This application claims priority to European Patent Application No. 12192405.4, filed on Nov. 13, 2012 and entitled “Frame Structure For a Luggage Item,” which is hereby incorporated in its entirety by reference as though fully disclosed herein.
The present disclosure generally relates to luggage. More particularly, the present disclosure relates to the structure of a luggage frame for a luggage item.
Luggage items, such as soft side suitcases, may include wire or extruded plastic reinforcement beads, honeycomb boards and/or other reinforcing panels as shape retaining structures and anchor plates for components, such as wheels and handles. To form a luggage case incorporating these frame and reinforcement structures, multiple manufacturing steps are usually involved. The wire reinforcements are first formed or bent into a predetermined shape and then received in piping, which is then attached around the perimeter of the structure requiring reinforcement. Other materials are attached to the structure in the same step, such as outer fabric, liner fabric, or the like. Reinforcing panels are held in place within the walls of the luggage case by being positioned in pockets, or separately attached to the wire frame or other panels. Not only does this wire-frame structure involve a multi-step assembly process, it adds unnecessary weight and creates interruptions at the outer panels of the luggage case, thereby restricting the aesthetic design flexibility.
Documents that may be related to the present disclosure in that they include various approaches to luggage construction include GB2339679, U.S. Pat. No. 3,962,010, U.S. Pat. No. 4,433,760, U.S. Pat. No. 5,529,156, U.S. Pat. No. 5,794,744, US2004/0079604, US2006/0249344, US2007/0045071 and CN2380081. These proposals, however, may be improved.
It is therefore desirable to provide an improved luggage construction, in particular an improved luggage frame structure, which addresses the above described problems and/or which more generally offers improvements or an alternative to existing luggage structures and construction methods.
According to the present invention there is therefore provided a luggage item as defined in the accompanying claims.
In particular described herein is a peripheral frame structure for use in split luggage items, such as soft side suitcases, hybrid suitcases, backpacks, duffels, briefcases, computer bags and so on. Also described herein is a method for forming the peripheral frame structure and for forming luggage items incorporating the peripheral frame structure.
In some implementations, the luggage item may include a first and second outer portions defining an inner compartment of the luggage item and a closing mechanism. At least one of the first outer portion or the second outer portion may include a frame structure and a relatively flexible cover member. The closing mechanism may be configured to operably engage a peripheral edge of each of the first and second outer portions and configured to selectively open and close the luggage item. The frame structure may include a first frame member forming at least a portion of the peripheral edge of the at least one of the first outer portion or the second outer portion. The first frame member may define a width dimension extending in a direction away from the peripheral edge. The relatively flexible cover member and the closing mechanism may be joined to the first frame member by a common sewn attachment.
In some implementations, the first frame member may include a varying width.
In some implementations, the first frame member may include at least a planar portion. The planar portion may extend along the width dimension away from the peripheral edge.
In some implementations, at least a portion of the relatively flexible cover member of the first outer portion, at least a portion of the closing mechanism and the planar portion of the first frame member may substantially align or overlap at a location where they are joined by the common sewn attachment.
In some implementations, at least one of a wheel assembly, a structural member, or a handle assembly may be joined to the planar portion of the first frame member.
In some implementations, the first frame member may include a portion that may include a honeycomb structure.
In some implementations, the relatively flexible cover member, the closing mechanism and the frame member may be joined together by a line of stitching through the portion of the first frame member including the honeycomb structure.
In some implementations, the relatively flexible cover member may define at least in part an exterior surface of the at least one of the first outer portion or the second outer portion. The relatively flexible cover member may be configured to substantially cover or overlap an exterior surface of the first frame member.
In some implementations, the first frame member may be configured to form a continuous loop.
In some implementations, the continuous loop may be formed by joining two ends of an elongated member. The joint of the two ends of the elongated member may be positioned adjacent to a top region of the luggage item.
In some implementations, the first frame member may further include a varying thickness across the width dimension.
In some implementations, the first frame member may include a thinner portion that may define a smaller thickness dimension of at least a portion of the width dimension of the first frame member. At least a portion of the relatively flexible cover member and at least a portion of the closing mechanism may be joined to the thinner portion of the first frame member by the common sewn attachment.
In some implementations, the thinner portion of the first frame member may be configured to be adjacent to the peripheral edge of the at least one of the first outer portion or the second outer portion.
