Patent Application
20170151827
A whiteboard (aka, markerboard, dry-erase board, dry-wipe board, or pen-board) is typically utilized in an office, meeting room, school classroom, or other workroom. The whiteboard is usually mounted on the wall for use in front of a group of people. The whiteboard generally includes a rewritable surface. For example, this rewritable surface is a whiteboard sheet having a glossy surface (typically colored white) for use with nonpermanent ink. The nonpermanent ink can be erased with minimal effort by applying light friction with a cloth.
Whiteboards have been used in small rewritable tablets providing portability. Rewritable tablets can be mounted easily on the outside of a door or mounted next to a desk (e.g., on the wall of a cubicle).
Recently, rewritable tablets have been further used in rewritable tablet books. Rewritable tablet books include multiple rewritable surfaces in the form of multiple rewritable sheets (e.g., whiteboard sheets) bound together within a front cover, back cover, and spine. Similar to pages in a book or notebook, the rewritable sheets are typically bound together using binding (e.g., coil binding or comb binding) to form the rewritable tablet book. Some rewritable tablet books additionally include a sleeve or pocket for storing an eraser and/or marker for later use.
Current rewritable tablet books have a number of problems. For example, rewritable tablet books that have multiple rewritable sheets are bulky and cumbersome. Although some rewritable tablet books have sleeves or pockets, the sleeves or pockets have a short lifetime due to wear and tear. Thus, there is a need for a compact rewritable tablet book that is portable and can store at least a marker without requiring the additional sleeve or pocket.
The present invention is directed to a rewritable tablet book having a spine that can function with a rewritable surface to hold a marker within a hollow region. The present invention is directed toward further solutions to address this need, in addition to having other desirable characteristics.
In general, according to one aspect, the invention features a rewritable tablet book including a front cover, a back cover, and a spine for connecting the back cover to the front cover. The rewritable tablet book includes a rewritable surface extending across an inside surface of the front cover, the spine, and the back cover. The rewritable tablet book also includes a fastener. The fastener joins the front cover to the back cover in a closed position to hold a marker in a hollow region defined by the rewritable surface and the spine.
In embodiments, the spine can be constructed from an elastic material such as rubber.
In embodiments, the fastener is a closure band, a clip, a magnet, a string tie, a snap, a clasp, a rivet, or a pin for joining or disjoining the front cover to or from the back cover.
In embodiments, the hollow region has a diameter range between about 12 millimeters and about 14 millimeters in the closed position. The hollow region can preferably hold the marker wrapped in an eraser cloth.
The front cover and back cover can be constructed from a cardboard material. The front cover and back cover preferably each have a thickness range between about 2 millimeters and about 5 millimeters.
The rewritable surface can be constructed of a plastic material. In example embodiments, the rewritable surface is opaque or transparent.
In at least one embodiment, the front cover, the back cover, and the spine can be constructed from a unitary sheet.
In embodiments, the spine includes at least two different thicknesses. For example, the spine includes a distal region extending from an edge of the spine to a terminus point of the distal region. The distal region has a first thickness. A transitional region extends from the terminus point of the distal region. A central region extends from the transitional region and the central region has a second thickness. The spine thickness of the transitional region decreases from the terminus point of the distal region to the central region such that the first thickness is greater than the second thickness.
In general, according to another aspect, the invention features a rewritable tablet book kit having a front cover, a back cover, and a spine connecting the back cover to the front cover. The kit also includes a rewritable surface extending across an inside surface of the front cover, the spine, and the back cover. The rewritable tablet book kit further includes a fastener. The kit includes a marker for writing on the rewritable surface. The fastener joins the front cover to the back cover in a closed position to hold the marker in a hollow region defined by the rewritable surface and the spine.
The kit can further include an eraser cloth for erasing writing from the rewritable surface. The eraser cloth is wrapped around the marker and held in the hollow region defined by the rewritable surface and the spine in the closed position. The eraser cloth can be constructed from polar fleece, cotton, wool, polyester, or microfiber.
In embodiments, the marker has a diameter range between about 13 millimeters and about 17 millimeters.
