US20110005647A1

US20110005647A1 - Adjustable, portable, flexible equipment wrap

Info

Publication number: US20110005647A1
Application number: US12/833,331
Authority: US
Inventors: Mark Alan Campfield
Original assignee: KOOZEE ARMOR PRODUCTS LLC
Current assignee: KOOZEE ARMOR PRODUCTS LLC
Priority date: 2009-07-10
Filing date: 2010-07-09
Publication date: 2011-01-13
Also published as: WO2011006048A1

Abstract

An adjustable wrap or cover for protecting various-sized objects, including audio equipment, appliances, electronics, and other similar articles. The wrap generally includes a flexible body member comprising one or more integral layers, wherein at least one of the layers is a padded or impact-resistant material. The wrap includes one or more types of attachment and/or tightening mechanisms disposed at opposing ends of the wrap to releasably secure and tighten the wrap around a given object. Typically, the wrap comprises a length that is of sufficient length to adjust the wrap to tightly fit around objects with various-sized perimeters. Assorted embodiments of the wrap include specifically-located holes that enable access to handles or other components on the wrapped objects, various flaps and components extending from a primary body portion of the wrap to accommodate a range of geometries of objects, and other features and aspects as described in detail herein.

Description

CROSS REFERENCE TO RELATED APPLICATION

This application claims benefit under 35 U.S.C. §119(e) of U.S. Provisional Patent Application No. 61/224,625, filed Jul. 10, 2009, and entitled “Professional Audio Equipment Wrap—A durable, padded, adjustable wrap that secures tightly around professional audio speakers and amps to provide protection from damage during transport or storage”, which is hereby incorporated by reference as if set forth herein in its entirety.

TECHNICAL FIELD

The present device relates generally to a cover or wrap for electronic or other equipment, and more particularly to an adjustable, flexible, portable wrap that secures tightly around audio equipment, appliances, electronic equipment, and other similar types of equipment or objects to provide protection to the equipment during storage and/or transport.

BACKGROUND

It is well recognized that musicians, bands, disc jockeys, and other similar types of persons travel from place to place to perform, put on shows, etc. These persons often travel with large amounts of musical and audio equipment, including speakers, amplifiers, and the like. This audio equipment is typically expensive, relatively bulky and heavy, and usually includes intricate electrical and technical components (either within the equipment or on its exterior surfaces), and thus is subject to damage if mishandled, dropped, impacted, etc. Accordingly, owners of such audio equipment often utilize covers or bags to hold and protect their equipment during transport, or when such equipment is stored.
Traditional covers for audio equipment generally comprise loosely-fitting duffle bags, custom-manufactured covers, or hard cases. To accommodate multiple sizes, shapes, and/or brands of equipment, most duffle bags are loose-fitting and do not provide a snug enclosure of the equipment. The loose-fitting nature of these bags allows the equipment to be jostled when in transport and potentially damaged. Further, most duffle bags are minimally-padded, and are made simply of a durable fabric or other similar material, resulting in minimal protection for the equipment contained therein. A particular disadvantage of conventional duffle bags is that they completely encase the subject equipment, such that a user does not have access to handles or carriers actually located on or extending from the equipment when enclosed inside the bag. Specifically, a user must carry the object within the bag by handles attached to the bag itself. Because much of the audio equipment is heavy, carrying it by handles on the bag can be awkward and difficult, and also creates a strain on the handles (again, typically made from fabric), often damaging them or even tearing them from the bag.
As an alternative to duffle bags, some owners of audio equipment utilize custom covers or carriers. Because there exists a multitude of audio equipment manufacturers, each of which offers a wide variety of shapes and sizes of each type of audio equipment, there are literally hundreds of sizes of similar types of musical equipment sold in the market. Due to this wide array of sizes associated with the equipment, most audio equipment dealers do not offer specific covers or carriers for particular types or brands of equipment (because it is impractical to stock such a large number of different-sized covers), but instead offer only a few limited sizes of duffle bags (as described above). Accordingly, a custom-manufactured cover can be ordered for a particular piece of equipment. However, because these custom covers are specially-ordered, they can be expensive, there is usually a wait time to receive them, and providing details and equipment specifics to a cover manufacturer can be cumbersome and time-consuming. Further, because a custom cover generally only fits the particular piece of equipment for which it was ordered, it becomes unusable if a different piece of equipment is purchased, or if the user wishes to use the cover for some other application.
Additionally, even though most custom covers are specifically designed to accommodate the dimensions of a particular piece of equipment, they may not fit the equipment as snugly as desired. In particular, custom slip covers or dust covers that slide over their respective equipment often allow for some jostling or movement of the equipment within the cover, leading to difficulty in carrying or transporting the equipment. Further, most custom slip covers are manufactured of quilted fabric or nylon, thus offering only minimal impact protection for the equipment.
Another type of conventional cover is a hard case that is fastened around the subject audio equipment (similar to a clam shell). Generally, the hard case is comprised of two rigid halves connected together on one side in a hinge-like fashion. The case generally includes foam padding in its interior that cradles the equipment as the case is shut around it. Because these cases are made of rigid components (e.g., high strength plastics or metals), they are often expensive assemblies. Further, the cases can be heavy and cumbersome, and thus impractical for larger pieces of equipment. Additionally, as with the custom covers, the sizes of the hard cases cannot be adjusted to accommodate varying sizes in equipment.
In addition to audio equipment, there is a significant need for adjustable covers or wraps for transporting and/or protecting a wide variety of objects in many industries or fields. For example, dealers of appliances (e.g., refrigerators, washers and dryers, water heaters, etc.) often need to transport and deliver their appliances while protecting them from potential damage. Those in the moving industry continuously transport large, fragile objects, such as furniture, televisions, and appliances. Military personnel use a wide variety of sensitive technical equipment, large-scale computers, and other articles that must be stored and/or transported without damage. Heretofore, most of these types of objects were protected simply by wrapping blankets or durable fabrics around the objects, which clearly provides loose-fitting, inadequate protection for such equipment.
Therefore, there is a long-felt but unresolved need for an equipment wrap or cover that adjusts to fit varying sizes of objects, provides padded protection for such objects, and fits the objects securely and snugly to prevent unwanted movement of the objects. There is a further need for a wrap or cover that is durable, cost-effective to manufacture, and enables access to internal handles or carriers of a wrapped object while in use.