In some implementations, the luggage item may further include a liner positioned in the interior of the luggage compartment and at least partially adjacent to an inner side of the peripheral edge of the first frame member. The liner may be joined to the first frame member by the common sewn attachment joining the relatively flexible cover member and the closing mechanism to the first frame member.
In some implementations, the luggage piece may further include a structural member for providing three-dimensional shape support to the luggage item.
In some implementations, the structural member may include a first brace member including opposing ends, and a length extending between the opposing ends. One of the opposing ends of the first brace member may be associated with a first portion of the first frame member. The other one of the opposing ends of the first brace member may be associated with a second portion of the first frame member.
In some implementations, at least a portion of the length of the first brace member may extend across an opening defined by the first frame member but in a plane different than the plane defined by the first frame member.
In some implementations, the structural member may further include a second brace member including opposing ends, and a length extending between the opposing ends. One of the opposing ends of the second brace member may be associated with a third portion of the first frame member. The other of the opposing ends of the second brace member may be associated with a fourth portion of the first frame member.
In some implementations, at least a portion of the length of the second brace member may extend across the opening defined by the first frame member but in a plane different than the plane defined by the first frame member.
In some implementations, the structural member may include at least one polymeric sheet defining at least a portion of a top of the at least one of the first outer portion or the second outer portion. The at least one polymeric sheet may be joined to the first frame member by the common sewn attachment.
In some implementations, the luggage item may include a binding element. The binding element may cover at least a portion of the length of the peripheral edge of the at least one of the first outer portion or the second outer portion. A first leg of the binding element may be positioned to the exterior of the peripheral edge, and a second leg may be positioned to the interior of the peripheral edge. The first and second legs may be joined to the first frame member by the common sewn attachment.
In some implementations, the closing mechanism may include a zipper mechanism having a pair of engageable zipper teeth.
In some implementations, the closing mechanism may include a latch mechanism.
In some implementations, the closing mechanism may further include an elongated member in an abutting relationship with the peripheral edges of the outer portions when the luggage item is closed. The elongated member may be joined to one of the outer portions by stitching.
In some implementations, the luggage item may be configured in a manner such that when the pair of zipper teeth are engaged, the engaged zipper teeth and at least one of the first frame member or the elongated member may be in an overlying, overlapping, superimposed or coextensive configuration.
In some implementations, each of the first and second outer portions may include a frame structure. The frame structure of the first outer portion may include the first frame member. The frame structure of the second outer portion may include a second frame member and a second relatively flexible cover member. The second frame member may form at least a portion of the peripheral edge of the second outer portion. The second frame member may define a width dimension extending in a direction away from the peripheral edge. The second relatively flexible cover member of the second outer portion and the closing mechanism may be joined to the second frame member by a second common sewn attachment.
In some implementations, the second frame member may further include a portion comprising a honeycomb structure. The relatively flexible cover portion of the second outer portion and the closing mechanism may be joined to the portion of the second frame member including the honeycomb structure by a line of stitching. In some implementations, the line of stitching may be positioned through the portion of the second frame member including the honeycomb structure.
In some implementations, the second frame member may include at least a planar portion. The planar portion may extend along the width dimension away from the peripheral edge.
In some implementations, at least one of a wheel assembly, a structural member, or handle assembly may be joined to the planar portion of the second frame member.
In some implementations, the width dimension of the first frame member varies along its length may define a first profile. The width dimension of the second frame member may also vary along its length and define a second profile. In some implementations, the first profile may be identical to the second profile. In some implementations, the first profile may be different from the second profile.
In some implementations, at least one of the first or second frame members may include a base portion having a larger width than at least one other portion of the first or second frame members.
In some implementations, at least one of the first or second frame members may include a first end and a second end coupled to each other at a top portion of the frame member.
In another implementation of a luggage item, the luggage item may include a first and second outer portions defining an inner compartment of the luggage item and a frame structure. The frame structure may include a first frame member and at least one brace member. The first frame member may form at least a portion of a peripheral edge of at least one of the first outer portion or the second outer portion. The first frame member may define a width dimension extending in a direction away from the peripheral edge. The at least one brace member may include opposing ends, and a length extending between the opposing ends. One of the opposing ends of the at least one brace member may be associated with a first portion of the first frame member. The other one of the opposing ends of the at least one brace member may be associated with a second portion of the first frame member.
