The present innovation relates to privacy screens and methods and mechanisms used to attach privacy screens adjacent to a work surface of an articular of furniture (e.g. adjacent a desktop of a desk, adjacent a countertop of a counter, or adjacent a tabletop of a table etc.)
Privacy screens and modesty screens can be utilized to provide a visible barrier in a workplace setting or other setting. In the art, the term “privacy” can often refer to the ability of a screen to provide a visible barrier above a work surface (e.g. to provide a barrier to prevent seeing a person's chest or head) while the term “modesty” can often refer to the ability of a screen to provide a visible barrier below a work surface (e.g. to provide a barrier from seeing a person's knees or legs). Examples of privacy screens and/or modesty screens 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.
A screen attachment apparatus and method of making and using the same is provided. Embodiments of the attachment mechanism and method can be configured to adjustably position a screen adjacent a countertop, desktop, tabletop or other work surface for providing a visible barrier along at least a portion of a perimeter of such a work surface. In some embodiments, the screen attachment apparatus may be configured to attach a privacy screen adjacent to a work surface so that the privacy screen can provide varying levels of privacy ranging from a position at which the screen provides both modesty and privacy by providing a visible barrier significantly above and below a work surface to a position in which only privacy screening is provided without any significant modesty screen functionality (e.g. there is not a barrier blocking a significant amount of visibility below a work surface).
In some embodiments, the screen body can define a plurality of columns of spaced apart recesses (e.g. a first column near a first end or side of the body, a second column near a second end or second side of the body, and a third column between the first and second columns (e.g. a column near a center of the body etc.)). Each column can have two recesses that are spaced apart from each other, three spaced apart recesses, or more than three spaced apart recesses. In some embodiments, the recesses may be rectangular or oval in shape. In other embodiments, the recesses can have other shapes. The recesses can be configured to receive connectors for attachment of the screen body adjacent a work surface. There may be a single connector respective for each column of recesses (e.g. if there are two columns of recesses, there may be two connectors—one for each column, if there are three columns of recesses, there may be three connectors—one for each column, etc.). Each connector can be positioned in any of the spaced apart recesses for its respective column to provide a pre-selected visibility barrier that extends mostly above the work surface, mostly below the work surface, or be positioned so that about half the length or height of the screen body extends above the work surface and about half the length or height of the screen body extends below the work surface. The use of the connectors and recesses can also permit a user to re-adjust the positioning of a screen body by moving the connector from an initially or first positioned recess to a different or second recesses after the first connector is positioned in that initial recess. Such moving can occur by removing one or more fasteners to decouple the connector from the screen body and subsequently move the screen body so that a different recess is positioned to receive the connector, and subsequently inserting one or more fasteners through the screen body and connector for re-coupling of the screen body to the connector at the newly selected recess.
In some embodiments, each screen body can have a first face and a second opposite face. Each column of recesses can include a column of recess on the first face and a corresponding column of recesses on the second face. Each recess in a column on the first face can be in a position that matches, or corresponds, to the location of a recess in the second face. A connector positioned at a recess may be positioned so that a part of a connector is in the recess on the second face and another part of the connector is in the corresponding recess in the first face. There may therefore be embodiments in which there are multiple sets of columns where each set of columns of spaced apart recesses such that each recess of one column in a first face of the screen body is positioned to correspond to a position of a recess of the other column of recesses in the second face of the screen body. In some embodiments, the corresponding positioned recesses from a set of columns of recesses can be located at a same height and width (or length and width) coordinates on the screen body, but be positioned on opposite faces of the screen body.