In general, according to another aspect, the invention features a method for storing a marker in a rewritable tablet book. The rewritable tablet book has a front cover, a back cover, a spine, and a rewritable surface extending across an inside surface of the front cover, the spine, and the back cover. A fastener joins the front cover to the back cover in a closed position. The rewritable surface holds a marker in a hollow region defined by the rewritable surface and the spine in the closed position.
The eraser cloth can be wrapped around the marker. The rewritable surface holds the marker wrapped in the eraser cloth in the hollow region defined by the rewritable surface and the spine in the closed position.
The above and other features of the invention including various novel details of construction and combinations of parts, and other advantages, will now be more particularly described with reference to the accompanying drawings and pointed out in the claims. It will be understood that the particular method and device embodying the invention are shown by way of illustration and not as a limitation of the invention. The principles and features of this invention may be employed in various and numerous embodiments without departing from the scope of the invention.
In the accompanying drawings, reference characters refer to the same parts throughout the different views. The drawings are not necessarily to scale; emphasis has instead been placed upon illustrating the principles of the invention. Of the drawings:
The invention now will be described more fully hereinafter with reference to the accompanying drawings, in which illustrative embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.
As used herein, the term “and/or” includes any and all combinations of one or more of the associated listed items. Further, the singular forms and the articles “a”, “an” and “the” are intended to include the plural forms as well, unless expressly stated otherwise. It will be further understood that the terms: includes, comprises, including and/or comprising, when used in this specification, specify the presence of stated features and/or components, but do not preclude the presence or addition of one or more other features and/or components. Further, it will be understood that when an element, including component or subsystem, is referred to and/or shown as being connected or coupled to another element, it can be directly connected or coupled to the other element or intervening elements may be present.
The rewritable tablet book 1 includes a front cover 4a and a back cover 4b. The covers 4a, 4b provide a protective covering. In one example, the covers 4a, 4b can be constructed from a rigid material such as pasteboard or stiff paper (e.g., cardboard). In another example, the covers 4a, 4b can be constructed from cardboard that is covered with a paper material such as cover stock paper. The covers 4a, 4b can be constructed from other materials such as wood, high density fiber board, rubber, plastic, metal, or the like as appreciated by one of skill in the art. The thickness of each cover 4a, 4b usually has a range between about 2 millimeters and about 5 millimeters.
As illustrated in
The rewritable tablet book 1 includes a spine 2. The spine 2 has a first longitudinal edge 10a and a second longitudinal edge 10b opposite from the first longitudinal edge 10a. The spine 2 is constructed from a material having the properties of being flexible, elastic, and resilient. In particular, the spine 2 is constructed from a material having sufficient radial flexibility, elasticity, and resiliency to enable the spine 2 to form a hollow region 20 that provides an interference compression fit with a marker 7, when closed. Further, the spine 2 can be constructed of a material having the necessary frictional properties (i.e., coefficient of friction) such that the spine 2 grips the surface of a table top to prevent the rewritable tablet book 1 from sliding on the surface. Preferably, the spine 2 is constructed from a rubber material having the above described properties. For example, the rubber material is synthetic rubber such as ethylene propylene diene monomer (EPDM) or neoprene. The spine 2 has a general thickness range between about 0.5 millimeter and about 3.5 millimeters, in some examples. Preferably, the spine 2 has a thickness range between about 0.5 millimeter and about 1 millimeter. In one example, the spine 2 has a thickness of about 0.6 millimeter.
The front cover 4a and back cover 4b are bound respectively to opposing sides of the spine 2. For example, at least one longitudinal edge 12a of the front cover 4a is mounted to the first longitudinal edge 10a of the spine 2. In addition, at least one longitudinal edge 12b of the back cover 4b (opposite side of the back cover 4b with respect to the mounted longitudinal edge 12a of the front cover 4a) is mounted to the second longitudinal edge 10b of the spine 2. In this example, the covers 4a, 4b are bound to the spine 2 using adhesive such as glue or a fusing process. Alternatively, other similar book binding processes may be used as appreciated by one of skill in the art in order to bind the front cover 4a and back cover 4b to the opposing sides of the spine 2 to form the rewritable tablet book 1. The spine 2, coupled between the front cover 4a and back cover 4b, provides either an open position or a closed position.
