The present disclosure relates generally to luggage articles, and more specifically to a luggage article frame structure.
Some luggage cases include a frame structure or arrangement to support a softside or hybrid luggage case housing. Many frame structures include rectangular wire loop frames for the lateral sides of luggage cases. Traditional frame configurations, however, often include relatively sharp corners or edges along the intersection between adjacent housing panels. These corners or edges may include piping or beading along a seam to help prevent wear and damage. Notwithstanding, such configurations are frequently prone to high levels of wear, and even failure, along the seams and edges through abrasion, seam, and/or corner damage. For example, a sharp edge at the intersection between adjacent housing panels may create an inherently weak point of construction that is prone to damage.
Additionally, luggage cases generally protect the belongings within the luggage case, and often the rear or back side of the luggage case is strengthened with additional structure, such as additional reinforcing boards, which detrimentally increase the weight of the luggage case.
It is therefore desirable to provide an improved luggage case, and more specifically an improved frame structure that addresses one or all of the above described problems and/or which more generally offers improvements or an alternative to existing arrangements.
Documents that may be related to the present disclosure include CA2760430, EP1251760, EP2139357, EP2512279, EP2537432, EP2592963, EP2729033, EP2787857, EP2982263, U.S. Pat. Nos. 2,298,786, 4,055,239, 4,895,230, 5,833,039, 6,502,677, 6,883,654, 7,188,714, 7,278,539, 8,695,770, 9,375,062, US20110162931, and WO2011033218
The present disclosure provides a luggage article, as described below and defined in the accompanying claims. The luggage article may be a softside luggage article including a frame structure. The frame structure may include a reinforcing board along a rear side of the luggage case. The reinforcing board may include one or more side portions extending from a central portion. The side portions may extend from the central portion over or along at least part of adjacent sides of the luggage case. The frame structure may include a closed loop frame supporting a side panel of the luggage case, the closed loop frame shaped to match and align with the side portions of the reinforcing board. The closed loop frame may be nonrectangular. For example, the closed loop frame may include an inwardly curved frame portion to match and align with curved distal edges of the side portions of the reinforcing board. The inwardly directed curved portion may be scallop-shaped.
Embodiments of the present disclosure may include a luggage article. The luggage article may include a housing, a reinforcing board, and a closed loop frame, which may support the housing. The housing may include opposing front and rear panels, opposing left and right side panels, and opposing top and bottom panels together defining front, rear, left, right, top, and bottom sides of the luggage article. The reinforcing board may include a central portion and first and second side portions on opposing lateral sides of the central portion. The central portion may extend over the rear side of the housing. The first and second side portions may extend over at least part of the opposing left and right sides of the housing. Each of the first and second side portions may include a distal edge. The closed loop frame may support one of the opposing left and right side panels. The closed loop frame may include a frame portion matching and aligned with the distal edge of the first side portion or the second side portion of the reinforcing board. In some examples, one of the first and second side portions supports one of the opposing left and right side panels. In another example, at least a portion of the side portion extends at least as far as a center line of the side panel. In another example, the closed loop frame includes a wire loop. In some examples the closed loop frame may include a top portion, wherein the top portion extends at least partially over the top side of the luggage article. The closed loop frame may be a wire loop in this example.
In some examples, the closed loop frame may include a front section, top and bottom sections extending from opposing ends of the front section, and a rear section extending from the top and bottom sections. The rear section may include a shape matching and aligned with the distal edge of the first side portion or the second side portion of the reinforcing board. The rear section may include a central section curved inwardly toward the front section to match and align with the distal edge of the first side portion or the second side portion of the reinforcing board. The front, top, and bottom sections of the closed loop frame may be substantially linear. The top and bottom sections may extend substantially perpendicularly from the front section. The rear section may connect the ends of the top and bottom sections together. In some examples, the side portion of the reinforcing board may be curved toward the front side of the luggage article to match and align with the rear section of the closed loop frame. In some examples, the distal edge of either or both of the side sections may have an arcuate shape. In some examples, the arcuate shape defines an apex, and the apex is positioned in a middle portion of the length of the front or rear sections.
