Conventional umbrellas are known to keep users dry during rainfall. They are notorious for being damaged easily by environmental elements in addition to being cumbersome to deploy and retract. These drawbacks make the conventional umbrella less suited for the variety of situations where its ability to protect a user from environmental elements would be beneficial. There are known umbrellas that are motorized to reduce the manual labor involved, but these umbrellas tend to suffer from additional problems such as interference with objects when opening and closing, relatively high complexity, inadequate stability, lack of modularity, lack of portability and lack of versatility.
One aspect disclosed herein provides an umbrella assembly which automatically opens and closes. Depending upon the embodiment, the umbrella assembly can be fully automated or partially automated. The umbrella assembly is configured to be coupled to a variety of different types of structures as described below.
In one embodiment, the umbrella assembly has an elongated housing, a plurality of elongated ribs configured to be at least partially housed within the housing, a canopy coupled to the elongated ribs, where the canopy is configured to be housed within the housing, a position control assembly configured to be at least partially housed within the housing, and at least one stop member coupled to the housing. The position control assembly includes a drive member configured to move the elongated ribs between a closed position in which the canopy is housed within the housing, and an open position in which the portions of the elongated ribs extend outside the housing. The position control assembly further includes at least one rib steering device coupled to each of the elongated ribs. The rib steering device is configured to control the angle of the elongated rib relative to the axis. The rib steering devices also stabilize the canopy to withstand an upward force of environmental elements. The stop member is configured to support the elongated ribs when the elongated ribs are in the open position and stabilize the canopy to withstand a downward force of environmental elements.
Additional features and advantages of the present disclosure are described in, and will be apparent from, the following Brief Description of the Drawings and Detailed Description.
Referring to
In one embodiment, coupler 104a has a plurality of arms 16 and a mounting platform 19. The arms 16 define a passageway configured to engage, and securely receive, the housing 103. A set of screws or other suitable fastener can tighten the arms 16 onto the housing 103. The platform 19 defines a plurality of different sets of hole patterns 20, where each set is associated with a different structure. For example, hole pattern A can enable attachment to a golf cart, and hole pattern B can enable attachment to a kiosk computer. In another embodiment, coupler 104b has a clamp configuration 21 that surrounds the housing. The clamp may be hinged such that it can be opened to accept the housing and closed to clamp onto the housing. In another embodiment, the clamp may have an adjustable diameter which allows it to be placed over an end of the housing and adjusted to properly clamp onto the housing. The coupler 104b also has a coupling portion 24. In the embodiment shown, the coupling portion 24 defines a hole configured to slideably couple the housing to a structure such as the frame of a wheelchair. The coupling portion may be adjustable to enable secure coupling to a variety of structures. In another embodiment, the coupling portion 24 is hinged such that it can be opened to accept a structure and closed to clamp down onto the structure. Fasteners such as screws, may be used to keep the coupling portion in the closed position. One skilled in the art would appreciate that the couplers 104a, 104b could take a variety of forms and be located at various locations on the housing 103 depending on the intended use of the assembly 10.
In one embodiment, one of the couplers 104a, 104b includes, or is connected to, a stand. The stand, depending upon the embodiment, can be: (a) a weighted base configured to lie on a floor, pavement or ground; (b) a hollow container-type base configured to be filled with water or sand; (c) a spike or ground screw configured to be inserted into the ground or sand; or (d) a mounting base, such as a metal plate with a holes to receive bolts for bolting the umbrella assembly 10 to a cement or concrete pavement. The stand enables the umbrella assembly 10 to be stood upright for operation outdoors in a variety of settings.
A support, stopper or stop member 105 is coupled to the housing 103 at the upper end 102. As described below with respect to
Referring to
The rib driver 201 is coupled or anchored to the ribs 106, serving as an anchoring surface 301 for the elongated ribs 106. The drive member 202, in one embodiment, has an outer thread or groove pattern. The rib driver 201 has an inner-threaded or inner-grooved opening configured to receive, and mate with, the threads or grooves of the drive member 202. In one embodiment, the outer surface of the rib driver 201 has a notch, and the inner surface of the housing 103 has a longitudinal groove which mates with the notch of the rib driver 201. The notch and groove engagement prevents the rib driver 201 from rotating as the drive member 202 rotates. As a result, the drive member 202 causes the rib driver 201 to slide up and down relative to the housing 103.
