The present invention relates to label displays. More specifically, the present invention relates to a tile holder that can be attached to or integrated with a storage device.
Storage devices including shelves, cabinets, doors, jars, storage totes, backpacks and drawers often require their contents to be identified using labels. Such labelling may be required in settings including pantries, clothes closets, bathrooms, offices, laboratories, locker rooms, classrooms, bars, garages, warehouses, and kitchens.
Some types of labels known in the art include typed labels and handwritten labels.
Handwritten labels are usually hard to read. Furthermore, some handwritten labels are written using temporary ink products, such as dry erase technology, in which case their markings may fade or smudge over time. Other handwritten labels are written using permanent ink technologies, in which case they cannot be reused to label different contents.
Creating typed or printed labels requires specialized equipment. Additionally, typed or printed labels are usually permanent and therefore cannot be reused to label different contents.
Many types of labels known in the art are designed to simply label items. However, depending on the configuration of these labels, they may hinder the use of the labelled items. Furthermore, these labels may not be legible.
From the above, there is therefore a need to overcome the shortcomings of the prior art by providing a functional display label that is clearly legible and permanent but can also be reused or interchanged.
The present invention provides a tile holder that can be attached to or integrated with a storage device. The tile holder may hold, for example, alphabet tiles. The tile holder may be used in settings where labelling is required. The tile holder may be constructed from a rigid material, such as wood, metal or a semi-flexible or flexible material, such as rubber or plastic. The tile holder may be a face plate that optionally couples to a space block. The tile holder may comprise an internal channel having at least one modified or beveled edge or surface.
In a first aspect, this document discloses a tile holder comprising: at least one channel configured to hold at least one rigid tile, said at least one channel comprising a lower side; a wall side; and an upper side; and at least one lip configured to secure said at least one rigid tile within said channel, wherein each said at least one lip is adjacent said at least one channel, wherein: said tile holder is for labelling a storage device; said at least one rigid tile is manually insertable and removable from said tile holder; a first junction is formed between said upper side and said wall side; a second junction is formed between said wall side and said lower side; and at least one of said first junction and said second junction forms a modified edge.
In a second aspect, this document discloses a tile holder comprising: at least one channel configured to hold at least one rigid tile, said at least one channel comprising: a lower side; a wall side; and an upper side; and at least one lip configured to secure said at least one rigid tile within said channel, wherein each said at least one lip is adjacent said at least one channel, wherein: said tile holder is for labelling a storage device; said at least one rigid tile is manually insertable and removable from said tile holder; and at least one protrusion protrudes from said wall side, such that, when inserted in said tile holder, said at least one rigid tile rests against said protrusion.
In a third aspect, this document discloses a tile holder comprising: at least one channel configured to hold at least one rigid tile, said at least one channel comprising a lower side; a wall side; and an upper side; and at least one lip configured to secure said at least one rigid tile within said channel, wherein each said at least one lip is adjacent said at least one channel, wherein: said tile holder is for labelling a storage device; said at least one rigid tile is manually insertable and removable from said tile holder; and at least a portion of said tile holder is flexible.
The present invention will now be described by reference to the following figures, in which identical reference numerals refer to identical elements and in which:
The figures are not to scale, and some features may be exaggerated or minimized to show details of particular elements while related elements may have been eliminated to prevent obscuring novel aspects. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting but merely as a representative basis for teaching one skilled in the art to variously employ the present invention.
The present invention provides a tile holder for holding rigid tiles. The tile holder can be attached to or integrated into a storage device, such as a shelf, door, jar, storage tote, backpack, cabinet, or drawer. The tile holder may be used in settings where labelling may be required. Such settings may include a pantry, a clothes closet, a locker room, a classroom, a bar, a garage, a bathroom, an office, a laboratory, a warehouse, or a kitchen. The tile holder may hold, for example, tiles with individual letters, numbers, and/or patterns on each tile.
The tile holder may be constructed from a rigid material, such as wood, a suitable metal, such as aluminum or stainless steel, or any suitable combination thereof. Similarly, the tile holder may be constructed out of a semi-flexible and/or resilient material, such as thick rubber, a flexible plastic, or any suitable combination thereof. The tile holder may be attached to a storage device using, for example, glue, nails, screws, snap-fit, tension fit, or any other suitable attachment means.
The tile holder 101 has a first lip 104 and a second lip 105 opposite to the first lip 104. The first 104 and second lips 105 prevent the rigid tile 102 from falling or being knocked out of the channel 103.
