Patent Application
20220125169
This application is directed to a device to tilt an upper portion of an umbrella relative to a lower portion.
Patio umbrellas are well known. Among patio umbrellas, some designs allow the location of shade cast thereby to be altered by tilting an upper part of the umbrella relative to a lower part of a pole that supports the upper part of the umbrella. Such tilting function can be provided by a hinge disposed along the length of a pole between two pole segments that can be angled to one another.
While integrating a tilting function into the umbrella pole provides a sleek design, the joint is a focal point of stress on of the umbrella assembly. It would be useful to improve the design, performance, and durability of tilting umbrellas. It would be beneficial to provide a support for the umbrella pole in the vicinity of the tilting. It would be advantageous to locate a support structure outside the umbrella pole. Novel designs that reinforce in an unobtrusive manner would be desirable.
According to one aspect, an umbrella including an upright pole with an upper pole portion and a lower pole portion. A canopy assembly includes a lower hub and a plurality of support members coupled with the lower hub. A tilt mechanism includes an actuator coupled with the lower pole portion. The tilt mechanism is configured to adjust the upper pole portion from a first configuration in which the upper pole portion is aligned with the lower pole portion to a second configuration in which the upper pole portion is tilted relative to the lower pole portion. The lower hub is disposed at a tilt location of the upright pole when the upper pole portion is tilted relative to the lower pole portion.
According to another aspect, the tilt mechanism includes an upper portion, a lower portion, and a driver having an end engaged within a channel such that moving the driver along an axis of the upright pole moves the end of the driver within the channel and tilts the upper pole portion between the first configuration and the second configuration.
According to another aspect, the tilt mechanism further includes a spring component configured to store strain energy when the driver is moved such that the tilt mechanism is biased to the first configuration.
According to another aspect, the tilt mechanism includes a sleeve disposed about the lower pole portion, the sleeve being coupled with a tension member disposed through the lower pole portion and being engaged with the driver such that moving the sleeve along the lower pole portion away from the canopy assembly moves the end of the driver within the channel and tilts the upper pole portion between the first configuration and the second configuration.
According to another aspect, the tilt mechanism further includes a locking ring for retaining the sleeve in a tilt position disposed away from the canopy assembly.
According to another aspect, the umbrella includes a mechanism configured to open and close the canopy assembly that is separate from the tilt mechanism.
According to another aspect, the tilt mechanism includes a channel configured for routing a cord through the tilt mechanism between a spool and a pulley of an opening and closing mechanism.
According to another aspect, the tilt mechanism includes an opening and closing mechanism including a spool and a crank disposed on the lower pole portion and a cord extending over a pulley on the upper pole portion, an end of the cord engaged with the lower hub such that cranking the spool in a first direction raises the lower hub to open the canopy assembly and engages the lower hub with the driver, and further cranking in the first direction moves the end of the driver within the channel and tilts the upper pole portion between the first configuration and the second configuration.
According to another aspect, the upper pole portion is tilted relative to the lower pole portion at a pivot axis disposed transverse to the lower pole portion, the lower hub being intersected by the pivot axis when the upper pole portion is tilted relative to the lower pole portion.
According to another aspect, the lower hub is jointed to permit a first portion to be aligned with the lower pole portion and a second portion to be tilted relative to the first portion such that the second portion can be aligned with an upper pole portion when the upper pole portion is angled relative to the lower pole portion.
According to another aspect, the first portion is pivotable about an axis relative to the second portion.
According to another aspect, the second portion of the lower hub includes an inner portion that has a spherical outer surface and the first portion of the lower hub includes an outer portion that has an inner cavity with an inner wall configured to pivot over the spherical outer surface of the inner portion.
According to another aspect, the inner portion of the lower hub includes a plurality of circular projections disposed in a plurality of circular recesses disposed in the outer portion of the lower hub.
According to another aspect, the circular recesses has an elongate slot including a semi-circular end surface.
According to another aspect, the lower hub includes a lower hub portion including the elongate slot and an upper hub portion including a plurality of trapping elements configured to trap the circular projections in the circular recesses.
