Patent Grant
11877646
The present innovation relates to articles of furniture (e.g. tables, desks, etc.) and methods of making articles of furniture.
Examples of tables and table arrangements can be appreciated from U.S. Patent Application Publication Nos. 2019/0365089, 2013/0204438 and 2012/0126072 and U.S. Pat. Nos. 10,413,063, 10,390,611, 9,585,468, 9,265,340, 8,667,909, 8,256,359, 8,056,489, 6,546,880, 6,536,357, 6,389,988, 6,029,587, 5,941,182, 5,881,979, 5,715,761, 5,706,739, 5,598,789, 5,562,052, 5,224,429, 5,408,940, and 4,604,955. Examples of other types of articles of furniture can be appreciated from U.S. Pat. Nos. 9,920,520, 8,365,798, 7,789,025, 7,310,918, 6,896,028, 6,367,213, 6,002,613, 6,000,180, 5,966,879, 5,675,946, 5,680,893, 5,287,909, 4,325,597, 4,248,325, and 2,821,450, U.S. Design Pat. Nos. D800,459, D796,216, D653,862, D458,040, D457,359, and D427,783 and U.S. Patent Application Publication Nos. 2017/0226749 and 2012/0304441.
Examples of furniture systems that can be used in organizing or decorating interior spaces of buildings such as offices or homes can be appreciated from U.S. Pat. Nos. 9,730,513, 8,347,796, 8,132,371, 6,167,664, 6,067,762, 5,943,966, 5,906,420, 5,328,260, 5,309,686, 5,086,597, 4,567,698, 4,546,889, 4,382,642, 4,325,597, and 2,821,450.
I have determined that there is a need for an article of furniture and work surface attachment mechanism for articles of furniture (e.g. desks, tables, counters, etc.) For example, work surfaces (e.g. tabletops, desktops, and other work surfaces) can often have limited means for attachment to a base e.g. legs, an array of legs, a pedestal base, etc.) to support the work surface at a desired position. Such limited attachment means can often limit the aesthetic options for designing of an article having a work surface (e.g. a table, a desk, etc.). I determined that a new work surface attachment mechanism can be provided that can facilitate an improved work surface attachment feature for use in articles of furniture and methods of making and using an article of furniture (e.g. table, desk, etc.) that can help provide an improved aesthetic effect for designs of such articles while also permitting fabrication to occur in a relatively simple, cost-efficient manner that can also permit installation to occur quickly and easily. In some embodiments, shipping and installation can be facilitated so that components of the article can be shipped in a single box or a limited number of boxes in a relatively compact manner. In such embodiments, no mechanical tools may be required for installation, only a single type of tool may be required for installation (e.g. a single wrench or screw driver), or only a limited number of tools may be required to help facilitate installation and allow installation to occur relatively quickly after the boxed components of the article are delivered.
In some embodiments, a work surface attachment mechanism for an article of furniture can include at least one leg (e.g. a first leg, a second leg, a third leg, a fourth leg, up to four legs, more than four legs, etc.). Each leg can have an upper portion having a component contacting surface defining a cavity. A linearly extending elongated member can be rotatably positionable within the cavity. A lower clamping member support body can be moveably attached to the linearly extending elongated member so that rotation of the linearly extending elongated member in a first rotational direction causes the lower clamping member support body to move upwardly along the linearly extending elongated member and rotation of the linearly extending elongated member in a second rotational direction that is opposite the first rotational direction causes the lower clamping member support body to move downwardly along the linearly extending elongated member. A jaw comprising an upper clamping member can be moveably attachable to the lower clamping member support body such that upward motion of the lower clamping member support body causes upward motion of the upper clamping member while the upper clamping member also moves along an upper surface of the lower clamping member support body toward the linearly extending elongated member and downward motion of the lower clamping member support body causes the upper clamping member to move downwardly while also moving along the upper surface of the lower clamping member support body away from the linearly extending elongated member. The jaw can be moveable to adjust a size of a mouth for receipt of a peripheral edge portion of a work surface and clamping engagement therewith.
In some embodiments, the lower clamping member support body can have a tubular portion attached to the linearly extending elongated member or can be attached to a tubular portion attached to the linearly extending elongated member. The tubular portion can have a threaded channel through which the linearly extending elongated member passes so that threads of the linearly extending elongated member mate with threads of the threaded channel so that rotation of the linearly extending elongated member drives motion of the tubular portion along the linearly extending elongated member.
