The present invention relates to an arrangement for mounting an actuator button onto a rail of a window covering.
The present invention provides a simple, secure, inexpensive arrangement for securing an actuator button onto a rail of a window covering wherein the fasteners that secure the button housing onto the rail are concealed by the actuator button.
In this embodiment, the spring motor 114 is underpowered such that it is unable to raise the shade 104 alone and needs additional input from the user to accomplish that task. This particular spring motor 114 also is unable to hold the bottom rail 102 in place once it is released by the user. The weight of the bottom rail 102, together with the components found in the bottom rail 102 and the weight of the shade material, overwhelms the force provided by the spring motor 114 such that the bottom rail 102 will continue to drop once released by the user unless it is stopped by other means. To stop the bottom rail from dropping, a brake 116 is functionally connected to the lift rod 112 and to the bottom rail 102 to stop the lift rod 112 from rotating in at least one direction relative to the bottom rail 102, as explained in more detail later.
The handle 118 includes an actuator button 120 which, when depressed by the user, releases the brake 116, which allows rotation of the lift rod 112 in both clockwise and counterclockwise directions, as explained in more detail later. The handle 118 is secured to the rail 102 using screws 138, which are concealed from view from the exterior of the rail 102 by the handle 118.
The brake 116 can be mounted anywhere along the lift rod 112 and does not have to be precisely located relative to the handle 118 in order for the actuator button 120 to function to release the brake 116. This is advantageous, as it permits the handle to be secured to the rail 102 from inside the rail with the brake 116 out of the way, and then permits the brake 116 to be slid along the lift rod 112 into a position that is generally opposite the handle 118, without having to worry about the precise location of the brake 116.
As shown in
The slide element 156 has a contact plate 124, which is pushed against by the actuator in the handle 118, in a direction opposite to the braking direction, in order to disengage the brake. The slide element 156 is received in the housing base 154, with the contact plate 124 of the slide element 156 projecting through the opening 168 in the housing 154. The slide element 156 is guided by the housing base 154 so its movement is restricted to forward and backward movement in the direction of the arrow 188 relative to the housing base 154. Shoulders 190, 192 on the slide element 156 limit the movement of the slide element 156 in the forward direction as they impact the front wall 166 of the housing 154. As indicated above, the coil spring 158 biases the slide element 156 in the forward direction (which as explained later, is the braked position). The rear wall 194 of the slide element 156 defines a left-to-right directed ridge 196, which extends parallel to the front and rear walls 124, 194 of the slide element 156 and parallel to the lift rod 112.
The splined sleeve 160 is a generally cylindrical body defining a hollow through shaft 198 having a non-circular profile. In this particular embodiment, the hollow through shaft 198 has a “V” projection profile. The lift rod 112 (See
The splined sleeve 160 also defines a plurality of radially extending splines 200. The ends of the splined sleeve 160 define smooth stub shafts 201 which are rotationally supported on the “U”-shaped bearing surfaces 176, 178 of the housing base 154. The slide element 156 has recessed arms 210, 212, which permit the slide element 156 to move forwardly and backwardly within the housing base 154 without interfering with the stub shafts 201.
As shown in
When the slide element 156 is pushed rearwardly by pushing against the contact plate 124, the ridge 196 moves out of engagement with the splined sleeve 160, allowing the splined sleeve 160, the lift rod 112, and the lift drums to rotate in order to raise or lower the movable rail 102.
A housing cover 162 snaps onto the housing base 154 to substantially enclose the slide element 156 and the coil spring 158, as well as the splined sleeve 160 within the housing of the brake 116. As shown in
Rail-Mounted Button Actuator
As discussed earlier,
Referring now to
Referring to
It should be noted that the barbed, hook projections 236* have a ramped rear surface facing inwardly, toward the brake 116* and a flat, vertical front face which abuts the vertical face of the frame 233* at the front end of the slot 234* when the actuator button is in its forwardmost position. The ramped rear surface helps assemble the button 216* onto the housing 220*, helping the projections 236* flex as they contact the frame 233* at the front of the housing 220* until they get into the slots 234*, at which point they return to their original shape, with the vertical front face of each projection 236* abutting the vertical face of the frame 233* at the front of the slot 234*, to retain the button 216* on the housing 220*. Once the actuator button 216* is installed in the housing 220*, the actuator button 216* conceals the screw fasteners 218* so that the screw fasteners 218* are not visible from the exterior of the rail 102.