According to another aspect, an umbrella includes an upright pole including an upper pole portion and a lower pole portion. A canopy assembly includes an upper hub coupled with the upper pole portion, a lower hub, and a plurality of support members coupling the upper hub with the lower hub. The lower hub includes an inner portion disposed about the upright pole and an outer portion disposed about the inner portion. A first mechanism is for moving the lower hub along the upright pole between a lowered position corresponding to a closed configuration of the canopy assembly and a raised position corresponding to an open configuration of the canopy assembly. A second mechanism including an actuator coupled with the lower pole portion is configured to adjust the upper pole portion from a first configuration in which the upper pole portion is aligned with the lower pole portion to a second configuration in which the upper pole portion is tilted relative to the lower pole portion. The lower hub is disposed at a pivot location of the upright pole when the upper pole portion is tilted relative to the lower pole portion and the outer portion of the lower hub is tilted relative to the inner portion of the lower hub.
According to another aspect, a tilt mechanism including a lower coupler coupled with the lower pole portion, an upper coupler coupled with the upper pole portion, and a pivot axis disposed transverse to the lower pole portion, the lower hub being intersected by the pivot axis when the upper pole portion is tilted relative to the lower pole portion.
According to another aspect, the outer portion of the lower hub is tilted relative to the inner portion of the lower hub when the upper pole portion is tilted relative to the lower pole portion.
According to another aspect, the inner portion of the lower hub includes a spherical outer surface and the outer portion of the lower hub includes an inner cavity with a spherical inner wall configured to pivot over the spherical outer surface of the inner portion.
According to another aspect, the inner portion of the lower hub includes a plurality of circular projections disposed in a plurality of circular recesses disposed in the outer portion of the lower hub.
According to another aspect, the circular recesses has an elongate slot including a semi-circular end surface.
According to another aspect, the lower hub includes a lower hub portion including the elongate slot and an upper hub portion including a plurality of trapping elements configured to trap the circular projections in the circular recesses.
According to another aspect, an umbrella includes an upright pole including an upper pole portion and a lower pole portion. A canopy assembly includes a lower hub and a plurality of support members coupled with the lower hub. The lower hub includes an inner portion disposed about the upright pole and an outer portion disposed about the inner portion. A tilt mechanism includes an actuator coupled with the lower pole portion. The tilt mechanism is configured to adjust the upper pole portion from a first configuration in which the upper pole portion is aligned with the lower pole portion to a second configuration in which the upper pole portion is angled relative to the lower pole portion. The outer portion of the lower hub is angled relative to the inner portion of the lower hub when the upper pole portion is angled relative to the lower pole portion.
According to another aspect, the inner portion of the lower hub includes a spherical outer surface and the outer portion of the lower hub includes an inner cavity with an inner wall moveable over the spherical outer surface of the inner portion.
According to another aspect, the inner portion of the lower hub includes a plurality of pivot projections disposed on opposite sides of the inner portion and disposed in a corresponding plurality of pivot recesses in the outer portion of the lower hub.
According to another aspect, the pivot recesses has an elongate slot including an arcuate end surface.
According to another aspect, the lower hub includes a first hub portion including the elongate slot and a second hub portion including a plurality of trapping elements configured to trap the pivot projections in the pivot recesses.
According to another aspect, an opening and closing mechanism is configured to operate independently of the second mechanism.
According to another aspect, the umbrella includes a stop member disposed on the upright pole configured to contact at top surface of the lower hub when the lower hub is aligned with a pivot axis of the second mechanism about which the second mechanism is configured to adjust the upper pole portion from the first configuration to the second configuration.
