Door closers provide an automatic function of closing a door and help to ensure that doors are not inadvertently left open. Many conventional door closers are mechanically actuated and have a piston and one or more compression springs and ports. The compression spring provides the force for moving the door toward a closed position. A door closer is sized, or has a force setting, based on pre-loading of the compression spring with an initial bias in accordance with American National Standards Institute (ANSI) standards. ANSI standards specify the minimum force required to close a door as sizes 1 through 6, with 6 being the greatest closing force of the door closer.
During use of a door closer, the piston moves through a reservoir filled with a hydraulic fluid, such as oil. The piston is coupled to the door closer's arm such that, as the door is opened, the piston is moved in one direction and, as the door is closed, the piston is moved in the opposite direction. As the piston moves, it displaces hydraulic fluid, which may be forced through various ports. The force exerted by the door closer depends on loading of the compression spring and the speed of the action depends on the open or closed status of the ports. The ports are adjustable (open or closed) via needle valves that control flow of hydraulic fluid, and the compression spring setting may or may not be adjustable based on the construction of the door closer.
The compression spring must be set properly for a given door and installation. While some door closers are not adjustable and are designed to meet only one size, most are adjustable and cover the entire range of sizes 1 through 6. These must be adjusted during or after installation to meet the requirements of that particular opening. Commonly this is done by the manufacturer specifying a number of turns of a screw that extends from one end of the closer to pre-load the compression spring. Turning the screw in one direction increases the pre-load of the compression spring, while turning the screw in the other direction reduces the pre-load. There is no visible result external to the housing of the door closer from turning the screw. While certain attempts have been made at providing external indication of size, there exists a need for a door closer with a spring power setting indicator that improves ease of manufacture and installation.
In accordance with one embodiment of a closer, a closing apparatus for a wing is provided, comprising a closer housing, a piston, a compression spring, an adjustment screw, a collar, and a ball. The closer housing is adapted to be mounted to a wing or structure adjacent to a wing and has a first end, a second end, and a longitudinal axis extending between the two ends. The piston is disposed in the closer housing for reciprocal movement along the longitudinal axis. The compression spring is disposed in the closer housing and has a first end abutting the piston and a second end disposed between the compression spring first end and the closer housing second end. The adjustment screw is at least partially disposed in the closer housing along the longitudinal axis and proximate to the housing second end. The collar is disposed in the closer housing and defines a threaded opening through which the adjustment screw passes. The threads of the adjustment screw engage the threads of the opening. The collar is adapted to travel along the adjustment screw as the screw is turned, has a first face abutting the second end of the compression spring, and has a circular periphery, a second face having a circular periphery, and a side extending between the circular periphery of the first face and the circular periphery of the second face. The side of the collar defines an annular channel. A magnetic ball that is a permanent magnet is disposed in the annular channel.
The closing apparatus may also include an indicator housing mounted to the closer housing external to the closer housing, and the indicator housing may define an elongated passage. A magnetically permeable element, such as a magnetic ball that is a permanent magnet, may be disposed in the elongated passage of the indicator housing.
In accordance with another embodiment described herein, a spring power setting indicator for a closing apparatus for a wing including a closer housing in which a compression spring is disposed is provided. The spring power setting indicator includes a collar defining a threaded opening adapted to engage an adjustment screw for adjusting the bias of the compression spring. The collar has a first face adapted to abut the second end of the compression spring and has a circular periphery, a second face having a circular periphery, and a side extending between the circular periphery of the first face and the circular periphery of the second face. The side defines an annular channel. A magnetic ball that is a permanent magnet is disposed in the annular channel.
The spring power setting indicator may also include an indicator housing mounted to the closer housing external to the closer housing, and the indicator housing may define an elongated passage. A magnetically permeable material, such as a magnetic ball that is a permanent magnet, may be disposed in the elongated passage of the indicator housing.
In accordance with another embodiment described herein, a method of making a closing apparatus for a wing is provided. The method includes providing a closer housing adapted to be mounted to a wing or structure adjacent to a wing and having a first end, a second end, and a longitudinal axis extending between the ends. A piston is disposed in the closer housing for reciprocal movement along the longitudinal axis. A compression spring is disposed in the closer housing, and has a first end abutting the piston and a second end disposed between the compression spring first end and the closer housing second end. An adjustment screw is disposed at least partially in the closer housing along the longitudinal axis and proximate to the housing second end. A collar is disposed in the closer housing, and the collar defines a threaded opening through which the adjustment screw passes, with the threads of the adjustment screw engaging the threads of the opening, such that the collar is adapted to travel along the adjustment screw as the screw is turned. The collar has a first face abutting the second end of the compression spring and having a circular periphery, a second face having a circular periphery, and a side extending between the circular periphery of the first face and the circular periphery of the second face. The side defines an annular channel. A magnetic ball that is a permanent magnet is disposed in the annular channel.