The rewritable tablet book 1 includes a rewritable sheet having a rewritable surface 5. In one example, the rewritable surface 5 is constructed as a solitary member. Alternatively the rewritable surface 5 is constructed as two or more members. The rewritable surface 5 is made from a material or combination of materials providing a surface capable of accepting writing. The rewritable surface 5 has a thickness range between about 0.2 millimeter and about 0.5 millimeter. A marker 7, such as a dry erase marker, can be used to provide writing to the rewritable surface 5.
In one example, the rewritable surface 5 includes a dry erase whiteboard material such that a user can write on the rewritable surface 5. This white board material is plastic such as polyethylene terephthalate (PET) material, polyvinyl chloride (PVC) material, and/or polypropylene material. In one example, the rewritable surface 5 is constructed from plastic that is coated to provide the writing surface. In particular, the plastic is sprayed or treated with a thin layer of chemical formula to form a coated surface on the plastic. The coated surface allows for receiving of writing from the marker 7 and erasing of writing by an eraser cloth 6.
The rewritable surface 5 can be constructed from other materials to provide a surface that accepts writing. In another example, the rewritable surface 5 is constructed from paper that is laminated. In other examples, the rewritable surface 5 is constructed from blackboard material (e.g., chalk board) or e-paper material (e.g., uses electronic marker with touchscreen computer). The rewritable surface 5 is constructed of other materials that provide the writing surface as appreciated by one of skill in the art.
The dimensions (width by length) of the rewritable surface 5 can vary. Example width by length dimensions include about 297 millimeters by about 420 millimeters (i.e., A3 size), about 210 millimeters by about 297 millimeters (i.e., A4 size), about 148 millimeters by about 210 millimeters (i.e., A5 size), or the like.
After the covers 4a, 4b are mounted to the spine 2, the rewritable surface 5 is mounted such that the rewritable surface 5 extends across an inside surface of the front cover 4a, the spine 2, and the back cover 4b. In particular, the rewritable surface 5 is preferably a unitary sheet that is mounted directly to an inside surface (i.e., surface facing inside rewritable tablet book 1) of the front cover 4a, back cover 4b, and spine 2. Alternatively, the rewritable surface 5 is comprised of two sheets. For example, a first sheet is mounted directly to an inside surface of the front cover 4a, a second sheet is mounted to the back cover 4b, and both sheets are mounted to the spine 2. In other examples, the rewritable surface 5 is constructed of more than two sheets as appreciated by one of skill in the art. The rewritable surface 5 can be mounted using an adhesive (e.g., glue). In one example, an adhesive layer is applied to the inside surface of the front cover 4a, back cover 4b, and spine 2. The rewritable surface 5 is laid flat onto this adhesive layer on the covers 4a, 4b and spine 2 to firm the rewritable tablet book 1.
When the rewritable tablet book 1 is closed (i.e., closed position), the spine 2 in combination with the rewritable surface 5 form a hollow region 20 for gripping the marker 7. In particular, the spine 2 engages the rewritable surface 5 such that the spine 2/rewritable surface 5 combination bend to form the hollow region 20 for gripping and fixing the marker 7 in place. The spine 2/rewritable surface 5 combination provides resilient and compressible characteristics. In particular, the spine 2/rewritable surface 5 combination has sufficient radial resiliency to provide the interference compression fit around the marker 7. This radial resiliency enables the hollow region 20 to expand slightly to fit around the marker 7 providing the interference compression fit. During this interaction, resilient and compressive forces are uniformly distributed along the marker 7. A coefficient of friction between the surface of the marker 7 and the rewritable surface 5 provides frictional forces that aid in forming the interference compression fit. These properties allow for the marker 7 to be retained within the hollow region 20 irrespective of an orientation of the rewritable book 1. Thus, the spine 2/rewritable surface 5 combination functions as a glove in holding the marker 7 in the hollow region 20 irrespective of the orientation of the rewritable tablet book 1. The spine 2 and rewritable surface 5 are constructed of preferred materials having sufficient flexible, elastic, resilient, and frictional properties to provide this desired interference compression fit with the marker 7.
