Patent Grant
11620921
The present disclosure relates generally to signs used to display and communicate messages and information and, more particularly, to a reusable, portable, and foldable sign that provides the multiple advantages required by a modern presenter to an audience.
Portable signs are ubiquitous in our society today. Variations include yard signs, roadside signs, marquee signs, advertising signs, political signs, sidewalk signs, and other visual aids. Such portable signs provide an excellent, low-cost way to achieve many functions, including advertising a business, displaying information, and communicating messages. Among the benefits of such portable signs are that they are compact, easy to use, and highly visible; can be set up quickly; and allow the advertisement, message, or information to be changed as needed (i.e., they allow for flexibility in the advertisement, message, or information being communicated). The portability of such signs permits them to be moved and located strategically and optimally so that the advertisement, message, or information which the sign communicates is easily seen and read by the intended audience.
The simplest signs are made of poster board. Poster board is a type of flexible display board made out of cardboard that is often used to make posters or signs. One side of standard poster board is typically glossy, while the other side has a matte finish. Poster board usually comes in four-ply, which is thick enough for wet and dry media. Thinner than poster board, oaktag is a smooth-surfaced, flexible, thick paper or lightweight cardboard used especially for making posters and signs. These materials have several drawbacks, including the risks of tearing or ripping, susceptibility to the adverse impact of weather conditions, a relative lack of rigidity or sturdiness, limited reusability, creation of paper or cardboard waste, and difficulty and perhaps even pain in grasping and holding by the user.
Blackboards are known in the art. Usually these are fairly large, flat boards that are hung on walls. A problem with such boards is that they are generally fixed and not portable. The need for a portable writing board arises when a user wants a writing surface in a place or location where there is none.
Chalkboards now available have wooden or metal frames and are difficult to transport. A chalkboard must be carried by holding the frame directly which causes structural stress on the frame assembly, resulting eventually in a break-down of the frame. A chalkboard designed for transportation to a variety of locations also has a limited writing surface area.
Display boards such as dry-erase boards or “whiteboards” are commonly used for the presentation of graphics and written material during presentations. The majority of dry-erase boards consist of a writing surface and a surrounding frame, and are designed to be permanently hung or mounted to a wall. Permanently mounted boards are satisfactory for use in rooms where a constant need exists for the board, such as in classrooms. Many presentations take place, however, where a permanently installed board may not be available or desired (such as for aesthetic considerations). In such situations, at least the temporary availability of a board is desired.
There are examples of dry-erase boards that are portable. The portable dry-erase boards have easel stand-like legs incorporated into their design. Unfortunately, the portable boards tend to be bulky, complicated to set up, relatively unsteady during use, and provide limited display or writing space. Further, the portable boards are not very versatile, in that they can only be easily used with the incorporated legs and are therefore not readily adaptable to use with different support structures that may be available, such as easel stands (that may be sturdier than the incorporated legs), tabletops (that may be more appropriate in some applications), or available wall mounts. For example, many rooms that are used periodically for presentations or meetings, although not having permanently mounted boards, do have easel stands readily available. Commonly available are easel stands of the type designed to hold large pads of paper (“easel pads”), where individual sheets may be torn off to reveal a new sheet, or alternately flipped over the top of the pad as a “flip chart.”
Easel stands maintain the easel pads on the easel stand in a variety of manners. For example, a tray may protrude from the easel stand to support the easel pad from the bottom, such that the top of the pad simply reclines against the easel stand. Some easel stands have posts extending from an upper portion of the easel stand that are designed to engage pre-punched holes in a top portion of the easel pad. After the pad is positioned on the posts, a retaining member typically engages the ends of the posts to secure the pad. Other easel stands have a clamping member for accepting the top edge of an easel pad. The clamping members include spring-type clamps, manual clamps, and gravity-aided cam mechanisms, for example. Usually, clamping members have a capacity limited to dimensions of a typical easel pad thickness.