In some examples, the closed loop frame may be coupled to the distal edge of the first side portion or the second side portion of the reinforcing board. In some examples, the rear section is curved toward the front section. In some examples, the rear section is a long side of the closed loop frame, and the curve has an arcuate shape. In some examples the curve defines an apex, which is positioned in a middle portion of the length of the left or right side.
In some examples, the luggage article may include a fabric seam aligned with the distal edges of the first and second side portions of the reinforcing board.
In some examples, the first and second side portions may be resiliently bent from the central portion to extend over at least part of the opposing left and right sides of the luggage article.
In some examples, the luggage article may include a first closed loop frame supporting the left side panel of the housing. The first closed loop may include a frame portion matching and aligned with the distal edge of the first side portion. The luggage article may include a second closed loop frame supporting the right side panel of the housing. The second closed loop frame may include a frame portion matching and aligned with the distal edge of the second side portion.
In some examples, the reinforcing board may include a top portion extending over at least part of the top side of the luggage article. The top portion may extend over a top front edge of the front side to form a top lip over a part of the top of the front panel. In some examples, the closed loop frame is a wire loop and includes an upper portion, and the upper portion may extend at least partially over the top side. Additionally, the top portion of the reinforcing board may define a curved side, and the upper portion of the closed loop frame mates with the curved side of the top portion of the reinforcing board.
The reinforcing board may include a bottom portion extending over at least part of the bottom side of the luggage article. The bottom portion may extend over a bottom front edge of the front side to form a bottom lip over a part of the bottom of the front panel. In some examples, a brace is coupled between the top portion of the reinforcing panel and a bottom portion of the reinforcing panel along left and right sides, and extends along a central portion between the front and back sides. The brace may be formed of two separate braces.
In some examples, the luggage article may include an outer fabric cover over at least part of the front, left, and right sides of the luggage article.
Some examples of the luggage article may include at least one wheel positioned on a bottom side of the luggage case. Other examples may include four wheels positioned on a bottom side of the luggage case. In another example of the luggage article, a door opening may be formed on the front side to selectively access the interior of the luggage case.
Embodiments of the present disclosure may include a luggage article. The luggage article may include a housing defining a rear edge between two adjacent sides, a reinforcing board including a first portion extending around the rear edge of the housing, and a closed loop frame including a frame portion matching and aligned with the first portion of the reinforcing board. In one further example, the first portion may define at least one curve, and the frame portion may define a mating curve to match and align with the curve defined by the first portion.
In some examples, the housing may include a rear panel, a left side panel, and a right side panel together defining rear, left, and right sides of the housing. The intersection between the rear side and the left side defining a left rear edge. The intersection between the rear side and right side defining a right rear edge. The first portion of the reinforcing board may curve around the left rear edge of the housing to extend at least partially over the left side of the housing. The reinforcing board may include a second portion extending around the right rear edge of the housing to extend at least partially over the right side of the housing. The closed loop frame may be a first closed loop frame supporting the left side panel of the housing. The luggage article may include a second closed loop frame supporting the right side panel of the housing. The second closed loop frame may include a frame portion matching and aligned with the second portion of the reinforcing board. The first and second portions of the reinforcing board may extend over only a rear portion of the left and right sides of the housing adjacent to the rear side. The closed loop frame may include a nonrectangular shape.
Embodiments of the present disclosure may include a method of manufacturing a luggage article. The method may include providing a reinforcing board, the reinforcing board including a central portion and one or more side portions extending from the central portion. The method may include positioning the central portion of the reinforcing board over a first side of the luggage article. The method may include wrapping the one or more side portions of the reinforcing board over a second side of the luggage article adjacent to the first side. The method may include positioning a closed loop frame adjacent to the one or more side portions of the reinforcing board, the closed loop frame including a frame portion matching and aligned with the one or more side portions of the reinforcing board.
In some examples, the one or more side portions of the reinforcing board may include first and second side portions on opposing lateral sides of the central portion. The closed loop frame may be positioned adjacent to the first side portion of the reinforcing board. The method may include positioning a second closed loop frame adjacent to the second side portion of the reinforcing board. The second closed loop frame may include a frame portion matching and aligned with the second side portion of the reinforcing board. In some examples, the method may include extending a top portion or a bottom portion of the reinforcing board over a top side or a bottom side of the luggage article.
