The present disclosure relates to a seat and to an assembly for a seat.
Camping stools are portable seats that are used for camping and similar outdoor activities. Because of the general desire during such activities to minimize the space taken up by such seats, it is preferable for camping stools to include one or more extendable legs. When not in use, the legs of the stool may be retracted or collapsed, reducing the size of the stool.
However, such stools generally rely on inefficient locking mechanisms for securing the legs in the extended position. For example, a user may need to manually engage a push-button to unlock the legs, or else may need to use locking clamps. It would be advantageous if a stool or similar seat were provided with a simpler and more efficient means of enabling locking and unlocking of the extendable legs.
In this context, the present disclosure seeks to provide an improved seat and an improved assembly for a seat.
According to a first aspect of the disclosure, there is provided an assembly for a seat, comprising: a pivot hub defining multiple rotation axes; a displacing module for attaching to the pivot hub; legs for rotatably coupling to the pivot hub, wherein at least one of the legs is extendable, the legs comprising one or more locking devices movable between an unlocked position, in which the at least one extendable leg, when extended, is enabled to retract, and a locked position, in which the at least one extendable leg, when extended, is prevented from retracting, wherein the legs, when rotatably coupled to the pivot hub, are rotatable about the rotation axes between an intermediate position and a deployed position, wherein, when the least one extendable leg is extended and when the displacing module is attached to the pivot hub: in the intermediate position, the displacing module engages the one or more locking devices to move the one or more locking devices from the locked position to the unlocked position; and rotating the legs from the intermediate position to the deployed position brings the displacing module out of contact with the one or more locking devices.
The pivot hub may comprise first alignment features. The legs may further comprise second alignment features for aligning with the first alignment features. When the first alignment features are aligned with the second alignment features, the legs may be translatable relative to the pivot hub and along the rotation axes such that the legs may be coupled with the pivot hub. When the legs are coupled with the pivot hub, and when the first alignment features are not aligned with the second alignment features, the legs may be prevented from being decoupled from the pivot hub by engagement of the first alignment features with the second alignment features.
The first alignment features may comprise one of male and female alignment features, and the second alignment features may comprise the other of male and female alignment features.
The pivot hub may further comprise arms extending from a central portion of the pivot hub, and the arms may define respective ones of the rotation axes. The arms may comprise the first alignment features at ends of the arms. The first alignment features may comprise teeth extending from the ends of the arms.
The at least one extendable leg may comprise: at least one inner leg portion arranged to translate relative to at least one outer leg portion; and a leg holder comprising one or more of the second alignment features and fixed to the at least one inner leg portion or the at least one outer leg portion.
The leg holder may be fixed to the at least one outer leg portion.
The leg holder may comprises a first aperture formed therein. The at least one inner leg portion and/or the at least one outer leg portion may comprise a second aperture formed therein. The first and second apertures may be positioned such that translating the at least one inner leg portion relative to the at least one outer leg portion causes the first and second apertures to be brought into alignment.
The at least one extendable leg may comprise one or more portions thereof for preventing rotation of the at least one inner leg portion or the at least one outer leg portion relative to the leg holder. The one or more portions may comprise one or more flattened portions of the leg holder and one or more flattened portions of the at least one inner leg portion.
The one or more locking devices may comprise one or more resilient biasing members. The one or more resilient biasing members may comprise one or more springs with one or more spring feet. The one or more springs may be arranged to bias the one or more spring feet such that, in the locked position and when the at least one extendable leg is in the deployed position, the one or more spring feet extend through one or more leg apertures formed in the at least one extendable leg. The one or more springs may be further arranged to bias the one or more spring feet such that, in the locked position and when the at least one extendable leg is in the deployed position, the one or more spring feet further extend through one or more leg holder apertures formed in a leg holder fixed to the at least one extendable leg.
The one or more leg apertures may be formed in at least one inner leg portion of the at least one extendable leg. The at least one inner leg portion may be arranged to translate relative to at least one outer leg portion of the at least one extendable leg.
When the at least one extendable leg is extended and is in the intermediate position, and when the displacing module is attached to the pivot hub, the displacing module may be shaped to engage the one or more spring feet and prevent the one or more spring feet from extending through the one or more leg apertures, thereby enabling retraction of the at least one extendable leg.
The one or more spring feet may further comprise one or more tapered portions. When the at least one extendable leg is extended and is in the intermediate position, and when the displacing module is attached to the pivot hub, the displacing module may be shaped to engage the one or more spring feet and prevent the one or more spring feet from extending out of the one or more leg holder apertures. The one or more tapered portions may facilitate retraction of the at least one extendable leg.