In accordance with another embodiment described herein, a method of installing a closing apparatus for a wing is provided. The closing apparatus includes a closer housing adapted to be mounted to a wing or structure adjacent to a wing and has a first end, a second end, and a longitudinal axis extending between the ends. A piston is disposed in the closer housing for reciprocal movement along the longitudinal axis, and a compression spring is also disposed in the closer housing, having a first end abutting the piston and a second end disposed between the compression spring first end and the closer housing second end. An adjustment screw is disposed at least partially in the closer housing along the longitudinal axis and proximate to the housing second end. A collar is disposed in the closer housing, defining a threaded opening through which the adjustment screw passes. The threads of the adjustment screw engage the threads of the opening, and the collar is adapted to travel along the adjustment screw as the screw is turned. The collar has a first face abutting the second end of the compression spring with a circular periphery, a second face having a circular periphery, and a side extending between the circular periphery of the first face and the circular periphery of the second face. The side defines an annular channel and a magnetic ball that is a permanent magnet is disposed in the annular channel. An indicator housing is mounted to the closer housing external to the closer housing, and defines an elongated passage. A magnetic ball that is a permanent magnet is disposed in the elongated passage of the indicator housing. The method includes rotating the closer housing to cause the magnetic ball in the annular channel to be proximate to the magnetic ball in the elongated passage of the indicator housing, and mounting the closer housing to a wing or structure adjacent to a wing.
For a more complete understanding of embodiments of a door closer and associated methods, reference should now be had to the embodiments shown in the accompanying drawings and described below. In the drawings:
Certain terminology is used herein for convenience only and is not to be taken as a limitation on the embodiments described. For example, words such as “top”, “bottom”, “upper,” “lower,” “left,” “right,” “horizontal,” “vertical,” “upward,” and “downward” merely describe the configuration shown in the figures. Indeed, the referenced components may be oriented in any direction and the terminology, therefore, should be understood as encompassing such variations unless specified otherwise.
As used herein, the term “open position” for a door means a door position other than a fully closed position, including any position between the fully closed position and a fully open position as limited only by structure around the door frame, which can be up to 180° from the closed position.
Referring now to the drawings, wherein like reference numerals designate corresponding or similar elements throughout the several views, an embodiment of a door closer 20 is shown in
The embodiment of a door closer 20 of
An embodiment of a readable adjustment mechanism 50 is provided for adjusting the bias of the compression springs 28, 30 on the piston 26 and displaying the size, or force setting, of the door closer 20. As shown in
The readable adjustment mechanism 50 further includes an indicator housing 84 mounted to the outside of the closer housing 22. An embodiment of an indicator housing 84 is shown in
Referring again to
The indicator housing 84 may include indicia, such as numbers 106 or others markings 108 that correspond to a size of the closer 20. The magnetic ball 100 in the indicator housing 84 and the magnetic ball 82 in the annular channel 80 of the collar 56 are attracted to each other, and as the collar 56 moves with the ball 82 in the annular channel 80 based on the position of the collar 56 along the adjustment screw 52, the ball 100 in the indicator housing 84 moves likewise to remain aligned with the ball 82 in the annular channel 80. Thus, the position of the ball 82 in the annular channel 80 is tracked and duplicated by the ball 100 in the indicator housing 84 for displaying the position of the collar 56 via the indicator housing ball 100. The markings 106, 108 of size on the indicator housing are calibrated by the manufacturer for each specific closer model to correspond to ANSI sizes, and the position of the collar as shown by the indicator housing ball 100 and the indicia 106, 108 on the indicator housing 84 is a reading of the size.
The readable adjustment mechanism 50 may be used with a variety of door closers in addition to the door closer 20 depicted and described in
In manufacturing and installation of the door closer 20, no particular angular orientation of the collar 56 around the adjustment screw 52 is required in order for the placement of the magnetic ball 82 in the channel to be properly positioned. The ball 82 is free to move within the channel, and the closer housing 22 may be rotated to align the ball 82 in the channel with the ball 100 in the indicator housing 84. This may be done either during manufacturing of the door closer 20 or immediately prior to installation of the door closer 20.
Although the door closer described above has been shown and described in considerable detail with respect to only a few exemplary embodiments thereof, it should be understood by those skilled in the art that it is not intended to be limited to these embodiments since various modifications, omissions and additions may be made to the disclosed embodiments without materially departing from the novel teachings and advantages. For example, some of the novel features could be used with any type of wing closer. Accordingly, it is intended to cover all such modifications, omission, additions and equivalents as may be included within the scope of a wing closer and associated methods as defined by the following claims. In the claims, where a claim is directed to a method, unless otherwise indicated the order of actions to be performed is not limited to the order in which the actions are written. Further, means-plus-function clauses are intended to cover the structures described herein as performing the recited function and not only structural equivalents but also equivalent structures. Thus, although a nail and a screw may not be structural equivalents in that a nail employs a cylindrical surface to secure wooden parts together, whereas a screw employs a helical surface, in the environment of fastening wooden parts, a nail and a screw may be equivalent structures.
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Number | Date | Country | |
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20110191981 A1 | Aug 2011 | US |