Blueprint Architectural Drawings Cases

Abstract

Various type cases providing for storage and transport of combinations of architectural blueprint drawings, plans, and related files and materials are disclosed. A combination laptop and file case provides for containing a laptop and hanging files within and including side pouches for easy external access. A triangle plan drawing case provides for storage and transport of a single architectural blueprint drawings set. A travel blueprint architectural drawings case provides for storage and transport of small number of architectural blueprint drawings. A multi-blueprint architectural drawings case provides for storage and transport of a medium or mid-range number of architectural blueprint drawings. A multi-blueprint architectural drawings open case provides for storage and transport of a larger number of architectural blueprint drawings in an open case having no lid.

Description

BACKGROUND

This invention pertains to plans, drawings, and files in the construction industry. More particularly, this invention pertains to the storage and transport of blueprint architectural drawings and related files and materials.

The construction industry requires contractors and project managers to coordinate a multitude of architectural blueprint drawings that relate to many and varied projects. It is not unusual for a project manager to have a plethora of architectural blueprint drawings lying loosely in a vehicle such as a truck. The more architectural blueprint drawings required for the various projects, the more likely they are in a loose assemblage scattered in a vehicle or even sometimes in an office. The necessity for having plans available often indicates that the plans will remain in a vehicle, and may or may not be easily accessible. The most recently accessed plans are likely on top of a particular assortment, so that the plans must be moved and/or shuffled around to locate a desired set of drawings. Such a situation also increases the likelihood that the drawings will be damaged over time, or even worse, that they will be misplaced or lost.

BRIEF SUMMARY

Various type cases for storage and transport of combinations of architectural blueprint drawings, plans, related files, and materials are disclosed.

According to one embodiment of the present invention, a combination laptop and file case is disclosed for containing a laptop and hanging files within while including side pouches for easy external access is provided.

According to another embodiment of the present invention, a triangle plan drawing case providing for storage and transport of a single architectural blueprint drawings set is provided.

According to another embodiment of the present invention, a travel blueprint architectural drawings case providing for storage and transport of small number of architectural blueprint drawings is provided.

According to another embodiment of the present invention, a multi-blueprint architectural drawings case for storage and transport of a medium or mid-range number of architectural blueprint drawings is provided.

According to another embodiment of the present invention, a multi-blueprint architectural drawings open case for storage and transport of a larger number of architectural blueprint drawings in an open case having no lid is provided.

Other systems, methods, features and advantages of the present invention will be or become apparent to one with skill in the art upon examination of the following drawings and detailed description. It is intended that all such additional systems, methods, features and advantages be included within this description and be within the scope of the present disclosure.

BRIEF DESCRIPTION OF THE DRAWINGS

The above-mentioned features will become more clearly understood from the following detailed description read together with the drawings in which:

FIG. 1 is a perspective view of a combination laptop and file case;

FIG. 2 is a perspective view of a combination laptop and file case having an alternative mesh side pouch;

FIG. 3 is a perspective view of the combination laptop and file case as in FIG. 1 with an open lid revealing the inside of the case;

FIG. 4 is a top plan view of the combination laptop and file case as in FIG. 1 having an open lid;

FIG. 5-A is a front elevation view of the combination laptop and file case as in FIG. 1;

FIG. 5-B is a rear elevation view of the combination laptop and file case as in FIG. 1;

FIG. 6-A is a left side elevation view of the combination laptop and file case as in FIG. 1;

FIG. 6-B is a right side elevation view of the combination laptop and file case as in FIG. 1;

FIG. 7-A is a left side elevation view of the combination laptop and file case as in FIG. 1 with an open lid;

FIG. 7-B is a right side elevation view of the combination laptop and file case as in FIG. 1 with an open lid;

FIG. 8 is a top plan view of the combination laptop and file case as in FIG. 1;

FIG. 9 is a bottom plan view of the combination laptop and file case as in FIG. 1;

FIG. 10 is a front perspective view of a triangle blueprint architectural drawings case;

FIG. 11 is a front perspective view of the triangle blueprint architectural drawings case of FIG. 10 with an open front;

FIG. 12-A is a left side elevation view of the triangle blueprint architectural drawings case of FIG. 10;

FIG. 12-B is a right side elevation view of the triangle blueprint architectural drawings case of FIG. 10;

FIG. 13 is rear elevation view of the triangle blueprint architectural drawings case of FIG. 10;

FIG. 14 is a bottom plan view of the triangle blueprint architectural drawings case of FIG. 10;

FIG. 15 is a front perspective view of a travel blueprint architectural drawings case;

FIG. 16 is a perspective view of a travel blueprint architectural drawings case having an opened front;

FIG. 17 is a partially exploded, perspective view of a travel blueprint architectural drawings case;

FIG. 18-A is a pouch-side elevation view of the travel blueprint architectural drawings case of FIG. 15;

FIG. 18-B is a non-pouch-side elevation view of the travel blueprint architectural drawings case of FIG. 15;

FIG. 19-A is a rear elevation view of the travel blueprint architectural drawings case of FIG. 15;

FIG. 19-B is a front elevation view of the travel blueprint architectural drawings case of FIG. 15 in an open front configuration;

FIG. 20 is a top plan view of the travel blueprint architectural drawings case of FIG. 15;

FIG. 21 is a bottom plan view of the travel blueprint architectural drawings case of FIG. 15;

FIG. 22 is a perspective view of a multi-blueprint architectural drawings open case;

FIG. 23 is an exploded perspective view of the multi-blueprint architectural drawings open case of FIG. 22;

FIG. 24 is a top plan view of the multi-blueprint architectural drawings open case of FIG. 22;

FIG. 25 is a bottom plan view of the multi-blueprint architectural drawings open case of FIG. 22;

FIG. 26 is a open-pouch side elevation view of the multi-blueprint architectural drawings open case of FIG. 22;

FIG. 27 is a open-pouch side elevation view of a multi-blueprint architectural drawings open case having an alternative mesh open-side pouch;

FIG. 28 is a lid-pouch side elevation view of the multi-blueprint architectural drawings open case of FIG. 22.

FIG. 29 is a rear elevation view of a multi-blueprint architectural drawings case;

FIG. 30 is a rear elevation view of the multi-blueprint architectural drawings case of FIG. 29 utilizing an alternate base and an alternative mesh pouch;

FIG. 31 is a front elevation view of the multi-blueprint architectural drawings case of FIG. 29;

FIG. 32 is a top plan view of the multi-blueprint architectural drawings case of FIG. 29 with a closed lid;

FIG. 33 is a top plan view of the multi-blueprint architectural drawings case of FIG. 29 with an open lid;

FIG. 34 is an side-handle view of the multi-blueprint architectural drawings case of FIG. 29;

FIG. 35 is an alternate-base view of the multi-blueprint architectural drawings case of FIG. 29; and

FIG. 36 is a bottom plan view of the multi-blueprint architectural drawings case of FIG. 29.

DETAILED DESCRIPTION

Various type cases for storage and transport of combinations of architectural blueprint drawings, plans, related files, and materials are disclosed.

Various type cases for storage and transport of combinations of architectural blueprint drawings, plans, related files, and materials are disclosed. Specifically, a combination laptop and file case is disclosed for containing a laptop and hanging files within while including side pouches for easy external access. A triangle plan drawing case providing for storage and transport of a single architectural blueprint drawings set is disclosed. A travel blueprint architectural drawings case providing for storage and transport of small number of architectural blueprint drawings is disclosed. A multi-blueprint architectural drawings case for storage and transport of a medium or mid-range number of architectural blueprint drawings is disclosed. A multi-blueprint architectural drawings open case for storage and transport of a larger number of architectural blueprint drawings in an open case having no lid is disclosed.

