This disclosure relates generally to cantilevered umbrellas, and more particularly, crankless cantilevered umbrellas.
Cantilevered umbrellas provide shade from the sun. Traditional cantilevered umbrellas have a dome-shaped canopy that is suspended from a cantilevered arm. The canopy is typically opened using a crank mechanism. Because of this, traditional cantilevered umbrellas can be cumbersome to operate and position to ensure that the shade provided is maximized.
Cantilevered umbrellas are disclosed herein. In a first embodiment, the cantilevered umbrella includes a mast having an elongated configuration, a cantilevered arm extending from the mast, a canopy extending from the cantilevered arm, a carriage connected to the cantilevered arm, and at least one of a constant force spring or a gas spring connected to the mast. The canopy is moveable between an open position, wherein the canopy is extended, and a collapsed position, wherein the canopy is collapsed. The carriage is vertically moveable along the mast (30) to move the canopy (60) between the open position and the collapsed position. The at least one of the constant force spring or the gas spring is operable with the carriage to assist with moving the canopy between the open position and the collapsed position and to counterbalance the weight of the cantilevered arm and canopy.
The at least one of the constant force spring or the gas spring can be disposed within an internal cavity of the mast. The carriage can be disposed within the internal cavity of the mast. The cantilevered umbrella can include a rail extending substantially vertically along an outer surface of the mast and a guide connected to the rail and the carriage. The carriage can rise within the internal cavity of the mast as the guide is raised along the rail, and the carriage can lower within the internal cavity of the mast as the guide is lowered along the rail. The at least one of the constant force spring or the gas spring can be connected to the mast within the internal cavity at a point that is closer to the upper end of the mast than a base. The at least one of the constant force spring or the gas spring can uncoil or extend as the carriage is lowered within the internal cavity of the mast and recoil or retract as the carriage is raised within the internal cavity of the mast. The cantilevered umbrella can include a support arm having a first end pivotally connected to the mast and a second end connected to the cantilevered arm. The cantilevered umbrella can include an over-center assembly disposed within the internal cavity of the mast and engageable with the carriage to hold the canopy in the open position,
In a second embodiment, the cantilevered umbrella includes a mast extending substantially vertical, a cantilevered arm extending from the mast, a canopy extending from the cantilevered arm, a carriage connected to the cantilevered arm, at least one of a constant force spring or a gas spring connected to the mast, and an over-center spring assembly disposed with an internal cavity of the mast. The carriage is vertically movable along the mast to move the canopy between an open position, wherein the canopy is extended, and a collapsed position, wherein the canopy is collapsed. The at least one of the constant force spring or the gas spring is operable with the carriage to assist with moving the canopy between the open position and the collapsed position and to counterbalance the weight of the cantilevered arm and the canopy. The over-center spring assembly has a gas spring and a forked lever arm. The forked lever arm is pivotally connected to the gas spring and engages a roller of the carriage when the canopy is in the open position.
A recess of the forked lever arm can engage the roller of the carriage when the canopy is in the open position. The forked lever arm can be moveable between a first position, where the recess of the forked lever arm is angled downward, and a second position, where the recess of the forked lever arm is angled upward. The at least one of the constant force spring or the gas spring can uncoil or extend as the carriage is lowered within the internal cavity of the mast and recoil or retract as the carriage is raised within the internal cavity of the mast.
In a third embodiment, the cantilevered umbrella includes a mast having an internal cavity, a cantilevered arm extending from the mast, a canopy extending from the cantilevered arm, a carriage connected to the cantilevered arm, and an over-center spring assembly disposed within an internal cavity of the mast. The canopy is moveable between an open position, wherein the canopy is extended, and a collapsed position, wherein the canopy is collapsed. The carriage is vertically moveable along the mast to move the canopy between the open position and the collapsed position. The over-center spring assembly is engageable with the carriage to hold the canopy in the open position.