BRIEF SUMMARY OF THE DISCLOSURE

Briefly described, and according to one embodiment, aspects of the present disclosure generally relate to devices for covering and protecting various objects during transportation, storage, or otherwise. Particularly, aspects of the present disclosure relate to adjustable, flexible wraps that are wrapped around and securely fit a variety of types of objects and equipment, thereby providing padded protection therefore. As will be understood and appreciated, embodiments of the present wrap can be used to cover and protect a variety of objects, such as audio equipment (e.g., speakers, speaker “cabinets,” amplifiers, etc.), appliances (e.g., refrigerators, washers and dryers, water heaters, dishwashers, ovens/stove assemblies, etc.), furniture (e.g., dressers, armoires, television stands, cabinets, etc.), electronic equipment (e.g., large computers, sensitive measuring equipment, scientific equipment, etc.), military equipment, and other similar types of objects or apparatuses.
According to one embodiment, the wrap comprises a durable, padded material that provides protection to an object wrapped therein, but is flexible to enable bending and tightening of the wrap around the object. Further, the wrap generally includes one or more fastening means and/or tightening means disposed at opposing ends of the wrap to enable adjustable positioning and securing of the wrap around various-sized objects. According to one embodiment, the wrap is substantially flat, and is comprised of multiple layers, including at least one foam-like inner layer designed to protect an object when the wrap is in use. Other embodiments of the wrap include specifically-located holes or cutouts that enable access to handles or other components on the wrapped equipment, various flaps and components extending from a primary body portion of the wrap to accommodate a range of geometries of objects, and a host of other features and aspects as described in detail herein.
These and other aspects, features, and benefits of the claimed invention(s) will become apparent from the following detailed written description of the preferred embodiments and aspects taken in conjunction with the following drawings, although variations and modifications thereto may be effected without departing from the spirit and scope of the novel concepts of the disclosure.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings illustrate one or more embodiments and/or aspects of the disclosure and, together with the written description, serve to explain the principles of the disclosure. Wherever possible, the same reference numbers are used throughout the drawings to refer to the same or like elements of an embodiment, and wherein:

FIG. 1A illustrates a perspective view of a first embodiment of the present device along with an exemplary object to be wrapped by the device.

FIG. 1B illustrates a perspective view of a first embodiment of the present device in use around an exemplary object, thereby providing protection for the object.

FIG. 2 is a front plan view of the exterior surface of the disclosed device according to one embodiment of the present disclosure.

FIG. 3 illustrates a cross-section of an embodiment of the device, and specifically, a cross-section of the flexible body member taken along plane AA shown in FIG. 2.

FIG. 4 illustrates a perspective view of a second embodiment of the present device along with an exemplary object to be wrapped by the device.

FIG. 5 is a front plan view of the exterior surface of a second embodiment of the device shown in FIG. 4 when not in use.

FIG. 6A illustrates a perspective view of a third embodiment of the present device along with an exemplary object to be wrapped by the device.

FIG. 6B illustrates a perspective view of the third embodiment of the present device in use around an exemplary object, thereby providing protection for the object.

FIG. 7 illustrates a cross-section of an embodiment of the device, and specifically, a cross-section of the foldable top member including a rigid insert taken along plane BB shown in FIG. 6A.

FIG. 8 illustrates a perspective view of a fourth embodiment of the present device along with an exemplary object to be wrapped by the device.

DETAILED DESCRIPTION

For the purpose of promoting an understanding of the principles of the present disclosure, reference will now be made to the embodiments illustrated in the drawings and specific language will be used to describe the same. It will, nevertheless, be understood that no limitation of the scope of the disclosure is thereby intended; any alterations and further modifications of the described or illustrated embodiments, and any further applications of the principles of the disclosure as illustrated therein are contemplated as would normally occur to one skilled in the art to which the disclosure relates. All limitations of scope should be determined in accordance with and as expressed in the claims.