The construction industry requires contractors and project managers to coordinate a multitude of architectural blueprint drawings that relate to many and varied projects. It is not unusual for a project manager to have a plethora of architectural blueprint drawings lying loosely in a vehicle such as a truck. The more architectural blueprint drawings required for the various projects, the more likely they are in a loose assemblage scattered in a vehicle or even sometimes in an office. The necessity for having plans available often indicates that the plans will remain in a vehicle, and may or may not be easily accessible. The most recently accessed plans are likely on top of a particular assortment, so that the plans must be moved and/or shuffled around to locate a desired set of drawings. Such a situation also increases the likelihood that the drawings will be damaged over time, or even worse, that they will be misplaced or lost.

FIG. 1 is a perspective view of a combination laptop and file case 100 for containing a laptop and files, also referenced herein as a combination case 100. FIG. 2 is a perspective view of an alternative combination laptop and file case 100 having an alternative mesh front pouch 112′, and is discussed in further detail below. FIG. 3 is a perspective view of the combination case 100 illustrating an open lid 150 and revealing the inside of the combination case 100. FIG. 4 is a top plan view of the combination case 100 illustrating the open lid 150 and revealing the inside of the combination case 100. The inside of the combination case 100 is discussed in further detail below.

FIG. 5-A and FIG. 5-B respectively illustrate a front elevation view and a rear elevation view of the combination case 100. FIG. 6-A and FIG. 6-B respectively illustrate a left side elevation view and a right side elevation view of the combination case 100. FIG. 7-A and FIG. 7-B illustrate respectively a left side elevation view and a right side elevation view of the combination case 100 with an open lid. FIG. 8 is a top plan view of the combination case 100 and FIG. 9 is a bottom plan view of the combination case 100.

In the various perspective and elevation views that illustrate the combination case 100 in FIG. 1 through FIG. 9, various sides, handles, pouches, and also uses of and for the combination case 100 are provided as discussed in detail below.

The combination case 100 is an enclosable container and carrying or transport case for holding such items as a laptop, files, and assorted items and devices that are utilized in the course of working in construction and similar industries. The combination case 100 includes a front 110 and a rear 130, a left side 120 and a right side 140, a bottom or base 160, and a lid 150. The lid 150 opens and closes to provide access to the contents within the container via a fastener 170 such as a zipper 170. The zipper 170 extends around three sides of the lid 150 to secure the lid 150 to the left side 120, the right side 140, and the front 110, respectively. The zipper 170 includes two grip portions for extending or retracting the zipper 170 from the respective corners where the left side 120 and the right side 140 extend from the rear 130 of the combination case 100. In the illustrated embodiment, the two grip portions meet at the approximate midpoint of the zipper 170 on the front 110 of the combination case 100. Of course, the two grip portions can meet at any point around the periphery of the zipper 170 to secure the lid 150 closed to the combination case 100.

The combination case 100 also includes narrow containers or pouches along the front 110, and along each of the left and right sides 120, 140 respectively. The pouches provide storage for items that require separate storage and/or easy access, such as keys, cell phones, smart phones, calculators, pens, measuring devices, small tools, or even files and papers, for example. Specifically, the front 110 includes a front pouch 112 covering a portion of the front 110. That is, the front pouch 112 extends upward from the base 160 and is accessible via a front pouch opening 114 along the edge of the front pouch 112. In the illustrated embodiment, the front pouch 112 extends approximately half way up the front 110 of the combination case 100. Of course, various pouches may extend to cover more or less of the front 110 of the combination case 100. In the illustrated embodiment, the pouch opening 114 is a non-fastenable opening extending along the length of the pouch and parallel to the zipper 170. In other embodiments, the pouch opening 114 may optionally include a fastener such as a re-sealable groove, hook and loop, or a zipper, for example. It should be understood that any type fastener as is commonly understood to be used with attaches, briefcases, luggage, and such like, can be used to secure the pouch opening 114 as desired.

Similarly, the left side 120 includes a left side pouch 122 covering a portion of the left side 120, and the right side 140 includes a right side pouch 142 covering a portion of the right side 140. The left side pouch 120 extends upward from the base 160 and is accessible via a left side pouch opening 124 along the edge of the left side pouch 122. The right side pouch 142 extends upward from the base 160 and is accessible via a right side pouch opening 144 along the edge of the right side pouch 142. In the illustrated embodiment, the left side pouch 122 extends approximately half way up the left side 120 of the combination case 100, and the right side pouch 142 extends approximately half way up the right side 140 of the combination case 100, respectively.

As above, the side pouch openings 124, 144 are a non-fastenable opening extending along the length of the respective side pouch 120, 140 and parallel to the zipper 170. In other embodiments, the side pouch openings 124, 144 include a fastener such as a re-sealable groove, hook and loop, or a zipper, for example. Again, it should be understood that any type fastener as is commonly understood to be used with attaches, briefcases, luggage, and such like, can be used to secure the side pouch openings 124, 144 as desired.

A handle 102 is affixed to each of the left side 120 and the right side 140 of the combination case 100. In the illustrated embodiment, each handle 102 is attached approximately midway between the respective pouch opening 124, 144 and the zipper 170. The handles 102 provide for easy gripping and moving of the combination case 100 while also optionally maintaining the contents in an upright position.

The combination case 100 is assembled from various frame portions including the base 160, front 110, rear 130, left side 120, right side 140, and lid 150 respectively. The frame portions of the combination case 100 are made from substantially rigid and durable materials to provide a stable structure that is not unduly or unfunctionably flexible. That is, the various frame portions are substantially solid and form a combination case 100 that maintains a fixed shape aside from the opening of the lid 150. The base 150 is made from a sufficiently rigid material having a strength to maintain its structure while also providing support for the weight of a laptop and some number of files that may be stored within the combination case 100. It is also within the scope of this disclosure to add a rigid plate within the combination case 100 to provide additional support to the base 150.

In one embodiment, the rigid materials that make up the frame of the combination case 100 are covered with nylon. In another embodiment, the rigid materials that make up the frame of the combination case 100 are covered with a canvas type material. In various other embodiments, the rigid materials that make up the frame of the combination case 100 are covered with such materials as polyester, plastic, canvas, plain-woven fabrics, and/or any combination thereof. In some embodiments, the cover materials are also made water-resistant or water-proof.

In various embodiments, the respective pouches 112, 122, 142 of the combination case 100 are made from flexible materials such as nylon, polyester, plastic, canvas, woven material, or other plain-woven fabrics, and/or any combination thereof. FIG. 2 is an illustration of combination case 100 having an alternative front side pouch 112′ of mesh material. It should be understood within the scope of this disclosure that any of the respective side pouches 112, 122, 142 on the combination case 100, or additionally any of the side pouches of any other blueprint drawings case within this application may be made from any of the flexible materials and/or combinations as well as any type mesh material.

In one embodiment, the base 160 of the combination case 100 includes feet 162 to provide additional stability and support. In various embodiments, the feet 162 are made from rubber, plastic, or any other material as is commonly used with attaches, briefcases, laptop cases, luggage, and such like. In the illustrated embodiment (see FIG. 9), the base 150 includes four feet 162 equidistantly offset from each corner as viewed from below the combination case 100.

