Patent Grant
9695620
1. Field of the Invention
The present invention is directed to door or window closers and openers, and apparatus to adjust the force applied to close a door.
2. Description of Related Art
Door or window closers or operators may utilize a compression spring to apply force to close the door or window. As utilized herein, the term door also includes a window that is similarly operated, e.g., by pivoting movement on a pivot or hinge. An embodiment of a typical prior art door closer 120 is shown in
The spring in a door closer or operator indirectly applies force to the door in the closing direction. The amount of spring force or tension is determined by the geometry of the spring and the amount of preload applied by compressing the spring from its static length. Presently, adjusting the spring setting in closers is often done with an adjusting screw using a tool to turn the adjusting screw. U.S. Pat. No. 8,732,905 discloses an example of a door or window closer using an adjusting screw that has an external end that is turned by a nut, knob or socket.
Determining the spring force setting of a closer or operator on a door is typically done by counting the number of turns on the spring adjust screw on the closer. However, there is no indication of the current spring preload prior to adjustment or after past adjustments unless documented. It must then be checked by measuring the force on the door. It would be beneficial to the installers to be able to visually tell where the spring force is set while installing the closer.
Tools are typically required to make these adjustments. It would be easier for the installers or maintenance people to be able to set or adjust the spring pressure without the use of tools.
Bearing in mind the problems and deficiencies of the prior art, it is therefore an object of the present invention to provide an improved apparatus to adjust the force applied to close a door.
It is another object of the present invention to provide a visual means of viewing the actual direct position and setting of the spring in a door operator or closer.
A further object of the invention is to provide a door operator or closer that permits the installer or user to set the spring force setting by hand, without the use of a tool.
Still other objects and advantages of the invention will in part be obvious and will in part be apparent from the specification.
The above and other objects, which will be apparent to those skilled in the art, are achieved in the present invention which is directed to an apparatus for adjusting the force in a door operator or closer for closing a door comprising a housing rotatable about a longitudinal axis and a spring within the housing and connected to door operator or closer. Compression of the spring operates to vary force applied by the door operator or closer. The apparatus further comprises an adjusting screw extending along the longitudinal axis of the housing and a spring collar threaded onto the adjusting screw and rotatable with the housing. The spring collar bears on the spring to vary the spring compression upon rotation of the housing and thereby vary force applied by the door operator or closer.
The spring collar may bear against the spring collar end distal from the door operator or closer. The spring may be a coil spring and the adjusting screw may extend through the coil spring. The adjusting screw may not turn or move upon rotation of the tube or spring collar.
The housing may have an opening though which the spring is visible. The tube may have one or more markings thereon the indicating the degree of spring compression. The apparatus may further include an indicator moveable along and visible outside the housing to indicate the compression of the spring.
The housing may be a tube coaxially disposed about the longitudinal axis. The tube may have a slot extending longitudinally along a wall of the tube, and the spring collar may have a tab extending into the tube slot. The tube slot permits the tab and spring collar to move longitudinally with respect to the tube while preventing the tab and spring collar from rotation as the tube is rotated. The spring collar tab may be adapted to move longitudinally along the slot as the tube is rotated, and the spring collar tab may be at least partially visible through the slot to indicate the compression of the spring.
In a related aspect, the present invention is directed to a method of adjusting the force in a door operator or closer for closing a door comprising providing a housing rotatable about a longitudinal axis, a spring within the tube and connected to door operator or closer and a spring collar rotatable with the housing. The spring collar bears on the spring. The method further includes rotating the housing to vary compression of the spring, thereby varying force applied by the door operator or closer to close the door.
There may be further included an adjusting screw extending along the longitudinal axis of the housing, and the spring collar may be threaded onto the adjusting screw.
The housing may be rotated clockwise or counterclockwise to increase or decrease the spring compression and the force applied by the door operator or closer. The housing may be rotated without the use of a tool. The housing may be a tube coaxially disposed about the longitudinal axis and of a diameter permitting it to be rotated by hand.
The present invention in another aspect provides an apparatus for adjusting the force in a door operator or closer for closing a door comprising a housing having a sidewall with an opening therein and a spring within the housing and connected to door operator or closer. The spring is compressible to different positions to vary force applied by the door operator or closer. The position of the spring is viewable from the exterior of the housing through the sidewall opening.
The housing may be rotatable about a longitudinal axis and may further include an adjusting screw extending along the longitudinal axis of the housing and a spring collar threaded onto the adjusting screw and rotatable with the housing. The spring collar bears on the spring to vary the spring compression upon rotation of the housing and thereby vary force applied by the door operator or closer. At least a portion of the spring collar may be viewable from the exterior of the housing through the sidewall opening.
In another related aspect the present invention provides a method of adjusting the force in a door operator or closer for closing a door comprising providing an apparatus for adjusting the force in a door operator or closer for closing a door as described above. The method includes compressing the spring to a desired position to apply a desired force to the door operator or closer and viewing the position of the spring from the exterior of the housing through the sidewall opening. The method may also include rotating the housing to extend the spring to the desired position to apply the desired force to the door operator or closer.