In some implementations, at least a portion of the length of the at least one brace member may be configured to extend across an opening defined by the first frame member but in a plane different than the plane defined by the first frame member.
Advantageously, the various frame structures described herein and the luggage item incorporating the frame structures improve the integrity of the edge structure, improve gap size between the opposing portions and reduce overall weight of the luggage, resulting in a lighter luggage case with a strong frame structure. In addition, the various frame structures described herein makes it possible to create a clean appearance with no or minimal interruptions at the outer corners, thereby enhancing the structural integrity of the luggage case and reducing the chances of fraying or breakage. Moreover, by eliminating or reducing the need of wire beads and the process involved to form and fitting the wire beads, the direct securement of surrounding components to the frame by a common sewn or stitched attachment may significantly reduce the steps required to assemble the luggage case, thus increasing production efficiency. Furthermore, the frame structures as described herein enable design flexibility since various layers may be joined to the frame structure by one common sewing or stitching operation. Various layers may be added or eliminated without changing much of the assembly routine.
This summary of the disclosure is given to aid understanding, and one of skill in the art will understand that each of the various aspects and features of the disclosure may advantageously be used separately in some instances, or in combination with other aspects and features of the disclosure in other instances.
The present invention will now be described by way of example only with reference to the following figures in which:
Described herein is a luggage frame structure for use in luggage items, such as soft side suitcases, hybrid suitcases, backpacks, briefcases, computer bags, or any luggage items that contain soft portions and may desire shape and/or structural reinforcement to the soft portions. The luggage item may include opposing housing portions enclosing a compartment, the opposing housing portions being separable in part by a closure mechanism, such as a zipper mechanism. The opposing housing portions used herein may refer to a front portion and a rear portion, such as the relatively flexible or soft panels used for soft side suitcases, or any two portions of the luggage item body separable by the closure mechanism, such as the zipped top opening of a backpack, duffle, computer bags, and so on.
By way of example and without limitation,
In continuing reference to
Each of the outer portions 104, 106 may include a major face panel 114, a top panel 116, a bottom panel 118, a left panel 120 and a right panel 122. The top, bottom, left and right panels 116, 118, 120, 122 together define a peripheral edge (or rim), respectively, of the outer portions 104, 106. The peripheral edge is primarily defined by the outer peripheral edge 124, 126 of the respective front or rear frame members 128, 130 of the frame structure 102 as described below, to which the outer cover 104, 106, liner 111, 113, a closure mechanism 132, a hinge element and/or other layers or components may be directly connected by a common sewn or stitching attachment structure. This direct attachment of these components to the peripheral edge of the front and/or rear portions 104, 106 reduces the number of assembly steps, allows the luggage case 100 to be supported in its shape without the need of a wire bead structure, and lessens the weight of the frame and overall luggage case 100. These aspects of the invention are described in more detail below. Note that while the supplemental use of a wire or plastic reinforcement bead may provide additional strength, it is not required. It is contemplated that the outer portions 104, 106 may in some circumstances include opposing portions of a luggage case, such as a front shell and rear shell, as well as other configurations where shells are not implemented in the luggage case.
The hinge element may be made of fabric and secured between selected corresponding lengths of the peripheral edges of the outer portions 104, 106, also by sewing or stitching. Other types of hinge elements are contemplated, such as but not limited to a continuous piano hinge, or a pair of spaced-apart discrete hinges. The closure mechanism 132 may include a zipper mechanism 132. In some examples, the zipper mechanism 132 may include a zipper tape having a front and rear longitudinal edges 134, 136 separable by a zipper track 137 into a front half 138 and a rear half 140, at least one zipper slider associated with the zipper track 137 to seam and unseam the zipper track 137.
The luggage case 100 may include wheel assemblies 142 attached to the main housing compartment adjacent to the corners of the bottom panels 118 of the front and rear portions 104, 106 to assist a user in moving the luggage case 100 along a support surface. The luggage case 100 may include feet or other supports 144 positioned on one or more sides of the luggage case 100 to allow the luggage case 100 to be supported on, but spaced above, a support surface, such as the ground. The luggage case 100 may include a telescopic handle 146 to pull or push the luggage case 100 on its wheels 142, and one or more carry handles 148, 150 to lift or otherwise move the luggage case 100. The luggage case 100 may further include a security lock to restrict access to the inner compartment of the luggage case 100.