Assembly
To assemble the surface-mount actuator button arrangement 214*, the button housing 220* is mounted to the rail 102 using the screw-type fasteners 218*, which extend through the openings 226* on the housing 220* and are threaded into the openings 230* in the rail 102. The actuator button 216* is then snapped into the box 224* of the housing 220*. The ramped rear surfaces of the barbed projections 236* push against the forward frame 233*, causing the projections 236* to momentarily deflect until the projections 236* pass through the frame 233* and reach the slots 234*, where the projections 236* spring back out to lock the actuator button 216* in the housing 220*, while still allowing the actuator button 216* to move linearly in a front-to-rear direction within the housing 220*, with the projections 236* moving in and out along the tracks formed by the slots 234* as shown in
Alternative Rail-Mounted Button Actuator
Referring now to
The recess-mount actuator button arrangement 214** includes an actuator button 216**, two screw fasteners 218**, a button housing 220**, a button housing adapter 240**, and a brake 116*, all mounted to the rail 102**. The brake 116* is identical to the brake 116* described above for the surface-mount button arrangement 214*.
Referring to
The housing adapter 240** is located inside the rail 102** and includes two vertical walls 244**, each defining an internally threaded opening 246**, which receive the two screw fasteners 218** after the screw fasteners 218** extend through the openings 226** in the button housing 220** so as to secure both the button housing adapter 240** and the button housing 220** to the rail 102**, with the front wall of the rail 102** trapped between the button housing adapter 240** and the flanged frame 242** of the button housing 220**. The button housing adapter 240** defines two rearwardly-directed wings 248**, with each wing 248** defining a distal-end lip 250** (See also
As was the case for the button housing 220*, the button housing 220** is a four-sided box 224** which is open to the front (to receive the button 216**) and has a wall 222** closing off the rear of the box 224**. The rear wall 222** defines two through openings 226** for receiving the screw fasteners 218** and a central opening 228** for receiving the pusher 122**. The screw openings 226** align with the corresponding openings 246** on the button housing adapter 240** so that the housing 220** may be releasably secured to the button housing adapter 240** using the screw fasteners 218**. The central opening 228** is defined by a hollow shaft 232** which projects from the rear wall 222** of the housing 220**. This hollow shaft 232** guides and supports the pusher 122** which projects from the back of the actuator button 216**. The box 224** also defines upper and lower slots 234** which receive corresponding barbed, hook projections 236** on the button 216** to lock the button 216** inside the box 224** of the housing 220** and to allow restricted, linear, in-and-out motion of the button 216** relative to the housing 220** as projections 236** ride in the track formed by the slots 234** so that the pusher 122** can push against the contact plate 124* of the brake 116* to disengage the brake 116*.
Assembly
To assemble the recess-mount button arrangement 214**, the housing 220** is mounted to the rail 102** using the screw fasteners 218** going through the openings 226** on the housing 220** and threading into the openings 246** in the button housing adapter 240**, with the front wall of the rail 102** trapped between the flanged frame 242** of the housing 220** and the front edge of the housing adapter 240**. The actuator button 216** is then snapped into the box 224** of the housing 220**. The barbed projections 236** momentarily deflect as they pass by the flanged frame 242**, until the projections 236** reach the slots 234**, where the projections 236** spring back out to lock the button 216** in the housing 220**, restricting the button 216** to linear movement along the tracks formed by the slots 234**. The pusher 122** of the button 216** fits through the opening 228** of the hollow shaft 232** of the housing 220** and projects rearwardly. The brake 116* is then installed by sliding it into position along the length of the rail 102** until it is generally in the area of the button 216** such that pressing the button 216** results in the pusher 122** pushing against the contact plate 124* of the brake 116* so as to disengage the brake 116*. Once the actuator button 216** is installed onto the housing 220**, the actuator button 216** conceals the screw fasteners 218** so they cannot be seen from the exterior of the rail 102**.
While, in the embodiments described above, the actuator button is used to actuate a brake, it is understood that the same actuator button mounting arrangement could be used for an actuator button to actuate a different function on the window covering, if desired.
It will be obvious to those skilled in the art that modifications may be made to the embodiments described above without departing from the scope of the present invention as claimed.
This application is a continuation-in-part of U.S. patent application Ser. No. 14/326,616, filed Jul. 9, 2014, which claims priority from U.S. application Ser. No. 61/873,035 filed Sep. 3, 2013 and from U.S. application Ser. No. 61/847,117 filed Jul. 17, 2013.
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Number | Date | Country | |
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Parent | 14326616 | Jul 2014 | US |
Child | 14816270 | US |