Embodiments of a method of positioning a privacy screen adjacent a work surface can include providing a screen body. The screen body can have: a first face and a second face opposite the first face, the first face having a first column of spaced apart recesses and a second column of spaced apart recesses, the second face having a first column of spaced apart recesses and a second column of spaced apart recesses, each recess of the first column of spaced apart recesses of the first face being positioned to correspond to a position of a respective recess of the first column of spaced apart recesses of the second face; and each recess of the second column of spaced apart recesses of the first face being positioned to correspond to a position of a respective recess of the second column of spaced apart recesses of the second face. The method can also include providing a plurality of mounting connectors comprising a first mounting connector and a second mounting connector. Each of the mounting connectors can include: a first outer cap element and a second inner element configured for attachment to an article of furniture adjacent a work surface of the article of furniture. The first outer cap element of the first mounting connector can be sized and configured for positioning in any of the recesses of the first column of spaced apart recesses of the first face and the first outer cap element of the second mounting connector can be sized and configured for positioning in any of the recesses of the second column of spaced apart recesses of the first face. The second inner element of the first mounting connector can be sized and configured for positioning in any of the recesses of the first column of spaced apart recesses of the second face and the second inner element of the second mounting connector can be sized and configured for positioning in any of the recesses of the second column of spaced apart recesses of the second face. The method can also include: positioning the first outer cap element of the first mounting connector in a first recesses of the first column of spaced apart recesses of the first face; positioning the second inner element of the first mounting connector in a first recess of the recesses of the first column of spaced apart recesses of the second face that corresponds to the first recess of the first column of spaced apart recesses of the first face in which the first outer cap element of the first mounting connector is positioned; passing a first fastener through the screen body such that the first fastener extends from the first outer cap element of the first mounting connector to the second inner element of the first mounting connector; positioning the first outer cap element of the second mounting connector in a first recess of the second column of spaced apart recesses of the first face; positioning the second inner element of the second mounting connector in a first recess of the second column of spaced apart recesses of the second face that corresponds to the first recess of the second column of spaced apart recesses of the first face in which the first outer cap element of the second mounting connector is positioned; and passing a second fastener through the screen body such that the second fastener extends from the first outer cap element of the second mounting connector to the second inner element of the second mounting connector.
Embodiments of the method can utilize a number of other steps. For instance, embodiments of the method can include drilling a first hole through the screen body such that the first hole in the screen body aligns with a first hole in the first outer cap element of the first mounting connector and a first hole in the second inner element of the first mounting connector. This drilling can occur prior to the first fastener being passed through the screen body. A second hole can also be drilled through the screen body such that the second hole in the screen body aligns with a first hole in the first outer cap element of the second mounting connector and a first hole in the second inner element of the second mounting connector. This drilling can also occur prior to the second fastener being passed through the screen body.
Embodiments of the method can also be configured to facilitate repositioning of the screen body. For instance, embodiments of the method can also include: removing the first fastener from the screen body and removing the second fastener from the screen body. Thereafter, the screen body can be repositioned adjacent the work surface by a first repositioning process that includes: positioning the first outer cap element of the first mounting connector in a second recesses of the first column of spaced apart recesses of the first face; positioning the second inner element of the first mounting connector in a second recess of the recesses of the first column of spaced apart recesses of the second face that corresponds to the second recess of the first column of spaced apart recesses of the first face in which the first outer cap element is positioned; passing the first fastener through the screen body while the first outer cap element of the first mounting connector is positioned in the second recess of the first column of spaced apart recesses of the first face and the second inner element of the first mounting connector is positioned in the second recess of the first column of spaced apart recesses of the second face such that the first fastener extends from the first outer cap element of the first mounting connector to the second inner element of the first mounting connector; positioning the first outer cap element of the second mounting connector in a second recess of the second column of spaced apart recesses of the first face; positioning the second inner element of the second mounting connector in a second recess of the second column of spaced apart recesses of the second face that corresponds to the second recess of the second column of spaced apart recesses of the first face in which the first outer cap element of the second mounting connector is positioned; and passing the second fastener through the screen body while the first outer cap element of the second mounting connector is positioned in the second recess of the second column of spaced apart recesses of the first face and the second inner element of the second mounting connector is positioned in the second recess of the second column of spaced apart recesses of the second face such that the second fastener extends from the first outer cap element of the second mounting connector to the second inner element of the second mounting connector.
Embodiments of the method can also utilize a second repositioning process that may occur after the first repositioning process. For example, embodiments of the method can include removing the first fastener from the screen body after the first repositioning process occurred and removing the second fastener from the screen body after the first repositioning process occurred. Thereafter, the screen body can be repositioned yet again adjacent to the work surface by a second repositioning process that includes: positioning the first outer cap element of the first mounting connector in a third recess of the first column of spaced apart recesses of the first face; positioning the second inner element of the first mounting connector in a third recess of the recesses of the first column of spaced apart recesses of the second face that corresponds to the third recess of the first column of spaced apart recesses of the first face in which the first outer cap element is positioned; passing the first fastener through the screen body while the first outer cap element of the first mounting connector is positioned in the third recess of the first column of spaced apart recesses of the first face and the second inner element of the first mounting connector is positioned in the third recess of the first column of spaced apart recesses of the second face such that the first fastener extends from the first outer cap element of the first mounting connector to the second inner element of the first mounting connector; positioning the first outer cap element of the second mounting connector in a third recess of the second column of spaced apart recesses of the first face; positioning the second inner element of the second mounting connector in a third recess of the second column of spaced apart recesses of the second face that corresponds to the third recess of the second column of spaced apart recesses of the first face in which the first outer cap element of the second mounting connector is positioned; and passing the second fastener through the screen body while the first outer cap element of the second mounting connector is positioned in the third recess of the second column of spaced apart recesses of the first face and the second inner element of the second mounting connector is positioned in the third recess of the second column of spaced apart recesses of the second face such that the second fastener extends from the first outer cap element of the second mounting connector to the second inner element of the second mounting connector.
