above for the normally-open damper, but reversed.
An additional benefit of this method is that in the event the outer adjustment arm is misplaced or otherwise damaged/loose, the damper will “fail-safe” as a standard full-open, full-closed automatic damper.
It is thought that the method and apparatus of the present invention will be understood from the foregoing description and that it will be apparent that various changes may be made in the form, construct steps and arrangement of the parts and steps thereof without departing from the spirit and scope of the invention or sacrificing all of their material advantages. The form herein described is merely a preferred and/or exemplary embodiment thereof.
The present application claims the benefit of the filing date of provisional patent application having Ser. No. 62/736,224 filed on Sep. 25, 2018 by the same inventors, which application is incorporated herein in its entirety by this reference.
Number | Date | Country | |
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62736224 | Sep 2018 | US |