The rewritable tablet book 1 includes a fastener 3 for maintaining the rewritable tablet book 1 in the closed position. In one example, as illustrated in
Alternatively, the fastener 3 can be in the form of a clip, magnet, string tie, snap, clasp, rivet, pin, or the like as appreciated by one of skill in the art for maintaining closure (i.e., closed position) of the rewritable tablet book 1.
In one implementation, the fastener 3 is a magnet embedded below the rewritable surface 5 to maintain closure. In such example, there are two fasteners 3 in the form of a first magnet and a second magnet. The first magnet is embedded in the rewritable surface 5 on the front cover side which binds to the second magnet embedded in the rewritable surface 5 on the back cover side to maintain closure of the rewritable tablet book 1.
In another implementation, the fastener 3 is a clip. In this implementation, there are two fasteners—male clip and female clip. The male clip is mounted to the re writable surface 5 on the front cover side and the female clip is mounted to the rewritable surface 5 on the back cover side. In the closed position, the male clip fits within the female clip. The clips join the front cover 4a to the back cover 4b in the closed position.
As illustrated in
The spine 2 has a first thickness T1 and a second thickness T2. As illustrated for reference purposes, the spine 2 has a central axis CA. A first distal region 14a extends from the first longitudinal edge 10a of the spine 2 (i.e., distal end of spine 2 with respect to central axis CA) to a terminus point TP of the first distal region 14a. A second distal region 14b extends from the second longitudinal edge 10b of the spine 2 (i.e., distal end of spine 2 with respect to central axis CA) to a terminus point TP of the second distal region 14b. The first distal region 14a and the second distal region 114b have the first thickness T1. The first thickness T1 has a thickness range between about 2.5 millimeters and about 3.5 millimeters. The spine thickness decreases from the terminus point TP of the first distal region 14a to a central region 16 of the spine 2 forming a first transitional region 15a. Also, the spine thickness decreases from the terminus point TP of the second distal region 14b to the central region 16 of the spine 2 forming a second transitional region 15b. The central region 16 has the second thickness T2. The second thickness T2 has a thickness range between about 0.5 millimeter and about 2 millimeters. Thus, the first thickness T1 is generally greater than the second thickness T2. In one example embodiment, a ratio of the first thickness T1 to the second thickness T2 is between about 1.75 and about 5.
A relationship between a diameter DM of the marker 7 compared to a diameter D of the hollow region 20 allows for the spine 2/rewritable surface 5 combination to form the interference compression fit with the marker 7 in the closed position. The diameter D of the hollow region 20 (without the marker 7) is generally smaller than the diameter DM of the marker 7. The spine 2/rewritable surface 5 combination form the hollow region 20 having the characteristic of a tight volumetric space. This hollow region 20 is configured to particularly provide a snug fit around the marker 7 so that the marker 7 is locked in place (i.e., diameter D of hollow region 20 increases as spine 2/rewritable surface 5 combination bend to fit around the marker 7). The marker 7 is locked or tightly engaged within the hollow region 20. This snug fit provided by the hollow region 20 locks the marker 7 in place such that the rewritable tablet book 1 can be moved in any direction without the marker 7 disengaging from the hollow region 20. The marker 7 generally has a diameter DM range between about 13 millimeters and about 17 millimeters. When in the closed position, the hollow region 20 has a diameter D range between about 12 millimeters and about 14 millimeters without holding the marker 7. The diameter D range of the hollow region 20 expands to the diameter DM range of the marker 7 by the spine 2/rewritable surface 5 combination flexing to fit around the marker 7. The spine 2/rewritable surface 5 combination can bend or flex further (i.e., further increase the diameter D range of the hollow region 20) to fit around the marker 7 wrapped in the eraser cloth 6. This relationship between the diameter DM range of the marker 7 to the diameter D range of the hollow region 20 (without holding the marker 7) can be represented as a ratio. For example, this ratio (diameter DM of marker 7 to diameter D of hollow region 20) has a range between about 1.083 and about 1.214.
