The present disclosure relates to a workstation and, more specifically, to a foldable modular workstation.
The statements in this section merely provide background information related to the present disclosure and may not constitute prior art.
When working on a construction site, it is often necessary to bring a table or surface onto which tools and other materials may be placed. A variety of worktables and work surfaces are known, and in many cases, are foldable or collapsible.
In one example, U.S. Pat. No. 3,669,031 to Cole discloses a collapsible workstation, which is designed for carrying power tools. In the opened position, the workstation of the Cole patent has a work surface with means for mounting a tool, such as a power saw, and legs containing wheels for portability of the workstation between different locations.
In another example, U.S. Pat. No. 7,415,933 to Sagol is directed to a foldable work table with two support structures that rotate around a central shaft. The work-plate of the Sagol patent may be attached to a post hole for compact transport and storage, when the two support structures are in the closed position.
These known tables are not especially modular, and thus present certain disadvantages in manufacturing and distribution. Moreover, they are not configured to connect with other workstations, or otherwise allow a user to customize a size of the work surface.
There is a continuing need for a workstation that is both modular and foldable. Desirably, the workstation is configured to interlock with other workstations in order for a user to customize a size of a work surface.
In concordance with the instant disclosure, a workstation that is both modular and foldable, and which is configured to interlock with other workstations in order for a user to customize a size of a work surface, has been surprisingly discovered.
In one embodiment, a workstation includes a main body and a platform. The main body has at least two support structures that are rotatably connected to a central post. The support structures are rotatably connected at an upper connection joint and a lower connection joint of the central post. The central post defines a vertical axis of the main body. The support structures selectively alternate between an opened position and a closed position by rotating about the vertical access. The support structures also have free ends defining a top surface and a bottom surface. At least one of the support structures has a projection extending outwardly from the top surface, and a plurality of feet disposed on the bottom surface. The platform has an upper surface and a lower surface. The lower surface has elongated ridges that receive the top surface of the support structures when in the opened position. The upper surface of the platform defines the working surface of the workstation. The platform further has an aperture formed therethrough from the lower surface to the upper surface, the purpose of which is to receive the projection on at least one of the support structures when in the opened position. The projection and the aperture together ensuring a correct orientation and placement of the platform on the main body when assembled. The platform is also stowed within a storage area defined by the support structures when the support structures are in the closed position. For this purpose, the platform has at least one clamp on the lower surface that interlocks with the central post.
In other embodiments, the platform has a sidewall disposed around a periphery of the platform. The sidewall may have an inner surface with a bead that is configured to contact an interference bump located on an outer surface at least one of the support structures adjacent to the free end of the at least one of the support structures. The upper surface and the sidewall of the platform may have a recess formed therein for receiving at least one insert connector to secure the platform to another platform. The recess may be substantially T-shaped, and the insert connector may be substantially H-shaped and configured to be received by the T-shaped recess of the platform, for example.
The lower surface of the platform may also have an insert holder configured to store the insert connector when not being used to secure the platform to the another platform. The insert portion of the insert holder may have at least two raised portions configured to receive the insert connector. The insert holder further have a clip configured to secure a center portion of the insert connector within the holder.
The plurality of feet may also include at least one foot with an adjuster configured to selectively alter a height or level of the platform relative to a ground or floor surface. For example, where the support structures are hollow, the foot with the adjuster may be provided by a first modular insert. Similarly, the projection may be provided by a second modular insert. The first modular insert may be received by one of the free ends at the bottom surface of one of the support structures. The first modular insert may have a plurality of windows that are defined by a plurality of angled walls. The walls are configured to receive a helical thread on a shaft of the adjuster and to advance the shaft through the modular insert as the adjuster is selectively rotated. The second modular insert is received by one of the free ends at the top surface of the support structures.
The shapes of the projections and the inserts may be selected so as to ensure a correct origination of the platform relative to the main body upon assembly. For example, a round or circular project and insert may not be suitable for this purpose. It has been found that, where each of the projection of the support structures and the aperture of the platform is hexagonal in shape, confidence in the correct orientation for assembly is readily attached.
In yet another embodiment, a kit having the main body with the at least two support structures may be provided together with a separate platform for subsequent assembly of the workstation. A first insert defining one of the feet may be separately provided in the kit for disposal in a hollow portion of the bottom surface of the support structure. A second insert defining the projection may also be separately provided in the kit for disposal in a hollow portion of the top surface of the support structure. Other types of modular inserts including connectors are also contemplated and may be provided within the kit, as desired.
In a further embodiment, a method for providing an enlarged workspace is also disclosed. The method includes a step of providing two of the workstations. The upper surface and the sidewall of the platform of each of the workstations has a recess formed therein for receiving at least one insert connector to secure the platform to another platform. The two workstations are then placed adjacent to each other, wherein the recess of one of the workstations is adjacent to the recess of the other of the workstations. The insert connector is then inserted into each of the recesses. The two workstations are thereby secured to each other and together form the enlarged work surface.