The rigid tile 102 may be inserted through one end of the channel 103 or through the space between the first lip 104 and the second lip 105, if this space is wide or large enough.
In the first embodiment shown in
In the first embodiment, the sides and wall forming the channel 103 may be partially or fully lined with a material that provides compression or cushioning to the tile. Such a material would assist in keeping the rigid tiles 102 in place. Such a material may line the top and/or bottom sides as well as the back wall. The material would, preferably, be compressible and/or resilient.
In the first embodiment, the channel 103 may be sized to prevent the insertion of the rigid tiles 102 from the front opening of the channel 103. Accordingly, the rigid tiles 102 would be inserted from an open end of the channel 103. Alternatively, the channel 103 may be sized to allow the rigid tile 102 to be inserted vertically, with the ceiling having enough space to allow the bottom of the rigid tile 102 to fit over the second lip 105. In another embodiment, the channel 103 may be sized to allow the rigid tile 102 to be inserted sideways (widthwise) and then be rotated into a vertical position.
The rigid tile 102 is, preferably, large enough so that the information indicator on the front face (i.e, the letter, number or pattern being displayed) is clearly visible through the space between the first lip 104 and the second lip 105.
The channel 302 may be formed by a lip 303 to hold the rigid tile 102 inside the channel 302.
The rigid tile 102 may be inserted through an end of the channel 302 or through the space between the shelf 107 and the lip 303, if this space is large enough.
Similarly to the first embodiment, the channel 502 comprises a first lip 503 and a second lip 504, opposite to the first lip 503. The channel 502 further comprises a void 505 such that part of the tile holder forming the void 505 and the outer edge 509 can act as a hinge. In one embodiment, the part of the tile holder forming the void 505 may be made of a flexible or resilient material, such as rubber or plastic. In another embodiment, the present invention contemplates a living hinge.
The tile holder 501 further comprises a second channel 506 that is opposite to the tile-holding channel 502. The second channel 506 is shaped or sized to receive an edge or lip on any storage device. In a preferred embodiment, the second channel 506 is shaped and sized to receive a front or a ledge of a shelf 107. The portion of the tile holder 501 forming the second channel 502 may be lined with barbs 507 that provide a better grip on the shelf 107.
The tile holder 501 has an extension 508 that is attached to, but extends away from, the second lip 504. The second lip 504 is adjacent to the void 505. As the tile portion forming the void 505 acts as a hinge, the space between the first lip 503 and the second lip 504 can be momentarily increased by exerting pressure or force on the lowermost portion of the extension 508 in a direction towards the shelf 107. This force or pressure compels the tile portion forming the void 505 to act as a hinge and momentarily increase the space between the first lip 503 and the second lip 504. Preferably, the void 505 is a circular or substantially circular profile to facilitate an easier operation of the hinge. The circular profile of the void 505 may be reflected by a circular outline of the outer edge 509 of the void 505.
The integrated tile holder 701 has a frame 702 and a center panel 704 that is inserted into the body of the frame 702. The frame 702 comprises a groove 705 along the inner perimeter of the frame 702. The portion of the tile holder 701 forming the groove 705 is sized and shaped to hold an edge of the center panel 704.
In this embodiment, the integrated tile holder 701 is formed partially from the center panel 704 and partially from the frame 702. In other embodiments, the integrated tile holder 701 may be entirely formed or cut out of the center panel 703. Alternatively, the integrated tile holder 701 may be entirely formed or cut out of the frame 702 or an additional material.
The integrated tile holder 701 comprises a channel 706 that is shaped and sized to receive and display the rigid tiles 102. In
The channel 706 may be defined further by a first lip 707 and a second lip 708 that are opposite to each other. The first lips 707 and the second lip 708 are for keeping the rigid tiles 102 within the channel 706.
The tile holder portion forming the channels 802 each have an open end 803 and a closed end 804. The closed end 804 keeps the rigid tile 102 within the channel 802. Each channel 802 may further comprise a first lip 805, a second lip 806, and a third lip 807. The first 805, the second 806, and the third lips 807 are for keeping the rigid tiles 102 within the channel 802. As can be seen, the various lips surround a space through which the letter, number or pattern on the rigid tile 102 can be viewed. The first 805, the second 806, and the third lips 807 are present at all sides of the channel 802 except for the same side where the open end 803 is present. Each channel 802, defined by the open 803 and the closed ends 804 and the first 805, the second 806, and the third lips 807, is cut into a band 808.