FIG. 3 is a perspective view of the combination case 100 illustrating an open lid 150 and revealing the inside of the combination case 100, and FIG. 4 is a top view of the combination case 100 illustrating the open lid 150 and revealing the inside of the combination case 100. The inside lid 151 hinges upward from the rear 130 of the combination case. The inside lid 151 includes a lid pouch 152 covering a portion of the inside lid 151. The lid pouch 152 extends from the hinged portion of the inside lid 151 and is accessible via a lid pouch opening 154. In the illustrated embodiment, the lid pouch 152 extends from the hinged portion and covers approximately half of the inside lid 151. Of course, various pouches may extend to cover more or less of the inside lid 151. In the illustrated embodiment, the lid pouch opening 154 is a non-fastenable opening extending along the length of the inside lid pouch 152 and parallel to the hinged portion of the inside lid 151. In other embodiments, the lid pouch opening 154 may optionally include a fastener such as a re-sealable groove, hook and loop, or a zipper, for example. It should be understood that any type fastener as is commonly understood to be used with attaches, briefcases, luggage, and such like, can be used to secure the lid pouch opening 154 as desired.

A large main or frame partition 180 is combined with a small or inner partition 182 to form separate compartments for (1) a laptop or tablet type device and for (2) hanging files 190. The frame partition 180 and the inner partition 182 are assembled in adjoining or continuous sections from a reasonably rigid or stiff material that provides for upright strength while being foldable at the adjoining or strategic folding points. In one embodiment, the rigid material is covered with a soft material that provides for a smoothness consistent with the inner compartment of the combination case 100. In one such embodiment, the covering material is suitable for attaching hook and loop type fasteners such as VELCRO™ to the frame partition 180 and the inner partition 182. The frame partition 180 provides rigidity and structure for supporting files to be hung between opposing sides of its rectangular structure.

The frame partition 180 extends around the inner perimeter of the combination case 100 and provides an outside or main frame that bounds the inner compartments. In the illustrated embodiment, the frame partition 180 is a single piece having a height that fits within the height of the main compartment inside the combination case 100. The frame partition 180 wraps or folds around the inner perimeter of the combination case 100 in a rectangular shape and back to its beginning so that its first end wraps around to its second end. In a typical embodiment, the ends of the frame partition 180 are fastenable to each other to secure the frame partition 180 to itself and to provide stability for the contents of the compartments within the combination case 100. In various embodiments, the ends of the frame partition 180 include a hook-and-loop fastener combination for ease in securing the ends together. Of course, many types of fastening mechanism known in the art may be utilized for securing together the ends of the frame partition 180 in either a permanent or temporary fashion.

In one embodiment, the height of the frame partition 180 is at least as much as the width of a typical hanging file. In another embodiment, the height of the frame partition 180 is at least as much as the width of a typical laptop computer or tablet. It should be understood that the height of the frame partition 180 is sized to fit within the combination case 100 in an upright configuration, and that many sizes may be suitable according to the specific laptop, tablet, and/or files being contained therein.

An inner partition 182 defines the compartment for containing a laptop, tablet, or similar electronic device. As above, the inner partition 182 is a single piece having a height that fits within the height of the main compartment inside the combination case 100. The inner partition 182 wraps or folds around along one end of the frame partition 180 in a rectangular shape and back to its beginning so that its first end wraps around to its second end. In a typical embodiment, the ends of the inner partition 182 are fastenable to each other to secure the inner partition 182 to itself and to provide stability and protection for a laptop, tablet, or other electronic device, within its boundary. In various embodiments, the ends of the inner partition 182 include a hook and loop fastener combination for ease in securing the ends together. Of course, any type fastening mechanism known in the art may be used for securing together the ends of the inner partition 182 in a permanent or temporary fashion.

Additionally, a partition strap 184 extends from the frame partition 180 over the space within the inner partition 182, and is fastenable to the inner partition 182. The partition strap 184 provides for securing the inner partition 182 in place to the frame partition 180, and also provides a measure of restraint and stability to the contents within the inner partition 182.

Lastly, a sub-partition 186 is contained within the inner partition 182 near one end. The sub-partition 186 includes hook and loop type fasteners on either end to secure the sub-partition 186 in place near on end of the inner partition 182. The sub-partition 186 provides an area for the placement of chargers, power cords, mouse or other input devices, and such like, and separates them from the device within the main compartment of the inner partition 182.

FIG. 10 is a front perspective view of a triangle blueprint architectural drawings case 200. FIG. 11 is a front perspective view of the triangle blueprint architectural drawings case 200 with an open front. FIG. 12-A is a left side elevation view and FIG. 12-B is a right side elevation view of the triangle blueprint architectural drawings case 200. FIG. 13 is rear elevation view of the triangle blueprint architectural drawings case 200. FIG. 14 is a bottom plan view of the triangle blueprint architectural drawings case 200.

The triangle blueprint architectural drawings case 200 (herein also referenced as a “triangle case”) is an enclosable carrying or transport case having a triangular shaped tube for containing a rolled-up set of architectural blueprint drawings. The triangle blueprint architectural drawings case 200, or triangle case 200, is typically utilized to enclose a single set of rolled-up blueprints, although it is conceivable that more than one set could be rolled-up together in some circumstances. The triangle case 200 includes a left side 210, a right side 220, a base 250, a rear 240, and an openable front 230. The front 230 is secured via a zipper 260 that extends along the front end of the left side 210 and the base 250 for opening and closing the front 230.

In the illustrated embodiment, the triangle case 200 also includes a handle 202 and a detachable shoulder strap 208. The handle 202 is attached to the triangle case 230 between the left side 210 and the right side 220 approximately midway between the front 230 and the rear 240. The handle 202 provides for ease in picking up the triangle case 200 and also carrying for typically short distances.

In some instances, the shoulder strap 208 provides for a longer carrying distance and also for those situations where a person is carrying more items than can be held in their hands. In the illustrated embodiment, the detachable shoulder strap 208 is attached to a pair of fasteners 206 at opposite ends of the left side 210 and the right side 220 of the triangle case 200 respectively. The respective fasteners 206 are secured to a fastener strap 204 near each end of the left side 210 and the right side 220. In one embodiment, a first fastener strap 204 is secured near the rear 240 of the right side 220 of the triangle case 200, and a second fastener strap 204 is secured near the front end 230 of the left side 210 of the triangle case 200. A fastener 206 is secured to each fastener strap 204. In the illustrated embodiment, the fastener 206 is a D-Ring. Those of skill in the art will readily appreciate that the fastener 206 may be any of many ring or other type connectors to which a detachable hook or such like may be attached. It should also be clear that the respective fastener straps 204 may be attached to either end of the respective left side 210 and right side 220, so long as the fastener straps 204 are at opposite ends of the respective sides of the triangle case 200.

In one embodiment, the base 250 of the triangle case 200 includes feet 252 that provide additional stability and support. In various embodiments, the feet 252 are made from rubber, plastic, or any other material as is commonly used with attaches, briefcases, laptop cases, luggage, and such like. In the illustrated embodiment (see FIG. 14), the base 250 includes four feet 252 that are equidistantly offset from each corner and end as viewed from below the triangle case 200.

The triangle case 200 is assembled from various frame portions including the base 250, left side 210, right side 220, rear 240, and front 230, respectively. The frame portions of the triangle case 200 are made from substantially rigid and durable materials to provide a stable structure that is not unduly or unfunctionably flexible. That is, the various frame portions are substantially solid and form a triangle case 200 that maintains a fixed triangular tube shape aside from the opening of the front 230. The base 250 is made from a sufficiently rigid material having a strength to maintain its structural integrity while also providing an enclosure for securing architectural blueprint drawings within the triangle case 200. It is also within the scope of this disclosure to add a rigid plate (not shown) within the triangle case 200 to provide additional support to the base 250.

