The present invention relates generally to display units intended to provide visual information, and more particularly to a display unit that is compact and includes a self-deployable aspect.
Display units are frequently used by businesses and other organizations to provide visual information such as, for example, advertising information or other types of information at a point of sale, trade show, or public venue. The visual information may include any combination of words, colors, and images, as may be desired, so that the display unit may effectively communicate the information to a desired audience. When not in use, a display unit may be stored or transported to a location where it is to be used. For example, some display units may be disassembled and/or at least partially collapsed into a folded position for storing and transportation, and may be subsequently assembled and/or erected into a use position for providing the visual information.
Generally, display units consist of a front face carrying visual information, and are intended to be placed on the ground, a tabletop, or other surface. This front face can be held in a vertical position by means of a support structure, such as, for example, a stand-type device. This type of device may include a tripod, a poster display stand, a banner stand, and the like. Other display units may consist of multiple front faces, each carrying visual information, held in a vertical position by a similar device, in order to display visual information to observers on different sides of the display unit. However, display units such as these are relatively bulky and cannot be transported easily, and require difficult manipulations in order to be arranged into a use position or to be arranged into a folded position.
Therefore, a need exists for a display unit which is easily movable between a folded position and a use position, and which is compact and easily storable in the folded position.
A display unit for conveying information to a desired audience includes an outer shell having one or more areas for displaying information, and an inner support assembly coupled to the outer shell and configured to support the outer shell during use of the display unit. The display unit has at least one folded position and a use position, wherein the display unit is self-deployable such that the display unit automatically transitions from a folded position to the use position. In accordance with an aspect of the invention, the display unit may automatically transition from a folded position to the use position under a force generated from the display unit itself.
In one embodiment, the support assembly includes an upper support panel and a lower support panel coupled together by at least one spring member configured to exert a tension force on the upper and lower support panels when the display unit is in a folded position. The upper and lower support panels are foldable between an expanded position and a collapsed position and are configured to fold about a panel fold line. In the at least one folded position, the support assembly is folded within the outer shell such that the upper and lower support panels are collapsed along the respective panel fold lines. The at least one folded position may include an intermediate position, wherein the at least one spring member exerts a tension force on the upper and lower support panels such that the upper and lower support panels are biased toward each other along their respective panel fold line when in the intermediate position. In this way, the biasing of the upper and lower support panels along their respective panel fold lines causes the upper and lower support panels to expand such that the display unit transitions to the use position.
In an exemplary embodiment, the upper and lower support panels have an elliptical configuration that provides a plurality of sides to the display unit for viewing the information provided thereon. The upper and lower support panels may be fixedly attached to an interior wall of the outer shell. In one embodiment, the upper and lower support panels each include a hinge flap, wherein the at least one spring member is coupled to each hinge flap. Moreover, in one embodiment, the upper and lower support panels are coupled together by two spring members and a spacer disposed therebetween. The at least one spring member may include an elastic band.
In one embodiment, the support assembly may further include a central support panel disposed between the upper and lower support panels, the central support panel having an opening, and the at least one spring member may extend through the opening. The central support panel may also include a fold line. In one embodiment, the central support panel may be at least partially folded about the fold line when the display unit is in the use position.
In another embodiment, the display unit may further include at least one air release hole positioned on at least one of the outer shell and the inner support assembly.
A method of erecting a display unit having an outer shell with lateral fold lines and an inner support assembly for supporting the outer shell, the display unit having a folded, an intermediate, and a use position, includes gripping a portion of the display unit in the folded position, and releasing the display unit such that the display unit self-deploys from the folded position to the use position. The method may include transitioning the display unit from the folded position to the intermediate position by allowing the remaining portions of the display unit to unfold about the lateral fold lines under the influence of gravity. The method may further include transitioning the display unit from the intermediate position to the use position using a force generated by the display unit itself.
In one embodiment, transitioning the display unit from the intermediate position to the use position further includes expanding the inner support assembly using a force generated by the display unit itself. More particularly, the inner support assembly includes upper and lower support panels coupled together by at least one spring member, wherein the at least one spring member exerts a tension force on the upper and lower support panes in the intermediate position to generate the force for transitioning the display unit to the use position.