A skilled artisan would understand that, while the tile holder 801 shown in
In an alternate embodiment, the band 808 would be provided without the female internal threads 810. In this embodiment, the band 808 would be made of a flexible material such as rubber or plastic that could be stretched over an existing jar band.
The device 1001 may be used to connect two tile holders 101 together at an angle. In the figure, it can be seen that the tile holder 101 is mounted to a shelf 107. The device 1001 comprises a first end 1002 and a second end 1003. The first end 1002 has a first channel 1004 and the second end 1003 has a second channel 1005. The first 1004 and the second channels 1005 may be formed around the tile holder 101.
The first 1004 and second channels 1005 are formed to fit around and securely form the channel 103 of the tile holder 101. More specifically, the first 1004 and second channels 1005 may be formed around the first 104 and second lips 105 of the tile holder 101. Accordingly, a device 1001 that is formed to fit around tile holder 501 would have first 1004 and second channels 1005 that are formed to fit around the extension 508.
In the embodiment shown, the first 1002 and the second ends 1003 are joined at a 90-degree angle. In alternative embodiments, the first 1002 and the second ends 1003 may be joined at any angle. In one example, the first 1002 and the second ends 1003 are joined at 180 degrees, thereby resulting in a coupler that joins two separate tile holders 101.
The tile holder 1201 may use a frame 1204 around the outer perimeter of the face plate 1202. The frame 1204 may be used to support the rigid tiles 102 and to ensure that the rigid tiles 102 stay within the tile holder 1201.
As noted above, the tile holder 1201 may be mounted to the face of a storage device, such as a drawer, filing cabinet or desk. In one embodiment, the frame 1204 may be thinner than the rigid tiles 102, such that when the tile holder 1201 is mounted to a storage device, the rigid tiles 102 are securely held between the storage device and the face plate 1202.
The tile holder 1201 may further comprise one or more screw bosses 1205 for mounting the tile holder 1201 to a storage device using a suitable mounting means, such as screws. In the embodiment shown, the tile holder 1201 may be mounted to a storage device using a spacer block 1206. The spacer block 1206 may use one or more screw holes 1207. As can be imagined, each screw hole 1207 is aligned with a corresponding screw boss 1205.
The front side of the face plate 1302 and the opening 1303 are preferably shaped and sized to simultaneously expose one face of each rigid tile 102 and to keep the rigid tiles 102 within the tile holder 1301. Specifically, the face plate 1302 forms one side of a channel that operates to prevent the rigid tiles 102 from falling through the opening 1303. The opening 1303 may be covered with a transparent or a translucent material. Alternatively, the opening 1303 may be uncovered.
The tile holder 1301 has a frame 1304 that is around the outer perimeter of the front side of the face plate 1302, such that the face plate 1302 and the frame 1304 form a channel. The frame 1304 may be used to further support the rigid tiles 102 and to ensure that the rigid tiles 102 stay within the tile holder 1301.
The reversible spacer block 1306 forms a back side of the channel, to securely hold the rigid tiles 102 in place. The reversible spacer block 1306 has a first face 1308 and a second face 1310, such that the face plate 1302 and spacer block 1306 can be coupled in a first position (as shown in
As shown in
As shown in
The face plate 1402 and the channel 1405 are preferably shaped and sized to keep the rigid tiles 102 within the tile holder 1401. Specifically, the face plate 1402 and the channel 1405 operate together to prevent the rigid tiles 102 from falling through the opening 1403. The opening 1403 may be covered with a transparent or a translucent material to expose one face of each rigid tile 102. Alternatively, the opening 1403 may be uncovered.
The spacer block 1404 may be securely glued or fastened to the base of a handle of a storage device with suitable attachment means. Alternatively, the spacer block 1404 may be removably attached to the base of a handle, a door, countertop, or shelf of a storage device.
The channel 1502 may integrate a flexible portion, such as a void 505 and an extension 508 (see
The tile holder 1601 may have at least one hole 1606 on the handle 1602 to attach the tile support piece 1603 to the handle 1602 with a suitable attachment means. The suitable attachment means is inserted through the storage device, through the holes 1606, and lastly are threaded through a corresponding second hole 1607 (not visible in
The end cap 1702 comprises an end cap channel 1708 that is closed at one end. The open end of the end cap channel 1708 is shaped and sized to fit over the tile holder 1701. Alternatively, the end cap 1702 may be used with other embodiments of the present invention, such as the tile holder 101 (see
The integrated tile holder 1801 comprises a channel 1803 and a face plate 1804. The tile holder portion forming the channel 1803 is bordered by at least one aperture 1805 and the face plate 1804 is bordered by at least one projection 1806. The apertures 1805 and the projections 1806 are placed to line up with each other when the face plate 1804 is placed within the channel 1803. One aperture 1805 and one projection 1806 collectively form a snap fit lock. In a preferred embodiment, the aperture 1805 and the projection 1806 may be repeatedly engaged and released without sacrificing the ability of the snap fit lock mechanism to securely join the integrated tile holder 1801 to the storage tote 1802.