Each of the mounting connectors can include a third work surface attachment connector element for attachment to the work surface. The third work surface attachment connector element can have a receptacle for receiving the second inner element. Embodiments of the method can utilize such a component. For example, embodiments of the method can include: positioning the third work surface attachment connector element of the first mounting connector adjacent a peripheral edge of the work surface, positioning the third work surface attachment connector element of the second mounting connector adjacent the peripheral edge of the work surface, positioning the second inner element of the first mounting connector into the receptacle of the third work surface attachment connector element of the first mounting connector, and positioning the second inner element of the second mounting connector into the receptacle of the third work surface attachment connector element of the second mounting connector.
For each mounting connector, the third work surface attachment connector element can have a hole in communication with the receptacle for positioning of a third fastener to help retain the second inner element within the receptacle. Embodiments of the method that utilize a third work surface attachment connector element can also include positioning a third fastener through the hole to help retain the second inner element of the first mounting connector within the receptacle of the third work surface attachment connector element of the first mounting connector. Embodiments of the method that utilize a third work surface attachment connector element can additionally include positioning another third fastener through the hole of the third work surface attachment connector element of the second mounting connector to help retain the second inner element of the second mounting connector within the receptacle of the third work surface attachment connector element of the second mounting connector.
In some embodiments, the second inner element can have a profile sized and shaped to mate with a size and shape of the receptacle of a corresponding third work surface attachment connector element. The profile and receptacle shapes can mate with each other and be complimentary of each other to facilitate a downward motion of the inner element into the receptacle (e.g. via a downward sliding motion to locate the inner element within the receptacle, etc.). For example, when the positioning of the second inner element of the first mounting connector into the receptacle of the third work surface attachment connector element of the first mounting connector occurs, this can include downwardly moving the second inner element of the first mounting connector into the receptacle of the third work surface attachment connector element of the first mounting connector. Similarly, when the positioning of the second inner element of the second mounting connector into the receptacle of the third work surface attachment connector element of the second mounting connector occurs, this can include downwardly moving the second inner element of the second mounting connector into the receptacle of the third work surface attachment connector element of the second mounting connector.
A privacy screen attachment apparatus is also provided. Such an apparatus can include a plurality of mounting connectors comprising a first mounting connector and a second mounting connector. Each of the mounting connectors can include a first outer cap element and a second inner element configured for attachment to an article of furniture adjacent a work surface of the article of furniture. The first outer cap element of the first mounting connector can be sized and configured for positioning in any recess of a first column of spaced apart recesses of a first face of a privacy screen body and the first outer cap element of the second mounting connector can be sized and configured for positioning in recess of a second column of spaced apart recesses of the first face. The second inner element of the first mounting connector can be sized and configured for positioning in any of the recesses of a first column of spaced apart recesses of a second face of the privacy screen body and the second inner element of the second mounting connector can be sized and configured for positioning in any recess of a second column of spaced apart recesses of the second face.
Some embodiments of the privacy screen attachment apparatus can also be configured so that each of the mounting connectors comprises a third work surface attachment connector element for attachment to a work surface. The third work surface attachment connector element can have a receptacle for receiving the second inner element. In some embodiments, the third work surface attachment connector element of each of the mounting connectors can also have a hole in communication with the receptacle for positioning of a fastener to help retain the second inner element within the receptacle. The second inner element can have a profile sized and shaped to mate with a size and shape of the receptacle to facilitate downward motion of the second inner element into the receptacle for positioning the second inner element in the receptacle.
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 privacy screen apparatuses and screen attachment apparatuses 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 article of furniture 3 can include a base that includes a plurality of legs 3d that are configured to support the work surface 3b on a floor. The legs 3d can be attached to a lower surface 3c that is opposite the work surface 3b to support the work surface 3b and be configured to extend downwardly from adjacent the lower surface 3c to at least one foot (e.g. glides or castors). In some embodiments, each leg 3d can be connected to a floor contacting base element that has a plurality of glides or castors, such as the embodiment shown in
The work surface 3b can have one or more peripheral edges 3a. For circular or oval shaped work surfaces 3b, there may be a single continuous peripheral edge 3a defining the perimeter of the work surface. For rectangular or polygonal shaped work surfaces, there may be a plurality of peripheral edges 3a that each define a side or end of the work surface (e.g. front edge extending between right and left sides, a right side edge extending between front and rear sides, a left side edge extending between front and rear sides opposite the right side edge, a rear edge opposite the front edge extending between the left and right side edges, etc.).