According to another aspect, an umbrella includes a canopy assembly including an upper hub and a lower hub. An upright pole including an upper pole portion and a lower pole portion. A tilt mechanism couples with the upper pole portion and the lower pole portion and is configured to support the upper pole portion in a first configuration in which the upper pole portion is aligned with the lower pole portion and a second configuration in which the upper pole portion is angled relative to the lower pole portion. An actuator is on the lower pole portion configured to move the tilt mechanism between the first and second configurations. The actuator includes a sleeve assembly disposed on the lower pole portion and a connection member coupled with the sleeve assembly and the tilt mechanism. The sleeve assembly is movable from a raised position corresponding to the second configuration of the tilt mechanism to a lowered position corresponding to the first configuration of the tilt mechanism.
According to another aspect, the sleeve assembly includes a locking sleeve and an outer sleeve, the outer sleeve disposed over the locking sleeve.
According to another aspect, the locking sleeve includes a projection and the lower pole portion includes a recess configured to receive the projection, the projection configured to be disposed within the recess in the lowered position.
According to another aspect, the outer sleeve is movable relative to the locking sleeve such that sliding the outer sleeve downwards over the locking sleeve in the lowered position locks the projection within the recess and sliding the outer sleeve upwards over the locking sleeve releases the projection from the recess to allow movement of the sleeve assembly to the raised position.
According to another aspect, the outer sleeve includes an inner recess configured to receive the projection in the raised position.
According to another aspect, an upper end of the locking sleeve includes a radially outwardly extending flange and the outer sleeve includes an inner shelf, the radially outwardly extending flange configured to catch on the inner shelf and raise the locking sleeve as the outer sleeve is moved into the raised position.
According to another aspect, the sleeve assembly further includes a pole shield configured to cover the recess in the raised position and movable to provide access to the recess in the lowered position.
According to another aspect, the pole shield is fixedly coupled with the locking sleeve.
According to another aspect, the connection member is disposed within the lower pole portion and coupled with the locking sleeve through a slot in the lower pole portion.
According to another aspect, the connection member includes a pin, first and second ends of the pin coupled with the locking sleeve through the slot.
According to another aspect, the tilt mechanism includes an upper portion, a lower portion, and a driver having an end engaged within a channel such that moving the driver along an axis of the upright pole moves the end of the driver within the channel and tilts the upper pole portion between the first configuration and the second configuration.
According to another aspect, the tilt mechanism further includes a spring component configured to store strain energy when the driver is moved such that the tilt mechanism is biased to the first configuration.
According to another aspect, the tilt mechanism includes a sleeve disposed about the lower pole portion, the sleeve being coupled with a tension member disposed through the lower pole portion and being engaged with the driver such that moving the sleeve along the lower pole portion away from the canopy assembly moves the end of the driver within the channel and tilts the upper pole portion between the first configuration and the second configuration.
According to another aspect, the tilt mechanism further includes a locking ring for retaining the sleeve in a tilt position disposed away from the canopy assembly.
According to another aspect, further including a mechanism configured to open and close the canopy assembly that is separate from the tilt mechanism.
These and other features, aspects and advantages are described below with reference to the drawings, which are intended to illustrate but not to limit the inventions. In the drawings, like reference characters denote corresponding features consistently throughout similar implementations. The following is a brief description of each of the drawings.
While the present description sets forth specific details of various implementations, it will be appreciated that the description is illustrative only and should not be construed in any way as limiting. Furthermore, various applications of such implementations and modifications thereto, which may occur to those who are skilled in the art, are also encompassed by the general concepts described herein. Each and every feature described herein, and each and every combination of two or more of such features, is included within the scope of the present invention provided that the features included in such a combination are not mutually inconsistent.
One end of each of the ribs 104 can be pivotably coupled with an upper hub 112. The upper hub 112 can be coupled with a central pole 120. The central pole 120 is generally mounted or supported vertically, and so is sometimes referred to as an upright pole. One end of each of the struts 108 can be pivotably coupled with a lower hub 116. The ends of the ribs 104 and the struts 108 coupled to the hubs 112, 116 respectively are inner ends in that they are closer than the opposite ends thereof to a central axis of the central pole 120 when the canopy assembly 102 is open. The lower hub 116 can be moveably, e.g., slideably, mounted on the central pole 120. An opposite end of each of the struts 108 can be pivotably coupled with a corresponding rib of the ribs 104. The canopy assembly 102, which can also include the hubs 112, 116, can be opened and closed by movement of the lower hub 116 along the central pole 120. The canopy assembly 102 can be opened by raising the lower hub 116 along the central pole 120 from a lowered position in which the canopy assembly 102 is closed. The canopy assembly 102 can be closed by lowering the lower hub 116 along the central pole 120 from a position of the lower hub 116 in which the canopy assembly is open.