The face plate 1804 further comprises an opening 1807. The face plate 1804 and the tile holder portion forming the channel 1803 are preferably shaped and sized to keep the rigid tiles 102 within the integrated tile holder 1801. Specifically, the face plate 1804 and the channel 1803 operate together to prevent the rigid tiles 102 from falling through the opening 1807. The opening 1807 may be covered with a transparent or a translucent material to expose one face of each rigid tile 102. Alternatively, the opening 1807 may be uncovered.
The rigid tiles 102 are placed within the channel 1803 and held securely in place by the face plate 1804, when the snap fit lock is engaged. In an alternate embodiment, the rigid tiles 102 may be placed within the face plate 1804 and held securely in place by the channel 1803.
The tile holder 1901 is a face plate that comprises a channel 1903, an opening 1904 and at least one projection 1905. The tile holder portion forming the channel 1903 and the opening 1904 are shaped and sized to simultaneously receive and display at least one rigid tile 102. The channel 1903 is not visible in
The projections 1905 are configured with a lip or step that is made of a flexible material such that the projection 1905 may contract to fit through holes 1906 in the storage device, such as a storage tote 1902. The holes 1906 may be added to the storage tote 1902 or may already be present in the metal or plastic mesh of the storage tote 1902. In a preferred embodiment, the projections 1905 may be repeatedly engaged and released without sacrificing the ability of the lock mechanism to securely join the tile holder 1901 to the storage tote 1902.
The integrated tile holder 2001 is a flexible frame 2003 that comprises a channel 2004 and an opening 2005. The portion of the tile holder forming the channel 2004 and the opening 2005 are shaped and sized to simultaneously receive and display at least one rigid tile 102. The channel 2004 is not visible in
The flexible frame 2003 may be securely fastened to the backpack 2002 or other suitable storage device on up to three (3) sides of the flexible frame 2003. The flexible frame 2003 may be fastened using any suitable fastening means, such as glue, stitches, contact cement, tape, etc. At least one side of the flexible frame 2003 (i.e., at least the fourth non-securely attached side plus any of the other three sides) is attached by a reusable fastening means, such as hook and loops (for example, VELCRO™), snaps, buttons, zipper, etc. The rigid tiles 102 are inserted into the channel 2004 through the at least one side of the flexible frame 2003 that is fastened with the reusable fastening means.
The flexible frame 2003 may be made of a flexible material, such as rubber or plastic, such that the integrated tile holder 2001 does not impede the movement of the storage device, such as the backpack 2002. The opening 2005 may be covered with a transparent or translucent material or be uncovered.
The flexible frame 2202 is securely fastened to the storage device on three (3) sides by any suitable fastening means, such as glue, stitches, contact cement, tape, etc. The fourth side of the flexible frame 2202 that is not securely fastened comprises a slot 2204 that is attached to the storage device by a reusable fastening means. Accordingly, the rigid tiles 102 may be inserted into the integrated tile holder 2201 through the slot 2204.
The flexible frame 2202 may be made of any flexible or semi-flexible material such as rubber or plastic. Similarly, the opening 2203 may be made of any flexible and clear material, such as plastic.
Similar to the integrated tile holder 2201 shown in
The tile holder portion forming the channel 2304 and the frame 2303 may be integrated as one part that is molded or thermally formed. Alternatively, the tile holder portion forming the channel 2304 and the frame 2303 may form two separate pieces that are securely fastened to each other with a suitable fastening means. The tile holder portion forming the channel 2304 and the frame 2303 may be made from any material, rigid or flexible, that would support the rigid tiles 102.
The channel 2402 runs the entire length of the integrated tile holder 2401. The tile holder portion forming the channel 2402 is shaped and sized to receive rigid tiles 102 through the slot 2405. The channel 2402 has a first end, a second end, an upper side and a lower side. The front of the channel 2402 is defined by the individual windows 2404 and the back of the channel 2402 is defined by the flexible frame 2403. The rigid tiles 102 are supported by the lower side of the channel 2402 and may be further supported by leaning against the flexible frame 2403 or the individual window 2404.