With reference to
Each frame member 128, 130 may include an inner longitudinal (or peripheral) edge 168, 170 and an outer longitudinal (or peripheral) edge 124, 126, and define a frame width there-between. Accordingly, the frame member 128, 130 may include portions, such as top, bottom or side portions 152, 154, 156, 158, 160, 162, 164, 166 or segments 184, 186 thereof as described below that are planar along the frame width. The outer longitudinal edge 124, 126 of each frame member 128, 130, which in part forms the peripheral edges of the respective front and rear portions 104, 106 of the luggage case 100, may extend in a relatively linear manner. This outer longitudinal edge 124, 126 may be configured in a superimposed, overlapping, overlying or coextensive relationship with the peripheral edge of the associated front or rear portion 104, 106 of the luggage case 100.
The inner longitudinal edge 168, 170 of each frame member 128, 130 may extend in a straight line, curved line, angled segment (at right, acute, obtuse, and/or reverse angles) or a combination of these. The various types and directions of the extension of the inner longitudinal edge 168, 170 collectively define a frame profile having varying widths. Accordingly, the frame member 128, 130 may include a varying width along its longitudinal extension. Specifically, the frame member 128, 130 may include portions configured to be narrow for weight reduction considerations and portions configured to be wide to provide strength where needed, such as for support for attaching luggage parts, such as handles 146, 148, 150, wheels 142 and/or feet 144 and for load bearing considerations. Note that the outer longitudinal edge 124, 126 of each frame member 128, 130 may also have a profile if desired.
As shown in the example of
With continuing reference to
Taking the left portion 160 of the front frame member 128 for example, the inner longitudinal edge 168 thereof may include a top segment 172, a middle segment 174, and a bottom segment 176. The top segment 172 may define a width similar to or the same as the width of the top portion 152 of the frame member 128 thereby forming a smooth, curved or arcuate transition at the top left corner of the frame member 128. Similarly, the bottom segment 176 may define a width similar to or the same as the width of bottom portion 156 of the frame member 128 thereby forming a smooth, curved or arcuate transition at the bottom left corner of the frame member 128. Such smooth transitions at the top and bottom corner regions of the frame member 128 support the outer cover 108 of the luggage case 100, provide a rounded finished appearance thereof, and facilitate even distribution of stress across the outer cover 108. The middle segment 174 may define a width smaller than the width of the bottom and/or top portions 172, 176 of the frame member 128 since the side panels 120 serve less frequently as a load bearing surface compared to the bottom and/top panels 116. The middle portion of the left side portion 160 of the front frame member 128 may include segments 178, 180 that define a larger width dimension. Such larger width dimensions yield a larger area 184, 186 for supporting and joining thereto the handles and/or supports of the luggage case 100 by fasteners, sewing, gluing, welding, bonding, adhering, stapling or any suitable connection method. As shown in the figures, the inner longitudinal edges 168, 170 of other portions of the front and rear frame members 128, 130, such as the left portion 162 of the rear frame member 130, the right portions 164, 166 of the front and rear frame members 128, 130, may also be configured with segments that may form wider or narrower regions of the frame member. The top and bottom portions 152, 154 may also have wider or narrow regions defining a varying width.
The various segments 172, 174, 176, 178 of the inner longitudinal edge 168, 170 may collectively define a stepped profile with substantially straight segments 182 connecting the ends of two adjacent segments for manufacturing simplicity. The connecting segments 182 may be substantially perpendicular to or formed at any suitable angle (right, acute, obtuse, and/or reverse) with the outer longitudinal edge 124. In some examples, the various segments 172, 174, 176, 178, 180, 182, including the connecting segments 182, of the inner longitudinal edge 168, 170 may form smooth and/or curved transition between adjacent segments. Although two relatively wider portions 184, 186 are shown and described herein along the side portions 160, 162, 164, 166 of the front and rear frame members 128, 130, more or less wider portions may be arranged for joining and supporting various luggage parts, depending on the luggage design. In some examples, not all side portions 160, 162, 164, 166 of a frame member 128, 130 may be formed with a varying width. Some side portions 160, 162, 164, 166 of the frame member 128, 130 may be formed with consistent width, preferably narrow to reduce weight.