Referring now to
Flaps 16, 18, 20, 22, 24, 26 are provided along the longitudinal periphery of each of the poster areas A1, A2, A3, A4, A5, A6 and are separated from their respective poster areas by way of flap fold lines F6, F7, F8, F9, F10, F11. The flaps 16, 18, 24, 26 associated with the upper and lower poster areas A1, A2, A5, A6 include upper and lower flap tabs 28, 30, 32, 34, which may be positioned proximate the flaps 20, 22 associated with the central poster areas A3, A4, as shown.
With specific reference now to
The upper and lower support panels 38, 40 each include a panel fold line F12, F13 along an axis of the support panel. The upper and lower support panels 38, 40 also each include first and second oppositely disposed panel tabs 48, 50, 52, 54 positioned on an outer periphery of the support panel and which extend in a direction substantially parallel to the fold line F12, F13. As shown, the fold lines F12, F13 may extend along the major axes of the support panels 38, 40 and the panel tabs 48, 50, 52, 54 may be tangential to the minor axes of the support panels, respectively. Each panel tab 48, 50, 52, 54 is folded perpendicular to the plane of the support panel 38, 40, such as, for example, in a direction toward the other support panel 38, 40.
A central portion 56, 58 of each support panel 38, 40 is cutout and folded along the fold line F12, F13 to provide an aperture 60, 62 and a hinge flap 64, 66 oriented in a direction toward the other support panel 38, 40. Each hinge flap 64, 66 includes a pair of holes 68, 70, 72, 74 for retaining a leg 76, 78 of an associated elastic band 44, 46. In the embodiment shown, slots 80, 82, 84, 86 are provided in the hinge flaps 64, 66 adjacent the holes 68, 70, 72, 74 for maneuvering portions of the elastic bands 44, 46 into the holes. As shown in
The elastic bands 44, 46 couple the upper and lower support panels 38, 40 to the central bracket 42 (
In one embodiment, the support assembly 36 may further include a central support panel 41 (
The upper and lower support panels 38, 40 are movable between an expanded position, as shown in
Referring now to
Turning now to
The support assembly 36 is positioned within the shell 112 such that the upper support panel 38 engages the upper seam tab 114, made up of the upper flap tabs 28, 30, and the lower support panel engages the lower seam tab 116, made up of the lower flap tabs 32, 34. In this manner, the upper and lower seam tabs 114, 116 provide a positive stop for the upper and lower support panels 38, 40, respectively. As such, the upper support panel 38 is positioned between the upper poster areas A1, A2, the lower support panel 40 is positioned between the lower poster areas A5, A6, and the central bracket 42 is positioned between the central poster areas A3, A4.
In some applications, it may be desirable to provide an additional positive stop opposite the upper and lower seam tabs 114, 116. Accordingly, in one embodiment, upper and lower auxiliary tabs 117, 119 may be provided along the longitudinal fold line F1 at heights generally corresponding to those of the upper and lower seam tabs 114, 116. As shown in
As shown in
A method of erecting a display unit in accordance with the principles of the present invention will now be described. For description purposes, the display unit 110 is initially assumed to be in a folded position, as shown in
When the display unit 110 is to be used, for example when an end user has received it by postal service, the process of erecting the display unit is carried out in a simple, straightforward manner. To this end, it suffices to grip one or both of the upper poster areas A1, A2 along the seam 106 and longitudinal fold line F1 and hold it above the rest of the display unit 110. By then releasing the rest of the display unit, the display unit 110 is unfolded about the lateral fold lines F2, F3, F4, F5 under gravity, as shown in
Once the display unit 110 has been fully unfolded about the lateral fold lines F2, F3, F4, F5, the display unit is momentarily in an intermediate position, as shown in
Due to the superior material strength of the support panels 38, 40, this engagement causes the shell 112 to radially expand. However, it has been found that the positioning of the display unit 110 in the folded position may tend to create an air vacuum effect between portions of the display unit 110, such as, for example, between the central poster areas A3, A4, and this vacuum effect may inhibit the full expansion of the shell 112. Accordingly, any number of air release holes may be provided in the components of the display unit 110 to reduce or eliminate such a vacuum effect. In one embodiment, air release holes (shown in phantom) may be provided on the central poster areas A3, A4, such as, for example, along the flap fold lines F8, F9 and/or along the longitudinal fold line F1. In addition or alternatively, air release holes may be provided on the upper and lower support panels 38, 40.