As illustrated in
The spine 2 and fastener 3 provide the main forces used to grasp the marker 7 and maintain the closed position or open position. The spine 2 provides the functionality of holding the marker 7 in place by a friction fit inside the curvature of the hollow region 20 formed by the spine 2/rewritable surface 5 combination. The spine 2 is bound to the front cover 4a and back cover 4b in such a way that closing the rewritable tablet book 1 stretches the spine 2 and puts it under tension. This tension provides a force towards closing or opening the rewritable tablet book 1. In the illustrated example, the fastener 3 (i.e., closure band) has sufficient resilience for wrapping around the outer edge of the closed rewritable tablet book 1 but enough strength to counteract the tension of the spine 2 helping to maintain the closed position.
In one example, when the eraser cloth 6 and marker 7 are flexibly held in place inside the rewritable tablet book 1, stability of the rewritable tablet book 1 is increased such that a reasonable force of compression can be applied to the cover 4a, 4b without significantly damaging the rewritable surface 5.
In example embodiments, there are preferred ratios of thicknesses between different components. These ratios provide flexible, elastic, and resilient properties that allow for the rewritable tablet book 1 to grasp the marker 7 in the closed position. Also, these ratios provide flexible, elastic, and resilient properties that enable the rewritable tablet book 1 to spring open when the fastener 3 is released from the rewritable tablet book 1 (i.e., transition from closed position to open position). In one example, the ratio of the rewritable surface thickness to the cover (front or back 4a, 4b) thickness is between about 0.07 and about 0.1. In another example, the ratio of the cover (front or back 4a, 4b) thickness to the spine thickness is between about 1.43 and about 4.
In another example, as illustrated in
When the rewritable tablet book 1 is opened, the rewritable surface 5 provides a rewritable space for drawing or writing with the marker 7. As shown in
In operation, the rewritable tablet book 1 transitions from the closed positions of
The marker 7 is illustrated as a dry erase marker. However, depending on the material of the rewritable surface 5, the marker 7 can alternatively be another type of marker such as a chalk marker for a blackboard or an electronic marker for e-paper. The marker 7 can vary in diameter DM such that the marker 7 can be gripped within the rewritable tablet book 1 in the closed position.
The eraser cloth 6 is constructed from a soft fabric material such as polar fleece, cotton, wool, polyester, microfiber, or the like. As shown in
In example embodiments, the main components (front cover 4a, back cover 4b, and spine 2) of the rewritable tablet book 1 can be constructed from a unitary sheet. This unitary sheet is formed into the rewritable tablet book unit 1 having the flexible, elastic, and resilient properties described above. An example unitary sheet material can include rubber such as neoprene or the like. The rewritable tablet book 1 can be formed from the unitary sheet material (e.g., neoprene) by applying a molding process such as injection molding. In one example, the front cover 4a, the back cover 4b, and/or the spine 2 are independently formed from the unitary sheet using multiple injection molding processes. In this example, the separately molded components of the front cover 4a, the back cover 4b, and the spine 2 are constructed together with the rewritable surface 5 to produce the rewritable tablet book 1. In another example, the front cover 4a, the back cover 4b, and the spine 2 are formed together from the unitary sheet during multiple stages of a single injection molding process. The rewritable surface 5 is either mounted to an inside surface of the molded unitary sheet or the rewritable surface 5 is created by coating plastic mounted to the inside surface of the molded unitary sheet.
While this invention has been particularly shown and described with references to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the invention encompassed by the appended claims.
This application claims the benefit under 35 U.S.C. §119(e) of U.S. Provisional Application Ser. No. 62/059,227, filed on Oct. 3, 2014, which is incorporated herein by reference in its entirety.
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/US2015/053627 | 10/2/2015 | WO | 00 |
| Number | Date | Country | |
|---|---|---|---|
| 62059227 | Oct 2014 | US |