Although the top and bottom portions 152, 154, 156, 158 of the front and rear frame members 128, 130 are shown formed with consistent width dimensions, they may be formed with varying width dimensions. The bottom portions 156, 158 of the frame members 128, 130 may include cutout to accommodate wheel housing for joining wheel assemblies 142. One of the top portions 152, 154 may include wider portions for joining a lifting handle 148. In some examples, both of the top portions 152, 154 may be formed with constant width with one being wider than the other for supporting the top panel 116 to which a lifting handle 148 may be joined.
Each of the front and rear frame members 128, 130 may be made of a materials that is rigid yet allows some flexibility and preferably lightweight, including but not limited to honeycomb board made of any suitable materials, such as plastic, metal or wood. The frame members 128, 130 may be formed by cutting a honeycomb board into strips to form elongated members with predetermined profiles. The honeycomb strips may then be bent into a frame structure, such as a closed or continuous loop (see
With reference to
In some examples, the more than one line of stitching may be configured to overlap or be adjacent to each other. In some examples, the more than one line of stitching may be configured to be offset by a distance and may or may not cross each other. In some examples, each of the one or more lines of stitching may be configured to join or secure together all the various layers of the layered structure. In some examples, one or more of the lines of stitching may be configured to join or secure together less than all the various layers of the layered structure. For example without limitation, one or more of the lines of stitching may be configured to selectively join or secure together two or more layers of the layered structure (e.g., the zipper mechanism 132, the outer covers 108, 110, the frame members 128, 130 and one leg of the binding 194 or any other suitable combination), and one or more of the lines of stitching may be configured to selectively join or secure together two or more different layers of the layered structure (e.g., the inner liners 111, 113, the frame member 128, 130 and the other leg of the binding 194 or any other suitable combination). Although each of the lines of stitching may be configured to join or secure together different layers of the layered structure, the various lines of stitching may still be considered as collectively defining a common sewn or stitched attachment 192 for joining or securing together the various layers of the layered structure. In some examples, the common sewn or stitched attachment may include continuous lengths of sewing or stitching along the entire periphery of the frame member. In some examples, the common sewn or stitched attachment may include discontinuous lengths or segments of sewing or stitching. In some examples, the common sewn or stitched attachment may include a combination of continuous lines of stitching along the entire periphery of the frame member and some discontinuous lengths or segments of sewing or stitching along portions of the periphery as additional reinforcements. In some examples, the common sewn or stitched attachment may be used in combination with many other suitable connection mechanisms, such as staples, fasteners, glue, adhesive, welding, bonding, etc. In some example, instead of using a common sewn or stitched attachment, the various layers may be joined by staples, fasteners, glue, adhesive, welding, bonding, etc., or any combination thereof.
The direct securement of these components to the outer longitudinal edge, such as stitching through the honeycomb frame improves the integrity of the edge structure, reduces weight, improves gap size between front and rear portions, and creates a clean appearance. Importantly, the direct securement of surrounding components to the frame may significantly reduce the steps required to assemble the luggage case as contrasted with conventional luggage making methods. Especially by eliminating the step of fitting multiple wire frame structures after the luggage panels are joined together, which is usually completed by a human operator, the direct securement of various component to the frame as described herein may be easily done automatically by machines. Thus, increased production efficiency can be achieved. Furthermore, the luggage construction method as described herein enables automation enhancement in the production process. This is because various layered structures may be aligned more easily by machines, or be stacked and cut to form an aligned edge easily by machines. Moreover, the structure and methods as described herein enable design flexibility since various layers may be added or eliminated without changing much of the assembly routine. Accordingly, the luggage structure and construction methods as described herein increase operational efficiency, and thus reduce production costs.