The over-center spring assembly can include a gas spring disposed within the internal cavity of the mast and a forked lever arm pivotally connected to the gas spring. The forked lever arm can engage a roller of the carriage when the canopy is in the open position. A recess of the forked lever arm can engage the roller of the carriage when the canopy is in the open position. The forked lever arm can be moveable between a first position, where the recess of the forked lever arm is angled downward, and a second position, where the recess of the forked lever arm is angled upward.
The cantilevered umbrella can include a rail extending substantially vertically along an outer surface of the mast and a guide connected to the rail and the carriage. The carriage can raise within the internal cavity of the mast as the guide is raised along the rail and the carriage can lower within the internal cavity of the mast as the guide is lowered along the rail. The cantilevered umbrella can include at least one of a constant force spring or a gas spring disposed within the internal cavity of the mast and operable with the carriage to assist with moving the canopy between the open position and the collapsed position. The at least one of the constant force spring or the gas spring can be connected to the mast within the internal cavity at a point that is closer to an upper end of the mast than a base. The at least one of the constant force spring or the gas spring can uncoil or extend as the carriage is lowered within the internal cavity of the mast and recoil or retract as the carriage is lowered within the internal cavity of the mast.
The invention is best understood from the following detailed description when read in conjunction with the accompanying drawings. It is emphasized that, according to common practice, the various features of the drawings are not to-scale. On the contrary, the dimensions of the various features are arbitrarily expanded or reduced for clarity.
The disclosure herein is directed to a cantilevered umbrella 10 that uses a constant force spring 103, instead of a crank, to assist with the operation of the cantilevered umbrella 10. The constant force spring 103 can reduce the force necessary to open the cantilevered umbrella 10 to an open position while also counter balancing the weight of a cantilevered arm 40 and a canopy 60. An over-center spring assembly 150 can be provided that assists with extending the canopy 60 and holding the canopy 60 in the open position.
As illustrated in
The mast 30 can have an elongated configuration with an internal cavity 31 (shown in
As shown in
The cantilevered arm 40 can be straight or have a slight bend as it extends longitudinally from a first end 41 to a second end 42. The first end 41 of the cantilevered arm 40 can include a knuckle 44 that is pivotally connected to the guide 101. The second end 42 of the cantilevered arm 40 can include an extension 45 that is pivotally connected to the canopy 60 (shown in
As illustrated in
The canopy 60 is moveable between the open position and a collapsed position. In the open position, shown in
As shown in
The constant force spring 103 counterbalances the weight of the cantilevered arm 40 and the canopy 60. One end of the constant force spring 103 is attached or connected to a second end 104 of the carriage 102, and the other end of the constant force spring 103 is attached or connected to the mast 30 within the internal cavity 31. In the illustrated, non-limiting example, the other end of constant force spring 103 is attached or connected near the upper end 34 of the mast 30 within the internal cavity 31. Because the carriage 102 is moveable within the internal cavity 31 of the mast 30, the constant force spring 103 uncoils or extends as the carriage 102 is lowered and recoils or retracts as the carriage 102 is raised within the internal cavity 31 of the mast 30. Lowering of the carriage 102 results in the canopy 60 being moved to the collapsed position, and raising of the carriage 102. results in the canopy 60 being moved to the open position. Because the cantilevered arm 40 is pivotally connected to the guide 101 on the carriage 102, the lowering of the carriage 102 moves the cantilevered arm 40 to a vertical position, and the raising of the carriage 102 moves the cantilevered arm to a horizontal position.
The over-center spring assembly 150 with a gas spring 151 and a forked lever arm 152 can be provided within the internal cavity 31 of the mast 30. In the illustrated, non-limiting example, the over-center spring assembly 150 is provided within the extension 35 of the mast 30, best seen in
To assist with opening the canopy 60 and holding the canopy 60 in the open position, the over-center spring assembly 150 is moveable between a first position, shown in
Because of the line of rotation of the forked lever arm 152 and the gas spring 151, the forked lever arm 152 will mechanically want to rest in either the first position or the second position. For example, if the forked lever arm 152 is in the first position and is moved away from the first position by the roller 105 on the carriage 102, the forked lever arm 152 will be forced back into the first position by the gas spring 151 unless enough force is applied by the roller 105 of the carriage 102 to move the forked lever arm 152 at least halfway toward the second position. Once enough force has been applied by the roller 105 of the carriage 102 to move the forked lever arm 152 past the halfway point, the force of the gas spring 151 will assist in moving the forked lever arm 152 into the second position. The same scenario is true for moving from the second position into the first position.