Overview

Aspects of the present disclosure generally relate to devices for covering and protecting various objects during transportation, storage, or otherwise. Particularly, aspects of the present disclosure relate to adjustable, flexible wraps that are wrapped around and securely fit a variety of types of objects and equipment. As described previously, and as will be understood and appreciated, embodiments of the present wrap can be used to cover and protect a variety of objects, such as audio equipment (e.g., speakers, speaker “cabinets,” amplifiers, etc.), appliances (e.g., refrigerators, washers and dryers, water heaters, dishwashers, ovens/stove assemblies, etc.), furniture (e.g., dressers, armoires, television stands, cabinets, etc.), electronic equipment (e.g., large computers, sensitive measuring equipment, scientific equipment, etc.), military equipment, and other similar types of objects or apparatuses.
According to one embodiment, the wrap comprises a durable, padded material that provides protection to an object wrapped therein, but is flexible to enable bending and tightening of the wrap around the object. Further, the wrap generally includes one or more fastening means and/or tightening means disposed at opposing ends of the wrap to enable adjustable positioning and securing of the wrap around various-sized objects. According to one embodiment, the wrap is substantially flat, and is comprised of multiple layers, including at least one foam-like inner layer designed to protect an object when the wrap is in use. Other embodiments of the wrap include specifically-located holes or cutouts that enable access to handles or other components on the wrapped equipment, various flaps and components extending from a primary body portion of the wrap to accommodate a range of geometries of objects, and a host of other features and aspects as described in detail herein.