Remaining with
Similarly, the outer peripheral edge 126 of the rear frame member 130 and the edge portions of the inner liner 113, the outer cover 110, and the rear longitudinal edge portion 136 of the zipper mechanism 132 form a layered structure and may be received within a concave recess defined by the legs of another “C”-shaped binding hem 194. A common sewn or stitched attachment 192, such as a line of stitching, is secured through the layered structure and the binding hem 194. Other types of fasteners or securing techniques are contemplated, such as staples, rivets, adhesives, or the like. More or less layers may be stitched together. In some examples, the outer cover 108, the frame members 128, 130 and the zipper tape 138, 140 may be received within the recess of the binding hem 194, and the inner liner 111, 113 may not be received within the recess of the binding 194 or joined thereto through stitching. Additionally, the edge of the hinge element may be positioned within the layered structure in place of or in addition to another layer, such as the zipper tape 138, 140, in order to secure the hinge in the desired location along a length of the peripheral edge of the front and rear portions 104, 106.
As best shown in
As also shown in
The localized thinning may be accomplished by compressing the material of the frame in a manner that reduces the thickness in a lasting manner. Alternatively, the localized thinning may be manufactured into the frame material dimensions. The localized thinning may be utilized around the entire perimeter 124, 126 of the front and rear portions 104, 106, or it may be utilized only in selected locations on either one or both of the front and/or rear portions 104, 106. Where maximum strength is desired, it may be determined that not having a localized thinning feature is preferred. In one example, the localized thinning is located along a strip approximately 0.5 to 2 centimeters wide, or wider.
In some examples, the frame members 128, 130 may define a uniform thickness along its width dimension and not be thinned at the outer peripheral edges 124, 126. In some examples, the half zipper tapes 138, 140, the outer covers 108, 110, or the inner liners 111, 113 may fold around the peripheral edge portion 124, 126 of the frame members 128, 130 and attach thereto by stitching, thereby replacing the binding 194. In this example, the zipper tape 138, 140 may be stitched on top of or below the folded over-edge noted above.
The advantages of the luggage frame structure 102, specifically using planar peripheral frame members 128, 130 as described herein (whether with our without localized thinning) in comparison to conventionally frame structure, such as that shown in GB2339679, U.S. Pat. No. 3,962,010, U.S. Pat. No. 4,433,760, U.S. Pat. No. 5,529,156, U.S. Pat. No. 5,794,744, US2004/0079604, US2006/0249344, US2007/0045071 and CN2380081, are many. For instance, such luggage frame structure eliminates the need of wire beads and the process involved to form and fitting the wire beads. In contrast to the conventional way of fitting wire beads to the exterior of the outer covers of the luggage case, the outer covers 108, 110 as described herein extends over the outside of the planar frame members 128, 130. Accordingly, the frame structure 102 as described herein makes it possible to form a luggage case 100 with no or minimal interruptions at the outer corners, thereby enhancing the structural integrity of the luggage case 100 and reducing the chances of fraying or breakage. Furthermore, in contrast to the conventional multi-step luggage construction where planar frame boards, such as honeycomb boards, are fitted into pockets after assembly, the planar frame members 128, 130, the outer covers 108, 110, zipper mechanism 132, and/or inner liners 111, 113 are joined together in one step according to the luggage construction as described herein. Accordingly, constructing a luggage case using the method and the planar frame members as described herein simplify the assembly process and may result in a lighter luggage case with a strong frame structure.
Although not shown in
With references to
In continuing reference to
Each opposing end portion 222 of the brace member 214 may be joined to opposing side portions of a frame member 128, 130, and in this example at a location 184, 186 of the side portion where the width of the frame 128, 130 is enlarged. The end portion 222 may be slightly bent with respect to the middle portion 220 of the brace member 214 (forming the U-shape as described above) to be conveniently positioned adjacent the frame member portion 184, 186 to which it is attached. The opposing ends 222 may each be overlapped on the frame member 128, 130 and secured thereto by sewing, stapling, gluing, welding, bonding, adhering, fastening, or many other suitable techniques. Alternatively, as shown in
In continuing reference to
Referring to
Referring back to
The middle portion 236 and two corner portions 234 of the upper structural member 228 may be formed as separate pieces or may be formed as an integral piece. The middle portion 236 and the two corner portions 234 may form at least an undivided, uniform piece where the top panel 116 is formed (see
The lower structural member 232 may be formed in a similar manner to the upper structural member 228, except that the middle portion 250 of the lower structural member 232 and the corner portions 252 may preferably form an undivided and uniform piece along the lower portion of the major face 114 of the luggage case 100. The top edge 254 of the middle portion 250 of the lower structural member 232 may be joined to an outer surface of a lower brace member 214 at its upper longitudinal edge 216 by fasteners, sewing, gluing, welding, bonding, adhering, stapling or any suitable connection method. The bottom edge of the middle portion 250 and the edges of the corner portions 252 may be joined to the peripheral edge of the bottom and side panels 118, 120, 122.