The mount 203 is, in one embodiment, fixed within the housing 103 and acts as a support and anchoring surface for the lower ends 14 of the rib steering devices 204. The lower ends 14 are fixedly secured to the mount 203. The upper ends 15 of rib steering devices 204 slideably pass through openings 302 in the rib driver 201 and are attached individually to the elongated ribs 106 through flexible joints 206. The elongated ribs 106 may comprise multiple rib sections 108 with each section coupled together such that the rib sections 108 can articulate independently of one another.
The ribs 106 and elongated rib steering devices 204 cooperate to control the opening, closing, positioning and stabilization of the canopy 107. Depending upon the embodiment, the ribs 106 and rib steering devices 204 can be fully flexible, partially flexible, semi-rigid, partially rigid, bendable or elastic, such as in an embodiment where ribs 106 or devices 204 have a leaf spring configuration.
In one embodiment, the rib connectors 18 fixedly attach the rib steering devices 204 to the ribs 106. In another embodiment, the rib connectors 18 slideably attach the rib steering devices 204 to the ribs 106.
In one embodiment, the drive member 202 is located within the housing 103. The lower end 20 of the drive member 202 is coupled or attached to a disk or pulley 22 which rotates the drive member 202 and causes the rib driver 201 to slide along the axis of the drive member 202. As the rib driver 201 slides along the drive member 202 towards the stop member 105, the elongated ribs 106 begin to emerge through the aperture 109 in a vertical orientation. The tension, or pulling force, from the rib steering devices 204 pulls the elongated ribs 106 downward against the inner surface of the stop member 105. As the elongated ribs 106 emerge from the aperture 109 and approach the stop member 105, they collectively form a cone-shaped formation having a general vertex location 24, as illustrated in
As the elongated ribs 106 move from a closed umbrella position, where the ribs 106 are mostly or fully contained in the housing 103, to an open umbrella position, shown in
In the fully deployed or open umbrella position, the rib steering devices 204 act to stabilize the canopy 107 to withstand, and counteract, an upward force of environmental elements. The stabilizing effect is due to the counteracting force of, and the tension in, the rib steering devices 204. This force is transmitted to the respective elongated ribs 106. In the fully deployed or open umbrella position, the elongated ribs 106 rest on the stop member 105. This helps to stabilize the canopy 107 to withstand a downward force of environmental elements, such as the downward force of rain, wind or snow.
Referring to
In one mode of operation, selectable through the input device 36, the power cord 30 delivers A/C current to charge the battery unit 28, and the battery unit 28 powers the operation of the actuator 26. In another mode of operation, selectable through the input device 36, the power cord 30 directly powers the actuator 26. In one embodiment, the solar panels 34 continuously converts sunlight to electrical power and charges the battery unit 28 or directly powers the actuator 26. In one embodiment, the solar panels 34 can be integrated into, or attached to, the top surface of the canopy 107. In one embodiment, the housing 103 holds a cord retractor configured to pull the power cord 30 into the housing 103 when the cord 30 is not in use.
The actuator 26 can include any electrical or electromechanical device operable to convert electrical energy to motion. Depending upon the embodiment, the actuator 26 can include: (a) an electrical motor with moving magnets and wound coil; (b) an electromagnet; or (c) a pump or pressure device operable to produce hydraulic fluid pressure or pneumatic pressure.
Referring still to
The user input device 36, described above, can include a switch, dial, keypad, or the like. The user input device 36 can also be a device configured to receive a wireless signal from a remote control, mobile phone, computer or tablet. The umbrella assembly 10 includes a coupler 104, such as one of the couplers 104a or 104b, which enables the umbrella assembly 10 to be coupled to a variety of fixed or moveable structures as described above.