Embodiments of the present disclosure may include a luggage article. The luggage article may include a housing defined by opposing front and rear panels, opposing left and right side panels, and opposing top and bottom panels together defining front, rear, left, right, top, and bottom sides of the luggage article. At least one of the panels may wrap around an edge of the housing to extend over a plurality of sides of the luggage article.
Embodiments of the present disclosure may include a luggage article having opposing front and rear panels, opposing left and right side panels, and opposing top and bottom panels together defining front, rear, left, right, top, and bottom sides of the luggage article. The back panel may include a rigid or semi-rigid reinforcing board defining side portions each extending around to cover at least a portion of the opposing left and right sides, respectively. The side portions may form a curve to extend around to cover the left and right sides.
In some examples, the side portions of the reinforcing board may extend along the sides at least as far as the centerline of the sides. Alternatively, the side portions of the reinforcing board may extend along the sides not further than the centerline of the sides.
In some embodiments, the luggage article may have opposing front and rear panels, opposing left and right side panels, and opposing top and bottom panels together defining front, rear, left, right, top, and bottom sides of the luggage article, where one of the left or right side panels (or both) may be non-rectangular, and either one or both may include a middle portion of a side having a curved shape. In one example, one of the left or right side panels has opposing long sides, with one of the long sides curved inwardly toward the other long side. In another example, one of the left or right side panels defines opposing short sides, with one of the short sides curved outwardly away from the other short side.
Additional embodiments and features are set forth in part in the description that follows, and will become apparent to those skilled in the art upon examination of the specification or may be learned by the practice of the disclosed subject matter. A further understanding of the nature and advantages of the present disclosure may be realized by reference to the remaining portions of the specification and the drawings, which forms a part of this disclosure. 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 description will be more fully understood with reference to the following figures in which components are not drawn to scale, which are presented as various examples of the present disclosure and should not be construed as a complete recitation of the scope of the disclosure, characterized in that:
According to the present disclosure, a frame structure is provided that is configured to support an outer fabric housing of a luggage article. The frame structure includes a reinforcing board along a back panel of the luggage article and one or more closed loop frame assemblies supporting a side panel of the luggage article. The reinforcing board may include shaped side portions that wrap around and extend over or along at least a portion of one or more sides of the luggage article. The closed loop frame may include a nonrectangular shape. For instance, the closed loop frame may include an inwardly extending portion to match and align with the shaped side portions of the reinforcing board. The shaped side portions of the reinforcing board may have a scalloped shape. The inwardly extending portion of the closed loop frame may have a scalloped shape to match a corresponding side portion of the reinforcing board. The reinforcing board may also include a top portion folded over or along the top of the luggage article, and/or a bottom portion folded over or along the bottom of the luggage article. The bottom portion of the reinforcing board may be attached to a bottom pan assembly.
The luggage article 100 may include a plurality of sides defining the geometric shape of the housing 102. For instance, the luggage article 100 may include opposing front and rear sides 118, 120, opposing top and bottom sides 122, 124, and opposing left and right sides 126, 128, that collectively define a cuboid shape of the luggage article 100. The luggage article defines a length, which is generally along the long dimension of the left, right front and rear sides. Depending on the particular application, each side may be defined by or covered by a corresponding panel. For instance, the front side 118 may be defined by or covered by the front panel 104, the rear side 120 may be defined by or covered by the rear panel 106, the top side 122 may be defined by or covered by the top panel 108, the bottom side 124 may be defined by or covered by the bottom panel 110, the left side 126 may be defined by or covered by the left side panel 112, and the right side 128 may be defined by or covered by the right side panel 114.