Embodiment #1

FIG. 1A illustrates a perspective view of an embodiment of the present device 10 a along with an exemplary object 12 a to be wrapped by the device. As referred to herein, embodiments of the device 10 a may be referenced as “wrap,” “cover,” “device,” or other similar term as appropriate. As described previously, objects or articles to be wrapped or encased by embodiments of the device 10 a include audio equipment, appliances, electronic or computer equipment, furniture, or other similar objects as will occur to one having ordinary skill in the art. The exemplary object 12 a shown in FIG. 1 is a representative speaker “cabinet,” which is generally understood to comprise a rigid outer shell encasing one or more audio speakers. The exposed speakers (not shown) are highly susceptive to damage, and thus require protection when not in use. Further, the speaker cabinet includes a plurality of internal technical components that should be protected from jarring or impact of the cabinet to prevent internal damage. As shown, the speaker cabinet is turned on its side (as is conventional for carrying or transport), illustrating its bottom surface 102 and rearward-facing surface 104. The shown speaker cabinet also includes a carrying handle 106 that is used for transporting the cabinet. As described previously, if this carrying handle 106 is covered while enclosed in a bag or other cover, then moving the cabinet can be difficult.
As shown, the embodiment of the wrap 10 a includes a substantially flat, flexible body member 110 that is designed to be wrapped around a subject object 12 a and provide padded protection therefore. According to one embodiment, when laid flat, the flexible body member 110 is generally rectangular in shape (as shown more clearly in reference to FIG. 2, discussed below), but comprises other shapes according to various other embodiments, as described in greater detail below. The wrap 10 a generally comprises a height h, a length/(more clearly illustrated in FIG. 2), and a thickness t. In most applications, the height h of the wrap generally coincides with the height h′ of the object 12 a to be wrapped, although some variation is acceptable. In this manner, some general knowledge about the type of object to be wrapped is typically (although not necessarily) required prior to design and manufacture of a particular wrap. The longitudinal length l of the wrap 10 a is intended to be wrapped around the circumference or perimeter of the object to be wrapped. Typically, although not necessarily, the length l of the wrap is greater than the circumference of the object 12 a to enable the opposing ends of the wrap to be folded on top of each over and secured (e.g., via a hook and loop fastener, as described in greater detail below).
As will be understood and appreciated by those of ordinary skill in the art, embodiments of the present device 10 a comprise a variety of sizes, heights h, lengths l, etc., to accommodate various-sized objects. However, one feature of the present device 10 a is the ability to adjust to various geometries of objects within a given size range. Specifically, most types of equipment have a common dimension that is identical or similar to the same dimension in other examples of that type of equipment, even though other dimensions within the equipment may vary. For example, many refrigerators are generally about the same vertical height, but may vary in their respective perimeters based on the widths and/or internal volumes of each individual unit. Further, many speaker cabinets, such as cabinet 12 a shown in FIG. 1, will have similar heights h′, but will vary in their circumferences based on internal components, size of speakers used therein, etc. Accordingly, to accommodate these types of objects, one embodiment of the wrap 10 a utilizes a common height h, but a greater than necessary longitudinal length/to enable the device to be wrapped around objects of varying circumferences. For smaller objects 12 a within a given size range, more of the wrap 10 a is folded upon itself during use; for larger objects within the range, less of the wrap 10 a is so folded. This adjustability feature enables a single wrap 10 a to be utilized to protect a variety of different-sized objects, while at the same time providing a tailored fit and form-fitting protection therefore. FIG. 1B (discussed in greater detail below) illustrates one embodiment of the device 10 a in use on an object.
Still referring to FIG. 1A, in the embodiment shown, an outer surface 112 of the flexible body member 110 includes one or more fastening means (e.g., hook and loop fasteners) 116, such as the well-known VELCRO™ fastener, affixed thereto that enables a first end portion 118 of body member 110 to be removably attached to an opposing, second end portion 120 of the body member when in use around an object 12 a. In the embodiment shown, one side of the hook and loop fastener 116 (specifically, the hook portion) is affixed to a securing flap 122 that extends from end portion 120. The securing flap 122 enables uncomplicated securing around, repositioning, and removal of the wrap 10 a from the object 12 a. As will be understood and appreciated, according to some embodiments, the securing flap 122 is not used, and the hook and loop fasteners 116 are simply affixed to the inner surface 114 of the flexible body member 110 at end portion 120. Additionally, although the hook and loop (i.e., loop) fasteners 116 are shown in FIG. 1 at end portion 118 as longitudinal strips, it will be understood that any shape or size fastener may be used, such as a large rectangle, many individual strips, etc. As will also be understood, fastening means 116 may be affixed to the flexible body member 110 of the device 10 a via stitching, high-strength adhesive, snap assembly, or some other similar attachment means. As will further be understood, embodiments of the present device are not limited to the use of hook and loop fasteners, but may utilize any fastening means as will occur to one of ordinary skill in the art, such as high-strength magnets, snaps, etc.
According to one embodiment, in addition to or in lieu of hook and loop fasteners 116, the device 10 a includes one or more tightening straps 124 that are used to tighten and secure the wrap 10 a around an object 12 a. Similarly to the hook and loop fasteners, the ends of tightening straps 124 may be affixed to the flexible body member 110 of the device 10 a via stitching, high-strength adhesive, snap assembly, or some other similar attachment means. Further, in one embodiment, the tightening straps are further secured to the body member 110 by reinforcement straps 126. Generally, these reinforcement straps 126 are placed over the tightening straps 124 and are further sewn or otherwise affixed to the body member 110 to provide additional support, anchorage, and durability to the tightening straps 124. As shown, tightening straps 124 include male buckle portions 128 and female buckle portions 130 that enable the straps to be releasably attached to each other and tightened as needed when in use around an object (see FIG. 1B). As will be understood and appreciated, although the illustrated embodiment utilizes buckle assemblies 128, 130, other tightening mechanisms may be used according to various embodiments, such as ring or loop and belt fasteners, seat belt-type connectors, snaps, high-strength magnets, etc.