In one embodiment, the rigid materials that make up the frame of the triangle case 200 are covered with nylon. In another embodiment, the rigid materials that make up the frame of the triangle case 200 are covered with a canvas type material. In various other embodiments, the rigid materials that make up the frame of the triangle case 200 are covered with such materials as polyester, plastic, canvas, plain-woven fabrics, and/or any combination thereof. In some embodiments, the cover materials are also made water-resistant or water-proof.

FIG. 15 is a front perspective view of a travel blueprint architectural drawings case 300. FIG. 16 is a perspective view of the travel blueprint architectural drawings case 300 illustrating an opened front 350. FIG. 17 is a partially exploded, perspective view of the travel blueprint architectural drawings case 300. FIG. 18-A is a pouch-side elevation view of the travel blueprint architectural drawings case 300 and FIG. 18-B is a non-pouch-side elevation view of the travel blueprint architectural drawings case 300. FIG. 19-A and FIG. 19-B respectively are a rear elevation view and a front elevation view of the travel blueprint architectural drawings case 300. FIG. 20 and FIG. 21 respectively are a top plan view and a bottom plan view of the travel blueprint architectural drawings case 300.

The travel blueprint architectural drawings case 300 (herein also referenced as a “travel case”) is an enclosable carrying or transport case having a series of rectangular tubes for containing multiple rolled-up sets of architectural blueprint drawings. The travel blueprint architectural drawings case 300, or travel case 300, is typically utilized to enclose a few sets of rolled-up blueprints for ease of transport. The travel case 300 includes an openable front 350, a rear 340, a left side 310, a right side 330, a top 320, and a base 360, all enclosing a group of rectangular tubes 380 for the containment of documents such as architectural blueprint drawings. In the illustrated embodiment, the front 350 opens and closes to provide access to the contents typically stored within the rectangular tubes 380 via a fastener 370, such as a zipper 370. The zipper 370 extends around the base 360, the left side 310, and the top 320, respectively. The zipper 370 includes two grip portions for extending or retracting the zipper 170 from each of its ends. The zipper 370 extends from the respective corners where the base 360 and the top 320 extend from the right side 330 of the travel case 300. In the illustrated embodiment, the two grip portions meet at the approximate midpoint of the zipper 170 on the left side 310 of the travel case 300 (see FIG. 15). Of course, the two grip portions can meet at any point around the periphery of the zipper 170 to secure the front 350 in a closed configuration.

The travel case 300 includes a pair of pockets 312 along its left side 310. Each pocket 312 includes a flap 314 that folds over the pocket 312 to enclose contents that require easy access, such as keys, cell phones, smart phones, calculators, pens, measuring devices, and small tools, for example. In the illustrated embodiment, the travel case 300 includes two pockets 312 located adjacent each other on the left side 310 and near the front 350 of the travel case 300. Of course, any number of pockets 312 can be included. Additionally, the pockets 312 can be located anywhere along the left side 310, and/or even the right side 330, and/or the rear 340, as desired.

In the illustrated embodiment, the flap 314 is securable to the pocket via a fastener (not shown). In such an embodiment, the fastener may be a hook-and-loop fastener, a lock and groove type fastener, snaps, or any other type fastener such as is common for securing a flap over a pocket type opening.

In the illustrated embodiment, the travel case 300 also includes a single handle 322 and a detachable shoulder strap 308. The handle 322 is centrally located on and attached to the top 320 of the travel case 300. As such, the handle 322 provides for easy gripping by a single hand for lifting and for carrying the travel case 300.

The detachable shoulder strap 308 provides for a longer carrying distance and also for those situations where a person is carrying more items than can be held in their hands. In the illustrated embodiment, the detachable shoulder strap 308 is attached to a pair of fasteners 304 at opposite ends of the left side 310 and the right side 330 of the travel case 300 respectively. The respective fasteners 304 are secured to a fastener strap 302 near each end of the left side 310 and the right side 330. In one embodiment, a first fastener strap 302 is secured near the rear 340 on the left side 310 of the travel case 300, and a second fastener strap 302 is secured near the front 350 of the right side 330 of the travel case 300. A fastener 304 is secured to each fastener strap 302. In the illustrated embodiment, each fastener 302 is a triangle-type fastener having an opening for a snap-hook mechanism on each end of the shoulder strap. Those of skill in the art will readily appreciate that the fastener 304 may be any of many ring or other type connectors to which a detachable hook or such like may be attached. It should also be apparent that the respective fastener straps 302 may be attached to either end of the respective left side 310 and right side 330, so long as the fastener straps 302 are at opposite ends of the respective sides of the travel case 300.

In one embodiment, the base 360 of the travel case 300 includes feet 362 that provide additional stability and support. In various embodiments, the feet 362 are made from rubber, plastic, or any other material as is commonly used with attaches, briefcases, laptop cases, luggage, and such like. In the illustrated embodiment (see FIG. 21), the base 360 includes six feet 362 that are proportionately offset from each other and from the sides and end as viewed from below the travel case 300.

The travel case 300 is assembled from various frame portions including the base 360, left side 310, top 320, right side 330, rear 340, and front 350, respectively. The frame portions of the travel case 300 are made from substantially rigid and durable materials to provide a stable structure that is not unduly or unfunctionably flexible. That is, the various frame portions are substantially solid and form a travel case 300 that maintains a fixed rectangular shape. The base 360 is made from a sufficiently rigid material providing a strength to maintain its structural integrity while also providing an enclosure for securing architectural blueprint drawings within the travel case 300. It is also within the scope of this disclosure to add a rigid plate (not shown) within the travel case 300 to provide additional support to the base 350, as necessary.

In one embodiment, the rigid materials that make up the frame of the travel case 300 are covered with nylon. In another embodiment, the rigid materials that make up the frame of the travel case 300 are covered with a canvas type material. In various other embodiments, the rigid materials that make up the frame of the travel case 300 are covered with such materials as polyester, plastic, canvas, plain-woven fabrics, and/or any combination thereof. In some embodiments, the cover materials are also made water-resistant or water-proof.

As noted above, the interior of travel case 300 encloses a series of rectangular tubes 380 for containing multiple rolled-up sets of architectural blueprint drawings. In the illustrated embodiment, the travel case 300 includes six rectangular tubes 380 for securing rolled-up blueprints. A set of rolled up blueprints, for example, is slid into one of the rectangular tubes 380 to provide for ease of storage, as well as protection of the drawings. The travel case 300, in the illustrated configuration, provides protective storage for six such sets of drawings, each of which may be inserted or removed without impacting any of the remaining sets of drawings.

The rectangular tubes 380 are formed by one or more partitions that are attachable to the interior of the travel case 300. In the illustrated embodiment, the rectangular plan tubes 380 are formed from a divider partition 382 and adjoining tube partitions 384. The divider partition 382 extends from the inside of the base 360 to the inside of the top 320 and lengthwise between the front opening toward the rear 340 (inside) of the travel case 300. The divider partition 382 attaches to the lower portion (inside of the base 360) and the upper portion (inside of the top 320) of the interior of the travel case via tube fasteners 386, 390 along the outer edge of the divider partition 382 and the corresponding locations along the interior of the travel case 300. In the illustrated embodiment, a hook-and-loop type fastener combination 386, 390 are affixed to the outer edges of the divider partition 382 and the tube partitions 384, and to the corresponding locations inside the top 320, base 360, left side 310, and right side 330 of the interior of the travel case 300. In the illustrated embodiment, the tube partitions 384 are permanently attached to the divider partition 382. It should be understood that in various other embodiments, the divider partition 382 can include additional hook-and-loop (or other type fasteners) for securing each tube partition 384 individually to both the divider partition 382 and to the interior of the travel case. Such a configuration provides the capability for creating slightly larger or smaller rectangular tube 380 openings within the travel case 300 as necessary.