In some examples, at least one side of the luggage article 100 may be defined or covered by a plurality of panels. For instance, the top side 118 of the luggage article 100 may be defined by or covered by the top panel 108 and at least one other panel of the housing 102 (such as at least one of the front panel 104, the rear panel 106, the left side panel 112, and the right side panel 114). Similarly, the right side 128 of the luggage article 100 may be defined by or covered by the right side panel 114 and at least one other panel of the housing 102 (such as at least one of the front panel 104, the rear panel 106, the top panel 108, and the bottom panel 110). In like manner, the left side 126 of the luggage article 100 may be defined by or covered by the left side panel 112 and at least one other panel of the housing 102 (such as at least one of the front panel 104, the rear panel 106, the top panel 108, and the bottom panel 110). The front, rear, and bottom sides 118, 120, 124 of the luggage article 100 may be configured similarly. In this manner, any one panel may extend on two or more sides of the luggage article 100. For instance, the rear panel 106 may extend on the rear side 120 and both the left and right sides 126, 128 of the luggage article 100. In some examples, the right side panel 114 may extend on the right and top sides 128, 122 of the luggage article 100 (see
Any two adjacent sides of the luggage article 100 may intersect to define an edge of the housing 102. For example, the intersection of the front side 118 and the top side 122 may define a top front edge 130 of the housing 102. The intersection of the front side 118 and the bottom side 124 may define a bottom front edge 132 of the housing 102. Similarly, the intersections of the rear side 120 and the top, bottom, left, and right sides 122, 124, 126, 128 may define a top rear edge 134, a bottom rear edge 136, a left rear edge 138, and a right rear edge 140, respectively, of the housing 102. In like manner, the intersections between the top side 122 and the left and right sides 126, 128 may respectively define top left and right edges 142, 144 of the housing 102, and the intersections between the bottom side 124 and the left and right sides 126, 128 may respectively define bottom left and right edges 146, 148 of the housing 102.
In some examples, at least one of the panels may wrap around an edge of the housing 102 to extend over a plurality of sides of the luggage article 100. For example, as explained more fully below, the rear panel 106 may wrap around at least one of the left rear edge 138 and a right rear edge 140 of the housing 102 to extend over the rear side 120 and at least one of the left and right sides 126, 128 of the luggage article 100. Additionally or alternatively, the right side panel 114 may wrap around the top right edge 144 of the housing 102 to extend over the right and top sides 128, 122 of the luggage article 100. Similarly, the left side panel 112 may wrap around the top left edge 142 of the housing 102 to extend over the left and top sides 126, 122 of the luggage article 100, as detailed below.
With continued reference to
The luggage article 100 illustrated in
The luggage article 100 may include a closure mechanism 190 to selectively secure the lid 162 and the base 160 together. The closure mechanism 190 may be positioned along or adjacent the line of separation 164 between the lid 162 and the base 160 (such as along a periphery of the lid 162) to allow selective actuation for opening and closing of the luggage article 100. In an open configuration, the closure mechanism 190 is disengaged along substantially the entire length of the line of separation 164, thereby allowing the lid 162 and the base 160 to pivot relative to each other to any amount from partially open to fully open. In a closed configuration, the closure mechanism 190 is engaged along at least a portion of the length of the line of separation 164 to limit relative movement between the lid 162 and the base 160. The closure mechanism 190 may be any suitable closure device or system. For instance, the closure mechanism 190 may be a zip closure or attachment, though other types of closure devices are contemplated, including one or more latches spaced along the line of separation 164.
In one example, the closure mechanism 190 may extend along at least three edges of the lid 162, the hinge structure 166 being positioned on a remaining edge of the lid 162. In this manner, the lid 162 may be defined as a door panel 192. As one example, the front panel 104 may at least partially define the door panel 192. As shown in
In one example, the frame structure 200 includes a reinforcing board 202 and at least one closed loop frame 204. In some examples, the frame structure 200 may include a plurality of closed loop frames 204, such as a first closed loop frame 206 and a second closed loop frame 208. The frame structure 200 may also include a bottom pan assembly 210. As described below, each closed loop frame 204 may support one of the side panels of the housing 102. For example, the closed loop frame 204 may support one of the opposing left and right side panels 112, 114. In examples with first and second closed loop frames 206, 208, the first closed loop frame 206 may support the left side panel 112 of the housing 102, and the second closed loop frame 208 may support the right side panel 114 of the housing 102, as explained more fully below. Except as otherwise noted, the description of the closed loop frame 204 below is applicable to the first and second closed loop frames 206, 208, either individually or collectively.