Still referring to FIG. 1A, according to one embodiment, the device 10 a includes one or more access holes 132 for accessing object handles 106 or other object components when the device is in use on an object 12 a. The access holes 132 generally comprise cutout portions of flexible body member 110, with stitching or reinforcement around the edges of the holes to prevent fraying or damage to the holes over time. As will be understood, the access holes 132 can be positioned in any manner on body member 110 to accommodate handles 106 or other components on an object. Further, in some embodiments, flexible body member 110 includes access hole flaps 134 that provide optional covering to access holes 132. As shown in FIG. 1 (and further shown in FIG. 2), on one embodiment of the access holes flaps 134 is hook and loop fasteners 116 (or other similar fastener type) that allow the flap to be releasably secured to body member 110 when the access hole 132 is not in use, but removed (either completely or in a hinge-like fashion) when the hole 132 is being used. Specifically, depending on the particular embodiment, the access holes flap 134 may be affixed to access hole 132 along one end (shown more clearly in FIG. 1B), with the other end including a fastening means, such that the flap may be opened and closed in a hinge-like manner. In another embodiment, the access flap 134 is not permanently affixed to the body member 110 or hole 132 in any manner, but includes a fastening means (e.g., hook and loop fasteners around its circumference) that enables the flap to be completely removed from the body member and access hole if desired.
Further, access holes 132 are generally rectangular in shape, but as will be understood and appreciated, the holes may comprise virtually any size, shape, or positioning to accommodate a particular type of object being covered. Additionally, the hole flaps 134 are generally slightly larger than the holes 132 to provide complete coverage of the holes as desired, and are typically comprised of the same material composition as flexible body member 110. As will be further understood, some embodiments of the present device do not incorporate either access holes or hole flaps, as such features may be unnecessary for a given application.
FIG. 1B illustrates a perspective view of the embodiment of the present device 10 a shown in FIG. 1A in use around exemplary object 12 a, thereby providing protection for the object. As shown, the device 10 a is wrapped and tightly secured around the circumference of object 12 a via the use of fastening means 116 and tightening straps 124. The tight-fitting nature of the wrap 10 a provides many advantages; for example, the secure fit of the wrap prevents it from unintentionally sliding off of or being removed from the object 12 a. Also, a snug fit of the wrap on the object reduces the overall bulkiness of the object being transported or stored, and further decreases the amount of material required to manufacture the wrap (as compared to bulky duffle bags, for example). Additionally, the tight-fitting wrap prevents unwanted articles or debris from becoming lodged between the object and wrap when in use.
As shown, the device 10 a is wrapped around the circumference or perimeter of object 12 a, such that the bottom surface 102 and top surface (not shown) of the object remain exposed. In the application shown, the particular object 12 a does not require protection of its top and bottom surfaces (e.g., such surfaces are reinforced with rigid plastic or metal). However, as will be understood, it may be desirable to provide protection for top or bottom surfaces (or both) of some objects, and thus additional embodiments of the present device include additional components that provide such protection (as described and shown in greater detail below).
As shown in FIG. 1B, the device 10 a has been wrapped around object 12 a such that the securing flap 122 extending from second end portion 120 is releasably attached to opposing, first end portion 118 via fastening means 116. As mentioned previously, in some embodiments, securing flap 122 is not included in device 10 a, and one side of the hook and loop fasteners 116 (or other fastening means) are disposed on the inner surface 114 of second end portion 120 to provide attachment to first end portion 118. Further, access hole 132 is shown in use in FIG. 2, thereby providing access to handle 106 on object 12 a. The access hole flap 134 is illustrated in its “open” position to allow such access to handle 106. In the embodiment shown, access hole flap 134 is permanently affixed to the device 10 a along a hinge end 136 of access hole 132, and includes fastening means 116 on its opposing end to enable releasable attaching (i.e., closing and opening) of the hole flap as needed.
FIG. 2 is a front plan view of exterior surface 112 of an embodiment of the device 10 a when not in use (i.e., laid flat). As shown, the flexible body member 110 of the device is generally rectangular in shape; however, as will be understood, embodiments of the present device 10 a comprise a variety of shapes, including obround, oval, trapezoidal (to enclose or wrap frusto-conical objects), square, octagonal, generally rectangular with circular or triangular end portions 118, 120, or any other shape dictated by a given object. Preferably, the length l of flexible body member 110 is 2-3 times longer than height h, although embodiments of the present device may be manufactured according to virtually any size as dictated by an object or type of object to be wrapped.
As shown, access holes 132 are positioned towards the end portions 118, 120 of the flexible body member 110 to enable access to handles 106 or other components on the object to be wrapped. As will be understood and appreciated, the access holes 132 on the embodiment of the device 10 a shown in FIG. 2 are so located as a function of the location of the handles 106 on the particular object to be wrapped when the device is in use. As will be further understood, the holes 132 are located in a variety of other positions and comprise a variety of other shapes and sizes according to other embodiments depending on the particular types of objects for which the wraps are designed.
FIG. 3 illustrates a cross-section 300 of an embodiment of the device 10 a, and specifically, a cross-section of the flexible body member 110 taken along plane AA shown in FIG. 2. In the particular embodiment shown, the wrap 10 a comprises three primary layers—a durable outer layer 302 corresponding to exterior surface 112, a flexible foam-like layer 304, and a soft (yet durable) inner layer 306 corresponding to interior surface 114 of flexible body member 110. According to one embodiment, the layers 302, 304, 306 are attached together at their edges 308 (e.g., around the perimeter of the device 10 a as shown in FIG. 2) via stitching (e.g., a “herringbone” binding), high-strength glue or adhesive, clamping, or some other similar attachment means. In one embodiment, the layers are integrally molded together to form one solid, unitary member.
According to various embodiments of the present device 10 a, the durable outer layer 302 is comprised of any durable fabric as will occur to one of ordinary skill in the art, such as heavy denier nylon (a.k.a. “ballistic” nylon), burlap, etc. The flexible foam-like layer 304 is generally comprised of any flexible material that is able to withstand and reduce force due to impact or pressure, such as polyurethane foam, “tempur” foam (such as TEMPUR-PEDIC® foam manufactured by Tempur-Pedic North America, Inc., having a place of business at 1713 Jaggie Fox Way, Lexington, Ky., 40511), or other similar types of materials. Preferably, the foam layer 304 has a thickness between 0.5-2.0 in., but as will be understood and appreciated, virtually any thickness is possible according to embodiments of the present device. The inner layer 306 is generally comprised of soft, yet durable, material, such as soft-touch nylon, tricot, cotton, or other similar materials. The softness of the inner layer 304 generally provides a forgiving surface for delicate parts or components on the surface of an object to be wrapped.
According to one particular embodiment of the present device 10 a, the foam layer 304 and inner layer 306 are manufactured as a single layer, such as foam-backed, soft-touch nylon. According to various other embodiments, rather than three distinct layers, the device 10 a comprises a singular, integrally-molded member (e.g., a durable foam piece). Further, some embodiments of the present device include more than three layers 302, 304, 306, to provide additional support and/or shock-resistance to a wrapped object, or breathability features, etc. In some embodiments, if certain portions of the device are to remain rigid (or semi-rigid), then the device may include rigid inserts, such as plastic, metal, or the like (discussed in greater detail below).