The above, as well as other advantages of the present disclosure, will become clear to those skilled in the art from the following detailed description, particularly when considered in the light of the drawings described hereafter.
The following detailed description and appended drawings describe and illustrate various embodiments of the invention. The description and drawings serve to enable one skilled in the art to make and use the invention, and are not intended to limit the scope of the invention in any manner.
In certain embodiments, the support structures 4A, 4B and the platform 6 may be injection molded with a thermoplastic material such as polypropylene, polyethylene, acrylonitrile butadiene styrene, polycarbonate, high impact polystyrene, or polyamide, as non-limiting examples. In other embodiments, the support structures 4A, 4B, platform 6, and central post 8 may be made from a variety of materials, including but not limited to plastic, metal, wood or any other suitable material chosen by a skilled artisan. One of ordinary skill in the art may selected other suitable manufacturing methods and materials for the workstation 2 within the scope of the disclosure.
The support structures 4A, 4B may alternate between an opened position, when the workstation 2 is ready to be used, and a closed position, when the workstation 2 is stowed for transport or storage. In the opened position, the support structures 4A, 4B are folded outwardly until support structure 4A is oriented transverse to support structure 4B, as shown in
The entire outer perimeter of the platform 6 is also configured to fit within a storage area defined by the support structures 4A, 4B when in a closed position, as shown in
As shown in
When the support structures 4A, 4B are collapsed, as also illustrated in
As shown in
The cross-shaped top surface 18 of the support structures 4A, 4B is configured to removably connect with and support the platform 6, as shown in
In certain embodiments, as shown in
To secure the second modular insert 26 in the top surface 18 of the support structures 4A, 4B, the second modular insert 26 may have at least two protrusions 28 on a side surface thereof. The protrusions 28 are configured to be recited by a corresponding set of at least two openings 30 formed in the support structures 4A, 4B. In this manner the second modular inserts 26 may be securely held at the top of the support structures 4A, 4B for mating with the platform 6.
As also shown in
As shown in
The main body of the first modular insert 36 may also have windows 39 that are defined by angled walls 41. The angled walls 41 are configured to receive and abut a helical thread 43 on a shaft 45 attached to the adjuster 34. In operation, rotating the adjuster 34 turns the helical thread 43 disposed in the windows 39, which raises or lowers the adjuster 34 in relation to the first modular insert 36 depending on the direction of rotation.
With renewed reference to
The sidewall 40 may also have a recess 44 that is configured to partly surround the central post 8 when the platform 6 is disposed within the storage area defined by the support structures 4A, 4B in the closed position. The recess 44 allows the platform 6 to remain substantially flush with the support structures 4A, 4B when the platform 6 is clamped to the central post 8, as shown in
With reference to
Advantageously, the platform 6 may further have T-shaped recesses 50. The T-shaped recesses 50 are configured to receive an I- or H-shaped connector 46 (also called a “dog-bone” shape) for securing the platform 6 of one workstation 2 to the platform 6 of another workstation 2, as shown in
As illustrated in
In certain examples, as shown in
As shown in
With renewed reference to
As illustrated in
In other embodiments (not shown), the support structures may include a pair of fixed legs and at least one pair of foldable legs. Specifically, there may be two fixed legs and four foldable legs used to support the platform. Each of the fixed legs and the foldable legs may further have height adjusters disposed at the ends thereof, and which support the legs, in an upright position. The height adjusters may threadedly engage the ends of the legs, for example, and permit for a height adjustment of the legs by selective rotation of the height adjusters. One of ordinary skill in the art may select other suitable numbers of legs, as well as other suitable types of height adjusters, as desired.
The fixed legs may also be affixed to the central post with crossbeams (not shown). It should be appreciated that, being fixed in place, the crossbeams are not rotatable relative to the central post. As a non-limiting example, the fixed legs, the central post, and the crossbeams may be integrally formed as a single, unitary injection-molded plastic body. Other means for affixing the crossbeams to the central post may also be used within the scope of the disclosure.
Advantageously, the workstation 2 of the present disclosure is both modular and foldable as described hereinabove. The workstation 2 is also advantageously configured to interlock with other workstations 2 in order for the end user to customize a size of the work surface. It should also be appreciated that the above-mentioned modular components may be provides separately, in the form of a kit, for example, for subsequent assembly to provide the workstation 2 of the present disclosure.
While certain representative embodiments and details have been shown for purposes of illustrating the invention, it will be apparent to those skilled in the art that various changes may be made without departing from the scope of the disclosure, which is further described in the following appended claims.
This application claims the benefit of U.S. Provisional Application No. 62/556,563, filed on Sep. 11, 2017, and of U.S. Provisional Application No. 62/461,980, filed on Feb. 22, 2017. The entire disclosures of the above applications are hereby incorporated herein by reference.
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Number | Date | Country | |
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20180235359 A1 | Aug 2018 | US |
Number | Date | Country | |
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62556563 | Sep 2017 | US | |
62461980 | Feb 2017 | US |