The assembly may further comprise a seat cover for attaching to upper ends of the legs. The seat cover may comprise cover apertures for aligning with apertures formed in the upper ends of the legs. The assembly may further comprise fasteners for inserting into the cover apertures and the apertures of the upper ends of the legs to attach the seat cover to the upper ends of the legs. The fasteners may be removable.
The legs may comprise feet at lower ends thereof. The feet may comprise first feet members and second feet members that are longer than the first feet members. The legs may meet the feet where the first portions meet the second portions.
The first and second alignment features may be shaped such that the first alignment features align with the second alignment features once every full rotation of the legs relative to the pivot hub.
The first alignment features and the second alignment features may not align with one another during rotation of the legs relative to the pivot hub from the intermediate position to the deployed position. In the deployed position, the legs may have been rotated to an extent required for apertures in a seat cover to be aligned with apertures formed within upper ends of the legs.
The legs may comprise at least three legs.
The leg holders may be sized such that, when rotating the legs in a direction of rotation from the deployed position to the intermediate position, at the intermediate position the leg holders engage with one another and prevent further rotation of the legs in the direction of rotation.
According to a further aspect of the disclosure, there is provided an assembly for a seat, comprising: a pivot hub defining multiple rotation axes; a displacing module attached to the pivot hub; legs rotatably coupled to the pivot hub, wherein at least one of the legs is extendable, the legs comprising one or more locking devices movable between an unlocked position, in which the at least one extendable leg, when extended, is enabled to retract, and a locked position, in which the at least one extendable leg, when extended, is prevented from retracting, wherein the legs are rotatable about the rotation axes between an intermediate position and a deployed position, wherein, when the least one extendable leg is extended: in the intermediate position, the displacing module engages the one or more locking devices to move the one or more locking devices from the locked position to the unlocked position; and rotating the legs from the intermediate position to the deployed position brings the displacing module out of contact with the one or more locking devices.
According to a further aspect of the disclosure, there is provided an assembly for rotatably coupling to legs of a seat, the assembly comprising: a pivot hub comprising arms extending from a central portion of the pivot hub, wherein the arms comprise teeth extending from ends of the arms; and a displacing module for attaching to the central portion.
According to a further aspect of the disclosure, there is provided an extendable leg for a seat, comprising: at least one inner tube arranged to translate relative to at least one outer tube, wherein the at least one inner tube comprises an aperture formed therein; and a spring located at least partially within the at least one inner tube and having a spring foot, wherein the spring is arranged to bias the spring foot in a direction of the aperture such that, when the at least one inner tube is translated at least partially out of the at least one outer tube such that the at least one outer tube does not overlap the aperture, the spring foot extends out of the aperture and thereby prevents the at least one inner tube from being translated back into the at least one outer tube.
Embodiments of the disclosure will now be described in detail in conjunction with the accompanying drawings of which:
The present disclosure seeks to provide an improved seat and an improved assembly for a seat. While various embodiments of the disclosure are described below, the disclosure is not limited to these embodiments, and variations of these embodiments may well fall within the scope of the disclosure which is to be limited only by the appended claims.
The word “a” or “an” when used in conjunction with the term “comprising” or “including” in the claims and/or the specification may mean “one”, but it is also consistent with the meaning of “one or more”, “at least one”, and “one or more than one” unless the content clearly dictates otherwise. Similarly, the word “another” may mean at least a second or more unless the content clearly dictates otherwise.
The terms “coupled”, “coupling” or “connected” as used herein can have several different meanings depending on the context in which these terms are used. For example, the terms coupled, coupling, or connected can have a mechanical or electrical connotation. For example, as used herein, the terms coupled, coupling, or connected can indicate that two elements or devices are directly connected to one another or connected to one another through one or more intermediate elements or devices via an electrical element, electrical signal or a mechanical element depending on the particular context. The term “and/or” herein when used in association with a list of items means any one or more of the items comprising that list.
As used herein, a reference to “about” or “approximately” a number or to being “substantially” equal to a number means being within +/−10% of that number.
Generally, according to embodiments of the disclosure, there is described a seat, such as a stool. The seat includes a supporting base structure comprising a pivot hub that is rotatably coupled to a number of extendable legs about respective axes of rotation. Each leg includes a locking device comprising a spring positioned within the leg and configured to lock the leg in an extended position. In particular, when an inner portion of the leg (or inner leg portion) is translated out of an outer portion of the leg (or outer leg portion), a spring foot is urged to extend out of an aperture formed within the inner leg portion. In such a position, the spring foot blocks or prevents the inner leg portion from being translated back into the outer leg portion, thereby locking the leg in its extended position.