Embodiment #2

FIG. 4 illustrates a perspective view of a second embodiment of the present device 10 b along with an exemplary object 12 b to be wrapped by the device. As shown, the object 12 b is an amplifier (e.g., audio equipment) that includes a handle 106 extending from its top surface 402. For purposes of this example it is assumed that the object 12 b is one that requires protection for not only its side surfaces (i.e., around its circumference or perimeter), but on its top surface 402 as well. Accordingly, the embodiment of the wrap 10 b shown in FIG. 2 includes a top flap 404 that folds over the top of an object when the wrap 10 b is in use, and provides protection therefore.
The embodiment of the wrap 12 b shown in FIG. 4 comprises a flexible body member 110 that is identical (or virtually identical) to that shown previously in FIGS. 1A, 1B, and 2. When in use, this flexible body member 110 wraps around the circumference of object 12 b, and adjusts to the size of the object to create a tight fit around the same. Because this member 110 and its functionality has been discussed previously, a detailed discussion of this member is not repeated here.
Extending from a top edge 406 of flexible body member 110 is a top flap 404 that provides support and protection to a top surface 402 of an object 12 b to be wrapped. When in use on an object, the top flap folds down (as shown in FIG. 4) and rests on top of the object. Typically, the top flap 404 is secured on the object prior to wrapping the flexible body member 110 around the object, such that the flap 404 drapes over the top and partially down the horizontal sides of an object, and then the body member 110 is wrapped around the draped top flap, helping to secure it in place. Further, the embodiment of the wrap shown in FIG. 4 also includes a bottom flap 408 that extends from a bottom edge 410 of the member 110, and includes a tightening strap 124 and buckle portion 128 extending therefrom. When in use, the tightening strap 124 extending from the bottom flap 408 wraps around the object 12 b and the male buckle portion 128 connects with female buckle portion 130 extending from top flap 404. The tightening straps 124 can then be tightened to secure the top flap 404 down around the object. In the embodiment shown, the bottom flap 408 is intended to extend around a portion of the bottom of the object to provide a more cohesive cover therefore, but does not necessarily cover and/or protect the entire bottom surface of the object. However, as will be understood and appreciated, bottom flap 408 comprises many forms depending on the particular embodiment, and mirrors (or virtually mirrors) top flap 404 in some embodiments to provide padded protection for the entirety of the object to be wrapped.
Still referring to FIG. 4, the top flap 404 includes wing flaps 412 extending therefrom that fold down over the sides of an object 12 b when the wrap 10 b is in use. As mentioned previously, a given embodiment of the wrap 10 b may be utilized to wrap a variety of different-sized objects. Accordingly, as objects with varying circumferences or perimeters are wrapped with an embodiment of the device 10 b that includes a top flap 404, more or less of the wing flaps 412 fold over the sides of the object as needed. For example, for objects of wider widths w, a greater portion of each wing flap 412 will rest on the top surface 402 of the object when the wrap is in use, and a lesser portion will fold over the object's sides. In contrast, for objects with smaller widths w, a greater portion of each wing flap 412 will drape over the side of the objects and be wrapped securely by flexible body member 110.
Further, according to one embodiment, each wing flap 412 includes an overlap portion 414 that wraps around a surface of an object 12 b that is substantially perpendicular to the surface upon which the wing flap drapes, and enables further adjustability of the wrap 10 b depending on the size of a given object. Specifically, as the depth d of an object varies, more or less of the overlap portion 414 will be wrapped around the object. For example, for objects with larger depths d, little or none of the overlap portion will wrap around the object, and instead, the entire wing flap 412 (including the overlap portion 414) will drape over one side of the object. For smaller objects with smaller depths, more of the overlap portion will wrap around the object to provide a tighter overall fit for the wrap 10 b.
According to one embodiment, the top flap 404 is removably affixed to the flexible body member 110 at top edge 406 to enable the removal of the top flap from the device 10 b as needed. For example, the top flap 404 may be attached to the body member 110 at top edge 406 via a fastening means 116 such as a hook and loop fastener, or metal snaps, etc. In another embodiment, the top flap 404 is permanently affixed to the flexible body member via stitching, bonding, adhesive, etc. Further, in one embodiment of the present device, both an interior surface 114 of the body member 110 and an exterior surface of wing flaps 412 include fastening means 116 (not shown), such as hook and loop fasteners, such that the two surfaces become removably attached when the wrap is in use around an object, thereby providing a more secure fit and further preventing movement or dislodging of the top flap 404 and wing flaps 412 when the device is in use.
Again, as mentioned previously, in one embodiment, the device 10 b includes a bottom flap 408 that is substantially similar to top flap 404 and provides protection and covering of a bottom surface of an object 12 b as needed. Additionally, according to one embodiment of the present device, the top flap 404 and bottom flap 408 comprise the same materials (e.g., layers 302, 304, 306) as used for body member 110. Further, in one embodiment, wing flaps 412 do not include a foam-like layer 304, thus allowing for a tighter fit of the flaps around an object when the wrap is in use.
FIG. 5 is a front plan view of exterior surface 112 of a second embodiment of the device 10 b shown in FIG. 4 when not in use (i.e., laid flat). As discussed in connection with FIG. 4, the embodiment of the device shown in FIG. 5 includes a flexible body member 110 and other similar components described previously in conjunction with FIGS. 1A, 1B, and 2, and further includes a top flap 404, wing flaps 412, overlap portions 414 of wing flaps 412, and a bottom flap 408. The overlap portions 414 are shown laying underneath the flexible body member 110. FIG. 5 also illustrates the various tightening straps 124, fastening means 116, and other device components that enable adjustable covering of a given object.
As shown in FIG. 5, the embodiment of the device 10 b does not include access holes 132 on flexible body member 110, but instead includes an access hole on top flap 404. Referring back to exemplary object 12 b shown in FIG. 4, the object includes a singular handle 106 extending from its top surface 402, but does not include any side handles. Thus, in this particular embodiment of the device, an access hole 132 is provided on top flap 404 to enable access to handle 106, but no access holes are included in body member 110 as such holes are unnecessary for the given object. As will be understood and appreciated, other embodiments of the wrap 10 b may include access holes 132 on body member 110 as needed. Further, depending on the embodiment, access hole 132 shown in FIGS. 4 and 5 may or may not include an access hole flap 134, as described previously.