Numerous teaching and coaching situations require the use of chalkboards and other visual aids for instructional purposes. Certain instructional situations occur outside the ordinary classroom, however, with its fixed chalkboards and/or require frequent changes of location. On such occasions, a practical, lightweight, portable visual aid would be a valuable instructional tool. At the present time, there are no practical, lightweight, portable visual aids available which can be easily transported to different locations and which are adaptable for use with large or small groups of students or athletes.
Despite the plethora of portable signs available, there is no single portable sign assembly that provides the multiple advantages required by a modern presenter. Therefore, a need exists for a portable sign assembly useful to facilitate communication, which offers improved performance and versatility and which remedies the limitations of portable signs and visual aids presently in use. An object of the present disclosure is to provide an improved, practical, lightweight, sturdy, portable sign assembly having multiple advantages such as visual appeal sufficient to grab the attention of an audience. A related object is to move the sign assembly easily via user-friendly handholds. Another object is to fold the portable sign assembly to facilitate storage and transport. An additional object is to provide a sign that is made of environmentally friendly materials and that can withstand inclement weather conditions such as rain, sleet, or snow. Still another object is to include both a magnetic portion enabling the attachment of magnets and a telescoping extension pole that allows the user to adjust the height of the sign, maneuver the sign, prop up the sign, and facilitate viewing by the audience. It is yet another object of the present disclosure to allow the height of the sign to be adjusted, up and down, to be compatible with the Americans with Disabilities Act of 1990 or ADA, to accommodate presenters of different heights, and to allow presenters to sit or stand.
To meet this and other needs and to achieve these and other objects, and in view of its purposes, the present disclosure reveals a portable folding sign assembly that provides the multiple advantages required by a presenter to an audience. The assembly is especially useful during protests but may be used elsewhere, such as in the travel tour industry (e.g., airport pickup and tours), for street marketing (e.g., in front of stores), and at sporting events, fundraisers, and businesses. The assembly is lightweight and has white boards on both sides that are magnetic so that the user can write on the boards as well as attach magnets to them. Whiteboards allow a user to make a sign in advance but also allow edits. Because the assembly is double-sided, there are front and back options for messaging.
Inclement weather conditions, such as rain or snow, can damage traditional signs, thus making them difficult to read. The assembly of the present disclosure includes Plexiglas® transparent acrylic covers that protect the whiteboards from weather and precipitation, thereby allowing use of a dry erase marker and preventing that marker from running. The assembly also accommodates paper and cardboard, such as an oaktag paper sign, which can slide between the whiteboard and the cover.
The portable folding sign assembly has openings to allow a user to grip it in various positions, e.g., high/mid/low, as well as vertical and horizontal. This configuration gives the user height and grip for windy days. This feature offers an improvement over thin, oaktag materials used in traditional protest signs, which can be painful to hold. The assembly includes a detachable pole. Pole-securing screws may be connected with a link chain to avoid losing them. The pole may be used to hold the sign in the air. A user wishing to take a photograph can use one hand to hold the assembly, while the other hand operates a camera or phone. The pole may prop up the sign allowing the sign to stand raised from the ground, while supporting some of the weight of the assembly. A user may rotate the pole to the back to place the sign on the floor with the pole holding it in position.
The portable folding sign assembly includes hooks or tie-down rings to attach straps for support for transport. The assembly folds in half for transport. The assembly locks open so it is not wobbly and is more secure when operating under windy conditions. In one aspect, the assembly is sized to accommodate an oaktag sign.
The portable folding sign assembly is made of sustainable (conserving an ecological balance by avoiding depletion of natural resources) and eco-friendly materials. Using whiteboards reduces paper waste. The assembly protects paper and cardboard signs so that they can be reused. The assembly allows existing accessories to attach to it, such as night lights for night protests, clamps (e.g., umbrella clamps), writing instruments, erasers, and the like.
In a more specific embodiment, the reusable, portable, folding sign assembly has four main components: a sign board, a connecting mechanism, a telescoping extension pole, and a transparent cover sleeve. The sign board includes first and second sign board portions configured to form an open position in which the sign board portions are aligned linearly and a closed position in which the sign board portions are folded against each other, and at least one handhold to facilitate manipulation by a user. The connecting mechanism holds the first sign board portion and the second sign board portion together. The telescoping extension pole is removably and pivotably attached to the sign board, operable to support the weight of the assembly, and configured to assume an infinite number of extended lengths as desired and set by the user. The transparent cover sleeve is removably attached on one or both of the first sign board portion and the second sign board portion.