The flexible frame 2403 may be made of any flexible or semi-flexible material. The flexible frame 2403 may be securely or removably fastened to the storage device using any suitable secure fastening means or reusable fastening means, respectively.
The individual windows 2404 may be covered with a transparent or translucent material or may be uncovered. The individual windows 2404 are configured such that the letter, number or pattern on the rigid tile 102, when inserted, is visible. In a preferred embodiment, the individual windows 2404 are configured such that the outer perimeter of each individual window 2404 is smaller than the outer perimeter of the rigid tile 102.
The slot 2405 is configured with a slot tab 2406 to facilitate the insertion and removal of rigid tiles 102. The slot tab 2406 is made of a flexible material, such as rubber or plastic, to allow the slot tab 2406 to be bend upwards to open the slot 2405 and insert the rigid tile 102. The flexible material allows the slot tab 2406 to recover back to the original position, as shown in this
As can be seen, the tile holder 2601 is fastened to the storage device 107 via fastening means 2610, such as glue, stitches, contact cement, tape, or any other suitable fastening means.
The flexible tile holder 2701 may be made of flexible material that can be fastened to a fabric, plastic, wood, or metal storage device.
Each of the plurality of channels 2702 is defined by a back side 2702, the frame 2703, and a front side with an individual window 2704 (i.e., an opening).
As can be seen, the fourth side comprises an individual slot 2705 with an individual slot tab 2706. The slot 2705 is configured with a slot tab 2706 to facilitate the insertion and removal of rigid tiles 102 into channel 2702. The slot tab 2706 may be made of a flexible material, such as rubber or plastic, to allow the slot tab 2706 to be bend upwards to open the slot 2705 and insert the rigid tile 102. The flexible material allows the slot tab 2706 to recover back to the original position, as shown in
The at least one rigid tile is supported by the lower side of the channel and additionally supported by at least one of the first lip 104 and the second lip 105. The configuration of the beveled edges 3010 and 3020, along with the lips on the tile holder, secure the rigid tile closer to the channel's opening. As should be clear, depending on the geometry of the at least one rigid tile and the upper and/or lower bevels 3010 and 3020, in some positions, the at least one rigid tile can tip backwards or forwards. That is, the rigid tile does not necessarily need to be positioned close to the front of the channel 103 or parallel to the front surface of the tile holder 101. However, a geometry that prevents such a backwards or forwards angling effect may, in some cases, be preferable.
In some embodiments, a portion of the tile holder is flexible, to thereby permit easier insertion and/or removal of tiles. In particular, in some embodiments, at least one of the first lip 104 and the second lip 105 may comprise a flexible material to allow easy insertion of the at least one rigid tile. Using such a flexible material for the lip(s), regardless of the material used in the rest of the tile holder, can help to hold the at least one rigid tile in the front of the channel in a near vertical orientation and parallel or near-parallel to the front surface of the tile holder. Further, depending on the embodiment, any portion of the tile holder, including the lower side, the wall side, the upper side, junctions therebetween, and/or segments or regions thereof may be flexible or comprise flexible material. As would be understood, any suitable portion of the tile holder may be flexible.
Additionally, in some embodiments, the beveled edges 3010 and 3020 are symmetrically beveled. Such symmetric bevels may be preferable, as symmetry may allow more efficient manufacturing. For instance, symmetrically beveled edges may require fewer customized manufacturing tools and fewer manufacturing steps to achieve the channel's shape, as compared to asymmetric edges. In particular, pre-existing tools may be modified to produce symmetrically bevelled channels in wooden tile holders, rather than requiring more expensive extruded plastic tile holders. Similarly, any one of the lower, upper, and wall sides of the channel can be further modified to secure the rigid tile in a forward position.
Referring now to
It should be noted that any use herein of the phrase “at least one of [x] and [y]”, where [x] and [y] are nouns or phrases, is intended to mean, and should be construed as meaning, “[x] or [y] or [both]”.
A person understanding this invention may now conceive of alternative structures and embodiments or variations of the above, all of which are intended to fall within the scope of the invention as defined in the claims that follow.
This application is a Continuation-in-Part of U.S. patent application Ser. No. 16/283,126 filed on Feb. 22, 2019, which claims the benefit of U.S. Provisional Application No. 62/634,430 filed on Feb. 23, 2018, all of which are hereby incorporated herein in their entireties.
Number | Date | Country | |
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62634430 | Feb 2018 | US |
Number | Date | Country | |
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Parent | 16283126 | Feb 2019 | US |
Child | 17004862 | US |