In a second embodiment of the cantilevered umbrella (10), the over-center spring assembly 150 is omitted, which is illustrated in
To allow pivotal rotation of the cantilevered arm 40 and the canopy 60, a tilting assembly is provided within the knuckle 44 of the cantilevered arm 40 that is activated by a handle 106 with a lever 107. As seen in
According to a first embodiment 80 of the tilting assembly, the lever 107 is pivotally connected to a plunger 81 through the use of a conventional fastener (not shown). The plunger 81 is elongated and extends through the hollow portion 46 of the knuckle 44. The plunger 81 has a hollow portion to allow passage of the canopy cable 65 (not shown in
A joint 85 is connected to the cantilevered arm 40 such that rotation of the joint translates into rotation of the cantilevered arm 40 and the canopy 60. The joint 85 having a substantially tubular configuration is housed within the knuckle 44 adjacent to a second spring 90. The joint 85 includes an internal face plate 86 having a contoured surface 87 that faces away from the mast 30. The contoured surface 87 of the joint 85 is engageable with the contoured surface 84 of the plunger 81. When the handle 106 is substantially vertical, a slight gap is formed between the contoured surface 87 of the joint 85 and the contoured surface 84 of the plunger 81.
The first embodiment 80 of the tilting assembly rotates the cantilevered umbrella 10, as shown in
The tilting assembly is simplified in a second embodiment 180, which is shown in
Similar to the first embodiment 80 of the tilting assembly, the cantilevered umbrella 10 is rotated by pivoting the bottom of the handle 106 away from the mast 30. As a result, the lever 107 on the handle 106 pulls the plunger 181 away from the mast 30 so that the contoured surface 182 of the plunger 181 is pulled away from the contoured surface 184 of the cantilevered. arm. With the contoured surfaces 182, 184 disengaged, the cantilevered arm 40 is free to rotate with the handle 106. Once the desired rotation of the cantilevered arm 40 and the canopy 60 is achieved, the handle 106 is returned and secured to the substantially vertical position along the mast 30. The spring 183 will push the contoured surface 182 of the plunger 181 toward the contoured surface 184 of the cantilevered arm 40.
To open the cantilevered umbrella 10 from the collapsed position shown in
To return the cantilevered umbrella 10 to the collapsed position, the handle 106 is pushed toward the base 20 with the guide 101 guided along the rail 32 on the mast 30. As the carriage 102 lowers within the internal cavity 31 of the mast 30, the constant force spring 103 uncoils, the cantilevered arm 40 moves to the substantially vertical position, and the lower cap 63 of the canopy 60 is moved away from the upper cap 64 by the canopy cable 65, which collapses or closes the canopy 60. When the roller 105 on the carriage 102 disengages the recess 153 on the forked lever arm 152, the over-center spring assembly 150 holds the forked lever arm 152 is the second position, which allows the forked lever arm 152 to be ready to accept the roller 105 on the carriage 102 the next time the cantilevered umbrella 10 is moved to the open position.
While the invention has been described in connection with certain embodiments, it is to be understood that the invention is not to be limited to the disclosed embodiments but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the scope of the appended claims, which scope is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures as is permitted under the law.
This application claims the benefit of U.S. Provisional Application Ser. No. 62/369,391, filed on Aug. 1, 2016, and U.S. Provisional Application Ser. No. 62/383,704, filed on Sep. 6, 2016, the entire disclosures of which are incorporated herein by reference.
Number | Date | Country | |
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62369391 | Aug 2016 | US | |
62383704 | Sep 2016 | US |