It is to be understood that both the foregoing general description and the following detailed description are exemplary, but are not restrictive, of the disclosure.
The disclosure is best understood from the following detailed description when read in connection with the accompanying drawing. Included in the drawing are the following figures:
The features and benefits of the disclosed structures, components, and devices are illustrated and described by reference to exemplary embodiments. The disclosure also includes the drawing, in which like reference numbers refer to like elements throughout the various figures that comprise the drawing. This description of exemplary embodiments is intended to be read in connection with the accompanying drawing, which is to be considered part of the entire written description. Accordingly, the disclosure expressly should not be limited to such exemplary embodiments illustrating some possible non-limiting combinations of features that may exist alone or in other combinations of features.
In this specification and in the claims that follow, reference will be made to a number of terms which shall be defined to have the following meanings ascribed to them. The term “substantially,” as used in this document, is a descriptive term that denotes approximation and means “considerable in extent” or “largely but not wholly that which is specified” and is intended to avoid a strict numerical boundary to the specified parameter. “Include,” “includes,” “including,” “have,” “has,” “having,” “comprise,” “comprises,” “comprising,” or like terms mean encompassing but not limited to, that is, inclusive and not exclusive. The indefinite article “a” or “an” and its corresponding definite article “the” as used in this disclosure means at least one, or one or more, unless specified otherwise.
The term “about” means that amounts, sizes, formulations, parameters, and other quantities and characteristics are not and need not be exact, but may be approximate and/or larger or smaller, as desired, reflecting tolerances, conversion factors, rounding off, measurement error and the like, and other factors known to those of skill in the art. When a value is described to be about or about equal to a certain number, the value is within ±10% of the number. For example, a value that is about 10 refers to a value between 9 and 11, inclusive. When the term “about” is used in describing a value or an end-point of a range, the disclosure should be understood to include the specific value or end-point. Whether or not a numerical value or end-point of a range in the specification recites “about,” the numerical value or end-point of a range is intended to include two embodiments: one modified by “about” and one not modified by “about.” It will be further understood that the end-points of each of the ranges are significant both in relation to the other end-point and independently of the other end-point.
The term “about” further references all terms in the range unless otherwise stated. For example, about 1, 2, or 3 is equivalent to about 1, about 2, or about 3, and further comprises from about 1-3, from about 1-2, and from about 2-3. Specific and preferred values disclosed for components, materials, and like aspects, and ranges thereof, are for illustration only; they do not exclude other defined values or other values within defined ranges. The structures and methods of the disclosure include those having any value or any combination of the values, specific values, more specific values, and preferred values described.
In the description of embodiments, any reference to direction or orientation is merely intended for convenience of description and is not intended in any way to limit the scope of the present invention. Relative terms such as “right,” “left,” “lower,” “upper,” “horizontal,” “vertical,” “above,” “below,” “up,” “down,” “top,” and “bottom” as well as derivatives of those terms (e.g., “horizontally,” “downwardly,” “upwardly,” etc.) should be construed to refer to the orientation as then described or as shown in the figure under discussion. These relative terms are for convenience of description only and do not require that the apparatus be construed or operated in a particular orientation. Terms such as “attached,” “affixed,” “connected,” “coupled,” “interconnected,” and similar terms refer to a relationship in which structures are secured or attached to one another either directly or indirectly through intervening structures, as well as both moveable or rigid attachments or relationships, unless expressly described otherwise.
Turning now to the figures,
The sign board 10 can be made of any one of a number of materials_that are lightweight, strong, sturdy, and inexpensive. For example, the sign board 10 may be formed from a plastic, a metal such as aluminum, or a composite material, or may be formed from other common materials of construction, such as corrugated paper or foam core. The sign board 10 may be formed with a solid, corrugated, porous, or hollow structure, such as an I-beam structure, a honeycomb structure, a cellular structure, or any one of a number of other structural forms to provide a lightweight, strong, and inexpensive structure. Preferred materials include plastics, such as acrylonitrile butadiene styrene (ABS) and polypropylene (PP). Thus, the sign board 10 can be made from a bubble honeycomb PP sheet having a thickness of about 0.16 inches (4 mm) or from a hollow ABS body having a wall thickness of about 0.0625 inches (1.6 mm).