As best shown in
Referring to
In continuing reference to
With respect to the rear frame member 266, one or both of the opposing side elements 272 thereof may include a narrower upper portion 286, a wider lower portion 288 and a middle portion 290 formed with a third width dimension in between the width dimensions of the upper and lower portions 286, 288. The middle portion 290 may provide structural support for joining a carrying handle 150 to the luggage case 100. Although both side elements 272 of the rear frame member 266 are shown including middle portions 290 with a third width dimension for forming simplicity, one side element 272 may be formed without such middle portion 290 and may be formed similar to the side elements 270of the front frame member 264.
Depending on the specific structures joined to the frame member 264, 266, the frame member 264, 266 may further include cutout to accommodate such structures. In some examples, the transitioning regions joining the side elements 272 and the bottom element 274 of the rear frame member 266 may include cutout 292 forming a slot for the wheel housings 256.
In contrast to the luggage case 100 of previous examples in which a zipper mechanism 132 is used as a closure mechanism, the luggage case 100 shown in
Where discrete latch mechanisms 280 are used to secure the luggage case 100 in a closed configuration, the peripheral engagement structure 281 is different from the zipper mechanism 132 described above. The peripheral engagement structure 281 in this instance may be stitched to the periphery 310 of one of the opposing housing portions 106 as described below, and may engage or abut the periphery 308 of the other one of the opposing housing portions 106 when the luggage case 100 is closed. The peripheral engagement structure 281 may include an elongated member 294 having a generally T-shaped cross section. The elongated member 294 may extend along the periphery 308, 310 of one of the opposing housings 104, 106, such as from adjacent one end of a hinge element to adjacent the other end of the hinge element. In some examples, the elongated member 294 may run along the entire peripheral edge 308, 310 of the opposing housing portions 104, 106, or only along select portions of the peripheral edge 308, 310. When the luggage case 100 is closed, the horizontal extensions (with respect to
With reference to
As noted above, the elongated member 294 is secured adjacent the peripheral rim 308, 310 of one of the front or rear portions 104, 106 of the luggage case 100. As shown in
With reference to
Further referring to
With continuing reference to
Further referring to
To joined the inner liner 111, 113 to the trim element 330, the edge portion of the inner liner 111, 113 may form a fold and align with the surface of the trim element 330 facing the inner compartment of the luggage case 100. The folded edge portion may be joined to the planar portion of the trim element 330 by stitching or sewing 340. Many other suitable connection mechanisms including, but not limited to, fasteners, gluing, welding, bonding, adhering, stapling may be used. Please note that although lines of stitches 316 for joining the outer cover 110 and the elongated member 294 to the frame member 266 are shown as separate stitches from lines of stitches 340 for joining the liner 113 to the trim element 330, they may still be considered as a common sewn or stitched attachment for joining various components to the peripheral rims of the frame member and/or luggage case. In some implementations, the outer cover 110, liner 113, elongated member 294, and/or trim element 330 may be joined to the frame member 266 by one or more continuous lines of stitching similar to the common sewn or stitched attachment as described with reference to the first and second luggage frame implementations.
Similarly, the inner liner 111 of the other half 104 of the luggage case 100 may also be configured with a similar trim element 330 for engaging the inner liner 111 to the frame member 264 associated with the other half 104 of the luggage case 100. Instead of engaging a protruding element of the elongated element 294, the groove 336 of the trim element 330 may engage a similar protruding element 342 of a different connecting member 344 joined to the frame 264. The connecting member 344 may take the form of a strip that runs along the inner surface of the frame member 264 and may be coextensive with the elongated member 294. The connecting member 344 may define a planar body having an outer surface facing the inner surface of the frame member 266 and an inner surface facing the inner compartment of the luggage case 100. The planar body 344 may be joined to the layered structure of the frame member 264 and the associated outer cover 108 by stitching or sewing 346. Many other suitable connection mechanisms including, but not limited to, fasteners, gluing, welding, bonding, adhering, stapling may be used. The protruding element 342, provided at the inner surface of the connecting member, may be preferably positioned along the peripheral edge of the connecting member closer to the outer peripheral edge 312 of the frame member 264 such that the stitches 346 for joining the connecting member 344, the frame member 264 and the out cover 108 may be covered and protected by the inner liner 111.
