The present invention relates to an apparatus which defines a plurality of retaining sections each of which is capable of receiving various objects and which enables easy sorting of objects as well as browsing of the objects received in the retaining sections.
In an office setting, a common situation arises in which papers or documents must be retained and/or sorted. For example, it might be required to create ten different booklets with each booklet having twenty sequentially numbered pages. If the twenty pages are printed one at a time in batches of ten (one for each booklet), then they will have to be sorted with one page being allotted to each booklet.
A multi-section retaining/sorting/browsing apparatus is often used for this purpose and includes a plurality of dividers which define object-retaining sections therebetween into which the pages can be placed sequentially. That is, first the page numbered 1 is placed in each section, then the page numbered 2 is placed behind page number 1 in each section, and so on until ten complete booklets are created. When placing a page in each section, the dividers may be flipped to expose that section and after the page is placed in that section, a divider may be flipped to expose an adjacent section. The sorting process continues in this manner by flipping the dividers and inserting pages into each exposed section. Alternatively, sorting can be done in reverse, starting with the last page. Using this technique, flipping of the dividers may be avoided.
Such multi-section retaining/sorting/browsing apparatus are also used to hold file folders to enable papers to be stored and/or sorted into the file folders. In this case, a file folder can be retained in each section and opened one at a time by flipping the dividers (without removing the file folder) and one or more pages or documents may be placed into each file folder as it is opened.
The same apparatus also enables browsing through the file folders retained in the apparatus. For example, by flipping the dividers to expose the file folders in each section, it is possible to view the contents of each file folder without removing the file folders from the apparatus. By placing the file folders in the sections defined by the apparatus, it is not required to remove the file folders to open each one but rather, the file folders can be continually retained in the sections in the apparatus and by flipping the dividers, each file folder can be opened and browsing of the contents thereof is possible.
A problem with the conventional multi-section retaining/sorting/browsing apparatus of this type is that not all of the known devices allow for a file folder in a particular section to be opened without requiring the exertion of pressure to keep the dividers in place and that section exposed.
A multi-section retaining/sorting/browsing apparatus is often also used to display small objects for sale, wherein it is desired to ease the purchaser's ability to browse through the objects. In particular in the sale of multi-media objects, such as CDs, DVDs, records and computer software, it is desirable to enable a purchaser to relatively easily and quickly flip through the objects to see whether any are of interest for possible purchase. To this end, by providing a retaining/sorting/browsing apparatus including a plurality of dividers which define object-retaining sections therebetween into which the multi-media objects are placed, the purchaser can easily flip the dividers, or the objects depending on which is larger, forward or backward to view the objects in each section. If the objects are larger and thus flipped, then the dividers are flipped upon flipping of the objects.
Unfortunately, retaining/sorting/browsing devices are not always designed so that easy flipping is provided in combination with the ability to allow the user or purchaser to expose an object or objects in one or more of the object-retaining sections without exerting pressure to keep the dividers in position so that the desired section is exposed.
Accordingly, it is an object of the invention to provide a new and improved multi-section retaining/sorting/browsing apparatus.
It is another object of the present invention to provide a new and improved multi-section retaining/sorting/browsing apparatus including a plurality of object-retaining sections and which is designed to facilitate easy sorting of objects into each section.
It is still another object of the present invention to provide a new and improved multi-section retaining/sorting/browsing apparatus including a plurality of object-retaining sections and which enables exposure and viewing of an object or objects such as file folders in one or more of the object-retaining sections preferably without exerting pressure to keep the dividers in place and that section exposed.
It is yet another of the present invention to provide a new and improved multi-section retaining/sorting/browsing apparatus which is easy to assemble.
In order to achieve these objects and others, a multi-section retaining/sorting/browsing apparatus in accordance with the invention includes a base including a plurality of parallel slots and a plurality of dividers each arranged in connection with a respective slot. Adjacent dividers define object-retaining sections therebetween. Each divider has a pair of separated anchor portions and an object support portion coupled to the anchor portions and extending through a respective slot to provide a support for retaining objects. The anchor portions are rotatably retained in connection with the base to enable the dividers to be flipped forward and backward in a longitudinal direction.