The umbrella 100 can include an opening and closing mechanism 136, which can be a first mechanism of the umbrella 100. The opening and closing mechanism 136 is sometimes referred to herein by the shorthand open/close mechanism 136. The opening and closing mechanism 136 can be mounted on, in or partly on and partly in the central pole 120. The opening and closing mechanism 136 can be part of the structure to control the position of the lower hub 116 along the central pole 120. The open/close mechanism 136 can include a crank handle 137 attached to a spool (not shown). The spool can be attached to a tension transferring member (not shown), such as a string, a wire, a cord, or other similar member configured to transfer a force to one or both of the hubs 112, 116 and also configured to be wound on the spool. The cord or other tension transferring member can be coupled at one end with the spool and at an opposite end with the lower hub 116. The cord can pass over a pulley located adjacent to or supported within the upper hub 112. By turning the spool using the crank handle 137 (see
The umbrella 100 includes a tilt mechanism 124. The tilt mechanism 124 can be a dedicated mechanism that is provided to adjust the tilt angle of the canopy assembly 102 or components thereof, as discussed further below. As used herein, a dedicated mechanism is one that can provide only the tilt function as described herein. As used herein, a dedicated mechanism is one that provides the tilt function separate and apart from the open/close function of the canopy assembly. The tilt mechanism 124 can be a dedicated tilt mechanism that performs multiple functions, e.g., providing a tilted configuration from an aligned configuration and locking a portion of the umbrella 100 in a tilted configuration after the tilted portion has been tilted. The tilt mechanism 124 can be mounted along the central pole 120, as shown. The tilt mechanism 124 can also be used in a cantilever-style umbrella. In such an embodiment, the tilt mechanism 124 is disposed about an upright pole disposed to a side of a central portion of a canopy assembly. The tilt mechanism 124, or portions thereof, can be integrated into the opening and closing mechanisms 136 as discussed further below. The tilt mechanism 124 can divide the central pole 120 into an upper pole portion 128 and a lower pole portion 132. The lower pole portion 132 can be a first pole and the upper pole portion 128 can be a second pole and the tilt mechanism 124 can be disposed between and the first pole and the second pole. The tile mechanism 124 can couple the first pole to the second pole. The upper pole portion 128 can be coupled with an upper end or an upper portion of the tilt mechanism 124. The upper hub 112 can be coupled with an upper or portion or upper end of the upper pole portion 128. The lower pole portion 132 can be coupled with a lower end or lower portion of the tilt mechanism 124. Further details of tilt mechanisms for umbrellas are described below as well as in U.S. Pat. Pub. No. 2018/0298632 (Ma) and U.S. Pat. No. 6,446,650 (Ma), which are hereby incorporated herein by reference for purposes of further description of the upper and lower portions of various embodiments of tilt mechanisms and for all other purposes.
The tilt mechanism 124 can have a first configuration, which can be an untilted or aligned configuration as shown in
The tilt mechanism 124 can be controlled by an actuator, such as the slideable collar actuator 140, discussed in more detail below. The actuator can have an independent and/or separate control mechanism from the open/close mechanism 136. The actuator can be operable by a person to selectively manipulate the tilt mechanism 124 between the first and second configurations. The actuator cam provide a dedicated control for the tilt configuration of the umbrella 100, being part of a mechanism that is not functionally combined with the opening and closing mechanism 136. A cord or a control rod (not shown) can couple the actuator with the tilt mechanism 124. A first end of the cord or control rod can be coupled with the actuator. A second end of the control rod or cord can be coupled with the tilt mechanism 124, as described further below in relation to the slideable collar actuator 140. Alternative actuators are described in U.S. application Ser. No. 16/826,052 files on Mar. 20, 2020 and included as Appendix A.