There may be a screen body 4 positioned adjacent one or more of the peripheral edges 3a of the work surface 3b. Each screen body can have a height H, a length L, and a thickness T. The screen body can be comprised of foam, wood, or other material (e.g. polyethylene terephthalate (PET) substrate or other type of substrate composed of a polymeric or composite material with a fabric covering, felt covering, leather covering, another type of covering, or no covering, etc.). The screen body 4 can also have a covering that covers the entirety of the exterior surface of the body or at least a portion of the exterior surface of the body. The covering can be a polymeric film, a leather covering, or a fabric covering. In yet other embodiments, the covering could be composed of another type of material (e.g. tackable material, cork, mesh, etc.).
In some embodiments, a screen body 4 can be elongated and be configured to bend or flex for positioning around corners at the interface of different edges 3a or bends in an edge 3a. In other embodiments, there may be a screen body edge connector 6 for connecting a peripheral edge 4a of first screen body to an adjacent peripheral edge 4a of another screen body at a position that is adjacent to such an interface of work surface peripheral edges 3a or bend of a work surface peripheral edge 3a.
Each screen body 4 can have a first face 4b and a second face 4d opposite the first face 4b. The first face 4b can extend from a bottom peripheral edge 4a of the screen body to the top peripheral edge 4a of the body between the left peripheral edge 4a of the screen body and the right peripheral edge 4a of the screen body so that the first face 4b defines a surface of the screen body that faces toward a first direction. The second face 4d can extend from the bottom peripheral edge 4a of the screen body 4 to the top peripheral edge 4a of the screen body 4 between the left peripheral edge 4a of the screen body 4 and the right peripheral edge 4a of the screen body so that the second face 4d defines a surface of the screen body 4 that faces toward a second direction that is opposite the direction at which the first face 4b faces. For example, the first face 4b may be the front face and the second face may be the rear face (or vice versa). As another example, the second face 4d can directly face a peripheral edge 3a of a work surface 3b and the first face 4b may face toward a direction that is opposite the direction at which the second face 4d faces.
Each screen body 4 can define a plurality of recesses 4c. The recesses 4c can be aligned in columns 11 and rows 12 of recesses 4c. There may be a plurality of columns 11 of recesses 4c defined in the first face 4b of the screen body 4. There may also be a plurality of columns 11 of recesses 4c defines in the second face 4d of the screen body 4. Each column 11 of recesses 4c in the first face 4b can be aligned with and correspond with a column of recesses 4c in the second face 4d. For instance, a respective one of each of the spaced apart recesses 4c in a column 11 in the first face 4b can be positioned to correspond to a position of a spaced apart recess of a column 11 of recesses 4c defined in the second face 4d of the screen body 11. Such corresponding columns of recesses in the first and second faces 4b and 4d can be considered a pair of corresponding columns 11 of recesses or a set of columns 11 of recesses.
In some embodiments, each screen body can include a first column 11a, and a second column 11b of recesses 4a. Each recess within a column 11 can be spaced apart by a pre-selected vertical distance d from an immediately adjacent recess within that same column. The first column 11a can be adjacent a first edge of the screen body 4 and the second column 11b can be adjacent a second edge of the screen body 4. In some screen bodies, there may be at least one other column between the first and second columns 11a and 11b. For instance, there may be a third column 11c of recesses between the first and second columns 11a and 11b. The third column of recesses can be positioned along a central section or intermediate section of a face of the screen body, for example.
Each screen body 4 can also include rows 12 of spaced apart recesses, such as a first row 12a, a second row 12b, and a third row 12c. Each row of recesses can be aligned with each other horizontally and be configured to be parallel to recesses of other rows 12. Each recess within a row of recesses can be spaced apart from an immediately adjacent recess by a pre-selected horizontal distance D. The first row 12a can be an upper row, the second row 12b can be a row that is lower than the first row 12a. The third row 12c can be a row that is lower than the second row 12b. In some embodiments in which there are only three rows 12, the second row may be a central row or intermediate row. The recesses in a row 12 of spaced apart recesses 4c can be aligned with each other and be parallel with each other.