Some embodiments can include an outer casing member attached to the upper clamping member. The outer casing member can have a projection that is slideable within a groove defined in the component contacting surface. The projection can be slideable within lower end of the groove and the upper end of the groove to define a bottom position of the jaw and a top position of the jaw. The jaw can include the outer casing member and the jaw can be moveable between the top position and the bottom position without rotating in some embodiments.
Embodiments of the jaw can include a guide mechanism to guide motion of the upper clamping member along the upper surface of the lower clamping member support body. The upper surface of the lower clamping member support body can be ramped at an angle relative to horizontal that is within a pre-selected range of 15°-75°.
An article of furniture can include a base, a work surface supported by the base, and a work surface attachment mechanism. The work surface attachment mechanism can include a linearly extending elongated member rotatably positionable within a cavity of a component of the base and a lower clamping member support body moveably attached to the linearly extending elongated member so that rotation of the linearly extending elongated member in a first rotational direction causes the lower clamping member support body to move upwardly along the linearly extending elongated member and rotation of the linearly extending elongated member in a second rotational direction that is opposite the first rotational direction causes the lower clamping member support body to move downwardly along the linearly extending elongated member. A jaw comprising an upper clamping member that is moveably attachable to the lower clamping member support body such that upward motion of the lower clamping member support body causes upward motion of the upper clamping member while the upper clamping member also moves along an upper surface of the lower clamping member support body toward the linearly extending elongated member and downward motion of the lower clamping member support body causes the upper clamping member to move downwardly while also moving along the upper surface of the lower clamping member support body away from the linearly extending elongated member. The jaw can be moveable to adjust a size of a mouth for receipt of a peripheral edge portion of the work surface and clamping engagement therewith.
In some embodiments of the article of furniture, the component of the base can be a leg of the base. Each leg of the base can include a work surface attachment mechanism.
In some embodiments, the article of furniture can be a table or a desk and the work surface can be a tabletop or a desktop.
In some embodiments of the article of furniture, the lower clamping member support body has a tubular portion attached to the linearly extending elongated member or is attached to a tubular portion attached to the linearly extending elongated member. The tubular portion can have a threaded channel through which the linearly extending elongated member passes so that threads of the linearly extending elongated member mate with threads of the threaded channel so that rotation of the linearly extending elongated member drives motion of the tubular portion along the linearly extending elongated member.
Embodiments of the jaw of the work surface attachment mechanism can include an outer casing member attached to the upper clamping member. The outer casing member can have a projection that is slideable within a groove defined in the component of the base. The projection can be slideable within lower and upper ends of the groove to define a bottom position of the jaw and a top position of the jaw. The jaw can be moveable between the top position and the bottom position without rotating.
In some embodiments, the jaw can include a guide mechanism to guide motion of the upper clamping member along the upper surface of the lower clamping member support body.
Embodiments can be structured so that the upper surface of the lower clamping member support body can be ramped at an angle relative to horizontal that is within a pre-selected range of 15°-75°.
Embodiments of a method for installing an article of furniture are also provided. Some embodiments of the method can include providing a work surface, a base, and a work surface attachment mechanism, positioning a linearly extending elongated member within a cavity of a component of the base so the linearly extending elongated member is rotatable, and attaching a lower clamping member support body to the linearly extending elongated member so that rotation of the linearly extending elongated member in a first rotational direction causes the lower clamping member support body to move upwardly along the linearly extending elongated member and rotation of the linearly extending elongated member in a second rotational direction that is opposite the first rotational direction causes the lower clamping member support body to move downwardly along the linearly extending elongated member. Embodiments of the method can also include connecting an upper clamping member of a jaw to the lower clamping member support body so that the upper clamping member is moveably attached to the lower clamping member support body such that upward motion of the lower clamping member support body causes upward motion of the upper clamping member while the upper clamping member also moves along an upper surface of the lower clamping member support body toward the linearly extending elongated member and downward motion of the lower clamping member support body causes the upper clamping member to move downwardly while also moving along the upper surface of the lower clamping member support body away from the linearly extending elongated member. The jaw can be moveable to adjust a size of a mouth for receipt of a peripheral edge portion of the work surface and clamping engagement therewith. Embodiments of the method can also include moving the jaw to a bottom position for positioning a peripheral edge portion of the work surface in a mouth of the work surface attachment mechanism and moving the jaw toward a top position to engage the peripheral edge portion of the work surface in the mouth to clamp the peripheral edge portion of the work surface to the component of the base for attachment of the work surface to the base.