In the illustrated embodiment, the rectangular tubes 380 are removable and replaceable. That is the rectangular tubes 380 can be removed from the interior of the travel case 300. Upon removal, the rectangular tubes 380 can be reinserted in the same configuration. Removing the rectangular tubes 380 provides for ease of cleaning the interior of the travel case 300 and also for cleaning the rectangular tubes 380.

Additionally, the rectangular tubes 380 are replaceable with configurations other than the illustrated embodiments. For example, if there is a need for larger tubes, the tube partitions 384 on each side of the divider partition 382 can be replaced with a single tube partition 384 rather than a pair so that the travel case 300 interior contains four rectangular tube compartments rather than six. Of course, such a configuration requires adapting the fit or location of the tube fasteners 390 within the interior of the travel case 300. Similarly, a need for more than six rectangular tubes would utilize additional tube partitions 384 on each side of the divider partition 382 and a similar adaptation of the fit and/or location of the tube fasteners 390 within the interior of the travel case 300.

The travel case 300 also includes a group of identifier pockets 352 on the inside of the door or front 350. When the front 350, or door 350, of the travel case 300 is opened, a set of identifier pockets 352 is revealed that correspond to the rectangular tubes 380 within the interior of the travel case 300. That is, a single identifier pocket 352 corresponds to each rectangular tube 380 in which a set of drawings may be placed. In the illustrated embodiment, each identifier pocket 352 is a clear plastic opening affixed to the inside of the door 350 of the travel case 300. The identifier pocket 352 provides for the insertion of a card or tag with identifying information for the corresponding set of plans. An entire set of drawings need not be removed in order to be located or identified. That is, the user can identify a set of drawings by the identification tag without the need for handling any other drawings unnecessarily.

FIG. 22 is a perspective view of a multi-blueprint architectural drawings open case 400. FIG. 23 is an exploded perspective view of the multi-blueprint architectural drawings open case 400. FIG. 24 and FIG. 25 respectively illustrate a top plan view and a bottom plan view of the multi-blueprint architectural drawings open case 400. FIG. 26 is front elevation view of the multi-blueprint architectural drawings open case 400. FIG. 27 is an alternative front elevation view of a multi-blueprint architectural drawings open case 400 having an alternative mesh pouch. FIG. 28 is a side elevation view of the multi-blueprint architectural drawings open case 400.

The multi-blueprint architectural drawings open case 400 (herein also referenced as a “multi-plan open case”) is an open carrying or transport case having a series of rectangular tubes for containing multiple rolled-up sets of architectural blueprint drawings. The multi-blueprint architectural drawings open case 400, or multi-plan open case 400, is typically utilized to carry multiple sets of rolled-up blueprints for ease of transport.

The multi-plan open case 400 includes a front 410, a side 420, a base 430, and a group of sixteen rectangular tubes 402 that are accessible without a top or lid. The rectangular tubes 402 provide for the containment of rolled documents such as architectural blueprint drawings. In the illustrated embodiment, the rectangular tubes 402 are open without a top and are easily accessible. The multi-plan open case 400 also includes a rear that is typically a duplicate of the front 410 and two sides 420 that are typically the same. Each of the front 410, rear 410, and both sides 420 include a respective handle 440 that provides for gripping, maneuvering, and also for carrying the multi-plan open case 400. The multi-plan open case 400 provides for ease of transport and storage of rolled architectural blueprint drawings in circumstances, for example, where the weather or the particular environment is of little or no concern.

The front 410 of the multi-plan open case 400 includes a narrow container or pouch 412. The pouch 412 provides storage for items that require separate storage and/or easy access, such as keys, cell phones, smart phones, calculators, pens, measuring devices, small tools, or even files and papers, for example. The pouch 412 covers a portion of the front 410 of the multi-plan open case 400. That is, the pouch 412 extends upward from the base 430 and is accessible via a pouch opening 414 along the edge of the pouch 412. In the illustrated embodiment, the front pouch 412 extends approximately half way up the front 410 of the multi-plan open case 400. Of course, various pouches may extend to cover more or less of the front 410 of the multi-plan open case 400. In the illustrated embodiment, the pouch opening 414 is a non-fastenable opening extending along the length of the pouch 412 and parallel to the base 430 or to the top of the multi-plan open case 430. In other embodiments, the pouch opening 414 may optionally include a fastener such as a re-sealable groove, hook and loop, or a zipper, for example. It should be understood that any type fastener as is commonly understood to be used with attaches, briefcases, luggage, and such like, can be used to secure the pouch opening 414 as desired. In the illustrated embodiment, a similar pouch 412 is located on the rear 410 of the multi-plan open case 400.

A handle 440 is attached to the front 410 and rear 410 and is located approximately equidistant between the pouch opening 414 and the top of the multi-plan open case 400.

In various embodiments, the pouch 412 of the multi-plan open case 400 are made from flexible materials such as nylon, polyester, plastic, canvas, woven material, or other plain-woven fabrics, and/or any combination thereof. FIG. 27 is an illustration of multi-plan open case 400 having an alternative pouch 412′ of mesh material. It should be understood within the scope of this disclosure that any pouches 412 on the multi-plan open case 400, or additionally any of the side pouches of any other blueprint drawings case within this application may be made from any of the flexible materials and/or combinations as well as any type mesh material.

Each side 420 includes a pair of pockets 422 that extend up from the base 430 to the approximate midpoint of the respective side 420. Each pocket 422 includes a flap 424 that folds or flaps over to close the pocket 422 and enclose contents that require ease of access in a closed compartment. The pockets 422 provide for storage of items such as keys, cell phones, smart phones, calculators, pens, measuring devices, and small tools, for example.

In the illustrated embodiment, the multi-plan open case 400 includes two pockets 422 on each side 420 located adjacent each other and extending the width of the side 420. Of course, any number of pockets 422 can be included on each side. Additionally, the pockets 422 can be located anywhere along the respective side 420, and/or the front 410 and rear 410, as desired.

In the illustrated embodiment, the flap 424 is securable to the pocket 422 via a fastener (not shown). In such an embodiment, the fastener may be a hook-and-loop fastener, a lock and groove type fastener, snaps, or any other type fastener such as is common for securing a flap over a pocket type opening.

In the illustrated embodiment, the base 430 of the multi-plan open case 400 includes feet 432 that provide additional stability and support. In various embodiments, the feet 432 are made from rubber, plastic, or any other material as is commonly used with attaches, briefcases, laptop cases, luggage, and such like. In the illustrated embodiment (see FIG. 25), the base 430 includes four feet 432 that are equidistantly spaced from the sides and end as viewed from below the multi-plan open case 400.

The multi-plan open case 400 is assembled from various frame portions including the base 430, front 410, rear 410, and sides 420, respectively. The frame portions of the multi-plan open case 400 are made from substantially rigid and durable materials to provide a stable structure that is not unduly or unfunctionably flexible. That is, the various frame portions are substantially solid and form a multi-plan open case 400 that maintains a fixed and upright rectangular shape. The base 430 is made from a sufficiently rigid material that provides a strength to maintain its structural integrity while also providing an open container for securing architectural blueprint drawings within the multi-plan open case 400. It is also within the scope of this disclosure to add a rigid plate (not shown) within the multi-plan open case 400 to provide additional support to the base 430, as necessary.