The first face 4b and the second face 4d of each screen body 4 can each include columns 11 of spaced apart recesses 4c. For example, there may be a first column 11a defined in the first face 4b and a first column 11a of recesses 4c defined in the second face 4d. Each recess of the first column 11a defined in the first face 4b can be positioned to correspond to a position of a respective one of the recesses of the first column 11e in the second face 4d such that this pair of first columns 11a, 11e defines a set of corresponding columns of recesses. As another example, there may be a second column 11b defined in the first face 4b and a second column 11d of recesses 4c defined in the second face 4d. Each recess of the second column 11b defined in the first face 4b can be positioned to correspond to a position of a respective one of the recesses of the second column 11d in the second face 4d such that this pair of second columns 11b and 11d defines a set of corresponding columns of recesses. As yet another example, there may be a third column 11f of recesses 4c defined in the first face 4b and a third column 11g of recesses 4c defined in the second face 4d. Each recess of the third column 11f defined in the first face 4b can be positioned to correspond to a position of a respective one of the recesses of the third column 11g in the second face 4d such that this pair of third columns 11f and 11g defines a set of corresponding columns of recesses.
Rows 12 of recesses 4c can be defined on opposite faces (e.g. the first face 4b and second face 4d) as well so that a row of recesses in the first face 4b correspond positionally to a respective row of recesses in the second face 4d. For instance, each recess in an upper row of recesses in the first face 4b can be positioned to correspond to a position of a respective recess in the upper row of recesses in the second face 4d such that this pair of upper rows defines a set of corresponding rows of recesses. Each recess in a lower row of recesses in the first face 4b can be positioned to correspond to a respective recess in the lower row of recesses in the second face 4d such that this pair of lower rows defines a set of corresponding rows of recesses. Each recess in an intermediate row that is between the upper and lower rows of recesses in the first face 4b can be positioned to correspond to a respective recess in a similar intermediate row of recesses in the second face 4d such that this pair of intermediate rows defines a set of corresponding rows of recesses.
There may be a mounting connector 5 for each column 11 of recesses for attachment of the screen body 4 to the article of furniture 3 to position the screen body 4 adjacent a peripheral edge 3a of a work surface to provide a visibility barrier to provide privacy and/or modesty. Each mounting connector 5 can include a first outer cap element 5a that is configured for positioning within a recess 4c of the first face 4b and a second inner element 5b that is configured for positioning within a recess of the second face 4d of the screen body 4. The second inner element 5b can be a body that is configured to facilitate attachment with the article of furniture (e.g. via direct attachment or via attachment to a third work surface attachment connector element 5d, etc.). The first outer cap element can be configured to facilitate attachment of the screen body to the second inner element 5b. The first outer cap element 5a and the second inner element 5b can each have at least one aperture defined therein to receive at least one fastener 5c (e.g. a bolt or screw, etc.). A respective aperture of the first outer cap element 5a can be alignable with a respective aperture of the second inner element 5b so that a fastener 5c is extendable from the second inner element, through the screen body 4 within recesses 4c in the first and second faces 4b and 4 that positionably correspond with each other into the first outer cap element 5a. The mounting connectors 5 can be configured so that a head of a fastener 5c (e.g. screw or bolt) can be accessed for driving the fastener through the first outer cap element 5a, screen body 4, and second inner element 5b via the first outer cap element 5a so that the head of the fastener is positioned in the first outer cap element 5a. The mounting connectors 5 can alternatively be configured so that a head of a fastener (e.g. screw or bolt) can be accessed for driving the fastener through the first outer cap element 5a, screen body 4, and second inner element 5b via the second inner element 5b so that the head of the fastener is positioned in the second inner element 5b when the screen body 4 is fastened to the mounting connector 5 via the at least one fastener 5c (e.g. a single fastener, two fasteners, more than two fasteners, etc.).