Embodiment #3

FIG. 6A illustrates a perspective view of a third embodiment of the present device 10 c along with an exemplary object 12 c to be wrapped by the device. As shown, the device includes flexible body member 110, and other corresponding components described previously, such as securing flap 122, tightening straps 124, fastening means 116, etc. In the embodiment shown, the device further includes foldable top member 602 comprising four padded panels 604, 606, 608, 610 that wrap around front, top, and back surfaces, respectively, of an object 12 c when the device 10 c is in use. As will be understood and appreciated, however, embodiments of the foldable top member 602 may include additional or fewer panels as needed based on the particular application.
As shown in FIG. 6A, exemplary object 12 c comprises a unique geometry such that one of its front surfaces 612 is vertically aligned, whereas another of its front surfaces 614 is tilted at an angle with respect to the first surface 612. This geometry is common amongst certain types of audio equipment, such as large speaker cabinets. The foldable nature of top member 602 enables a secure fit of the present device 10 c around the unique geometry of object 12 c. Additionally, to provide further protection to surfaces 612, 614, and others on object 12 c, one or more of the padded panels 604, 606, 608, 610 may include a rigid insert (shown as element 702 in FIG. 7), such as a plastic or lightweight metal sheet. The rigid insert not only provides additional protection to one or more surfaces of object 12 c, but enables a tight fit of the device 12 c around objects with slanted surfaces (e.g., surface 614) by forcing the panel (e.g., panel 606) to lay flat on the surface 614 when the device 10 c is in use. In one embodiment, each panel 604, 606, 608, 610 includes a separate rigid insert divided by fold lines 616 to provide protection for individual surfaces of an object. In another embodiment, to enhance the overall adjustability of wrap 10 c, only one (or a limited number) of panels 604, 606, 608, 610 includes a rigid insert, thereby enabling the other panels to flexibly wrap around an object's surfaces even if the surfaces of the object do not match the particular size of the panels.
According to a particular embodiment, rather than being divided into a number of discrete, padded panels, foldable top member 602 comprises a unitary, flexible member, similar to flexible body member 110. This type of design may be particularly applicable for objects that do not include slanted surfaces (e.g., surface 614 is along the same plane as surface 612), or objects that include rounded or semi-rounded tops, etc.
As further shown in FIG. 6A, foldable top member 602 includes a flap 618 extending therefrom with one or more tightening straps 124 extending from the flap 618. Similarly to the embodiment of the device 10 b shown in FIG. 4, the device 10 c shown in FIG. 6A includes a bottom flap 408 extending from its bottom edge, such that tightening straps 124 extending from bottom flap 408 connect to straps 124 on flap 618 (via buckle portions 128, 130, or some other fastening means) to tighten and secure foldable top member 602 around the given object 12 c. As will be understood and appreciated, although not shown, bottom flap 408 may comprise an additional panel that provides complete coverage and protection to a bottom surface of a given object.
FIG. 6B illustrates a perspective view of the third embodiment of the present device 10 c in use around an exemplary object 12 c, thereby providing protection for the object. Specifically, FIG. 6B shows the device 10 c in use on object 12 c, such that foldable top member 602 is wrapped around the object 12 c in a vertical plane, and flexible body member 110 is then further wrapped around the object in a horizontal plane. In the particular example shown, handles 106 of object 12 c remain exposed to enable easier carrying and/or transportation of the wrapped object.
FIG. 7 illustrates a cross-section 700 of an embodiment of the device 10 c, and specifically, a cross-section of the foldable top member 602 including a rigid insert 702 taken along plane BB shown in FIG. 6A. In the particular embodiment shown, the foldable top member 602 (and specifically, panel 606) comprises four primary layers—a durable outer layer 302, a flexible foam-like layer 304, a soft (yet durable) inner layer 306, and the rigid insert 702. As shown, the layers 302, 304, 306 are identical or highly similar to those shown and discussed previously in connection with FIG. 3. As also discussed previously, rigid insert 702 may comprise any durable, semi-flexible, lightweight material known in the art, such as plastic, lightweight metal, rubber, wood, high strength cardboard, and other similar materials. As with other embodiments of the device 10 discussed previously, the particular cross section 700 shown in FIG. 7 is but one exemplary cross-section, and other embodiments of the present device may include one, two, or many more layers of foam, fabric, plastic, etc., depending on the particular application.

Embodiment #4

FIG. 8 illustrates a perspective view of a fourth embodiment of the present device 10 d along with an exemplary object 12 d to be wrapped by the device. For purposes of this example, the object 12 d is assumed to be a large, potentially heavy article, such as an appliance (e.g., refrigerator), a large piece of electronic equipment (e.g., server, supercomputer, etc.), a crate containing smaller, fragile objects, or some other similar object. Accordingly, the embodiment of the wrap 10 d shown in FIG. 8 is generally of a size to accommodate such an object.
As shown, device 10 d includes a version of flexible body member 110. In the embodiment shown, body member 110 includes a plurality of tightening straps 124 extending from a first end portion 118 for tightening the device around an object and securing to straps 124 at a second end portion 120. Because this particular embodiment of device 10 d is primarily utilized for large, heavy objects, it is preferable that the device include many tightening straps 124 (or other similar fastening means) to securely wrap the given object. Further, in the embodiment shown, two rows of female buckle portions 130 are included on body member 110 to enable additional tightening and adjustability of the device 10 d depending on the circumference of the given object 12 d. Also, the body member 110 includes additional reinforcement straps 126 to enhance the support and tight-fitting nature of the wrap 10 d around a large object.
Additionally, the device 10 d shown in FIG. 8 includes a top flap 802, along with wing flaps 804, that function to cover a top surface 806 of object 12 d in a similar manner as top flap 404 and wing flaps 412 as shown and discussed in connection with the second embodiment of the device 10 b shown in FIGS. 4 and 5. Specifically, top flap 802 folds over the top of object 12 d, and flexible body member 110 wraps around and secures the object. Generally, the top flap 802 is attached to the flexible body member 110 via stitching, adhesive, or some other attachment means. In one embodiment, the top flap is removably attached to the body member 110 by a hook and loop fastener 116 or other removable attachment means such that the flap can be removed from the device 10 d if not needed for a given application. Further, although not shown, it will be understood that the embodiment of the device 10 d may also include a bottom flap to cover and protect a bottom surface of the given object, and both the bottom flap and top flap may include tightening straps and fastening means to wrap around and secure the flaps around the object.
The foregoing description of the exemplary embodiments has been presented only for the purposes of illustration and description and is not intended to be exhaustive or to limit the inventions to the precise forms disclosed. Many modifications and variations are possible in light of the above teaching.
The embodiments were chosen and described in order to explain the principles of the inventions and their practical application so as to enable others skilled in the art to utilize the inventions and various embodiments and with various modifications as are suited to the particular use contemplated. Alternative embodiments will become apparent to those skilled in the art to which the present inventions pertain without departing from their spirit and scope. Accordingly, the scope of the present inventions is defined by the appended claims rather than the foregoing description and the exemplary embodiments described therein.