The component of the base can be a leg of the base or another type of base component. In some embodiments, the work surface can be a tabletop or a desktop.
Embodiments of the method can utilize an embodiment of the article of furniture and/or embodiment of the work surface attachment mechanism for an article of furniture.
Other details, objects, and advantages of the invention will become apparent as the following description of certain exemplary embodiments thereof and certain exemplary methods of practicing the same proceeds.
Exemplary embodiments of an article of furniture and exemplary embodiments of components of the article including exemplary embodiments of a work surface attachment mechanism included in the article are shown in the accompanying drawings and certain exemplary methods of making and practicing the same are also illustrated therein. It should be appreciated that like reference numbers used in the drawings may identify like components.
Referring to
The work surface 2 can be a plate-type structure having a polygonal (e.g. rectangle, square, hexagonal, trapezoidal, etc.), oval, circular, or irregular shape. The work surface 2 can include a top 2t and a bottom opposite the top 2t of the work surface 2. The bottom and top 2t can extend on bottom and top faces of the work surface 2 between one or more peripheral edges, which can include a front edge 2a, a right side edge 2e, a left side edge 2c, and a rear edge opposite the front edge 2a. The peripheral edges can surround a perimeter of the work surface and be the outermost edges. In some embodiments, the front, rear, right, and left sides can be sides of a single continuous peripheral edge of the work surface (e.g. circular or oval shaped work surfaces, etc.). In other embodiments, there may be specifically defined front, rear, left, and right side peripheral edges (e.g. polygonal shaped work surfaces, rectangular or square shaped work surfaces, etc.).
The work surface 2 can be positioned above a floor by a base 3 that is configured to support the work surface 2. The base 3 can be connected to the work surface by at least one work surface attachment mechanism 5 or by an array of work surface attachment mechanisms 5. The array of work surface attachment mechanisms can include at least two work surface attachment mechanisms, at least four work surface attachment mechanisms, or another number of work surface attachment mechanisms 5 (e.g. three, five, six, seven, eight, etc.). The base 3 can include a pedestal base arrangement or include one or more legs 3a. In some embodiments, there can be a plurality of legs 3a. The legs can include at least two legs, at least three legs, at least four legs, or more than four legs. The legs 3a can have a lower end that can include a foot or be attached to a foot (e.g. a castor, a glide, etc.). The upper end of each of the legs can be positioned adjacent the bottom of the work surface 2 and be located above the lower end of the leg 3a. Each leg can include a work surface attachment mechanism 5 attached to the upper end portion of the leg 3a and/or positioned in the upper end portion of the leg 3a.
The work surface attachment mechanism 5 that is incorporated into the upper portion of each leg 3a may be best seen from
The moveable clamping device 9 can include an upper body 9a and an elongated member receiving tube 9f that has a channel defined therein that is sized and configured so an upper end portion of the linearly extending elongated member 9s is passable through the channel of the elongated member receiving tube 9f and positionable within a hole defined in the upper body 9a. The upper body 9a can have a circular or disk like shape in some embodiments. In other embodiments, the upper body 9a can have a polygonal shape, oval shape, or other type of shape. The elongated member receiving tube 9f can be cylindrically or pipe-like in shape or can have a polygonal cross-section (e.g. be hexagonal or rectangular in cross-sectional shape, have a polygonal cross-sectional shape, etc.). In some embodiments, the elongated member receiving tube 9f can be a tubular projection extending downwardly from the upper body 9a or be a downwardly projecting body attached to the upper body 9a. In yet other embodiments, the upper body 9a may not include or be attached to an elongated member receiving tube 9f and this component may be omitted from the moveable clamping device 9. For example, in some embodiments, the thickness of the upper body 9a may be sufficient and use of an elongated member receiving tube 9f may not be needed to help facilitate positioning of the linearly extending elongated member 9s.
As may best be appreciated from
As may best be seen from
The outer casing member 11a can include at least one projection 11b that is sized and configured to be slideably received within a groove 11s defined in the first portion 11c of the upper portion of the leg 3a. The groove 11s can be defined in an outer component facing surface 11ccs of the upper portion of the leg 3a. The groove 11s can be separated from the cavity 11cav or be in communication with the cavity 11cav. The groove 11s can have a length that defines the path of travel between the top and bottom positions of the jaw 9j to help limit vertical adjustable motion of the jaw 9j. The groove's upper and lower ends defined in the body of the first portion 11c of the upper portion of the leg 3a can each be shaped to contact the projection 11b to prevent further slideable motion of the projection 11b within the groove 11s to prevent further motion of the upper clamping member 9t and outer casing member 11a to which it is attachable, to define bottom and top positions of the jaw 9j, for example.