With such an apparatus, it becomes possible to place file folders in each section to enable sorting of papers or documents into the file folders in the sections and browse through the file folders without removing them from the apparatus.
One construction to maintain the anchor portions in connection with the base is to provide each anchor portion with a projection extending outwardly to a position below an overlying portion of the base. The projections are thereby supported and rotate on bearing surfaces defined by the base. Additional bearing surfaces may be provided on the base to sandwich or surround the projections.
The base may be made of two parts, an upper member and a lower member, with the anchor portions being partially retained therebetween. The upper member may include a top wall defining an opening through which the object support portions of the dividers extend and transversely extending flanges and longitudinally extending flanges projecting downward from the top wall alongside the opening. The longitudinally extending flanges define end walls of the slots each including a curved indentation. A respective anchor portion passes through each curved indentations to be situated below an overlying portion of the top wall. The lower member may include a substantially planar portion and a plurality of support projections arranged on an upper surface thereof. The support projections define the bearing surfaces on which the projections of the anchor portions are supported and rotate.
To define the slots in the large opening defined by the top wall of the upper member of the base, the lower wall includes transversely extending elevated sections, each including an elevated horizontal wall. The horizontal walls partition the opening defined by the upper member into slots and limit the flipping of the dividers in the longitudinal direction.
To connect the upper and lower members together, ramps extend inward from the longitudinally extending flanges of the upper member and lips extending downward from transverse ends of the horizontal walls of the elevated sections of the lower member. When the base is assembled, the lips are urged along angled surface of the ramps to pass over the ramps and thereby connect the upper member and the lower member together.
The invention, together with further objects and advantages thereof, may best be understood by reference to the following description taken in conjunction with the accompanying drawings, wherein like reference numerals identify like elements.
Referring to the accompanying drawings wherein like reference numerals refer to the same or similar elements, a multi-section retaining/sorting/browsing apparatus in accordance with the invention is designated generally as 10 and comprises a base 12 defining one or more cavities 14 (see
To establish a convention for the following description and without limiting the invention, in the embodiment shown in
In some embodiments, a single cavity 14 is provided in the base 12, in which case, all of the slots 16 communicate with the single cavity 14 and a portion of each divider 18 is situated in the single cavity 14. On the other hand, if a plurality of cavities 14 are provided in the base 12 (see
All of the slots 16 may have the same size for receiving dividers 18 having the same length as shown in
The base 12 may be formed from two members, an upper member 22 defining a top wall 24 of the cavity or cavities 14 and a lower member 26 (see
Referring now to
Each divider 18 has an anchor portion 32 arranged in the cavity 14 and an object support portion 34 coupled to the anchor portion 32 and extending through a respective slot 16 to provide a support for retaining the objects 8 (see
To enable a limited amount of flipping of the dividers 18 during use of the apparatus 10, each slot 16 is preferably defined by downwardly angled surfaces 16a,16b of the top wall 24 of the base 12. As such, a smaller opening is formed in a lower surface of the top wall 24 than in an upper surface of the top wall 24 for each slot 16 (see
The anchor portion 32 is rotatable in the cavity 14 to enable the divider 18 to be flipped forward and backward in a longitudinal direction (see
To enable passage of the object support portion 34 through the respective slot 16, a part 34a of the object support portion 34 has a length in the transverse direction equal to or less than the length of the respective slot 16. The object support portions 34 may be substantially planar and directly connected to the anchor portions 32. Also, the object support portions 34 may be provided with different forms or shapes as desired, e.g., with a recess 34b as shown, and from different materials (i.e., metal, plastics, wood, etc).
To assemble the apparatus 10, the upper and lower members 22, 26 and dividers 18 are first constructed and the dividers 18 are inserted through the slots 16 by inserting the object support portions 34 of the dividers 18 through the slots 16 until the anchor portions 32 come into contact with the lower surface of the top wall 24 of the upper member 22. Then, the lower member 26 is inserted into the opening 22a in the upper member 22 and attached to the upper member 22. The apparatus is thus ready for use for retaining objects, for enabling sorting of objects such as papers and documents, and for enabling browsing of objects such as file folders.