In one embodiment, the rigid materials that make up the frame of the multi-plan open case 400 are covered with nylon. In another embodiment, the rigid materials that make up the frame of the multi-plan open case 400 are covered with a canvas type material. In various other embodiments, the rigid materials that make up the frame of the multi-plan open case 400 are covered with such materials as polyester, plastic, canvas, plain-woven fabrics, and/or any combination thereof. In some embodiments, the cover materials are also made water-resistant or water-proof.

As noted above, the interior of multi-plan open case 400 encloses a series of rectangular tubes 402 for containing multiple rolled-up sets of architectural blueprint drawings. In the illustrated embodiment, the multi-plan open case 400 includes 16 rectangular tubes 402 for securing rolled-up blueprints. A set of rolled up blueprints, for example, is slid into one of the rectangular tubes 402 to provide for ease of storage, as well as protection of the drawings. The multi-plan open case 400, in the illustrated configuration, provides protective storage for 16 such sets of drawings, each of which may be inserted or removed without impacting any of the remaining sets of drawings.

The rectangular tubes 402 are formed by one or more partitions that are attachable to the interior of the multi-plan open case 400. In the illustrated embodiment, the rectangular plan tubes 402 are formed from a divider partition 404, sub-divider partitions 406, and tube partitions 408. In the illustrated embodiment, two sub-divider partitions 406 are attached to the divider partition 404, and three tube partitions 408 are attached to each sub-divider partition 406.

The divider partition 404 corresponds to the height of and extends between opposing sides of the multi-plan open case 400, either the front 410 and rear 410, or each side 420. The sub-divider partitions 406 extend parallel to the divider partition 404 so that tube partitions 408 extend perpendicularly toward the divider partition 404 or toward the outside edge (toward front 410 or rear 410 or else toward a side 420). In the illustrated embodiment, the divider partition 404 and both sub-divider partitions 406 extend parallel to the sides 420, and the tube partitions 408 extend perpendicular to the sides 420 away from or toward the divider partition 404.

The divider partition 404, sub-divider partition 406, and tube partitions 408 include a fastener portion 409 for connecting to the interior of the multi-plan open case 400. In the illustrated embodiment, each fastener portion 409 is one part of a hook-and-loop fastener, that is a corresponding fastener portion 416. Hook-and-loop fasteners are known by such trade names as VELCRO®, for example. That is, each fastener portion 409 is fastenable to a corresponding fastener portion 416 on the interior of the multi-plan open case 400. In one embodiment, the fastener portion 409 is fastenable to the lining material on the interior of the multi-plan open case 400. It should be understood that some materials are receptive to a corresponding portion of a hook-and-loop or similar type fastener, for example.

In the illustrated embodiment, hook-and-loop type fastener combinations 409, 416 are affixed to the outer edges of the divider partition 404, sub-divider partitions 406, and the tube partitions 408, and to the corresponding locations along the divider partition 404, and inside the front 410, rear 410, and sides 420 of the interior of the multi-plan open case 400. In the illustrated embodiment, the tube partitions 408 are permanently attached on one end to the sub-divider partitions 406. The other end of each tube partition 408 is attachable via fastener portion 409 to the corresponding fastener portions 416 located on either the divider partition 404 or on the interior of the multi-plan open case 400.

It should be understood that in various other embodiments, the sub-divider partition 406 can include additional fastener portions 409, such as hook-and-loop (or other type fasteners) for securing each tube partition 402 individually to both the sub-divider partition 406 and to the interior of the multi-plan open case 400. Such a configuration provides the capability for creating slightly larger or smaller rectangular tube 402 openings within the multi-plan open case 400 as necessary.

In the illustrated embodiment, the rectangular tubes 402 are removable and replaceable. That is the rectangular tubes 402 can be removed from the interior of the multi-plan open case 400. Upon removal, the rectangular tubes 402 can be reinserted in the same configuration, or reconfigured as desired. Removing the rectangular tubes 402 also provides for ease of cleaning the interior of the multi-plan open case 400 and also for cleaning the rectangular tubes 402.

Additionally, the rectangular tubes 402 are replaceable with configurations other than the illustrated embodiments. For example, if there is a need for larger tubes, the tube partitions 408 can be spaced so that there are three rectangular tubes in a row or column rather than four as in the illustrated embodiment. Of course, such a configuration requires adapting the fit or location of the fastener portions 416 within the interior of the multi-plan open case 400, or alternatively having an interior lining that is adaptable for the type fasteners being utilized.

FIG. 29 is a rear elevation view of a multi-blueprint architectural drawings case 500. FIG. 30 is an rear view of the multi-blueprint architectural drawings case 500 utilizing the alternate base and also illustrating an alternative mesh pouch. FIG. 31 is a front elevation view of the multi-blueprint architectural drawings case 500. FIG. 32 is a top plan view of the multi-blueprint architectural drawings case 500 with a closed lid. FIG. 33 is a top plan view of the multi-blueprint architectural drawings case 500 with the lid open. FIG. 34 is an side-handle view of the multi-blueprint architectural drawings case 500. FIG. 35 is an alternate-base view of the multi-blueprint architectural drawings case 500. FIG. 36 is a bottom plan view of the multi-blueprint architectural drawings case 500.

The multi-blueprint architectural drawings case 500 (herein also referenced as a “multi-plan case”) is an enclosable carrying or transport case having a series of rectangular tubes for containing multiple rolled-up sets of architectural blueprint drawings. The multi-blueprint architectural drawings case 500, or multi-plan case 500, is typically utilized to enclose multiple sets of rolled-up blueprints for ease of transport. The multi-plan case 500 includes an openable lid 540, a front, 510, a rear 520, a single handle side 530, a base 560, and an alternate base 550, all enclosing a group of rectangular tubes 545 for the containment of documents such as rolled architectural blueprint drawings.

In the illustrated embodiment, the lid 540 opens and closes to provide access to the contents, typically stored within the rectangular tubes 545, via a lid fastener 570 such as a zipper 570. The zipper 570 extends around the alternate base 550, the front 510, and the single handle side 530, respectively.

The zipper 570 includes two grip portions for extending or retracting the zipper 570 from each of its ends. The zipper 570 extends from the respective corners where the alternate base 550 and the single handle side 530 extend from the rear 520 of the multi-plan case 500. In the illustrated embodiment, the two grip portions meet at the approximate midpoint of the zipper 570 on the front 510 of the multi-plan case 500 (see FIG. 29). Of course, the two grip portions can meet at any point around the periphery of the zipper 570 to secure the lid 540 in a closed configuration.

The front 510 of the multi-plan case 500 includes a narrow container or front pouch 512. The front pouch 512 provides storage for items that require separate storage and/or easy access, such as keys, cell phones, smart phones, calculators, pens, measuring devices, small tools, or even files and papers, for example. The front pouch 512 covers a portion of the front 510 of the multi-plan case 500. That is, the front pouch 512 extends upward from the base 560 and is accessible via a front pouch opening 514 along the edge of the front pouch 512. In the illustrated embodiment, the front pouch 512 extends less than half way up the front 510 of the multi-plan case 500. Of course, various pouches may extend to cover more or less of the front 510 of the multi-plan case 500. In the illustrated embodiment, the pouch opening 514 is a non-fastenable opening extending along the length of the front pouch 512 and parallel to the base 560 or to the zipper 570 at the lid 540. In other embodiments, the pouch opening 514 may optionally include a fastener such as a re-sealable groove, hook-and-loop, or a zipper, for example. It should be understood that any type fastener as is commonly understood to be used with attaches, briefcases, luggage, and such like, can be used to secure the front pouch opening 514 as desired.