As shown in
The lower hub 116 can be disposed over the central pole 120. The central pole 120 can be disposed within a central aperture 116a of the lower hub 116. The central aperture 116a can be sized to receive the central pole 120, with the lower hub 116 slideable over the central pole 120.
The lower hub 116 can include an inner portion 218 in addition to the outer portion 214. The outer portion 214 can be disposable about the upright pole 120 and over the tilt mechanism 124. The inner portion 218 can be disposable at least partially within the outer portion 214 and can be moved to various positions over the upright pole 120, e.g., over the lower portion 132 and/or the upper portion 128. As discussed further below, the inner portion 218 of the lower hub 116 can come to rest in an elevated position at which the inner portion 218 is disposed over the lower portion 132 of the upright pole 120. In some embodiments, the inner portion 218 of the lower hub 116 can come to rest in an elevated position at which the inner portion 218 is disposed over the upper portion 128 of the upright pole 120.
The outer portion 214 has a multi-part construction in some embodiments which facilitates assembly. For example, the outer portion 214 can comprise an upper member 215 and a lower member 216. The upper member 215 can be coupled together with the lower member 215 to form the outer portion 214.
The outer portion 214 can include the central aperture 116a. The central aperture 116a can include an inner wall 116b. The inner wall 116b can match the perimeter of the central pole 120, e.g., be generally cylindrical if the central pole 120 has a circular outer surface as viewed in transverse cross-section. At least a portion of the inner portion 218, e.g., an upper portion thereof, can be disposed within the central aperture 116a and generally aligned with the inner wall 116b. The central aperture 116a can include a lower edge 116c, sometimes called a lower rim 116c. The lower rim 116c can have a smaller radius than a radius of the inner wall 116b spaced apart from the lower rim 116c. The lower rim 116c can extend upward from the location where the central aperture 116a meets the bottom surface of the outer portion 214 and can include a generally concave or concave, spherical surface disposed along this upward extent. The central aperture to 116a can include an upper edge 116d, sometimes called an upper rim 116d. The upper rim 116d can extend downward from the location where the central aperture 116a meets the top surface of the outer portion 214. The upper rim 116d can be cylindrical and in some embodiments can have a smaller diameter than the inner wall 116b. The inner wall 116b can be located between the lower rim 116c and the upper rim 116d. A diameter of the upper rim 116d can be sized to receive, e.g., can be sized to slide over or translate along, the upright pole 120 and/or the tilt mechanism 124.
The inner wall 116b can include one, two or more than two recesses or channels 216a. The channels 216a can be recessed within the inner wall 116b. The channels 216a can extend parallel with a longitudinal axis of the central aperture 116a. The channels 216a can located around the inner wall 116b to correspond with position of the pivot projections 218b of the inner portion 218 when the lower hub 116 is assembled. The channels 216a can have straight circumferentially spaced edges. The channels 216a can have a radial surface spaced away from the central aperture 116a. The channels 216a can have a depth between the inner wall 116b and the radial surface that is at least as great as the length of the pivot projections 218b of the inner portion 218. The channels 216a can include a semi-circular (or other arcuate) end surface. An arcuate (e.g., semi-circular) end surface facilitates the pivoting of the outer portion 214 relative to the inner portion 218 as shown for example in
The upper member 215 can include one or more trapping members or projections 215a. When the upper member 215 is assembled to the lower member 216, the projections 215a can extend across an interface between the upper member 215 and the lower member 216. The projections 215a can extend parallel with the longitudinal axis of the central aperture 116a. The projections 215a can be sized and aligned to be received within at least a portion of the channels 216a. The projections 215a can have an arcuate (e.g., semi-circular) end surface to facilitate pivoting of the outer portion 214 relative to the inner portion 218 as shown in