The leg 3a can be formed or otherwise structure so that the leg 3a includes the lower support 9supp so the lower support 9supp is defined in a position that is in communication with a cavity 11cav that is sized to receive and retain the linearly extending elongated member 9s so the lower end of the linearly extending elongated member 9s can be rotatably received within a hole defined in the lower support 9supp. The hole of the lower support 9supp can have a mouth that is open on the top of the lower support 9supp to receive and retain the lower end of the linearly extending elongated member 9s.
The outer casing member 11a can have an outer surface that is to help define a shape of the leg 3a. A portion of the outer surface of the outer casing member 11a can be a leg facing surface 11acs that is positioned to face and/or also slide along an outer component facing surface 11ccs of the first portion 11c of the leg 3a (e.g. a portion of the upper portion of the leg 3a or an entirety of the upper portion of the leg 3a). The outer component facing surface 11ccs can face toward the leg facing surface 11acs when the outer casing member 11a is moveably connected to the leg 3a via the upper clamping member 9t being attached to and/or positioned on the lower clamping member support body 9b.
The moveable clamping device 9 can be configured so that the moveable jaw 9j is moveable vertically and is also moveable horizontally during adjustable motion so that the jaw 9j can move upwardly and inwardly (e.g. horizontally toward the leg 3a) when the jaw 9j is moved upwardly to make the size of the mouth 7 smaller for clamping engagement with a peripheral edge portion of the work surface. The moveable clamping device 9 can also be configured so that the moveable jaw 9j is moveable vertically and is also moveable horizontally during adjustable motion so that the jaw 9j can move downwardly and outwardly (e.g. horizontally away from the leg 3a) when the jaw is moved downwardly to make the size of the mouth 7 larger for releasing or receiving the peripheral edge portion of the work surface. Such vertical and horizontal motion can permit the jaw 9j to move along an upper portion of leg 3a that has a tapered outer shape (e.g. increases in thickness along the height of the leg 3a so that the leg 3a is thicker at its top as compared to a lower portion of the leg 3a and the thickness of the leg 3a continuously increases along its height form the thinner lower portion to the thicker higher portion).
The jaw 9j can include a upper clamping member 9t that is slideably positioned on a lower clamping member support body 9b that is moveably connected to the linearly extending elongated member 9s that can define a path of travel for the jaw 9j or help define this path of travel in conjunction with projection 11b and groove 11s. In some embodiments, the lower clamping support body 9b can include a tubular portion 9c or be attached to a tubular portion 9c. For example, the tubular portion 9c can be integral to the lower clamping support body 9b (e.g. a molded integral portion of the body, a cast integral portion of the body) or be attached to the lower clamping support body 9b via at least one fastening mechanism (e.g. welding, one or more fasteners, adhesive, etc.)
The tubular portion 9c can have a threaded central channel so that the body of the linearly extending elongated member 9s can pass through the tubular portion 9c. Threads on the outer surface of the linearly extending elongated member 9s can mate with the threads of the threaded central channel of the tubular portion so that the lower clamping support body is moveable between a top position and a bottom position along a path of travel defined by the threads of the linearly extending elongated member 9s. As may best be appreciated from
It should be appreciated that the top position of the jaw 9j can be considered a first position and the bottom position of the jaw 9j can be considered a second position. Alternatively, the bottom position of the jaw 9j can be considered a first position and the top position of the jaw 9j can be considered a second position. Intermediate positions of the jaw 9j located between the top and bottom positions can be considered additional other positions (e.g. a third position, at least one third position, third, fourth, fifth, and sixth positions, etc.).
The threaded central channel of the tubular portion 9c can be configured to mate with threads on the linearly extending elongated member 9s so that rotation of the linearly extending elongated member 9s can cause the tubular portion 9c to move upwardly along the linearly extending member without rotating or with minimal rotation. Upward motion of the tubular portion 9c can cause the body support portion 9b attached to the tubular portion 9c as well as the upper clamping member 9t that is moveably attached to or positioned on the lower clamping member support body 9b to move along the path of motion for adjusting the size of the mouth 7 without rotating or with minimal rotation. For instance, rotation of the linearly extending elongated member 9s in a first rotational direction (e.g. clockwise or counterclockwise) can cause the jaw 9j to move upwards along the linearly extending elongated member without the jaw 9j rotating (e.g. without rotation of the tubular portion 9c, without rotation of the lower clamping member support body 9b, and without rotation of the upper clamping member 9t). Rotation of the linearly extending elongated member 9s in a second rotational direction that is opposite the first rotational direction (e.g. clockwise if the first rotational direction is counterclockwise or counterclockwise if the first rotational direction is clockwise) can cause the jaw 9j to move downwards along the linearly extending elongated member without the jaw 9j rotating (e.g. without rotation of the tubular portion 9c, without rotation of the lower clamping member support body 9b, and without rotation of the upper clamping member 9t).