The left sign board 12 and the right sign board 14 each have top apertures 16 (although more top apertures 16 are possible, two are shown) disposed along their top edge and bottom apertures 18 (although more bottom apertures 18 are possible, two are shown) disposed along their bottom edge. The top apertures 16 and the bottom apertures 18 accept a connecting mechanism that connects and holds the left sign board 12 and the right sign board 14 together. In the first embodiment, the connecting mechanism includes a top brace 20 and a bottom brace 30. The top brace 20 is configured to engage and disengage from the top apertures 16 and the bottom brace 30 is configured to engage and disengage from the bottom apertures 18. Preferred materials for the top brace 20 and the bottom brace 30 include plastics, such as ABS.
With the connecting mechanism attached to the center-most top aperture 16 and the center-most bottom aperture 18 on each of the left sign board 12 and the right sign board 14, as shown in
The user can disengage the connecting mechanism from the sign board 10 and place the left sign board 12 over the right sign board 14 so that the left sign board 12 and the right sign board 14 face each other as shown in
The sign board 10 may be fabricated in common sizes and shapes, including any size or shape as may be required by users of the assembly 1. For purposes of example only, the left sign board 12 and the right sign board 14 can each have a rectangular shape with a width W of about 17.7 inches (450 mm) and a length L of about 28 inches (711 mm). When the left sign board 12 and the right sign board 14 are connected and the assembly 1 is in its open position, as shown in
The left sign board 12 and the right sign board 14 may comprise any number of configurations, such as having corners that are squared or rounded. As shown in
Also to enable a user to grasp and easily manipulate the assembly 1, the assembly 1 is provided with an extension pole 60. The extension pole 60 is pivotably attached to the sign board 10 via a mechanism that will be described in detail below. The extension pole 60 may have any suitable collapsed length, but a typical collapsed length will be in the range of about 24 to 48 inches (610 to 1,220 mm). As shown in
The extension pole 60 is telescoping so that it can assume an infinite number of extended lengths as desired and set by the user.
The sign board 10 may itself have magnetic properties so that magnets can be attached to the sign board 10. The sign board 10 may itself also have properties conducive both for writing on the sign board 10 (including on the front surface and on the rear surface) and for that writing to be easily removed. Alternatively, as more fully described below, a film or other surface treatment or coating may be applied to one or more surfaces of the sign board 10 for these purposes. In the example illustrated, a cover sleeve 70 is affixed to each of the front and rear surfaces of both the left sign board 12 and the right sign board 14. Thus, a total of four cover sleeves 70 are provided as part of the assembly 1. Each of the cover sleeves 70 may be formed from a suitable material, such as clear (transparent) polypropylene having a thickness of about 0.003 inches (0.076 mm).
If the sign board 10 does not alone have dry erase properties, the assembly 1 may be configured to include the cover sleeve 70 on one or both of the front surface and the rear surface, or on predetermined portions of those surfaces, of the sign board 10. (By “predetermined” is meant determined beforehand, so that the predetermined characteristic must be determined, i.e., chosen or at least known, in advance of some event such as manufacture of the assembly 1.) The cover sleeve 70 may comprise any biaxially-oriented polyester film, UV-cured polyurethane, polypropylene, or any other product, surface treatment, or coating that may provide the sign board 10 with dry erase properties. A preferred material for the cover sleeve 70 is ultra-clear glass or Plexiglas® transparent acrylic in sheet form (available from Arkema of France). The cover sleeve 70 or such other products, surface treatment, or coating may have magnetic properties or non-magnetic properties. The cover sleeve 70 may act as a carrier for the application of dry erase treatments or coatings if the cover sleeve 70 itself does not have dry erase properties. Depending on the chosen material of the cover sleeve 70 or the subsequent treatment or coating that may be applied to the cover sleeve 70, if any, the thickness of the cover sleeve 70 may range from approximately 0.005 inches (0.127 mm) to approximately 0.050 inches (1.27 mm). The cover sleeve 70 may be laminated, deposited, or adhered to the sign board 10 using conventional techniques known to one of skill in the art. One particularly advantageous way to attach the cover sleeve 70 to the sign board 10 is described in more detail below.