For mounting of a screen body 4, the fasteners 5c may be driven from the inner element 5b or cap element 5a through the screen body to the other of the cap element 5a or inner element 5b so that the fasteners define a hole in the screen body as they are driven through the screen body for attachment. The elements can have pre-drilled holes 5y to facilitate positioning of the fasteners 5c for positioning of the fasteners 5c and use of the fasteners to interconnect the screen body 4 to the elements of the mounting connector 5. The screen body can be composed of a resilient material that may be configured to expand to cover such a hole if or when the fastener is removed from the screen body 4. Holes in the screen body 4 can be formed via drilling (e.g. use of a drill to form the holes) that occurs prior to passing fasteners 5c through the screen body. The drilled holes can be drilled so they align with holes in the first outer cap elements 5a and second inner elements 5b of the mounting connectors 5. The fasteners 5c can be configured to extend to a work surface 3b for engaging the work surface and fastening the mounting connector 5 to the work surface 3b (e.g. as indicated in broken line in
There may be a single mounting connector 5 for each corresponding pair of columns 11 of recesses that correspond to each other on opposite faces of the screen body. The first outer cap element 5a can be positioned in a recess of a first column of a pair of columns of recesses and the second inner element 5b can be positioned in the recess 4c in the other column of the pair of columns of recesses located on the opposite face of the screen body and in the recess 4c that corresponds to the recess in which the outer cap element 5a is positioned. The alignment of these portions of the mounting connector can facilitate the extending of at least one fastener through those elements and the screen body for mounting of the screen body to the article of furniture adjacent a peripheral edge 3a of the work surface 3b. The inner element 5b can be configured to matingly interlock with a portion of the article of furniture and/or be configured for being fastened or otherwise attached to the article of furniture (e.g. fastened or adhered to the lower surface 3c or a leg 3d, attached via a third work surface attachment connector element 5d, etc.).
There may be multiple mounting connectors 5 for a corresponding pair of rows 12 of recesses 4c on opposite faces of the screen body 4. In some embodiments, for mounting of the screen body 4, only a single pair of corresponding rows may be utilized. In other embodiments more than one corresponding pair of rows of recesses may be utilized for positioning of mounting connectors 5 (e.g. connectors for each of three pairs of corresponding rows or more than three pairs of corresponding rows, etc.).
The positional selection of each screen body 4 adjacent a peripheral edge 3a of a work surface 3b can be provided by the mounting connectors 5 and recesses 4c. For instance, the mounting connectors 5 can be positioned in the upper recesses of the first rows of recesses 12a defined in the opposite first and second faces 4b and 4d so that a majority of the height H of the screen body extends below the work surface 3b for providing a visibility barrier. A minor portion of the height H of the screen body 4 can extend above the work surface from such a positioning. Thereafter, the position of the screen body 4 can be changed to adjust the visibility barrier provided by the screen body. Fasteners 5c can be removed from the mounting connectors (or at least one of the first outer cap and the second inner element) as well as the screen body 4 so that the screen body can be positionally adjusted. The mounting connectors 5 can then be positioned in the second row 12b or third row 12c of recesses on opposite faces of the screen body 4 (e.g. first outer cap element 5a of a mounting connector in a recess of the second row or third row in the first face 4b and a second inner element 5b of the mounting connector in the recess of the second row or third row in the second face 4d). Fasteners 5c can then be passed through the first outer cap element 5a positioned in the recess 4c of the first face 4b, screen body 4 and second inner element 5b positioned in a corresponding recess 4c of the second face 4d for fastening of the screen body 4 to the article of furniture. If the second row of recesses are used for the positioning of the mounting connectors 5, the screen body's mounted position can change the positioning so that about half of the height H of the screen body extends above the work surface and about half of the height H of the screen body 4 extends below the work surface. If the third rows of recesses 4c are used, the screen body's mounted position can change the positioning so that most of the height H of the screen body extends above the work surface a minor portion of the height H of the screen body extends below the work surface.
Such adjustment of the position of the screen body between these different vertical orientations can be made multiple times as desired to adjust the privacy barrier provided by the screen body between providing mostly, or totally privacy screen protection (e.g. a visible barrier above the work surface), mostly (or totally) modesty screen protection (e.g. a visible barrier below the work surface), and a combination of significant privacy screen protection and significant modesty screen protection (e.g. a visible barrier significantly below and above the work surface). It should be appreciated that such repositioning can occur by the removal of the first outer cap elements 5a and subsequent repositioning of the first outer cap elements 5a and second inner elements 5b in respective recesses of a different pair of rows of recesses. The second inner elements 5b may be kept attached to the work surface during such repositioning or may also be removed for such repositioning.
In some embodiments, fasteners 5c that are passed through the mounting connectors 5 and screen body 4 can be aligned so that they each extend horizontally through the first outer cap element 4a, screen body 4, and second inner element 5b. The fasteners 5c can also all be positioned in horizontal alignment with each other.
The first outer cap element 5a can be sized and configured to fit within a recess 4c so that the cap element does not substantially jut out of the recess to provide a low profile attachment feature. Such positioning of the first outer cap element 5a can help ensure a low profile so that the outer cap element does not extend significantly away from the first face (e.g. is fully within the recess 4c so that the cap element does not extend past the outermost portion of the surface of the first face via its position in the recess 4c). The cap element coloring can also be configured to try and minimize the appearance of the cap element to try and avoid impacting the aesthetic effect of the first face (e.g. by being a color that is the same as the color of the first face, etc.) or to add color to the screen body to affect the aesthetic effect of the first face 4b (e.g. by being a contrasting color that differs from the color of the first face, etc.).