The upper portion of the leg 3a can include a first portion 11c that is sized and shaped to define an inner cavity 11cav or other opening that therein for positioning and retention of the linearly extending elongated member 9s. The leg 3a can be shaped and sized so that the outer casing member 11a is attachable thereto or positionable in tight relation therewith to enclose the cavity 11cav after the linearly extending elongated member 9s is positioned therein or is rotatably positioned therein. Connection between the upper clamping member 9t attachable to the outer casing member 11a and the upper portion of the leg 3a can be provided and/or facilitated by the upper clamping member 9t being attached to or positioned on the lower clamping member support body 9b. This connection can also be facilitated by the projection 11b of the outer casing member 11a being received within the groove 11s defined in the upper portion of the leg 3a in combination with the positioning and/or attachment of the upper clamping member 9t to the top of the lower clamping member support body 9b (e.g. to the upper surface of the lower clamping member support body 9b).
The outer casing member 11a can be shaped so that when it is connected to the first portion 11c of the upper portion of the leg 3c, the outer casing member 11a helps define an outer shape of the upper portion of the leg 3a that is moveable along the leg 3a to help define the jaw 9j. The upper clamping member 9t can be attached to the outer casing member 11a via an interference fit within an opening defined in the body of outer casing member 11a, via a mateable interlock between the upper clamping member 9t and an opening of the body of the outer casing member 11a shaped to receive and retain the upper clamping member 9t at a top of the outer casing member, via at least one fastener, via adhesive, via welding, or via a combination of such fastening mechanisms. The upper clamping member 9t can also be attached to the outer casing member 11a via a different type of attachment mechanism or combination of such mechanisms.
The upper clamping member 9t can be a portion of the jaw 9j. the upper clamping member 9t can be positioned to directly contact the peripheral edge portion of the work surface positionable within the mouth 7 via adjustable motion of the upper clamping member 9t when connected to the upper portion of the outer casing member 11a so that the upper clamping member 9t can engage the portion of the work surface 2 for attachment of the work surface 2 to the leg 3a. An upper part of the mouth 7 can be defined by a top portion of the leg 3a or an upper portion of the clamping device 9 that defines or helps define the upper portion of the mouth 7.
There can be a seam 12 that is defined between the outer casing member 11a and the upper portion of the leg 3a to which it is moveably attached. This seam 12 can be a small indentation or defined line-like space (e.g. a gap or groove or space that looks like a line) at a peripheral interface between the outer casing member 11a and upper portion of the leg 3a located where the outer component facing surface 11ccs contacts the leg facing surface 11acs of the outer casing member 11a. There can be seems 12 defined along opposite peripheral sides of the leg 3a and outer casing member 11a (e.g. a first seam 12 at a left or rear side and a second seam 12 at a right or front side, etc.).
Referring to
The upper surface of the lower clamping member support body 9b can define a ramp along which the upper clamping member 9t can move during height adjustment of the jaw 9j (and upper clamping member 9t) that is driven via rotation of the linearly extending elongated member 9s. The ramped surface can be declined at an angle θ that is in a pre-selected range of inclination, which can be, for example, 15°-75°, or 45°-60°. The angle of inclination can be an angle at which the ramped upper surface extends relative to horizontal from an inner position adjacent the linearly extending elongated member 9s and an outer position located farther away from the linearly extending elongated member 9s and above this inner position.
The ramped upper surface of the lower clamping member support body 9b and the bottom surface of the upper clamping member 9t can be configured to provide a guide mechanism GM to help guide motion of the upper clamping member 9t along the ramped surface and/or help facilitate moveable attachment of the upper clamping member 9t to the lower clamping member support body 9b. For example, such a guide mechanism GM can include the ramped upper surface of the lower clamping member support body 9b being defined so that there is a groove that can receive a projection downwardly extending from the upper clamping member 9t to be received in this groove to help guide the motion of the upper clamping member 9t along the upper surface of the lower clamping member support body 9b. As another example of the guide mechanism GM, the lower clamping member support body 9b can include an elongated protrusion 9bp thereon that extends upwardly from the ramped upper surface to be positionable within a slot 9tgs defined in a bottom portion of the upper clamping member 9t to help guide motion of the upper clamping member 9t along the upper ramped surface of the lower clamping member support body 9b.