As shown in
It is known in the art to supply accessories with whiteboards and a variety of accessories can be including in the assembly 1. Such accessories may include, for example, writing instruments such as pens, pencils, and dry-erase markers; an eraser; a tray to hold the writing instruments and the eraser; night lights; clamps; and other conventional items. A whiteboard with no writing instrument may be almost useless. Dry-erase markers offer high quality writing performance and, as their name implies, can be dry-erased using an eraser or cloth. A damp, lint-free, microfiber or cotton cloth (which constitutes an additional accessory) can be used to erase or clean the sign board 10 and render the sign board 10 ready to accept new writing. Dry erase cleaner or isopropyl alcohol can facilitate the process of erasing. The accessories may be fastened to or releasably retained on the assembly 1 using conventional mechanisms, such as fasteners, interference fits, snap fits, or adhesives, perhaps through the side holes 2. The assembly 1 may also include a mount to permit securing or mounting of the assembly 1 onto any surface, such as a vertical surface. The mount may comprise, for example, one or more conventional picture hanger mounts or one or more hook and loop strips as may be necessary, depending on the overall size and weight of the assembly 1.
A corresponding U-shaped pattern of vertical press lock zippers 72 and horizontal press lock zippers 74 is provided on the back surface and, optionally, on the front surface of each of the cover sleeves 70. The cover sleeves 70 can then be attached to the sign board 10 by pressing the corresponding press lock zippers together. The cover sleeves 70 can also be detached from the sign board 10 by pulling the corresponding press lock zippers apart. The U-shaped patterns of vertical press lock zippers 72 and horizontal press lock zippers 74 on the cover sleeves 70 and on the sign board 10 create one or more pockets between the cover sleeves 70 and on the sign board 10, with each pocket having an open top devoid of a press lock zipper. Thus, the assembly 1 accommodates paper and cardboard, such as an oaktag paper sign, which can slide between the cover sleeves 70 and on the sign board 10.
As shown in
Rather than the vertical press lock zippers 72 and the horizontal press lock zippers 74, the connections among the left sign board 12, the right sign board 14, the cover sleeves 70, and the folders 80 could be made using a Velcro® material. Velcro® is the brand name of the first commercially marketed fabric hook-and-loop fastener sold by Velcro USA, Inc. of Manchester, N.H. The fastener was invented by George de Mestral. See U.S. Pat. No. 3,009,235. Hook-and-loop fasteners consist of two components: typically, two lineal fabric strips or tapes (alternately round dots or squares) which are attached (e.g., sewn, adhered, etc.) to the opposing surfaces to be fastened. The first component features tiny hooks (e.g., the hook tape); the second features even smaller and “hairier” loops (e.g., the loop tape). When the two surfaces are pressed together, the hooks catch in the loops—and the two pieces fasten or bind temporarily. When separated, by pulling or peeling the two surfaces apart, the Velcro strips make a distinctive “ripping” sound.
Still referring to
Turning first to the top brace 20, the top brace 20 has one or more holes 22. Each hole 22 is configured to receive the stem of a thumb screw 23, which is preferably a plastic head thumb screw. The stem of the thumb screw 23 passes through the hole 22, then through the top aperture 16 of the sign board 10, and then through a washer 24 where the stem of the thumb screw 23 can engage a flanged wing nut 25 to attach the top brace 20 to the sign board 10. Disengagement of the flanged wing nut 25 from the thumb screw 23 allows removal of the thumb screw 23 from the top aperture 16 and, therefore, detachment of the top brace 20 from the sign board 10.
