Powered window systems may include a motor-driven cross shaft installed under a sill of the window which drives a loop of chain in both of the side pockets of the window. Such a system uses a sprocket aligned with the pocket on both sides. Anothersyste n type includes a motor-driven lead screw mounted on one side of the window. The lead screw drives a nut coupled to a linear bearing to which an arm is attached. The arm reaches to the middle of the check rail to apply the force to open the window. Both such systems suffer from high frictional forces and are often bulky, thus limiting their application.
In one aspect, the technology relates to: a system having: an operator; a drive shaft configured to rotate based on a rotation of the operator; a threaded drum translatably disposed on the drive shaft; and a cable wrapped about the threaded drum, such that a rotation of the drive shaft simultaneously (a) wraps a first portion of the cable about the threaded drum and (b) unwraps a second portion of the cable from the threaded drum. In an embodiment, an end of the first portion of the cable is connected to the threaded drum, and wherein an end of the second portion of the cable is connected to the threaded drum. In another embodiment, the system further includes a housing, wherein the threaded drum is disposed within the housing. In yet another embodiment, the system further includes a projection extending from the housing at least partially into the threaded drum, wherein the projection is fixed relative to the threaded drum. In still another embodiment, the projection extends from an interior of the housing.
In another embodiment of the above aspect, the system further includes a plurality of alignment rollers configured to align the cable with a plurality of threads of the threaded drum. in an embodiment, the housing includes a first portion and a second portion detachably secured to the first portion, wherein the first portion and the second portion are both aligned substantially axially with the threaded drum. In another embodiment, the operator has a hand-crank. In yet another embodiment, the operator has a motor. In yet another embodiment, the system further includes an angular adapter connected to the operator and the drive shaft, wherein the operator and the drive shaft are not coaxial.
In another aspect, the technology relates to a system having: a drive shaft includes an axis; a threaded drum translatably disposed along the axis; and a cable system at least partially disposed about the threaded drum, wherein the cable system s configured to be simultaneously payed out from the threaded drum and wrapped about the threaded drum, during a rotation of the threaded drum. In an embodiment, a first end of the cable system is payed out from the threaded drum while the second end of the cable system is wrapped about the threaded drum. In another embodiment, the cable system includes a first cable and a second cable. In yet another embodiment, the system further includes a bearing disposed at both ends of the drive shaft, wherein the drive shaft is rotatably engaged with the bearings. In still another embodiment, the system further includes a projection extending at least partially into the threaded drum, wherein the projection is fixed relative to the threaded drum.
in another embodiment of the above aspect, the system further includes a base, wherein the projection and the bearings are connected to the base. In an embodiment, the system further includes a cover connected to the base. In another embodiment, the cable system is secured to the threaded drum at both ends of the cable system. In still another embodiment, the system further includes an operator. In another embodiment, the operator is at least one of a motor and a hand-crank.
There are shown in the drawings, embodiments which are presently preferred, it being understood, however, that the technology is not limited to the precise arrangements and instrumentalities shown.
The drive mechanisms, as well as the drum drive systems that incorporate such mechanisms, described herein can fit into a slender space and provide long travel cord or cable travel. A thin cord or cable can pass through very small pathways so the mechanism can be hidden inside a standard window frame, for example, at the top or bottom of the frame. In other examples, the drive mechanism may be installed on an exteriorof the window frame, so as to be utilized in retrofit configurations. The cord loop allows a window sash to be lifted and lowered, or slid horizontally in certain applications, to force the movement of the sash overcoming friction or gravity as needed. In a single- or double-hung window, the cord loop passing through the head and both jambs allows attachment to both sides of the sash. This allows the sash to remain square in the frame throughout the travel. The drive mechanism may be used in windows that utilize balances or those that do not utilize balances. Examples of additional components used in conjunction with the drive mechanism, so as to produce a complete drive system, are also depicted below.
An end cap 124 may be secured to one end of the housing 102 so as to further limit intrusion of contaminants as well as as provide an abutment against which the drive shaft may rotate. In this case, the end cap 124 includes a male projection 126 that mates with a female recess 128 in the base portion 102a. Disposed at an opposite end of the base portion 102a in the depicted embodiment is an angular adapter 130. The adapter 130 may be formed in two halves and also includes a male projection 132 that mates with a female recess 134 in the base portion 102a, An angled gear system 104 is disposed in the adapter 130, so as to transfer rotational motion of one shaft 136 to that of another shaft 138, which ultimately drives the drive shaft 108. Thus, an operator may be offset from the axis A and still operate the drive mechanism 100. Different operators may be used, for example, a motor or a hand crank. In another example, the motor may also include a hand crank, should the window need to be operated in the event of a power outage. The motor may be powered by building power, solar power, battery power, and so on. In other examples, the operator (motorized or manual) may be aligned with the axis A, as required or desired for a particular application. In applications where the drive mechanism is disposed within the window frame or otherwise hidden, a motor aligned with the axis A may be particularly desirable to conserve space.