Referring now to
Dividers 18′ are retained in the cavity 14′ by virtue of the anchor portion 32′ having a width W1 (the diameter of the anchor portion since the anchor portion 32 is cylindrical) larger than the width W2 of the slots 16′ (see
Since the base 12′ has a unitary construction, the assembly method described above cannot be used for this embodiment. In this embodiment therefore, in order to place the dividers 18′ into the slots 16′ in the assembly of the apparatus 10′, the anchor portion 32′ of the dividers 18′ (and possibly also the object support portion 34′) are formed from a material which provides a small degree of resiliency, such as some types of molded plastics, so that the anchor portions 32′ of the dividers 18′ can be pressed (i.e., forced) downwardly along the inclined surfaces 16a′, 16b′ into the slots 16′.
Optionally, as shown in
Assembly of the apparatus 10′ would therefore entail simply pressing each divider 18′ into a respective slot 16′, and so that the projection on the divider 18's enters into the recess 46 in the inner wall of the base 12′ defining the cavity 14′ if present.
Referring now to
Retention of the dividers 18″ in connection with the base 12″ is provided by constructing the anchor portion 32″ of the dividers 18″ to have a larger transverse length than the transverse length of the slots 16″, and specifically, to extend beyond each transverse end of the slots 16″. Thus, the slots 16″ are formed in the top wall 24″ of the upper member 22″ so that each slot 16″ has a first transverse end 48 spaced inward from an adjacent end 14a of the cavity 14″ and a second transverse end 50 spaced inward from an adjacent end 14b of the cavity 14″ (see
The projections 36 are secured in the base 12″ between the top wall 24″ and the bottom wall 28″ to enable rotation of the anchor portion 32″ and thus the divider 18″. To this end, the projections 36 may be supported on raised shoulders 38 of the bottom wall 28″ so that the projections 36 are positioned between the shoulders 38 and the overhanging portion of the top wall 24″ defined by the upper member 22″ (see
To assemble the apparatus 10″, the upper and lower members 22″, 26″ and dividers 18″ are first constructed and the dividers 18″ are inserted through the slots 16″ by inserting the object support portions 34″ of the dividers 18″ through the slots 16″ until the anchor portions 32″ come into contact with the lower surface of the top wall 24″ of the upper member 22″. Then, the lower member 26″ is inserted into the opening in the upper member 22″ and attached to the upper member 22″. The apparatus is thus ready for use for retaining objects, for enabling sorting of objects such as papers and documents, and for enabling browsing of objects such as file folders. The dividers 18″ may be pressed down into slots 16″ as described above with reference to
As shown in
Although in the embodiments described above, the slots are formed in a top wall of the base, other forms and shapes of the base can be constructed in which the slots are formed in other walls of the base. For example,
Referring now to
The base 86 is formed from two separate members, an upper member 94 and a lower member 96 (see
Lower member 96 includes a planar portion 114, a plurality of transversely extending elevated sections 116 arranged on the upper surface of the planar portion 114 and a plurality of support projections 118 arranged on the upper surface of the planar portion 114. Each elevated section 116 includes a pair of vertical walls 120 and a horizontal wall 122 raised above the planar portion 114 by the vertical walls 120. Instead of a pair of vertical walls 120, other construction for raising or elevating horizontal wall 122 above the planar portion 114 of the lower member 96 are also possible. The horizontal walls 122 of the elevated sections 116 preferably positioned to be even with the top wall 98 of the upper member 94.
Support projections 118 define a curved bearing surface on which part of the anchor portions 112 of the dividers 90 are supported and rotate (see
Slots 88 are defined, on the longitudinal sides, by a pair of vertical walls 120 or, in the case of the slots 88 at the longitudinal ends of the base 86, by one vertical wall 120 and an opposed transversely extending flange 108. As such, flipping movement of the dividers 90 arranged in connection with the slots 88 is limited by contact with the elevated sections 116, or by contact with the upper wall 98 of the upper member 94. On the transverse sides, the slots 88 are defined by part of the longitudinally extending flanges 106 and support projections 118.