The inner portion 218 can be coupled with the lower member 216. The inner portion 218 can be inserted within the lower member 216. The outer surface 218a can be engaged with the lower rim 116c to support the inner portion 218 within the outer portion 214. The lower rim 116c can match the contours of the outer surface 218a. Inserting the inner portion 218 can include inserting the pivot projections 218b into the corresponding channels 216a. After assembling the inner portion 218 with in the lower member 216, the upper member 215 can be assembled with the lower member 216. The projections 215a can be advanced within the corresponding channels 216a. The projections 215a can function to seat the pivot projections 218b within the channels 216a. The projections 215a can secure the inner portion 218 within the central aperture 116a. The projections 215a can limit translation of the pivot projections 218b within the channels 216a. The inner portion 218 can be pivotable within the central aperture 116a, as shown in
As shown in
The tilt mechanism 124 can include a spring 328. The spring 328 can be a coiled spring. The tilt mechanism 124 can include a base member 326. The base member 326 can be generally shaped as a cylindrical block. The base member 326 can couple with an end of the driver 322 opposite the end 323. The base member 326 can be disposable within or coupled with the spring 328. The tilt mechanism 124 can include a tension member 329. The tension member 329 can couple with the driver 322 through the base member 326 or directly with the driver 322. The base 322a of the driver 322 can include a projection that couples with the base member 326. The tension member 329 can couple with a link or pin connected with the driver 322. The tension member 329 can include a loop or hook that coupled with the link or pin. The tension member 329 can also loop through an aperture in the base 322a.
The tilt mechanism 124 can include a guide track or channel 324. The channel 324 can be formed in a first channel member 324a and a second channel member 324b. The first channel member 324a can cooperate with the second channel member 324b to form the channel 324. Alternatively, a single channel member can be employed with the channel member 324b disposed therethrough. The channel 324 can include a ramped surface.
The assembly of the tilt mechanism 124 is further illustrated as in
The lower hub 116 can be raised to align with the tile mechanism 124, corresponding to an open configuration of the umbrella canopy. A cord 138 can extend through a channel within the tilt mechanism 124 and pass through the lower pole portion 132 and the upper pole portion 128 and extend over the pulley of the central pole 120 and return to couple with the lower hub 116. The cord 138 can be used to open and close the umbrella canopy 102 by raising and lowering the lower hub 116. The cord 138 can be coupled at an opposite end with an open/close mechanism, e.g., with a shaft or spool coupled with the crank handle 137.
In the raised position of the lower hub 116, the lower hub 116 can be aligned with the pivot axis 124c. In certain implementations, the pivot axis 124c can be a generally aligned with the axis of the inner projections 218b. In certain implementations, the tilt axis of the lower hub 116 can be located (i.e., either above or below) within ½″, 1″, or 2″ of the pivot axis 124c. In certain implementations, the inner member 218 can be aligned with the pivot axis 124c.
In the second configuration shown in
In the second configuration, the outer portion 214 of the lower hub 116 can be pivoted relative to the inner portion 218. The pivoting can occur on the tilt axis defined by the inner protrusions 218b within the channels 216a. Engagement of the outer surface 218a with the inner surface 116b can stabilize and steady the tilting motion of the tilt mechanism 124. In certain implementations, the outer surface 218a can be engaged with the lower rim 116c continuously in both the first and second configurations. Pivoting of the upper portion 124a and the upper pole portion 128 is further facilitated by the angled rim portion 218d. The angled rim portion 218d can accommodate a shifted position of the upper pole portion 128 within the central aperture 218f. Without the angled rim portion 218d, the upper pole portion 128 would interfere with the upper rim 218c.
The downward movement of the driver 322 can compress the spring 328. The spring 328 can store strain energy to bias the driver 322 into the upper position with the end 323 biased into the first position within the channel 324 corresponding to the second configuration of the umbrella 100. The driver 322 can be movable by a force applied to the tension member 329 by an actuator, such as the actuator 140. The actuator can be configured for moving the umbrella between the first and second configurations. Upward movement of the driver 322 can return the tilt mechanism 124 to the first configuration.