In one embodiment, a central support panel 41 may be provided to combat the air vacuum effect or for other reasons, such as, for example, to overcome a tendency of the material of the central poster areas A3, A4 to stick together, or to provide additional structural support to the display unit 110. Like the upper and lower support panels 38, 40, the central support panel 41 may be movable between an expanded position (
When the support panels 38, 40 are expanded, the upper and lower seam tabs 114, 116 provide a positive stop to counter any remaining tension force and to prevent the support panels from becoming inverted along their fold lines F12, F13. If auxiliary tabs 117, 119 are used, the auxiliary tabs may provide an additional positive stop to prevent the support panels 38, 40 from becoming undesirably lopsided. In their expanded positions, the support panels 38, 40 act as a brace to maintain the display unit 110 in a fully expanded “use” position, as shown in
In the embodiment shown, each of the upper, lower, and central support panels 38, 40, 41 are substantially flat when the display unit 110 is in the use position (e.g. when the support panels are expanded). However, it may be desirable for at least one of the support panels 38, 40, 41 to maintain a slight fold along its fold line F12, F13, F14 when the display unit 110 is in the use position (e.g. the support panel may be partially folded about its fold line). For example, the central support panel 41 may maintain a slight fold along its fold line F14 when the display unit 110 is in the use position, so as to prevent the central support panel 41 from becoming inverted along its fold line F14 and to urge the central support panel 41 to collapse in a preferred direction when the display unit 110 is to be returned to the folded position (described below).
When the display unit 110 is in the use position, the first and second front faces 12, 14 each assume convex shapes such that the display unit has a substantially elliptical cross section corresponding to the shape of the support panels 38, 40. In this manner, the support assembly 36 places the shell 112 into its proper configuration, such that the display unit 110 may be considered self-deployable. In other words, the display unit 110 automatically assumes its use position with no manipulation other than being gripped by an upper poster area A1, A2. More specifically, the display unit 110 may be unfolded from the folded position to the intermediate position by gravity, and the display unit may be expanded from the intermediate position to the use position by the tension of the elastic bands 44, 46. Advantageously, the shape of the display unit 110 in the use position allows the display unit to be a free-standing unit, with no need for an additional stand device or other support element. In this manner, the support assembly 36 may independently support the first and second front faces 12, 14 in a vertical position, as may be desired.
In the embodiment shown, the poster areas A1, A3, A5 on the first front face 12 are visible from a first side of the display unit 110, and the poster areas A2, A4, A6 on the second front face 14 are visible from a second side of the display unit, such that visual information may be observable from different sides and multiple directions. The desired visual information may have been placed on the poster areas A1, A2, A3, A4, A5, A6 beforehand, such as, for example, by printing at the same time as or after the forming of the sheet 10. Alternatively, the visual information may be placed on the poster areas A1, A2, A3, A4, A5, A6 subsequent to forming the sheet. For example, the visual information may be printed on poster areas A1, A2, A3, A4, A5, A6. In another embodiment, the visual information may be adhesively applied to the poster areas A1, A2, A3, A4, A5, A6.
When the display unit 110 is to be returned to the folded position for storage or transportation, the user may grip the upper support panel 38 by way of the aperture 60 (
While the present invention has been illustrated by the description of one or more embodiments thereof, and while the embodiments have been described in considerable detail, they are not intended to restrict or in any way limit the scope of the appended claims to such detail. Additional advantages and modifications will readily appear to those skilled in the art. The invention in its broader aspects is therefore not limited to the specific details, representative apparatus and method and illustrative examples shown and described. Accordingly, departures may be made from such details without departing from the scope or spirit of the general inventive concept.