Adjacent screen bodies 4 can be mounted adjacent different peripheral edges 3a of a work surface 3b. For instance, a first screen body 4 can be positioned adjacent a left side peripheral edge and a second screen body 4 can be positioned adjacent a front side peripheral edge 3a. In some embodiments, the first screen body can be positioned so one of its peripheral edges 4a contacts another screen body's peripheral edge 4a. Such peripheral edges 4a of the screen bodies can be formed via cutting of the screen bodies to provide perforated edges that can facilitate a tight contact for such positioning to avoid any type of crack or space between the adjacent screen bodies (or to minimize any type of space to a minimal space) to help provide a full visible barrier. In some embodiments, the edges of the screen bodies to be closely positioned next to each other for being in contact with each other can be formed via laser cut or otherwise cut to provide a laser perforated edge to facilitate such positioning.
In other embodiments, the peripheral edges 4a of the screen bodies that are immediately adjacent to each other can be connected together. For instance, immediately adjacent peripheral edges 4a of different screen bodies 4 can be connected to each other via a screen body edge connector 6 to block any gap or space that may be present between these screen bodies. The screen body edge connector 6 can include a body 6a that defines apertures 6b. Each aperture 6b can have a mouth 6d for receiving a peripheral portion of the peripheral edge of a screen body 4. As can be appreciated from
In some embodiments, an outer edge of the body 6a that defines the aperture 6b and mouth 6d can be structured so that the outer edge of each mouth 6d proj ects outwardly less than the inner edge of the body defining the inner edge of the mouth 6d. Such an embodiment is shown in
In some embodiments, an interference fit connector 6c can be positioned in the aperture 6b adjacent the mouth 6d of the aperture. The interference fit connector 6c can be structured to define an inner opening 6i that is in communication with the mouth 6d of the aperture 6b of the body 6a. Each interference fit connector 6c an include prongs 6e that are configured to interlock with projections 6f that define mouth 6d for retaining the interference fit connector 6c in the aperture 6b. The prongs 6e can be configured to contact opposite sides of the peripheral edge to provide an interference attachment of the peripheral edge of a screen body 4 within the aperture 6b of the body 6a. An outermost portion of the peripheral edge 4a of the screen body 4 can be received within the aperture 6b and also within the opening 6i of the interference fit connector 6c such that the peripheral edge 4a is held within the opening 6i of the interference fit connector 6c positioned in the aperture 6b.
Each body 6a can include at least a pair of apertures 6b. One such aperture's mouth 6d can face a first direction and the other aperture's mouth 6d can face a direction that is about 90° relative to that first direction to receive a peripheral edge of a screen body that extends along its length in a direction that is about perpendicular (e.g. being perpendicular or within 5° of being perpendicular) to the direction at which the length of the other screen body extends. Other embodiments of the screen body edge connector 6 can be structured so that these apertures are oriented relative to each other differently (e.g. the mouths 6d of the apertures 6b face in opposite direction or directions that are oriented so that the mouth of one angle faces a direction that is at a different angle (e.g. a 45° or 60° etc.) relative to the direction the mouth 6d of the other aperture 6b faces. Such other screen body edge connector 6 configurations can permit coupling of different screen bodies 4 adjacent the work surface 3b to accommodate different shapes of a work surface 3b.
The body 6a of the screen body edge connector 6 can be composed of metal, a polymeric material, or an elastomeric material. The body 6a of the interference fit connectors 6c can be composed of metal or other suitable material. There may be multiple interference fit connectors 6c within each aperture 6b defined in the body 6a. In some embodiments, each aperture 6b that is in communication with mouth 6d can be defined as a groove, a channel, a slit or a slot within the body 6a that extends along the length or height of the body 6a. Multiple interference fit connectors 6c can be positioned in such a groove, channel, slit or slot so that they are each entirely within the groove, channel, slit or slot and are also spaced apart from the other interference fit connectors 6c positioned in that groove, channel, slit or slot.