The collar 410 can include an inner shelf 414. The inner shelf 414 can extend around an inner circumference of the collar 410. The inner shelf 414 can separate an upper interior wall having a greater inner diameter from a lower interior wall having a lesser inner diameter. The inner shelf 414 can comprise a stepped surface. One or more upright ribs 413 can extend inwardly from the upper interior wall. The upright ribs 413 can extend parallel with a longitudinal axis of the collar 410.
The collar 410 can include one or more inward projections 416. The inward projections 416 can be spaced around a circumference of the lower interior wall. The inward projections 416 can project radially inwardly. The collar 410 can include one or more recesses 415. The recesses 415 can be located in the portion of the collar 410 corresponding to the lower interior wall. The recesses 415 can include greater inner diameters than the inner diameter of the lower interior wall. The recesses 415 can be have a concave curvature.
The slideable collar actuator 140 can include a locking sleeve 420. The locking sleeve 420 can be generally cylindrical in shape. The locking sleeve 420 can include a first end 422 and a second end 428 with an outer surface 421 extending therebetween. The first end 422 can include a radially outwardly extending flange 422a. The flange 422a can include a chamfered or rounded edge. The first end 422 can include one or more projections separated by one or more slots 421a in the outer surface 421. The locking sleeve 420 can include one or more apertures 429. The apertures 429 can receive a pin therein. The pin can extend across the outer surface 421.
The outer surface 421 can further include one or more outer projections 425. The outer projections can include a projection head 425a. In a first position, the projection heads 425a can extend radially outwardly of the outer surface 421 and radially inwardly of the outer surface 421. The outer projections 425 can include a cantilevered member 425b extending from the first end 422 towards to the second end 428. The projections heads 425a can be located on the cantilevered members 425b. The cantilevered members 425b can bias the projections heads 425a into the first position. The outer projections 425 can be spaced between the slots 421a.
The slideable collar actuator 140 can include a pole shield 430. The pole shield 430 can generally form a cylindrical member. The pole shield 430 can include a first end 432 and a second end 438. An outer surface 431 can extend from the first end 432 to the second end 438. The first end 432 can include a lip 432a. The lip 432a can extend around a circumference of the first end 432. The lip 432a can project radially outwardly relative to the outer surface 431. The first end 432 can include one or more recesses 433. The recesses 433 can be located at spaced intervals around the first end 432. The recesses 433 can extend from an upper edge or upper rim of the first end 432 towards the second end 438. The first end 432 can include slots 435. The slots 435 can be internal slots. The slots 435 can extend radially inwardly from the outer surface 431 of the pole shield 430. The slots 435 can be surrounded on all sides around the slots 435 such they are not open at the upper edge of the first end 432. The internal slots 435 can be space at intervals around the first end 432. The slots 435 can be oriented in a transverse direction, relative to a longitudinal axis of the pole shield 430. A central aperture of the pole shield 430 can receive the central pole 120.
In an assembled configuration of the slideable collar actuator 140, the locking sleeve 420 can be disposed over the lower pole portion 132. The locking sleeve 420 can be coupled with the tension member 329. The locking sleeve 420 can be coupled with the tension member 329 be a pin 501. The pin 501 can be disposed through one or more slots 132b in the lower pole portion 132. The pin 501 can be coupled within or extend through the apertures 429 of the locking sleeve 420.
The collar 410 can be disposed over the locking sleeve 420 and the lower pole portion 132. The collar 410 can include a ring lid 440. The ring lid 440 can comprise a circumferential member that extends around the lower pole portion 132. The ring lid 440 can be coupled with the first end 412 of the collar 410. The pole shield 430 can be assembled over the lower pole portion 132. The lower pole portion 132 can include one or more indentations or recesses 132a. The first end 432 of the pole shield 430 can be coupled with the second end 418 of the collar 410. The inward projections 416 can be coupled within the slots 435 to secure the pole shield 430 with the collar 410. The second end 438 of the pole shield 430 can be disposed within a housing 136a of the open/close mechanism 136.