The reinforcing board 202 may be arranged to extend over or along a plurality of sides of the housing 102. For example, the reinforcing board 202 may include a plurality of portions extending over or along respective sides of the housing 102. Depending on the particular application, “over” means “above” or “covering” or simply along, whether on the outside or inside of the luggage article 100, or as a layer or layers in a plurality of layers forming the cover of the luggage article 100. In one example, the reinforcing board 202 may include a central portion 220 and at least one side portion 222 extending therefrom. As illustrated, the reinforcing board 202 may include first and second side portions 224, 226 extending from opposing lateral sides of the central portion 220. The first and second side portions 224, 226 may be formed integrally with the central portion 220. In some examples, the reinforcing board 202 may include a top portion 228 extending from a top of the central portion 220. Additionally or alternatively, the reinforcing board 202 may include a bottom portion 230 extending from a bottom of the central portion 220. In such examples, the central portion 220 may extend over or along the rear side 120 of the housing 102. For example, the central portion 220 may extend over or along substantially all of the rear side 120 of the housing 102. The first and second side portions 224, 226, which may be referred to as wings, may extend from the central portion 220 over or along at least part of the opposing left and right sides 126, 128, respectively, of the housing 102. For instance, the first and second side portions 224, 226 of the reinforcing board 202 may be resiliently bent from the central portion 220 over or along at least part of the opposing left and right sides 224, 226. Depending on the particular application, the first and second side portions 224, 226 may extend over or along only a rear portion of the left and right sides 126, 128 adjacent to the rear side 120. The top portion 228 may be resiliently bent to extend from the central portion 220 over or along at least part of the top side 122. Depending on the particular application, the top portion 228 may be bent to extend beyond the top front edge 130 of the housing 102 to form a top lip 240 extending over or along a part of the top of the front panel 104. Similarly, the bottom portion 230 may be resiliently bent to extend from the central portion 220 over or along at least part of the bottom panel 110. Like the top portion 228, the bottom portion 230 may be bent to extend beyond the bottom front edge 132 of the housing 102 to form a bottom lip 242 extending over or along a part of the bottom of the front panel 104. As shown, the bottom portion 230 may be positioned outwardly of the bottom pan assembly 210. Alternatively, the bottom portion 230 may be positioned inwardly of the bottom pan assembly 210. The top portion 228 and/or the bottom portion 230 may be formed integrally with the central portion 220. The side portions of the reinforcing board may extend along the sides at least as far as the centerline 221 (
The reinforcing board 202 may include many shapes and configurations. For instance, the reinforcing board 202 may be substantially planar, linear, arcuate, or curved, among others, either collectively or in part. As shown, the first side portion 224 of the reinforcing board 202 may be bent in a curve around the left rear edge 138 of the housing 102 to at least partially extend over or along the left side 126. When bent around the left rear edge 138 of the housing 102, at least a portion of the first side portion 224 may extend in the plane of the left side panel 112. In like manner, the second side portion 226 of the reinforcing board 202 may be bent in a curve around the right rear edge 140 of the housing 102 to at least partially extend over or along the right side 128. Like the first side portion 224, when bent around the right rear edge 140 of the housing 102, at least a portion of the second side portion 226 may extend in the plane of the right side panel 114. The curvature of the first and second side portions 224, 226 at their respective interface with the central portion 220 may be smooth and continuous to provide a rounded shape to the right and left rear edges 140, 138 of the housing 102. In one non-limiting example, the radius of curvature of the reinforcing board 202 at the right and left rear edges 140, 138 may be between about 1.25 inches and about 2.25 inches, but may be larger or smaller. In other examples, the curvature of each of the side portions 224, 226 at the respective interface with the central portion 220 may be a series of straight sections angled relative to one another to form a curve when taken together. Additionally, the curve formed at the interface between the central portion 220 and either one or both of the side portions 224, 226 may have a continuous radius of curvature, or an increasing or decreasing radius of curvature.
The curved nature of the reinforcing board 202 around the edges of the housing 102 may limit undesired failure of the luggage article 100 when dropped or otherwise impacted on edge. For instance, by curving around the respective edges of the housing 102, the reinforcing board 202 may distribute impact forces throughout the reinforcing board 202 and/or other portions of the frame structure 200 to limit failure of the housing 102 during operation. For instance, some traditional luggage case construction methods include straight edges at the intersections between adjacent panels. Though sometimes protected by piping or beading, these straight edges can be a weak point of construction and sometimes fail through abrasion and/or seam failure. This is especially true for the edges running along the back side of a luggage case. The present disclosure, however, reduces or eliminates hard edges along the edges of the luggage article 100 by creating a radius in the middle of the edge span. Because no point of an arch is weaker than any other, impacts to these areas are not focused on a sharp corner, and may result in less damage. The curved nature of the reinforcing board 202 may also create tension forces in the framing of the luggage article 100 that creates resiliency and allows the housing 102 to spring back into shape after impact.