In other embodiments, the screen body 4 can be configured to flex or bend by having at least one intermediate flexing section 4y. Such a body configuration can permit screen bodies 4 to be mounted without having to utilize a screen body edge connector 6. Of course, it is also contemplated that each intermediate flexing section can include corrugated portions at which a portion of a screen body is moveable relative to another portion of the screen body. Each such intermediate flexing section 4y that may be configured as a corrugated portion of the screen body 4 can include narrow grooves 4o defined between wider, thicker segments 4p. The narrow grooves 4o can each be positioned so that there is a groove that extends vertically along the height H of the screen body and each groove can be separated from an immediately adjacent other groove by a wider segment 4p that extends vertically along the height H of the screen body 4. The wider segment 4p is wider than the narrow groove 4o. The screen body can bend via the narrow grooves 4o so that a distal portion of a screen body can be adjacent multiple peripheral edges 3a or a curved peripheral edge 3a of a work surface 3b and be curved or rounded at an interface between adjacent peripheral edges 3a or a bend of a continuous peripheral edge.
Embodiments of the privacy screen apparatus 1 and screen attachment apparatus can utilize recesses 4c that are in communication with each other to define a shaped hole or just define spaced apart recesses that may be aligned with each other where a thickness of the screen body is present between matching recesses on opposite faces of the screen body. The shape and size of the defined recesses can differ to meet a particular desired aesthetic effect or other design criteria and the screen attachment mechanism used in such embodiments can also utilize different connector components or connector arrangements. For instance connectors 5 can be configured as utilizing three connector parts that are to work in conjunction with fasteners 5c. Of course, a two part connector or another type of multiple part connector (e.g. four part, five part, etc.) can be utilized as well.
Examples of privacy screen attachment apparatus utilizing a multiple part connector can be appreciated from
The third work surface attachment connector element 5d can have a hole 5e that is defined to receive a screw or other type of fastener 5c that can be passed into the receptacle 5g for contacting the second inner element 5b to help retain and hold the second inner element 5b within the receptacle. In other embodiments, such a hole and fastener may not be required due to the interference fit and/or mating profiles of the receptacle 5g of the third work surface attachment connector element 5d and the mating profile 5f of the second inner element 5b.
For installation, attachment and positioning adjustment, the privacy screen attachment mechanism can be configured so that the third work surface attachment connector elements 5d are maintained in their position and attachment to a work surface 3 while the first outer cap element 5a is separated from the second inner element 5b for each mounting connector 5 for adjusting which row of recesses 4c the connectors 5 will be positioned in. After the first outer cap element 5a is separated from the second inner element 5b (e.g. removal of fasteners 5c from between these two elements, etc.), the screen body can be moved to adjust which row of recesses the first outer cap elements 5a and second inner elements 5b should be positioned in (e.g. movement form lowest row to highest row, movement from lowest row to an intermediate row, etc.). The first outer cap elements 5a can be re-attached to their respective second inner elements 5b in the new row of recesses 4c for repositioning of the screen body 4. For such adjustment, the second inner elements 5b may be kept in the receptacles 5g during the repositioning. Alternatively, the second inner elements 5b may be removed from the receptacles 5g for attachment with the first outer cap elements 5a in their respective recesses 4c of the desired pair of rows of recesses and, after such repositioning and reattachment occurs, the second inner elements 5b can be returned to the receptacles 5g of the third work surface attachment connector elements 5d. Such repositioning can allow the screen body to be repositioned without having to reposition the work surface attachment connector elements 5d. This can permit an easier readjustment by only requiring the manipulation of a limited number of fasteners and repositioning of the first and second elements of the mounting connector 5 within desired recesses 4c while also permitting the first outer cap element 5a and second inner cap element 5b for each mounting connector 5 to be more easily aligned for passing the fasteners 5c through the screen body for attachment and repositioning.
The recesses 4c and connector elements can be shaped to be elongated and positioned to extend vertically along their length as shown in
It should be understood that other modifications to the privacy screen apparatuses and screen attachment apparatuses 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 size, shape and weight of a screen body 4 can be any size or shape to meet a particular set of design criteria. As yet another example, use of a covering and/or the extent to which a covering may cover an exterior surface of a screen body 4 can be adjusted as needed to meet particular design criteria and/or to provide a desired aesthetic effect (e.g. colored film to cover a foam body, no use of a covering, use of a leather covering, etc.). As yet another example, the type of mounting connector 5 that is utilized in an embodiment of the privacy screen apparatus or privacy screen attachment apparatus may be any type of connector structure geometry that may facilitate use of a pre-selected fastening mechanism (e.g. bolts, screws, etc.) to meet a particular set of design criteria.
Therefore, while certain exemplary embodiments of privacy screen apparatuses, connection mechanisms for privacy screen apparatuses (e.g. screen attachment apparatuses), 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.
The present application claims priority to U.S. Provisional patent Application No. 62/680,137, filed on Jun. 4, 2018. The entirety of this provisional patent application is incorporated by reference herein.
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