In various embodiments, the front pouch 512 of the multi-plan case 500 are made from flexible materials such as nylon, polyester, plastic, canvas, woven material, or other plain-woven fabrics, and/or any combination thereof. FIG. 30 is an illustration of multi-plan case 500 having an alternative front pouch 512′ made from mesh material. It should be understood within the scope of this disclosure that any pouches 512 on the multi-plan case 500, or additionally any of the side pouches of any other blueprint drawings case within this application may be made from any of the flexible materials and/or combinations as well as any type mesh material.

In the illustrated embodiment, a rear pouch 522 is located on the rear 520 of the multi-plan case 500 (see FIG. 31). The rear pouch 522 includes a rear pouch opening 524 and a that includes a zipper. In all other respects, the rear pouch 522 of the illustrated embodiment has the same features as the front pouch 512.

The front 510 and rear 520 of the multi-plan case 500 include twin handles 508 that are located just below the lid 540. The twin handles 508 are of sufficient length for gripping them together to support the multi-plan case 500 in the upright position as shown in FIG. 29. In the illustrated embodiment, the twin handles 508 may optionally be secured together via a handle fastener affixed to one of the twin handles 508.

In the illustrated embodiment as shown in FIG. 30, the multi-plan case 500 also includes a single handle 506 affixed to the single-handle side 530. The single handle 506 is centrally located on and attached to the single-handle side 530 of the multi-plan case 500. As such, the single handle 506 provides for gripping and/or lifting the multi-plan case 500 with a single hand, and also for carrying or transporting the multi-plan case 500 on its side or via an optional detachable shoulder strap 501.

The detachable shoulder strap 501 provides for a longer carrying distance and also for those situations where a person is carrying more items than can be held in their hands. In the illustrated embodiment, the detachable shoulder strap 501 is attached to a pair of fasteners 504 at opposite ends of the single-handle side 530 of the multi-plan case 500. The respective fasteners 504 are secured to a fastener strap 502 near each end of the single-handle side 530. A fastener 504 is secured to each fastener strap 502. In the illustrated embodiment, each fastener 502 is a triangle-type fastener having an opening for a snap-hook mechanism on each end of the detachable shoulder strap 501. Those of skill in the art will readily appreciate that the fastener 504 may be any of many ring or other type connectors to which a detachable hook or such like may be attached.

When placed on its side for gripping by the single handle 506 or the optional shoulder strap 501, the multi-plan case 500 utilizes the alternate base 550. In the illustrated embodiment, the alternate base 550 includes feet 552 that provide stability and support in this orientation. In various embodiments, the feet 552 are made from rubber, plastic, or any other material as is commonly used with attaches, briefcases, laptop cases, luggage, and such like. In the illustrated embodiment (see FIG. 35), the alternate base 550 includes six feet 552 that are proportionately offset from each other and from the base 560 and lid 540 as viewed from below the multi-plan case 500.

In the illustrated embodiment, the base 560 of the multi-plan case 500 includes feet 562 that provide additional stability and support. In various embodiments, the feet 362 are made from rubber, plastic, or any other material as is commonly used with attaches, briefcases, laptop cases, luggage, and such like. In the illustrated embodiment (see FIG. 36), the base 560 includes four feet 562 that are proportionately offset from each other and from the corners of the base 560 as viewed from below the multi-plan case 500.

The multi-plan case 500 is assembled from various frame portions including the base 560, alternate base 550, front 510, rear 520, single-handle side 530, and the lid 540, respectively. The frame portions of the multi-plan case 500 are made from substantially rigid and durable materials to provide a stable structure that is not unduly or unfunctionably flexible. That is, the various frame portions are substantially solid and form a multi-plan case 500 that maintains a fixed rectangular shape. The base 560 and the alternate base 550 are made from a sufficiently rigid material providing a strength to maintain its structural integrity while also providing an enclosure for securing architectural blueprint drawings within the multi-plan case 500. It is also within the scope of this disclosure to add a rigid plate (not shown) within the multi-plan case 500 to provide additional support to the base 560 and/or alternate base 550, as necessary.

In one embodiment, the rigid materials that make up the frame of the multi-plan case 500 are covered with nylon. In another embodiment, the rigid materials that make up the frame of the multi-plan case 500 are covered with a canvas type material. In various other embodiments, the rigid materials that make up the frame of the multi-plan case 500 are covered with such materials as polyester, plastic, canvas, plain-woven fabrics, and/or any combination thereof. In some embodiments, the cover materials are also made water-resistant or water-proof.

As noted above, the interior of multi-plan case 500 encloses a series of rectangular tubes 545 for containing multiple rolled-up sets of architectural blueprint drawings. In the illustrated embodiment, the multi-plan case 500 includes twelve rectangular tubes 545 for securing rolled-up blueprints. A set of rolled up blueprints, for example, is slid into one of the rectangular tubes 545 to provide for ease of storage, as well as protection of the drawings. The multi-plan case 500, in the illustrated configuration, provides protective storage for twelve such sets of drawings, each of which may be inserted or removed without impacting any of the remaining sets of drawings.

As noted above, the interior of multi-plan case 500 encloses a series of rectangular tubes 545 for containing multiple rolled-up sets of architectural blueprint drawings. In the illustrated embodiment, the multi-plan case 500 includes twelve (12) rectangular tubes 545 for securing rolled-up blueprints. A set of rolled up blueprints, for example, is slid into one of the rectangular tubes 545 to provide for ease of storage, as well as protection of the drawings. The multi-plan case 500, in the illustrated configuration, provides protective storage for twelve such sets of drawings, each of which may be inserted or removed without impacting any of the remaining sets of drawings.

The rectangular tubes 545 are formed by one or more partitions that are attachable to the interior of the multi-plan case 500. In the illustrated embodiment, the rectangular plan tubes 545 are formed from a divider partition 546, a sub-divider partition 548, and tube partitions 549. In the illustrated embodiment, a sub-divider partition 548 is parallel to the divider partition 546. Tube partitions 549 are attached to both the divider partition 546 and the sub-divider partition 548.

The divider partition 546 corresponds to the height of and extends between opposing sides of the multi-plan case 500. In the illustrated embodiment, the divider partition extends between the alternate base 550 and the single-handle side 530 of the interior of the multi-plan case 500. The sub-divider partition 548 extends parallel to the divider partition 546 so that tube partitions 549 extend perpendicularly toward the divider partition 404 or toward the outside edge (toward front 510 or rear 510 of the multi-plan case 500).

The divider partition 546, sub-divider partition 548, and tube partitions 549 include a fastener portion 580 for connecting to the interior of the multi-plan case 500. In the illustrated embodiment, each fastener portion 580 is one part of a hook-and-loop fastener, that is a corresponding fastener portion 582. Hook-and-loop fasteners are known by such trade names as VELCRO®, for example. That is, each fastener portion 580 is fastenable to a corresponding fastener portion 582 on the interior of the multi-plan case 500. In one embodiment, the fastener portion 580 is fastenable to the lining material on the interior of the multi-plan case 500. It should be understood that some known materials are receptive to a corresponding portion of a hook-and-loop or similar type fastener, for example.

In the illustrated embodiment, hook-and-loop type fastener combinations 580, 582 are affixed to the outer edges of the divider partition 546, sub-divider partition 548, and the tube partitions 549, and to the corresponding locations along the divider partition 546, the sub-divider partition 548, and inside the front 510, rear 520, single-handle side 530 and alternate base 550 of the interior of the multi-plan case 500. In the illustrated embodiment, various tube partitions 549 are permanently attached on one end to the divider partition 546 or to the sub-divider partition 548. The other end of each tube partition 549 is attachable via fastener portion 580 to the corresponding fastener portions 582 located on either the divider partition 546, the sub-divider partition 548, or on the interior of the multi-plan case 500.

