This invention relates to block and tackle window balance devices for single and double hung windows and, more particularly, to a block and tackle window balance device that provides an increased range of travel within a window frame.
Hung window assemblies generally include a window frame, a lower window sash, an upper window sash, a pair of window jambs, two sets of jamb pockets, and at least one window balance device for offsetting the weight of a window sash throughout a range of travel within the window frame. Block and tackle window balance devices use a combination of a spring and pulleys located within a channel to balance the weight of the window sash at any position within the jamb pockets.
In some block and tackle window balance devices, the channel containing both the spring and pulleys is attached to the window sash, and a cord, which connects the pulleys together, is attached to a jamb mounting hook that is connected to a side jamb. A disadvantage of this type of device is that the travel distance of the window sash is limited by some of the pulleys located within the rigid channel interfering with the jamb mounting hook that attaches the window balance to the window jamb.
In general, in one aspect, the invention relates to a block and tackle window balance device for use with single and double hung windows that affords increased window opening travel distance. In one embodiment, the block and tackle window balance device includes a channel, a spring with a first end and a second end, a translatable pulley block unit, a fixed pulley block unit, a cord, a top guide, and a bottom guide with a bottom guide roller. The top and bottom guides are connected to opposite ends of the channel. The spring, the translatable pulley block unit, and the fixed pulley block unit are all located within the channel. The first end of the spring and the fixed pulley block unit are fixed at opposite ends of the channel. The second end of the spring is connected to the translatable pulley block unit. The translatable and fixed pulley block units are connected by the cord. The cord is threaded around both the translatable and fixed pulley block units and extends around the bottom guide roller located within the bottom guide.
In another embodiment, the block and tackle window balance device includes a top guide including a top angled portion and a bottom portion. The bottom portion of the top guide is connected to one end of the channel. In still another embodiment, the top angled portion of the top guide is sized to receive a member from a window sash.
In yet another embodiment, the block and tackle window device includes a bottom guide that extends beyond the rigid channel. In still yet another embodiment, the bottom guide of the device further includes a channel to receive a portion of a window sash.
In general, in one aspect, the invention relates to a method of providing increased travel of a window sash slidably mounted in a window frame. The method includes three steps. A first step is to provide a window assembly that includes a window frame with jambs with jamb pockets, an upper window sash, a lower window sash, and at least one block and tackle window balance device having a channel and a bottom roller for dispensing a cord. The channel has a first end and a second end. The bottom roller is mounted proximate to the second end of the channel with a first distance between the first end of the channel and the bottom roller. A second step is to remove the block and tackle window balance device from the window assembly. A final step is to provide and to install an increased travel window balance device. The increased window balance device has a channel with a first end and a second end and a bottom guide roller for dispensing a cord. The bottom guide roller is mounted proximate to the second end of the channel and a second distance is defined as the length between the first end of the channel and the bottom guide roller. The second distance of the increased window balance device is greater than the first distance of the removed block and tackle window balance device.
The foregoing and other objects, aspects, features, and advantages of the invention will become more apparent from the following description and from the claims.
In the drawings, like reference characters generally refer to the same parts throughout the different views. Also, the drawings are not necessarily to scale, emphasis instead generally being placed upon illustrating the principles of the invention.
Referring to
The block and tackle window balance 200 includes a spring 220, a translatable pulley unit 230, a fixed pulley unit 235, a roller 239, and a cord 240 all housed with the rigid U-shaped channel 205. Attached to the two ends of the rigid U-shaped channel 205 with fasteners 212, 216 are a top guide 210 and a bottom guide 215 that are used to connect the window balance 200 to either the upper or lower window sashes 104, 106 and to help guide the vertical motion of the window balance 200 within the jamb pockets 108. The top guide 210 includes an upper portion 202 and a lower portion 203. The upper portion 202 of the top guide 210 is angled and is sized to be received by a member attached to a window sash, such as a cam. The bottom guide 215 includes a back portion 213, best seen in
The rigid U-shaped channel 205 has a back wall 206 and two side walls 207, 208 that in combination form the U-shape. The rigid U-shaped channel 205 serves as an external frame to which the components of the window balance 200 can be secured. The rigid U-shaped channel 205 also keeps components located within the rigid U-shaped channel 205 free of debris and particulate matte. The spring 220, the translatable pulley unit 230, the fixed pulley unit 235, and the roller 239 are located inside the rigid U-shaped channel 205. Both of the translatable pulley unit 230 and the fixed pulley unit 235 include one or more pulleys rotatable around respective axles.
Components within the rigid U-shaped channel 205 work in combination to create a force to counterbalance the weight of the attached sash at any vertical position within the window frame 102. These components are attached to each other such that a first end 219 of the spring 220 is connected to the translatable pulley unit 230, and the translatable pulley unit 230 is connected to the fixed pulley unit 235 and the roller 239 via the cord 240. A pulley in the fixed pulley unit 235 and the roller 239 may be contained in a frame 236. To secure the components within the rigid U-shaped channel 205, the second end 221 of the spring 220 and the frame 236 are fixed to opposite ends of the rigid U-shaped channel 205 via respective fasteners 218, 243. The frame 236 is also used to secure a pulley axle 237 and a roller axle 238, around which the pulley in the fixed pulley unit 235 and the roller 239 respectively rotate. A first distance “AA” 275 is defined by a length extending between the upper portion 202 of the top guide 210 and the roller axle 238. The spring 220 and the translatable pulley unit 230 are connected together by hooking the first end 219 of the spring 220 through an upper slot opening 229 in a frame 225. The frame 225 houses the translatable pulley unit 230 and a pulley axle 232 around which a pulley in the translatable pulley unit 230 rotates. The cord 240, which can be a rope, string, or cable, has a first end 241 and a second end 242. The first end 241 of the cord 240 is secured to the frame 225 and the second end 242, which is a free cord end, is threaded through the translatable pulley unit 230, the fixed pulley unit 235, and the roller 239, thereby connecting all three components together. After the cord 240 connects the three components together, a jamb mounting attachment 245 is secured to the second end 242 of the cord 240. When the prior art window balance 200 is located in the jamb pocket 108, the jamb mounting attachment 245 engages an opening 430 (
The spring 220 provides the force required to balance the sashes. The spring 220 is extended when the second end 242 of the cord 240 with the jamb mounting attachment 245 is pulled, causing the frame 225 to move within the rigid U-shaped channel 205 towards the frame 236, which is fixed. As the frame 225 moves towards the frame 236, the spring 220 is extended.
The spring 320, the translatable pulley unit 330, and the fixed pulley unit 335 are located within the rigid U-shaped channel 305. In the embodiment shown in
To use the block and tackle window balance 300 within the window assembly, the balance is connected to both the window jamb 107 and to either the lower window sash 104 or the upper window sash 106. Referring to
The spring 320 of the window balance 300 creates the force required to counterbalance the weight of the window sash. However, because the bottom guide roller 350 is located in the bottom guide 315, instead of within the rigid U-shaped channel 305 as in prior art balances, window sashes with the block and tackle window balances 300 as disclosed in this application provide greater travel distance.
Variations, modifications, and other implementations of what is described herein will occur to those of ordinary skill in the art without departing from the spirit and the scope of the invention as claimed. Accordingly, the invention is to be defined not by the preceding illustrative description but instead by the spirit and scope of the following claims.
Number | Date | Country | |
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Parent | 11029074 | Jan 2005 | US |
Child | 11604517 | Nov 2006 | US |
Parent | 10431863 | May 2003 | US |
Child | 11029074 | Jan 2005 | US |
Parent | 09810868 | Mar 2001 | US |
Child | 10431863 | May 2003 | US |