A cord or cable system lot shown) is routed through or along the window frame and connected to the window example cable routing configurations are depicted below). The cable system is connected at its ends to the threaded drum 118, for example, at tie-offs 146. Portions of the cable system are routed within the threads 116 of the drum 118, thus enabling controlled winding and unwinding as the drum 118 rotates, without tangling of the cable system. During operation, as the drum 118 is rotated by either a motor or by hand, the cable system simultaneously winds onto and unwinds from the threaded drum 118. The projection or spline 112 remains fixed within the threads 116 of the drum 118. This causes the drum 118 to translate along the drive shaft 108 as the drum 118 rotates. This translation keeps the cable aligned with the openings 110 so as to smoothly pay out and take up cable during drum 118 rotation, The diameter and length of the drum 118 may be selected so as to pay out and take up the proper amount of cable so as to completely open and close an associated window sash.
In order to properly route the cable system so as to reduce friction associated therewith, the drum drive systems depicted herein utilize pulleys and other roller supports disposed at various locations within and about a window frame. For example,
Here, the drive mechanism 506 includes a base 516 having end bearings 518. In this case, a motor 520 rotates R a drive shaft 522 about which is translatably T disposed a threaded drum 524. This drum 524 can be small in diameter and still pay out and take up the length of cable 512 needed to drive the window sash 502 through its full range of travel. The depicted drum 524 is drawn schematically only. As such, only a limited number of threads that do not contain cable are depicted. In a production model, the drum would be longer, with a greater number of open threads to receive cable while the drum rotates. The number and pitch threads, drum diameter and length, number of cable wraps, and so on, may be selected as required or desired for a particular application. Two alignment rollers 526 are disposed proximate the base 516 so as to align the cable 512 with the threads 528 of the drum 524. Cable tie-offs 530 are also depicted at ends of the drum 524. A pay-out end of the cable 512 is secured at cable tie-off 530a, and a take-up end of the cable 512 is secured at cable tie-off 530b. The terms pay-out and take-up are relative terms used to explain the operation of the system 500. A projection 532 is secured to the base 516 and penetrates the threads 528. Arrows on the cable 512 depict one direction of travel upon rotation R of the drum 524, so as to lift the sash 502. An opposite rotation R of the shaft 522 reverses direction of the cable 512 so as to lower the sash 502.
During operation, as the motor 520 (or hand crank, in the case of a manual configuration) rotates R the drive shaft 522, the drum 524 translates T back and forth along the shaft 522, due to the fixed position of the projection 532. As the drum 524 translates T, the take-up and pay-out points of the drum 524 remain aligned with the alignmentollers 526 that direct the path of the cable 512 moving to or from the drum 524. The alignment rollers 526 are depicted fixed to the base 516, generally proximate the projection 532, but may be disposed elsewhere, as required or desired for a particular application of cable 512 routing configuration. The driven cable 512 loop runs across the head of the window and is routed by the corner bracket pulley systems 508 so as to run through both jambs. In certain examples, the corner bracket pulley systems 508 are integrated with a window balance that supports a non-powered sash. The cable 512 is routed around roller supports 510. The cable 512 drives both sides of the sash 502, thus ensuring that the sash 502 remains square in the frame 504.
The drum 524 can be either motor-driven, as depicted, or manual. The powered installation would be typically at the top of the unit near the middle of the top rail of the frame 504. In other examples, the drive mechanism 506 can be installed at a bottom of the window, e.g., contained within the bottom rail. For a manual installation, the drum can be installed vertically, e.g., within, or surface mounted to, a side jamb of the window. A hand crank may penetrate the side jamb so as to be rotatable by a user.Other positions are contemplated. The thin configuration of the cable 512 allows it to be routed virtually anywhere within the window, regardless of drive mechanism 506 position.
While there have been described herein what are to be considered exemplary and preferred embodiments of the present technology, other modifications of the technology will become apparent to those skilled in the art from the teachings herein. The particular methods of manufacture and geometries disclosed herein are exemplary in nature and are not to be considered limiting. It is therefore desired to be secured in the appended claims all such modifications as fall within the spirit and scope of the technology. Accordingly, what is desired to be secured by Letters Patent is the technology as defined and differentiated in the following claims, and all equivalents.
This application claims priority to and the benefit of U.S. Provisional Patent Application No. 62/189,597, filed Jul. 7, 2015, entitled “DRUM CABLE DRIVE SYSTEM FOR SLIDING WINDOW SASH,” the disclosure of which is hereby incorporated by reference herein in its entirety.
Number | Date | Country | |
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62189597 | Jul 2015 | US |
Number | Date | Country | |
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Parent | 15204620 | Jul 2016 | US |
Child | 16376032 | US |