Although trim elements 330 are described herein for releasably engaging the liners 111, 113 to the frame members 264, 266, in some examples, such trim elements 330 may be not required. The liners 111, 113 may be stitched or sewn to the frame member 264, 266 directly such that the trim elements 330, connecting member 344, the protruding element 328 on the surface of the elongated member 294 as shown in
It is contemplated that although a combination of an elongated member 294 with a T-shaped cross section and discrete latch mechanisms 280 are shown in
The connecting member 344, trim element 330 and the elongated member 294 as described herein may be formed as plastic extrusions using materials including, but not limited to, polyethylene (PE), polypropylene (PP), polyvinyl chloride (PVC), acrylonitrile butadiene styrene (ABS), and carbonate (PC). The frame members 128, 130, 264, 266 described herein may be formed using materials having a honeycomb structure or the like. Please note that the term honeycomb structure used herein includes, for example without limitation, a sheet structure having opposing outer layers and internal structure that defines the geometry of a honeycomb or the like. It also includes any structures that may not necessarily have the geometry of a honeycomb or the like, but may allow less amount of material to be used to reduce the weight of the structures while still maintaining the strength of the structures, for example without limitation, out-of-plane compression or shear properties of the structures, at a desired level. The additional and optional structural members 228, 232, 268 may be formed using materials such as a polypropylene (“PP”) or polyethylene (“PE”) sheet. The outer covers 108, 110 of the luggage cases herein may be formed using a relatively durable, and relatively soft or non-rigid or flexible material, such as natural or man-made woven or non-woven fabrics, or natural materials, such as leather, and so on. The inner liners 111, 113 of the luggage case may be formed using a less durable material as compared to the outer cover and relatively soft or non-rigid or flexible material such as nylon or polyester fabric.
Although a soft side luggage case is described herein as examples, the various frame structures as described herein may be incorporated to hybrid suitcases, backpacks, briefcases, computer bags, or any luggage items that contain a soft portion and may desire shape and/or structure reinforcement.
It is also contemplated that only one of the front or rear opposing portions of the luggage case may incorporate a frame member and/or the various structural elements described herein, while the other one of the front or rear opposing portions may not incorporate the frame member and/or the structural elements. In some implementations, the front opposing portion may take the form of a door or panel flap, thus not requiring a frame member as described herein or the structural elements for three dimension shape support.
It should be noted that all directional and/or dimensional references (e.g., upper, lower, upward, downward, left, right, leftward, rightward, top, bottom, above, below, front, back, rear, forward, backward, rearward, inner, outer, inward, outward, vertical, horizontal, clockwise, counterclockwise, length, width, height, depth, and relative orientation) are only used for identification purposes to aid the reader's understanding of the implementations of the disclosed invention(s), and do not create limitations, particularly as to the position, orientation, use relative size or geometry of the invention(s) unless specifically set forth in the claims.
Connection references (e.g., attached, coupled, connected, joined, and the like) are to be construed broadly and may include intermediate members between a connection of elements and relative movement between elements. As such, connection references do not necessarily infer that two elements are directly connected and in a fixed relation to each other.
In some instances, components are described with reference to “ends” having a particular characteristic and/or being connected with another part. However, those skilled in the art will recognize that the disclosed invention(s) is not limited to components that terminate immediately beyond their points of connection with other parts. Thus, the term “end” should be interpreted broadly, in a manner that includes areas adjacent, rearward, forward of, or otherwise near the terminus of a particular element, link, component, part, member or the like. In methodologies directly or indirectly set forth herein, various steps and operations are described in one possible order of operation, but those skilled in the art will recognize that steps and operations may be rearranged, replaced, or eliminated without necessarily departing from the spirit and scope of the present invention. It is intended that all matter contained in the above description or shown in the accompanying drawings shall be interpreted as illustrative only and not limiting. Changes in detail or structure may be made that are within the scope of the appended claims.
Number | Date | Country | Kind |
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12192405.4 | Nov 2012 | EP | regional |