This invention relates to window rods.
Decorative window rods generally include a rod with a decorative finial at each end. Some support means is provided to hold the rod in a desired position in front of a window. Conventional window curtain rods are mounted adjacent to a window by being screwed into the wall or window casing. The installation of window curtain rods can be time consuming. In addition to being tedious, it can be difficult to align the brackets. The installations are permanent and walls or casing can be damaged in the process. For rental properties and student dorms, the damage caused by the screws is a significant issue and a deterrent to installation.
It would be desirable to overcome the cumbersome installation associated with conventional decorative tension window rods.
In one aspect, a window rod assembly includes a first support arm assembly including a first bracket, a first support arm having a first end rigidly connected to the first bracket, and a first tube rigidly connected to a second end of the first support arm; a second support arm assembly including a second bracket, a second support arm having a first end rigidly connected to the second bracket, and a second tube rigidly connected to a second end of the second support arm; a curtain rod including a first rod section and a second rod section configured in a telescoping arrangement with a portion of the first rod section being sized to fit into the first tube and a portion of the second rod section being sized to fit into the second tube; a locking mechanism for securing the relative axial position of the first rod section with respect to the second rod section; and a force adjusting mechanism mounted on the first support arm assembly and configured to apply an inward force to the curtain rod at a location within the first tube and an outward force to the first and second support arm assemblies to force the first and second brackets into support surfaces of a window opening or window casing.
In one aspect, the present invention provides window rods that are faster and easier to install in comparison with conventional window rods. The described embodiments provide window rod assemblies that use tension forces to mount the rod in the window opening. No screws or glue are necessary.
Referring to the drawings,
The end brackets are configured to be mounted adjacent to opposing interior walls 22, 24 of a window opening 26. The adjustable support rod includes first and second rod sections 28, 30 configured in a telescoping arrangement. One of the first and second rod sections is configured to slidably fit into the other rod section. A locking device (also called a fastening means) 32 is provided to fix the relative position of the first and second rod sections with respect to each other. While the first and second rod sections 28, 30 have a circular cross-sectional shape in this embodiment, rod sections having other cross-sectional shapes may also be used. A force adjusting mechanism 34 (also called a tension adjusting assembly) is positioned in at least one of the support rod sections. When the rod assembly is mounted in a casement window opening 26, the force adjusting assembly is used to force the rod sections apart. Since the rod sections are rigidly connected to the ends of forward extending arms that are rigidly connected to the end brackets, the end brackets are forced against opposing walls 22, 24 of the window opening. This action secures the position of the end brackets with respect to the walls of the window opening or to a casement of the window opening.
The second part of each end bracket is configured to be mounted adjacent a casing 64 or wall adjacent to the window opening. This configuration resists twisting forces applied to the bracket due to the weight of the support rod and a curtain mounted on the support rod. Resilient pads 70, 72, which in one example are rubber pads, can be positioned between the first part of the end brackets and the interior walls 22, 24 of the interior window opening. Resilient pads 74, 76, which in one example are rubber pads, can be positioned between the second part of the end brackets and the walls or casing 36 adjacent to the window opening.
The arms are rigidly attached to both the end brackets and the support rod, such that when the support rod is lengthened, the first parts of the brackets are forced into the interior walls of the window opening, which form support surfaces for the window rod assembly. For example, the arms can be welded to the end brackets and the support rod. In the illustrated embodiment, the arm extends from the second part of the end brackets in a forward and upward direction. The end brackets can be constructed of two plates positioned in planes that are at a substantially right angle with respect to each other. In
To mount the window rod assembly to a window opening, the length of the support rod is adjusted by sliding the rod sections with respect to each other until the first parts of the brackets are adjacent to the walls of the window opening. In addition, the second parts of the brackets are positioned adjacent to the forward facing wall or casing next to the window opening. Then the fastener is tightened to secure the first and second sections of the support rod in a fixed position relative to each other in an axial direction. Next, the tension adjusting assembly is adjusted to lengthen the support rod and force the end brackets into the opposing walls of the opening.