The legs may be rotated to a deployed position, in which the legs are out of alignment with each other. A seat cover may be attached to upper ends of the legs and may be used for sitting on by a user. From the deployed position, the extended legs may be rotated to an intermediate position, in which the extended legs are parallel or aligned with one another. By rotating the legs from the deployed position to the intermediate position, the spring feet that protrude from the holes formed in the inner leg portions are brought into contact with a displacing module that is connected to the pivot hub. The displacing module causes the spring feet to be urged back into the inner leg portions, thereby unlocking the legs from their extended positions. The inner leg portions may then be inserted back into the outer leg portions, retracting the legs and transferring the seat from the intermediate position to a stored position in which the overall size of the seat is reduced (for example to facilitate storing of the seat).
Turning to
Although legs 12 have been described and are shown as each having a single outer leg portion 13 and a single inner leg portion 11, legs 12 may comprise more than two leg portions, such as three leg portions arranged to telescope or otherwise translate relative to one another.
Starting from the deployed position of
Turning to
Turning to
Turning to
In accordance with embodiments of the disclosure, the assembly and deployment of seat 100 and base structure 10 will now be described in more detail.
A user first couples legs 12 (comprising outer leg portions 13, inner leg portions 11, and leg holders 40) to pivot hub 20 in the following fashion. In order to do so, grooved aperture 46 of one of leg holders 40 is aligned with corresponding teeth 24 of one of arms 23 of pivot hub 20. Teeth 24 are shaped to have complementary shapes to those of the grooves in grooved aperture 46. Once grooved aperture 46 is aligned with teeth 24, leg 12 is translated toward pivot hub 20. By moving leg 12 sufficiently toward pivot hub 20, teeth 24 are moved through grooved aperture 46 to within central bore 41 of leg holder 40. In this position, teeth 24 are disengaged from grooved aperture 46, thereby enabling leg 12 to be rotated relative to pivot hub 20. The respective shapes of teeth 24 and the grooves in grooved aperture 46 are such that teeth 24 align with grooved aperture 46 once every full rotation of leg 12 relative to pivot hub 20. This process is repeated for each other leg 12.
Seat cover 90 is then attached to upper ends of legs 12 using leg caps 15 and cap pins 16, as described above. Once seat cover 90 is attached to legs 12, legs 12 are prevented from rotating beyond the position shown in
Irrespective of the particular orientation of legs 12 relative to pivot hub 20, legs 12 may be moved between their retracted states and their extended states. For example, in order to extend legs 12, a user may withdraw inner leg portions 11 from their respective outer leg portions 13. For example, a user may pull on a leg foot 17 and withdraw the corresponding inner leg portion 11 from its respective outer leg portion 13. During extension of the leg 12, flat portion 14 of inner leg portion 11 and flat portion 43 of leg holder 40 prevent relative rotation between inner leg portion 11 and leg holder 40. Therefore, given sufficient withdrawal of inner leg portion 11 from outer leg portion 13, locking hole 17 of inner leg portion 11 will come into alignment with locking hole 48 of leg holder 40. When locking hole 17 of inner leg portion 11 comes into alignment with locking hole 48 of leg holder 40, spring foot 58, biased by spring 50, is urged through locking hole 17 and locking hole 48 such that spring foot 58 extends through locking hole 17 and locking hole 48, as can be seen in
When a user wishes to retract legs 12 (for example to collapse seat 100 for storage), extended legs 12 are rotated from the deployed position (
Legs 12 may be extended/retracted in either or both of the intermediate position and the deployed position. For example, when legs 12 are initially aligned as shown in
As can be seen in
While the disclosure has been described in connection with specific embodiments, it is to be understood that the disclosure is not limited to these embodiments, and that alterations, modifications, and variations of these embodiments may be carried out by the skilled person without departing from the scope of the disclosure.
For example, while the first and second alignment features have been described in the context of teeth and grooved apertures, the disclosure extends to any other suitable shape or configuration of features that, depending on their relative orientations to one another, may be brought into and out of alignment. For example, the first and second alignment features may comprise any suitably shaped male and/or female alignment features.
As a further example, while the displacing module has been described in the context of the device shown for example in
It is also contemplated that any part of any aspect or embodiment discussed in this specification can be implemented or combined with any part of any other aspect or embodiment discussed in this specification.
Filing Document | Filing Date | Country | Kind |
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PCT/CA2020/050501 | 4/15/2020 | WO | 00 |
Number | Date | Country | |
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62834556 | Apr 2019 | US |