The top and bottom portions 228, 230 of the reinforcing board 202 may be arranged similar to the first and second side portions 224, 226. Specifically, the top portion 228 of the reinforcing board 202 may curve around the top rear edge 134 to at least partially extend over or along the top side 122 of the housing 102. In such examples, at least part of the top portion 228 of the reinforcing board 202 may extend in the plane of the top panel 108. In one example, the top portion 228 of the reinforcing board 202 may curve around both the top rear edge 134 and the top front edge 130 to at least partially extend over or along the front and top sides 118, 122 of the housing 102. In such examples, at least part of the top portion 228 of the reinforcing board 202 may also extend in the plane of the front panel 104. The bottom portion 230 may be positioned similarly. For instance, the bottom portion 230 of the reinforcing board 202 may curve around the bottom rear edge 136 to at least partially extend over or along the bottom side 124 of the housing 102. In such examples, at least part of the bottom portion 230 of the reinforcing board 202 may extend in the plane of the bottom panel 110. In some examples, the bottom portion 230 of the reinforcing board 202 may curve around both the bottom rear edge 136 and the bottom front edge 132 to at least partially extend over or along the front and bottom sides 118, 124 of the housing 102. In such examples, at least part of the bottom portion 230 of the reinforcing board 202 may also extend in the plane of the front panel 104.
With continued reference to
The reinforcing board 202 may take the form of a sheet of material which may form a panel structure. The reinforcing board may be rigid or semi-rigid, the rigid sheet of material being more difficult to bend than the semi-rigid material. In one example, the sheet of material may be resilient to bend and when released retake its original form, or may be semi-resilient so as to bend and when released to take a shape similar to but not the same as its original form. The sheet may be a single layer, or may be more than one layer, and/or additionally may be structural sheet, such as for example having a honeycomb, ribbed, corrugated, or other structure. The reinforcing board may be relatively thin, such as having a thickness dimension ranging approximately from 0.5 to 2.5 mm. The reinforcing board may be formed from many materials to provide a desired characteristic. As one example, the reinforcing board 202 may be formed from material allowing the reinforcing board 202 to resiliently deform. Such material selection may limit undesired failure of the luggage article 100 when dropped or otherwise impacted. For instance, when impacted by an impact force, the resilient nature of the reinforcing board 202 may allow the housing 102 to bend or flex during operation. As one example, the reinforcing board 202 may be formed from PE or PP material, or may be formed of a combination of materials, though many suitable materials are contemplated.
The closed loop frame 204 will now be discussed in more detail. As shown, the closed loop frame 204 may include a frame portion 260 matching and aligned with a corresponding distal edge 250 of the reinforcing board 202. For example, the frame portion 260 of the first closed loop frame 206 may match and align with the distal edge 250 of the first side portion 224 of the reinforcing board 202. In like manner, the frame portion 260 of the second closed loop frame 208 may match and align with the distal edge 250 of the second side portion 226 of the reinforcing board 202. The closed loop frame 204 may include a front section 262 extending adjacent to the front panel 104 and a rear section 264 extending adjacent to the rear panel 106. The closed loop frame 204 may include top and bottom sections 266, 268 extending between the front and rear sections 262, 264 and respectively adjacent to the top and bottom panels 108, 110. Specifically, the top and bottom sections 266, 268 may extend from opposing ends of the front section 262. In such examples, the rear section 264 may extend from the top and bottom sections 266, 268. For instance, the rear section 264 may connect ends of the top and bottom sections 266, 268 together.