Using allen key type screws or other fasteners to fix the relative position of the telescoping sections of the support rod, and a tension adjuster, the brackets of the window rod assembly can be rigidly set inside and near the top of a window casement. In one embodiment, each end of the support rod is connected to an arm that is connected to a bracket with rubber on the inside which grips onto the inside of the window frame. This reduces the possibility of damaging the window opening walls and supplies additional holding power. The support rod includes a tension adjuster which can be tightened to rigidly fix the rod into its desired position.
A first support arm assembly 118 is provided near an outer end of the first rod section. The first support arm assembly includes a first sleeve or tube 120 configured to engage a portion 122 of the first rod section, a first bracket 124, and a first arm 126 extending between the first sleeve and the first bracket. A second support arm assembly 128 is provided near an outer end of the second rod section. The second support arm assembly includes a second sleeve or tube 130 configured to engage a portion 132 of the second rod section, a second bracket 134, and a second arm 136, extending between the second sleeve and the second bracket. As described in more detail below, at least one of the first and second support arm assemblies includes a tension adjuster that is configured to apply a force on the support rod in an axial direction and spread the support brackets. This urges the first and second brackets against interior surfaces 138, 140 of a window opening 142.
The rod assembly includes a locking device 144, which in this embodiment is coupled to the second rod section that is positioned inside the first rod section. The locking device includes an axially offset cam and an eccentric sleeve around the cam, such that when the second rod is rotated with respect to the first rod section, the eccentric sleeve pushes against an internal surface of the first rod section, thereby locking the axial position of the first rod section with respect to the second rod section. To install the rod assembly, the brackets are positioned adjacent to the interior surfaces of the window opening and the first and second rod sections are pulled apart until the brackets make contact with the internal walls of the window opening. Then the rod sections are rotated with respect to each other to lock that axial position of the first and second rod sections with respect to each other. Then a force is applied to the rod as shown by arrows 146 and 148 using a force adjusting mechanism (also called a tension adjuster, described in more detail below) coupled to at least one of the finials 150, 152. Because the arms 126 and 136 are rigidly attached to the brackets 124 and 134 and rigidly attached to tubes 120 and 130, an outward force as indicated by arrows 154 and 156 is also applied to the brackets 124 and 134. This outward force pushes the brackets into the internal surfaces (i.e., the support surfaces) of the window opening, thus securing the rod assembly to the window opening. Since portions of the support rod extend into tubes 120 and 130, and the inner diameter of the tubes is close to the outer diameter of the rod portions that extend into the tubes, when the tension force is applied to the support rod, movement of the support assemblies port with respect to the support rod is limited to the axial direction. Thus an outward force is applied to brackets to secure the brackets to the support surfaces. Since the ends of the rods are slideably positioned in the tubes of the support arm assemblies, movement of the rod in any direction other than axially along the tubes is prevented. With the configuration shown in
The support arms are shaped to extend forward toward the interior of the room and also outward with respect to the window opening. This positions the support rod away from the window opening and any casing that might be positioned around the window opening.
The locking mechanism 144 mounted on the end of the second rod section 116 is configured to be positioned inside the stationary tube 114 when the pole 112 is assembled. The locking mechanism 144 includes a locking cam head 174 that is offset with respect to the central axis of the rod. A bushing 190 (also called a cam locking sleeve) is positioned on the cam head between an annular flange 180 and a support flange 186. The bushing has a varying thickness with a relatively thin end 176 and a relatively thick end 197. When the locking mechanism is inserted in rod section 114, rotation of the cam head forces the bushing into the internal surface of rod section 114 and thereby fixes the axial position of rod section 114 with respect to rod section 116.
The locking cam head 174 includes the annular flange 180 and an end flange 186. The locking head 174 includes two cam surfaces 182 extending between the annular flange 180 and end flange 186 having non-circular, helical or spiral surfaces. One of the cam surfaces 182 is shown in
As shown in
The locking mechanism 144 operates as follows. The locking cam sleeve 190 is initially located in a radially retracted position on the locking cam head 174 in which the stop edges 197 of the sleeve 190 are in contact or adjacent to the corresponding stop surfaces 184 of the locking head 174. The thicker portions of the cam members 192 are adjacent to the radially recessed portion of the cam surfaces 182. In this radially retracted position, the second rod section 116 is free to move axially with respect to the first rod section 114.
