This invention relates to retractable awnings and, particularly, to a motor-driven awning having an override for manually driving the motor should it fail.
Retractable awnings are used to create a shaded space. While the invention is described in relation to an awning having particular utility in relation to a recreational vehicle, it can also be used in connection with a stationary awning on a structure, such as awning extensible over a patio.
In such awnings, a flexible, typically fabric canopy is secured at one end to a wall and has an opposite end secured to a roller. The roller is supported at its ends by opposite support arms which are displaceable between an extended position for the awning, where the awning is deployed, and a retracted position, where the awning is rolled onto the roller for storage.
Typically the awning is driven by an electric motor. Should the motor fail for any reason, whether a mechanical failure or loss of electrical power to drive the motor, without some means of mechanically operating the roller, it can become problematic, particularly if the awning is in the extended position.
Awnings are usually extended in a fairly horizontal manner so as to provide maximum shading beneath the awning canopy when it is extended. A biasing means, such as a fluid strut, maintains that orientation.
The invention provides a retractable awning for mounting to a wall, with the awning including a roller, a flexible canopy having one end secured to the roller and rollable onto the roller, and a motor operable to rotate the roller to roll the flexible canopy onto or of the roller. In the preferred form of the invention, the motor includes a protective housing, with a manual motor override on the motor within the housing. An aperture in the housing proximate the override is aligned with and permits access to the override through the aperture.
The manual motor override extends from the motor and includes a connector. The connector preferably comprises a connection head shaped to engage a manual override tool.
A removable cap is provided for the aperture. In accordance with the preferred form of the invention, the cap comprises a plug.
The invention is described in greater detail in the following description of examples embodying the best mode of the invention, taken in conjunction with the drawing figures, in which:
A recreational vehicle 10, shown in
The awning 12 is, in many respects, conventional, in that it has a fabric canopy rollable onto an extensible roller. The awning 12 includes a roller 14, a flexible canopy 16 having one end secured to the roller 14 and rollable onto the roller 14 and with the opposite end affixed to the recreational vehicle 10, and a motor located within a protective housing 18 for rotating the roller 14 to extend or retract the awning 12. A support system 20, described in greater detail below, mounts the awning 12 for extension or retraction.
Only one motor is normally needed. Thus, while the opposite end of the roller 14 is capped by a similar housing 18′, the housing 18′ is just for aesthetic purposes, and mere shrouds connection of the roller 14 to the support system 20.
The motor 26 may be a conventional electric motor and is therefore not described in greater detail. The motor 26 rotates a drive gear 28 mounted on a spindle 30 extending from the motor. The drive gear 28, in turn, meshes with a drive wheel 32 journaled on a shaft 24. Also journaled on the shaft 34 is a further drive wheel 36 which meshes with a drive wheel 38 journaled on the shaft 24. Therefore, when the motor 26 is operated, by means of the drive gear 28 turning the drive wheels 32, 36 and 38, the shaft 24 is rotated, therefore rotating the roller 14 to either extend or retract the flexible canopy 16.
As explained above, the drive gear 28 is mounted on a spindle 30 (shown in
When the protective housing 18 is in place, the motor 26 and the drive gearing is fully encapsulated within the protective housing. To permit access to the manual override 48, the housing 18 includes an aperture covered with a removable cap 52. The cap 52 may be a flexible rubber plug or any other means of readily covering the aperture formed in the housing 18. With removal of the cap 52, the hex head 50 of the manual override 48, which is in registration with the aperture, can be engaged by a socket wrench or similar tool.
The motor 26 is used to rotate the roller 14 to extend or retract the awning 12. Normally, the manual override 48 spins harmlessly and out of sight within the housing 18 when the motor 28 is operated. Should the motor 28 fail or should electrical power to the motor 28 not be available, the roller 14 can still be rotated manually. To this end, the cap 52 is removed, and a socket wrench or the like engaged on the hex head 50 of the manual override 48. By driving the hex head 50 in one direction or the other, the roller 14 is thus manually rotated via the drive gear 28 and drive wheels 32, 36 and 38. Failure of the motor 28 for whatever reason when the awning 12 is deployed therefore will not strand a user of the awning should the awning be on a recreational vehicle that is to be moved.
The support system 20 is shown in greater detail in
Each of the support systems 20 includes a support arm 60. As the awning 12 is deployed or retracted, the support arm is operable to move from a retracted position proximate a wall 62 of the recreational vehicle 10, where the support arm 60 is substantially vertical, to an extended position where the support arm 60 is substantially horizontal and displaced from the retracted position. To that end, a stile 64 is fixed to the wall 62. A top mounting arm 66 is pivotally connected to an upper location on the stile 64, while a bottom mounting arm 68 is pivotally connected at a lower position on the stile 64. Preferably each is connected by an identical bearing, with the bearing 70 shown in
The arms 66 and 68 are pivotally connected to and extend from the support arm 60 by means of bearings 72 and 74. The bearings 72 and 74 may be identical to the bearing 70. An extensible strut 76 is connected to and extends between the top and bottom mounting arms 66 and 68, as shown. The strut 76 is pivotally connected to the arms 66 and 68, such as by means of bearings 78 and 80. The bearings 78 and 80 may also be identical to the bearing 70. Preferably, the strut comprises a normally-extended pneumatic cylinder which, when the awning 12 is extended, biases the awning to the open and extended position.
As shown in
The bottom mounting arm 68 preferably is articulated, comprising first and second arm elements 82 and 84. The arm elements 82 and 84 are adjustable relative to one another and are joined by an adjustment coupler in the form of a bolt 86 capped by a nut 88.
Normally the arm elements 82 and 84 are axially aligned, as shown in the drawing figures. When the awning 12 is deployed to the fully extended position, typically the flexible canopy 16 is substantially horizontal. That orientation can be changed, however, by loosening the nut 68 on one side of the awning 12 and repositioning the arm elements 82 and 84 at an angle relative to one another. That, consequently, pitches the flexible canopy 16 by withdrawing the support arm 60 slightly. When the awning 12 is retracted, however, manual readjustment of the arm elements 82 and 84 is unnecessary. Due to the geometry of the support system 20, the arm elements 82 and 84 are self-regulating to be axially realigned when the awning 12 is retracted.
Various changes can be made to the invention without departing from the spirit thereof or scope of the following claims.