The closed loop frame 204 may include many shapes and configurations. For instance, the closed loop frame 204 may include a nonrectangular shape to match and align with the reinforcing board 202. As one example, the rear section 264 of the closed loop frame 204 may include a shape matching and aligned with the distal edge 250 of first side portion 224 or the second side portion 226 of the reinforcing board 202. Specifically, the rear section 264 may include a central section 280 extending, and preferably curved or scalloped, inwardly toward the front section 262 to match and align with the curved shape of the distal edge 250 of the first side portion 224 or the second side portion 226 of the reinforcing board 202. As shown in
Referring to
With reference to
The closed loop frame 204 may include many levels of desired rigidity or flexibility. For instance, the closed loop frame 204 may be designed to be resiliently flexible to allow resilient deformation or deflection of the closed loop frame 204 during use. The resilient characteristic of the closed loop frame 204 may allow the closed loop frame 204 to absorb impacts to the luggage article 100 and/or allow the closed loop frame 204 to flex to accommodate packing of contents within the luggage article 100. More specifically, as portions of the closed loop frame 204 are induced to deform or deflect, such as inwardly or outwardly, the closed loop frame 204 may provide an opposingly directed biasing force resisting such deformation or deflection. The resilient characteristic of the closed loop frame 204 may be provided by the material properties of the front section 262, the rear section 264, the top section 266, and/or the bottom section 268, by the shape of the respective frame sections, by the connection structure between the various frame sections, or a combination thereof.
The closed loop frame 204 may be formed in many configurations. For example, the closed loop frame 204 may be formed as a continuous wire loop. Additionally or alternatively, the closed loop frame 204 may include one or more elongate elements connected together at adjacent corners, and/or along the length of the elongate elements if desired. More particularly, the front, rear, top, and bottom sections 262, 264, 266, 268 of the closed loop frame 204 may be separate elements coupled together, such as elongate rods, wires, or pultrusions. As noted above, the front, rear, top, and bottom sections 262, 264, 266, 268 may extend in a straight or a substantially straight line, may be curved along their lengths, or may include a combination of straight and curved segments.
Referring to
The panel frame 300 may be defined in a closed loop. For example, the panel frame 300 may include one or more elongate elements connected together to define a closed loop frame structure. As shown, the panel frame 300 may form a generally rectangular shape with rounded corners, though the panel frame 300 may be formed in other suitable shapes, such as polygonal, elliptical, or circular, among others. The elongate elements may extend in a straight or a substantially straight line, may be curved along their lengths, or may include a combination of straight and curved segments. As shown, the distal edges 250 of the top and bottom portions 228, 230 of the reinforcing board 202 may be shaped to match and align with the panel frame 300. For example, the distal edges 250 of the top and bottom portions 228, 230 of the reinforcing board 202 may be concavely curved to match and align with convexly curved sections of the panel frame 300.
The panel frame 300 may be resiliently flexible in a manner similar to the closed loop frame 204. In one example, the panel frame 300 may be arranged to tension the door panel 192. For instance, the panel frame 300 may be outwardly biased against an inner periphery of the door panel 192 to suitably tension the door panel 192 for use. More specifically, the panel frame 300 may engage at least a portion of the inner periphery of the door panel 192 to create a tension force in the door panel 192.
Referring to
Referring to
With continued reference to
The luggage article 100 may be formed from a variety of materials and means. For example, portions of the frame structure 200 may be formed from a thermoplastic material (self-reinforced or fiber reinforced), ABS, polycarbonate, polypropylene, polystyrene, PVC, polyamide, and/or PTFE, among others. In some examples, the closed loop frame 204 and the panel frame 300 may be extruded from aluminum or other similar metal. In addition, the closed loop frame 204 and the panel frame 300 may be formed from fiber reinforced epoxy, resin, or other similar material. The bottom panel 110 may include a honeycomb structure. For example, the bottom pan assembly 210 may include a honeycomb design. The frame structure 200 may be formed or molded in any suitable manner, such as by plug molding, blow molding, injection molding, extrusion, casting, or the like. As noted above, the luggage article 100 may be formed from softside material and/or hardside material. The softside material may be nylon, canvas, polyester, leather, PVC, polypropylene, polyethylene, and/or PTFE, among others. The hardside material may be a thermoplastic material (self-reinforced or fiber reinforced), ABS, polycarbonate, polypropylene, polystyrene, PVC, polyamide, and/or PTFE, among others.
All relative and directional references (including: upper, lower, upward, downward, left, right, leftward, rightward, top, bottom, side, above, below, front, middle, back, vertical, horizontal, and so forth) are given by way of example to aid the reader's understanding of the particular examples described herein. They should not be read to be requirements or limitations, particularly as to the position, orientation, or use 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 fixed relation to each other, unless specifically set forth in the claims.