During installation, the second rod section 116 is positioned in the first rod section 114 to a desired position in which the brackets are in initial contact positions against the supporting surfaces of the window opening or window casing. In this position, the second rod section 116 is then twisted around its longitudinal axis, which rotates the locking mechanism inside the first rod section 114. Upon such a twisting motion, the outer contact surfaces 196 of the locking cam sleeve 190 contact the inner surface of the first rod section 114 and frictional forces therebetween hold the locking cam sleeve 190 in a stationary position with respect to the first rod section 114, i.e., the locking cam sleeve 190 does not rotate inside the rod 114 with the remainder of the torsional locking mechanism. As the locking cam head 174 rotates inside the first rod section 114 with the locking cam sleeve 190 remaining in position, the inner cam surfaces 194 of the locking cam sleeve 190 slide in a generally circumferential direction on the cam surfaces 182 of the locking cam head 174. Due to this relative movement, the cam members 192 move radially outward and press against the inner surface of the first rod section 114 with sufficient force to lock the cam head 174 into position within the first rod section 114. Thus, the second rod section 116 and first rod section 114 are held in position with respect to each other.
With the locking mechanism 144 in the locked position, at least one force adjusting mechanism is used to place an outward force on the support arm. That is, at least one of the finials 150, 152 may be rotated with respect to the pole 112, causing a threaded stud to engage a threaded opening in an end of the support rod, thereby lengthening the support rod and consequently forcing the brackets against the supporting surfaces. This securely mounts the rod assembly between the supporting surfaces of the window opening or window casing.
As shown in
The locking mechanism 144 operates as follows. The locking cam sleeve 200 is initially located in a radially retracted position on the pin 250 in which the stop 234 of the sleeve 200 is in contact with or adjacent to the first surface 272 of tab 264. In this radially retracted position, the second rod section 116 is free to move axially with respect to the first rod section 114.
The illustrated decorative tension window rods use an outward force on the brackets to hold the rods in place and do not require screws or adhesive. The rod assemblies eliminate the need for screwing a decorative rod to a wall or window casing and yet still include a decorative look of including finials, without damaging the window opening walls or casing. The support arm assemblies can be configured such that the arms extend forward into the room and can also be angled away from the window opening allowing the decorative finials to be positioned outside of the window opening and curtains attached to the support rod can then overlap the walls or casing adjacent to the window opening.
The rods, brackets, arms and fasteners may be made from any suitable materials such as metals. The brackets positioned on the top inside of the window opening may have a rubber or soft plastic base which then grips the inside of the window frame. The support rod, which can be positioned outside and above the window, can be initially locked in position using allen screws or the like, then the tension adjuster is used to apply tension into the arms/brackets which forces the brackets into the wall of the window opening (i.e., support surfaces) to hold the rod in place.
The rod can be finished with decorative hardware/finials that are commonly used on window rods. Further, if a person wishes to move the rod, it can be done easily and without damage to the window opening walls or casing.
Features of the various embodiments can be combined with each other to form addition embodiments. For example, the locking mechanism of
Whereas particular embodiments of this invention have been described above for purposes of illustration, it will be evident to those skilled in the art that numerous variations of the details of the present invention may be made without departing from the invention as defined in the appended claims.
This application is a continuation-in-part of U.S. patent application Ser. No. 13/605,783, filed Sep. 6, 2012, titled “Gripper Window Rod”, which claims the benefit of U.S. Provisional Patent Application Ser. No. 61/664,362, filed Jun. 26, 2012, titled “Gripper Window Rod”, which are incorporated herein by reference. This application also claims the benefit of U.S. Provisional Patent Application Ser. No. 61/874,768 filed Sep. 6, 2013, and titled “Decorative Tension Window Rods”, which is incorporated herein by reference.
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20140103178 A1 | Apr 2014 | US |
Number | Date | Country | |
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Number | Date | Country | |
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Parent | 13605783 | Sep 2012 | US |
Child | 14107340 | US |