The washer 24 is preferably made of nylon. Nylon is a term coined by its inventors at E.I. duPont de Nemours & Co., Inc. Not a trademark, the term designates any of a family of high-strength, resilient, synthetic materials whose long-chain molecule contains the recurring amide group CONH. The official chemical name for nylon is polyhexamethyleneadipamide, referred to as polyamide.
The washer 24 is attached to a retaining cable or wire tether 26 which, in turn, is attached to an eye tether 27. The eye tether 27 is attached to the thumb screw 23. The wire tether 26 is preferably coated galvanized wire having a diameter of about 0.0625 inches (1.6 mm) and a length of about 4 inches (10.2 cm). One or more compression sleeves 28 is or are crimped onto the wire tether 26 to create a loop in the wire tether 26. The compression sleeves 28 can be made of aluminum.
As shown in
As shown in
The first hinge 32 is configured to engage a separate second hinge 34. Preferred materials for the first hinge 32 and the second hinge 34 include plastics, such as ABS. Engagement between the first hinge 32 and the second hinge 34 can be achieved using conventional components. As illustrated in
The second hinge 34 is configured to engage the extension pole 60 and, more specifically, the head 64 of the extension pole 60. Engagement between the second hinge 34 and the head 64 of the extension pole 60 can be achieved using conventional components. As illustrated in
In addition to the head 64, the extension pole has a handle 62 located on the end of the extension pole 60 opposite the head 64. The handle 62 is ergonomically designed to facilitate manipulation of the extension pole 60 and, therefore, of the assembly 1 by a user. A body 66 is integral with, and located between, the head 64 and the handle 62. Located on the body 66 is an extension lock 68. The extension lock 68 allows a user to extend the extension pole 60 to an infinite number of lengths, between the fully extended position shown in
Thus, the extension pole 60 telescopes so that the height of the sign board 10 with respect to a fixed surface such as the ground or a table can be adjusted by extending and retracting the extension pole 60. The height can accommodate the heights of different users and allow the user to sit or stand. The height can be adjusted to an infinite number of positions within a specified vertical range. The Americans with Disabilities Act of 1990 or ADA is a law that prohibits discrimination based on disability. The ADA requires covered employers to provide reasonable accommodations to employees with disabilities, and imposes accessibility requirements on public accommodations. The adjustability of the assembly 1 helps employers meet the requirements of the ADA.
Referring to
The latch 90 also spans the center gap 40 between the left sign board 12 and to the right sign board 14. The latch 90 is affixed to one of the left sign board 12 and the right sign board 14 using a rivet 88, and may be located proximate the top of the sign board 10. A corresponding latch pin 86 is affixed to the other of the left sign board 12 or the right sign board 14 to which the latch 90 is not attached. Thus, the latch 90 can engage the latch pin 86 to maintain the sign board 10 in its fully opened position, as shown in
The one or more magnetic subassemblies 98 can also be affixed to the sign board 10. Four subassemblies 98 are illustrated in
The assembly 1 may include the top rail 94, the bottom rail 96, or both, which may be configured to connect to the sign board 10 along the top and/or bottom edge of the sign board 10. Each of the top rail 94 and the bottom rail 96 may have two halves, one half attached to the left sign board 12 and the other half attached to the right sign board 14—as illustrated in
Like the first embodiment of the assembly 1, the alternative embodiment of the assembly 1 illustrated in
Rather than forming the sign board 10 in two, separated sections (the left sign board 12 and the right sign board 14), the sign board 10 can be formed as one integral piece of material. In this embodiment of the sign board 10, there is no gap 40. The sign board portions are separated by a central, longitudinal crease formed in the sign board 10 when one of the portions is folded against the other portion. The material used to construct the sign board 10 in this embodiment permits such folding and the formation of the crease.
Although illustrated and described above with reference to certain specific embodiments and examples, the present disclosure is nevertheless not intended to be limited to the details shown. Rather, various modifications may be made in the details within the scope and range of equivalents of the claims and without departing from the spirit of the disclosure.
This application claims the benefit of priority to U.S. Provisional Patent Application Ser. No. 63/214,018, filed on Jun. 23, 2021, the contents of which are incorporated in this application by reference.
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