The assembly of the collar 410, the locking sleeve 420 and the pole shield 430 can be slideable on the lower pole portion 132 to actuate the tile mechanism 124 by moving the tension member 329. In a raised configuration of the slideable collar actuator 140, as shown in
In a lowered configuration of the slideable collar actuator 140, as shown in
The slideable collar actuator 140 can be returned to the raised configuration by a user grasping the collar 410 and shifting it upwards. The locking sleeve 420 can be pulled upward with the collar 410 by the flange 422a engaged with the inner shelf 414. The projection heads 425a can be released from the recesses 132a by shifting the inner wall of the collar 410 upwardly. The projection heads 425a can deflect outwardly by the cantilevered members 425b. The projection heads 425a can be received within the recesses 415.
In another embodiment shown in
Conditional language, such as “can,” “could,” “might,” or “may,” unless specifically stated otherwise, or otherwise understood within the context as used, is generally intended to convey that certain implementations include, while other implementations do not include, certain features, elements, and/or steps. Thus, such conditional language is not generally intended to imply that features, elements, and/or steps are in any way required for one or more implementations or that one or more implementations necessarily include logic for deciding, with or without user input or prompting, whether these features, elements, and/or steps are included or are to be performed in any particular implementation.
The terms “approximately,” “about,” and “substantially” as used herein represent an amount close to the stated amount that still performs a desired function or achieves a desired result. For example, the terms “approximately”, “about”, and “substantially” may refer to an amount that is within less than 10% of, within less than 5% of, within less than 1% of, within less than 0.1% of, and within less than 0.01% of the stated amount. As another example, in certain implementations, the terms “generally parallel” and “substantially parallel” refer to a value, amount, or characteristic that departs from exactly parallel by less than or equal to 15 degrees, 10 degrees, 5 degrees, 3 degrees, 1 degree, 0.1 degree, or otherwise.
Some implementations have been described in connection with the accompanying drawings. However, it should be understood that the figures are not drawn to scale. Distances, angles, etc. are merely illustrative and do not necessarily bear an exact relationship to actual dimensions and layout of the devices illustrated. Components can be added, removed, and/or rearranged. Further, the disclosure herein of any particular feature, aspect, method, property, characteristic, quality, attribute, element, or the like in connection with various implementations can be used in all other implementations set forth herein. Additionally, it will be recognized that any methods described herein may be practiced using any device suitable for performing the recited steps.
For purposes of this disclosure, certain aspects, advantages, and novel features are described herein. It is to be understood that not necessarily all such advantages may be achieved in accordance with any particular implementation. Thus, for example, those skilled in the art will recognize that the disclosure may be embodied or carried out in a manner that achieves one advantage or a group of advantages as taught herein without necessarily achieving other advantages as may be taught or suggested herein.
Although these inventions have been disclosed in the context of certain preferred implementations and examples, it will be understood by those skilled in the art that the present inventions extend beyond the specifically disclosed implementations to other alternative implementations and/or uses of the inventions and obvious modifications and equivalents thereof. In addition, while several variations of the inventions have been shown and described in detail, other modifications, which are within the scope of these inventions, will be readily apparent to those of skill in the art based upon this disclosure. It is also contemplated that various combination or sub-combinations of the specific features and aspects of the implementations may be made and still fall within the scope of the inventions. It should be understood that various features and aspects of the disclosed implementations can be combined with or substituted for one another in order to form varying modes of the disclosed inventions. Further, the actions of the disclosed processes and methods may be modified in any manner, including by reordering actions and/or inserting additional actions and/or deleting actions. Thus, it is intended that the scope of at least some of the present inventions herein disclosed should not be limited by the particular disclosed implementations described above. The limitations in the claims are to be interpreted broadly based on the language employed in the claims and not limited to the examples described in the present specification or during the prosecution of the application, which examples are to be construed as non-exclusive.
This application claims the benefit of U.S. Patent Application No. 63/105,707, filed Oct. 26, 2020, the entirety of which is hereby incorporated by reference.
| Number | Date | Country | |
|---|---|---|---|
| 63105707 | Oct 2020 | US |