It should be understood that in various other embodiments, the divider partition 546 and the sub-divider partition 548 can include additional fastener portions 580, such as hook-and-loop (or other type fasteners) for securing each tube partition 549 individually to either the divider partition 546, and/or the sub-divider partition 548, and/or to the interior of the multi-plan case 500. Such a configuration provides the capability for creating slightly larger or smaller rectangular tube 545 openings within the multi-plan case 500 as necessary.

In the illustrated embodiment, the rectangular tubes 545 are removable and replaceable. That is the rectangular tubes 545 can be removed from the interior of the multi-plan case 500. Upon removal, the rectangular tubes 545 can be reinserted in the same configuration, or reconfigured as desired. Removing the rectangular tubes 545 also provides for ease of cleaning the interior of the multi-plan case 500 and also for cleaning the rectangular tubes 545.

Additionally, the rectangular tubes 545 are replaceable with configurations other than the illustrated embodiments. For example, if there is a need for larger tubes, the tube partitions 549 can be spaced so that there are three rectangular tubes in a row or column rather than four as in the illustrated embodiment, for example. Such a configuration would result in a multi-plan case 500 having nine rectangular tubes 545 rather than twelve. Of course, such a configuration requires adapting the fit or location of the fastener portions 582 within the interior of the multi-plan case 500, or alternatively having an interior lining that is adaptable for the type fasteners being utilized.

The multi-plan case 500 also includes an identifier pocket 542 on the exterior of the lid 540. The identifier pocket 542 is a clear plastic opening affixed to the exterior of the lid 540. The identifier pocket 542 includes an opening for inserting an identification tag or card to identify the multi-plan case 500 and/or its owner.

The multi-plan case 500 also includes a group of identifier pockets 544 on the inside of the lid 540. When the lid 540 of the multi-plan case 500 is opened, a set of identifier pockets 544 is revealed that correspond to the rectangular tubes 545 within the interior of the multi-plan case 500. That is, a single identifier pocket 544 corresponds to each rectangular tube 545 in which a set of drawings may be placed. In the illustrated embodiment, each identifier pocket 544 is a clear plastic opening affixed to the inside of the lid 540 of the multi-plan case 500. The identifier pocket 544 provides for the insertion of a card or tag with identifying information for the corresponding set of plans. An entire set of drawings need not be removed in order to be identified. That is, the user can identify a set of drawings by the identification tag without the need for handling any other drawings unnecessarily.

From the foregoing description, it will be recognized by those skilled in the art that a combination laptop and file case for containing a laptop and hanging files within and including side pouches has been provided. Further, a triangle plan drawing case provides for storage and transport of a single architectural blueprint drawings set. Further, a travel blueprint architectural drawings case provides for storage and transport of small number of architectural blueprint drawings. Further, a multi-blueprint architectural drawings case provides for storage and transport of a medium or mid-range number of architectural blueprint drawings. Finally, a multi-blueprint architectural drawings open case provides for storage and transport of a larger number of architectural blueprint drawings in an open case having no lid.

While the present invention has been described with reference to certain embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the scope of the present invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the present invention without departing from its scope. Therefore, it is intended that the present invention not be limited to the particular embodiments disclosed, but that the present invention will include all embodiments falling within the scope of the appended claims.

Claims

1. A combination container for storage and transport of a mobile computer and document file folders, the combination container comprising:

a rectangular container having a substantially rigid base and frame structure walls that include a front, a rear, and opposing sides, to define an interior space, each frame structure wall having a covering material;

a lid covered with the covering material, the lid hinged from the rear to cover the rectangular container;

a zipper for securing the lid to the rectangular container, the zipper extending from each opposing side at the rear and toward the front;

a plurality of pouches attached exterior of the rectangular container to the front, and each opposing side, each pouch extending from the base to cover a portion of the respective frame structure wall;

a plurality of partitions that define a plurality of internal compartments, said internal compartments including at least the following: a hanging file compartment formed by a first frame partition section along and interior to the frame structure walls to enclose the interior space, the first frame partition section having a set of opposing sides for the placement of hanging files therebetween; a mobile device compartment formed by a second frame partition section adjacent an end of the hanging file compartment to enclose a portion of the interior space therewithin, the second frame partition section having a strap for securing a mobile device between opposing sides of the second frame partition section; and

a pair of handles attached to each of the opposing sides for gripping and carrying the combination container.

2. The combination container of claim 1, wherein the covering material is at least one of the following:

nylon;

canvas;

polyester;

plastic; and

woven fabric.

3. The combination container of claim 1, wherein each frame structure wall includes an interior material that is fastenable via a hook-and-loop type fastener.

4. The combination container of claim 1, wherein the first frame partition is a single piece foldable to the respective interior dimensions.

5. The combination container of claim 4, wherein the first frame partition includes multiple sections hinged at respective fold-points for the respective interior dimensions.

6. The combination container of claim 1, wherein the second frame partition is a single piece foldable to the respective interior dimensions.

7. The combination container of claim 6, wherein the second frame partition includes multiple sections hinged at respective fold-points for the respective interior dimensions.

8. The combination container of claim 1, wherein at least one pouch of the plurality of pouches includes a fastener for securing contents within the at least one pouch.

9. The combination container of claim 1, wherein at least one pouch of the plurality of pouches is made from a mesh material.

10. A combination container for storage and transport of a mobile computer and document file folders, the combination container comprising:

a rectangular container having a substantially rigid base and frame structure walls that define an interior space, each frame structure wall including a covering material;

a lid covered with the covering material, the lid hinged from the rear to cover the rectangular container;

at least one pouch attached exterior of the rectangular container to at least one of the frame structure walls, the at least one pouch extending from the base to cover a portion of the respective frame structure wall;

a hanging file compartment formed by a first frame partition section along and interior to the frame structure walls to enclose the interior space, the first frame partition section having a set of opposing sides for the placement of hanging files therebetween;

a mobile device compartment formed by a second frame partition section adjacent an end of the hanging file compartment to enclose a portion of the interior space therewithin, the second frame partition section having a strap for securing a mobile device between opposing sides of the second frame partition section; and

a pair of handles attached to each of the opposing sides for gripping and carrying the combination container.

11. The combination container of claim 10, wherein the covering material is at least one of the following:

nylon;

canvas;

polyester;

plastic; and

woven fabric.

12. The combination container of claim 10, wherein each frame structure wall includes an interior material that is fastenable via a hook-and-loop type fastener.

13. The combination container of claim 10, the frame structure walls further comprising a front, a rear, and opposing sides, to define the interior space.

14. The combination container of claim 13, further comprising a zipper for securing the lid to the rectangular container, the zipper extending from opposing sides at the rear and toward the front.

15. The combination container of claim 10, wherein the first frame partition is a single piece foldable to the respective interior dimensions.

16. The combination container of claim 15, wherein the first frame partition includes multiple sections hinged at respective fold-points for the respective interior dimensions.

17. The combination container of claim 10, wherein the second frame partition is a single piece foldable to the respective interior dimensions.

18. The combination container of claim 17, wherein the second frame partition includes multiple sections hinged at respective fold-points for the respective interior dimensions.

19. The combination container of claim 10, wherein at least one pouch includes a fastener for securing contents therewithin.

20. The combination container of claim 10, wherein at least one pouch is made from a mesh material.