Referring to
In one embodiment, the pack 601 is configured as a backpack (including, but not limited to, a hiking or school backpack or an infant carrier) with shoulder straps wearable by a user. In this embodiment, such backpack holds a relatively small-sized version of the umbrella assembly 10. Such small or miniature umbrella assembly 10 is operable to cover the head of the user and any carried infant.
Referring to
Depending upon the embodiment, the umbrella assembly 10 can be permanently integrated with or detachably coupled to the back 802 of the wheelchair 800 as illustrated in
In the illustrated embodiment, the umbrella assembly 10 is removably attached to the wheelchair 800 as an aftermarket accessory. Specifically, the assembly 10 is attached to the sub-frame 74 through adjustable clamp couplers 104. The assembly 10 is also electrically connected to the control pad 50 and wheelchair battery unit 76. It will be appreciated that the user can easily deploy the umbrella assembly 10 to its extended, open position by hand operating the pad 50 while sitting in the chair. This eliminates the burden of having to standup, turn around, manipulate and hold a conventional umbrella.
The controller 50 can be connected to the umbrella opening mechanism, such as actuator 26, by wire or wirelessly or by voice activation or motion sensor. In the illustrated embodiment, there may be controls for activating (on/off), adjusting height and adjusting tilt. An additional benefit of the manner in which the canopy operates is that deployment and retraction can occur without interfering with the wheelchair user's head or other nearby objects, such as the seat back 62 of the wheelchair 800.
Referring to
Since the canopy edge 80 starts at the upward position 84, the canopy 107 does not move through the occupied space 90 during its upward movement. This is an important advantage compared to conventional umbrellas, where conventional canopy centers remain at the top position, and the conventional canopy edges start at the bottom position, swing outward and interfere with people 92 and other objects 94 in the occupied space 90.
In one embodiment, the umbrella assembly 10 includes one or more electrical sensors. The sensors are operatively coupled to the actuator 26. Based on signals from the sensors, the actuator deactivates the actuator 26 to prevent the canopy from interfering with nearby objects, such as a tree limb, sidewalk sign, pedestrian or the user's body. The umbrella assembly 10 also includes an audio generator including an audio controller and speaker. The audio generator produces a sound, such as a high pitch, beeping sound, to alert users and others of the upcoming opening or closing of the umbrella assembly 10.
Additional embodiments include any one of the embodiments described above, where one or more of its components, functionalities or structures is interchanged with, replaced by or augmented by one or more of the components, functionalities or structures of a different embodiment described above.
It should be understood that various changes and modifications to the embodiments described herein will be apparent to those skilled in the art. Such changes and modifications can be made without departing from the spirit and scope of the present disclosure and without diminishing its intended advantages. It is therefore intended that such changes and modifications be covered by the appended claims.
Although several embodiments of the disclosure have been disclosed in the foregoing specification, it is understood by those skilled in the art that many modifications and other embodiments of the disclosure will come to mind to which the disclosure pertains, having the benefit of the teaching presented in the foregoing description and associated drawings. It is thus understood that the disclosure is not limited to the specific embodiments disclosed herein above, and that many modifications and other embodiments are intended to be included within the scope of the appended claims. Moreover, although specific terms are employed herein, as well as in the claims which follow, they are used only in a generic and descriptive sense, and not for the purposes of limiting the present disclosure, nor the claims which follow.
This application is a continuation application of and claims the benefit and priority of, U.S. patent application Ser. No. 14/633,893, filed on Feb. 27, 2015, which claims priority to U.S. Provisional Patent Application No. 61/946,117, filed on Feb. 28, 2014. The entire contents of the foregoing applications are hereby incorporated by reference.
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Number | Date | Country | |
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20170099917 A1 | Apr 2017 | US |
Number | Date | Country | |
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61946117 | Feb 2014 | US |
Number | Date | Country | |
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Parent | 14633893 | Feb 2015 | US |
Child | 15389580 | US |