Claims

1. An equipment wrap, comprising:

a planar flexible body member for wrapping around an object, the flexible body member having an outward-facing surface and an inward-facing surface, wherein the flexible body member includes a first end portion and second end portion with said surfaces disposed therebetween, and wherein the flexible body member comprises an impact-resistant material;

a first fastening component attached to the first end portion of the flexible body member on its inward-facing surface; and

a corresponding fastening component for providing an operative connection to the first fastening component attached to the second end portion of the flexible body member on its outward-facing surface,

whereby when the flexible body member is wrapped around the object, the first end portion overlaps the second end portion, thereby enabling the first fastening component and the corresponding fastening component to releasably engage and fasten the flexible body member around the object to provide a protective barrier therefore.

2. The equipment wrap of claim 1, wherein the first fastening component and the corresponding fastening component are selected from the group comprising: hook and loop fasteners, magnets, snaps.

3. The equipment wrap of claim 1, further comprising one or more tightening straps extending from at least one of the first end portion or the second end portion of the flexible body member, wherein the one or more tightening straps releasably attach to an opposing securing mechanism on at least one of the first end portion or the second end portion when the flexible body member is wrapped around the object, and wherein the one or more tightening straps are adjustable for tightening the flexible body member around the object.

4. The equipment wrap of claim 3, wherein the securing mechanism is selected from the group comprising: a buckle assembly, a ring fastener, a seat belt-type connector, high-strength magnets, hook and loop fasteners, snaps.

5. The equipment wrap of claim 1, wherein the flexible body member comprises at least three layers, wherein the outward-facing surface comprises an outer layer, the inward-facing surface comprises an inner layer, and the impact resistant material comprises a middle layer.

6. The equipment wrap of claim 5, wherein the outer layer, inner layer, and middle layer are permanently affixed to each other.

7. The equipment wrap of claim 5, wherein the outer layer comprises a durable nylon material.

8. The equipment wrap of claim 5, wherein the inner layer comprises a soft-touch nylon material.

9. The equipment wrap of claim 1, wherein the impact-resistant material is selected from the group comprising: foam, polyurethane foam, tempur material, rubber.

10. The equipment wrap of claim 1, further comprising a securing flap extending from the first end portion of the flexible body member, wherein the first fastening component is affixed to an inward-facing surface of the securing flap.

11. The equipment wrap of claim 1, further comprising a top flap extending from an edge of the planar flexible body member, the edge being disposed between the first end portion and the second end portion of the flexible body member,

whereby the top flap covers an additional surface of the object in addition to surfaces covered by the flexible body member when the flexible body member is wrapped around the object.

12. The equipment wrap of claim 11, wherein the top flap comprises an impact-resistant material.

13. The equipment wrap of claim 11, further comprising one or more wing flaps extending outwardly from the top flap.

14. The equipment wrap of claim 1, further comprising a multi-paneled, foldable top member extending from an edge of the planar flexible body member, the edge being disposed between the first end portion and the second end portion of the flexible body member,

whereby the foldable top member covers and protects more than one additional surface of the object in addition to surfaces covered by the flexible body member when the flexible body member is wrapped around the object.

15. The equipment wrap of claim 14, wherein the multi-paneled, foldable top member comprises two or more panels, wherein at least one of the panels comprises one or more layers, at least one of the one or more layers comprising a rigid insert for protecting the object.

16. The equipment wrap of claim 1, further comprising one or more access holes formed in the flexible body member for allowing access to the object when the flexible body member is wrapped around the object.

17. The equipment wrap of claim 16, further comprising removable access hole flaps releasably attached to the one or more access holes formed in the flexible body member for closing the one or more access holes when the access holes are not in use.

18. The equipment wrap of claim 1, wherein the object is selected from the group comprising: audio equipment, appliances, electronic equipment, computer equipment, sensitive measuring equipment, freight containers, furniture.

19. An adjustable wrap for wrapping and protecting audio equipment, comprising:

a substantially-rectangular, substantially-flat, flexible body member having an outer surface and an inner surface for wrapping around audio equipment such that the inner surface contacts the audio equipment, wherein the flexible body member includes a foam-like layer disposed between the outer surface and the inner surface, the flexible body member comprising a first opposing end and a second opposing end defining a length therebetween, wherein the length is greater than or equal to a perimeter of the audio equipment around which the flexible body member is wrapped;

a securing flap extending from the first opposing end of the flexible body member, the securing flap including an attachment means for releasably attaching the securing flap to a corresponding attachment means on the second opposing end of the flexible body member when the flexible body member is wrapped around the audio equipment;

two or more tightening straps extending from each of the first opposing end and second opposing end of the flexible body member, each of the two or more tightening straps including a securing mechanism for securing the two or more tightening straps extending from the first opposing end to the two or more tightening straps on the second opposing end and tightening the straps around the audio equipment when the flexible body member is wrapped around the audio equipment; and

one or more access holes formed in the flexible body member for allowing access to the audio equipment when the flexible body member is wrapped around the audio equipment.

20. The adjustable wrap of claim 19, wherein the audio equipment is selected from the group comprising: a speaker, an amplifier, a speaker cabinet.