The upper member 94 may include an opening in a bottom surface into which the lower member 96 is positioned and then either permanently or removably connected to the upper member 94. For example, connecting structure may be provided on the upper and lower members 94, 96 to securely connect the upper and lower members 94, 96 together. Specifically, the upper member 94 includes angled projections or ramps 124 extending inward from the longitudinally extending flanges 106 between the curved indentations 110 and the lower member 96 includes a lip 126 extending downward from the transverse ends of the horizontal wall 122 of each elevated section 116. When the base 86 is assembled, the lips 126 are urged along the angled surface of the ramps 124 until they pass the ramps 124 and are seated on a flat, upper surface of the ramps 124 (see
Instead of forming ramps 124 on the upper member and the lips 126 on the lower member 96, a permanent form of connection for the upper and lower members 94, 96 may be provided by an adhesive such as glue or fastener members such as nails, screws and the like.
Each divider 90 has a pair of anchor portions 112, each supported and rotatable on a respective support projection 118, and an object support portion 128 coupled to the anchor portions 112 and extending through the opening 100 in the upper wall 98 of the upper member 94 of the base 86. To retain the dividers 90 in connection with the base 86, the anchor portions 112 each include a projection 130 at a transverse end which rests on the support projections 118 and is situated below the curved indentations 110. The presence of opposed bearing surfaces around the projections 130, formed by the support projections 118 and curved indentations 112, maintains projections 130 between the upper and lower members 94, 96 when connected together.
The projections 130 of the anchor portions 112 of each divider 90 may have a different cross-section and form than the remaining part of the anchor portion 112, e.g., it can be rounded in the form of a bullet while the remaining part of the anchor portion 112 has the X-shaped cross-section as shown.
Dividers 90 each include an arcuate opening 132 extending from a bottom edge between the anchor portions 112 and may be flared outward as shown to provide the object support portion 128 with a greater surface area for supporting objects.
To assemble the apparatus 84, the upper and lower members 94, 96 and dividers 90 are first constructed and the dividers 90 are inserted into engagement with the upper member 94 (while the upper member 94 is held upside down). Specifically, the dividers 90 are inserted through the opening 100 in the upper member 94 while the upper member 94 is held upside down such that the object support portion 128 is below the top wall 98 of the upper member 94. In view of the flaring of the object support portions 128, this cannot be achieved by simply dropping the dividers 90 (when oriented in their final orientation in the transverse direction of the upper member 94) into engagement with the curved indentations in the longitudinally extending flanges 106. Rather, the dividers 90 must first be turned away from their final orientation and inserted through the opening 100 and then turned back to their final orientation and placed onto the curved indentations 110. Preferably, all of the dividers 90 are inserted through the opening 100 first and then the projections 130 of each divider 90 are placed onto a pair of aligning curved indentations 110.
Once the dividers 90 are resting on the curved indentations 110, the lower member 96 is engaged with the upper member 94 by pressing the lower member 96 into the opening in the bottom surface of the upper member 94 to cause the lips 126 to slide along the ramps 124 and pass completely over the ramps 124. The apparatus 84 is thus ready for use for retaining objects, for enabling sorting of objects such as papers and documents, and for enabling browsing of objects such as file folders.
The various bases and dividers described above can each be made of various materials, such as aluminum, wood and plastic, so that various combinations of materials are possible.
It should be clear that various modifications and alterations can be made within the scope of the present invention. None of the features or individual components of the apparatus described above are essential to any single embodiment and each feature can be substituted for by an equivalent structure. For example, the base shown in
This application is a continuation-in-part of U.S. patent application Ser. No. 10/702,205 filed Nov. 4, 2003, the specification of which is incorporated by reference herein.
Number | Date | Country | |
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Parent | 10702205 | Nov 2003 | US |
Child | 11040806 | Jan 2005 | US |