In other embodiments, it is contemplated that the guide mechanism GM can include the upper clamping member 9t having a slot defined in its bottom that can receive an upwardly projecting protrusion that extends upwardly from an upper surface of the lower clamping member support body 9b (e.g. a top of the lower clamping support body 9b). In yet other embodiments, the guide mechanism can utilize a different type of guide feature to help guide motion of the upper clamping member 9t along the upper surface of the lower clamping member support body 9b.
Each upper clamping member 9t can include one or more grip elements to help facilitate a secure clamp to the work surface 2 when the work surface is within the mouth 7 and the upper clamping member 9t is moved to its tightened position that clamps a peripheral portion of the work surface 2 positioned within the mouth 7 via the upper portion of the leg 3a and the upper surface of the upper clamping member 9t. Each grip element 9c can be configured to increase an amount of friction induced by motion of the work surface 2 to provide a more secure clamped connection with the work surface 2.
As may be best be appreciated from
The at least one grip element 9g can also, or alternatively, include one or more set screws 9ss. An example of such a configuration may best be seen from
Embodiments of the work surface attachment mechanism 5 and article of furniture 1 can be configured for including in a single box having a pre-selected rectangular shape or in multiple boxes that include one box for the work surface 2 and a second box for the components of the base 3 (e.g. legs 3a, work surface attachment mechanism(s) 5, etc.). After delivery, an installer can assemble the legs 3a to include the work surface attachment mechanisms 5 and, thereafter, couple the outer components 11a and upper clamping members 9t to the legs 3a for adjustment of the size of the mouth 7 and gap 8 for receiving and retaining peripheral edge portions of the work surface 2 for each leg. A tool or the installer's hand can be utilized to rotate the linearly extending elongated member to adjust the position of the jaw 9j from an open position to receive a peripheral edge portion of the work surface 2 to a tightened position that clamps that peripheral portion positioned within the mouth 7 via the upper portion of the leg 3a and the upper surface of the upper clamping member 9t. After the different peripheral edge portions are clamped to the base 3 via the one or more work surface attachment mechanisms 5, the article of furniture can be moved to a desired position on a floor.
For incorporation of the work surface attachment mechanism 5 into each leg 3a, an installer can position the linearly extending elongated member 9s into the cavity 11cav of the leg 3a so its lower end is rotatably received into the support 9supp. The lower clamping support body 9b can be connected to the linearly extending elongated member 9s via the tubular portion 9c before or after this occurs. Thereafter, the upper body 9a can be connected to the upper end 9send of the linearly extending elongated member 9s. Then the upper clamping member 9t can be moveably attached to the ramped upper surface of the lower clamping member support body 9b. This can occur before or after the outer casing member 11a is attached to the upper clamping member 9t. When the upper clamping member 9t is attached to the lower clamping support body 9b, the projection 11b can be positioned within the groove 11s of the leg 3a. Thereafter, the position of the jaw 9j can be adjusted via rotation of the linearly extending elongated member 9s as discussed herein. Such rotation can cause the vertical and horizontal motion of the jaw 9j (e.g. the upper clamping member 9t moving along an upper surface of the lower clamping member support body 9b as the vertical position of the jaw 9j is changed) as discussed herein.
It should be understood that other modifications to the article of furniture 1 can be made to meet a particular set of design criteria. For example, it is contemplated that a particular feature described, either individually or as part of an embodiment, can be combined with other individually described features, or parts of other embodiments. The elements and acts of the various embodiments described herein can therefore be combined to provide further embodiments. As another example, the work surface of the article of furniture can be an integrally molded or cast structure or can be composed of various separate parts that are fastened and/or adhered together to form the work surface. Therefore, while certain exemplary embodiments of the article of furniture, work surface attachment mechanism, and methods of making and using the same have been discussed and illustrated herein, it is to be distinctly understood that the invention is not limited thereto but may be otherwise variously embodied and practiced within the scope of the following claims.
This patent application claims priority to U.S. Provisional Patent Application No. 63/220,749, filed on Jul. 12, 2021. The entirety of this application is incorporated by reference herein.
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| 20230008493 A1 | Jan 2023 | US |
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| 63220749 | Jul 2021 | US |