The spring collar may have a tab extending into the opening in the housing sidewall, with the spring collar tab being adapted to move longitudinally along the opening in the housing sidewall as the housing is rotated. The spring collar tab may be at least partially visible through the opening in the housing sidewall to indicate the compression of the spring. The method may further include viewing the position of the spring collar tab from the exterior of the housing through the sidewall opening to determine the position of the spring and the force applied by the spring to the door operator or closer.
The features of the invention believed to be novel and the elements characteristic of the invention are set forth with particularity in the appended claims. The figures are for illustration purposes only and are not drawn to scale. The invention itself, however, both as to organization and method of operation, may best be understood by reference to the detailed description which follows taken in conjunction with the accompanying drawings in which:
In describing the embodiment(s) of the present invention, reference will be made herein to
The spring adjuster and indicator 20 of present invention can be used on any otherwise conventional door closer or operator 22 (
The spring adjuster and indicator 20 includes a housing 24 in the form of an elongated tube and, inside, compression coil spring 30 which applies the door-closing force to door operator/closer 22 at proximal end 30b. Instead of the one spring 30 shown, more than one spring may be utilized, such as a smaller diameter coil spring inside of spring 30. Housing tube 24 is secured within door operator/closer 22 by a shoulder fitted within bushing 48 so that the tube is rotatable with respect to the fixed door operator or closer in both directions 25 about longitudinal axis 23. An end cap 26 closes the distal end of tube 24, and may have a socket opening for screwing the cap into the tube end. Along and inside the longitudinal axis 23 of the tube and spring is rod 32 attached to operator/closer 22 at proximal end 32b, which rod includes adjusting screw threads 34 along all or a portion of its length. A spring collar 40 may be threaded onto the adjusting screw threads 34, so that the adjustment screw passes through the spring collar, and bears against the distal end 30a of spring 30. Spring collar 40 includes a tab 42 extending radially outward from the collar, which collar tab is received within and slideable in slot or window 28 extending along a length of and through the side wall of tube 24. Tab 42 is fixed against rotational movement in the slot and with respect to the tube, so that spring collar 40 rotates in directions 25 and turns as the tube 24 is rotated. Alternately, the collar and tube may have any non-circular shape such that the relative rotational motion between the collar and tube is restricted. As the tube and spring collar are rotated one revolution, tab 42 slides along slot 28 a distance equal to the pitch of screw 34.
Since adjusting rod 32 is rotationally fixed with respect to closer operator body 22 and screw 34 is rotationally fixed at end 32b and does not rotate, rotation 25 of housing tube 24 causes tab 42 and spring collar 40 to rotate correspondingly and move linearly on and along threads 34. As spring collar 40 moves linearly toward or away from operator/closer 22, it causes spring 30 to increase or decrease the degree of compression of the spring length, respectively. The selected degree of compression of the spring operates to vary the force applied by the door operator or closer, with a shorter extension (i.e., greater compression) applying more force, and a longer extension (i.e., less compression) applying less force.
The spring 30, spring collar 40, spring collar tab 42 and position of the spring and spring collar linearly along axis 23 may be visible through slot opening 28. A layer of transparent or translucent glass or plastic may be fitted over the slot. The length of the slot 28 in tube 24 may be selected to be substantially the length of travel available for spring collar 40. As shown in
In operation, the user turns tube 24 clockwise or counterclockwise 25, which causes spring collar to move along the length of screw threads 34 and tab 42 to slide linearly along the length of slot 28. As the spring tube is turned and the spring collar moves linearly along axis 23, the spring either compresses or relaxes, thus changing the preload of the spring to increase or decrease the force on the door operator/closer. The compression of the spring can be seen through the window 28 in the tube and provides a visual indicator of the closer setting, based on spring force. The position of the spring collar, which may be converted to and indicates the amount of force applied by spring 30, is indicated by the position of tab mark 42a and indicia 46 marked on the tube. This enables the user to easily see the setting to which the door operator/closer is adjusted or set.
Significantly, the adjusting screw of the present invention does not turn during adjustment of the spring tension and, instead, the spring tension is adjusted by rotating the spring tube clockwise or counterclockwise to increase or decrease the spring force. The spring collar is threaded onto the screw and fixed in the slot of the tube, therefore as the tube is rotated, the spring collar moves linearly in the slot while the adjusting screw does not rotate, thus changing the preload of the spring. The entire spring tube of the present invention may be rotated by the user's hand to linearly move the spring collar along an adjusting screw to change the preload of the spring. The compression of the spring may be seen through a slot or window extending along the length of the spring tube.
Accordingly, the present invention provides a visual means of seeing the actual direct position and setting of the spring in a door operator/closer. The invention also permits the installer or user to set the spring force setting by turning the tube by hand, without the use of a separate tool or tools to turn the adjusting screw.
While the present invention has been particularly described, in conjunction with a specific embodiment, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the foregoing description. It is therefore contemplated that the appended claims will embrace any such alternatives, modifications and variations as falling within the true scope and spirit of the present invention.
This application claims priority from U.S. patent application No. 62/058,824 filed on Oct. 2, 2014.
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| Number | Date | Country | |
|---|---|---|---|
| 20160097230 A1 | Apr 2016 | US |
| Number | Date | Country | |
|---|---|---|---|
| 62058824 | Oct 2014 | US |