Those skilled in the art will appreciate that the presently disclosed examples teach by way of example and not by limitation. Therefore, the matter contained in the above description or shown in the accompanying drawings should be interpreted as illustrative and not in a limiting sense. The following claims are intended to cover all generic and specific features described herein, as well as all statements of the scope of the present method and system, which, as a matter of language, might be said to fall there between.
This application is a continuation-in-part and claims priority under 35 U.S.C. § 120 to U.S. application Ser. No. 29/628,096 filed Dec. 1, 2017, and this application is also a continuation-in-part and claims priority under 35 U.S.C. § 120 to U.S. application Ser. No. 29/628,103 filed Dec. 1, 2017, both of which are hereby incorporated by reference in their entireties.
Number | Name | Date | Kind |
---|---|---|---|
2298786 | Dubofsky et al. | Oct 1942 | A |
4055239 | Weiner et al. | Oct 1977 | A |
4895230 | King | Jan 1990 | A |
5833039 | Kotkins, Jr. | Nov 1998 | A |
6119835 | Lin | Sep 2000 | A |
6148973 | Chang | Nov 2000 | A |
D463663 | Magana | Oct 2002 | S |
6502677 | Tiramani et al. | Jan 2003 | B1 |
D479042 | Szyf | Sep 2003 | S |
D493283 | Rada et al. | Jul 2004 | S |
6883654 | Godshaw et al. | Apr 2005 | B2 |
7188714 | Herold et al. | Mar 2007 | B1 |
7278539 | Souza | Oct 2007 | B2 |
D601342 | Choi | Oct 2009 | S |
D603163 | Van | Nov 2009 | S |
D630850 | Gifford | Jan 2011 | S |
D644838 | Tong | Sep 2011 | S |
D665997 | Meersschaert | Aug 2012 | S |
8695770 | Santy | Apr 2014 | B2 |
D731181 | Majeau et al. | Jun 2015 | S |
D751820 | Recchia | Mar 2016 | S |
D755523 | Szyf et al. | May 2016 | S |
9375062 | Collins et al. | Jun 2016 | B2 |
D774758 | Hopwood et al. | Dec 2016 | S |
D809294 | Tong | Feb 2018 | S |
D810434 | Xu | Feb 2018 | S |
10292472 | Santy et al. | May 2019 | B2 |
20030038010 | Kuwayama | Feb 2003 | A1 |
20040007434 | Godshaw et al. | Jan 2004 | A1 |
20050077135 | Drew et al. | Apr 2005 | A1 |
20080196988 | Tong | Aug 2008 | A1 |
20080223678 | Godshaw et al. | Sep 2008 | A1 |
20110162931 | Collins et al. | Jul 2011 | A1 |
20120090934 | Keir | Apr 2012 | A1 |
20160029763 | Meersschaert | Feb 2016 | A1 |
Number | Date | Country |
---|---|---|
2760430 | Jun 2012 | CA |
0052852440002 | May 2018 | EM |
0052852440003 | May 2018 | EM |
1251760 | Mar 2008 | EP |
2512279 | Oct 2012 | EP |
2592963 | May 2013 | EP |
2537432 | May 2014 | EP |
2729033 | May 2014 | EP |
2787857 | Apr 2016 | EP |
2139357 | May 2016 | EP |
2982263 | Jul 2017 | EP |
3494829 | Jun 2019 | EP |
2011033218 | Mar 2011 | WO |
Entry |
---|
Samsonite, “Samsonite Flexis 21” Spinner, https://shop.samsonite.com/samsonite-flexis-21-spinner/1102391465.html?rrec=true, Oldest Review Dec. 2018, 2018, 5 pages. |
American Tourister, “Matchup Valise 4 roues 79cm”, https://www.americantourister.fr/matchup-valise-4-roues-79cm-popcorn-yellow/124712-1709.html?cgid=luggage_soft-suitcases, Accessed Jun. 14, 2019, 4 pages. |
Samsonite, “Samsonite Eco-Nu 20” Expandable Spinner, https://shop.samsonite.com/luggage/carry-on-luggage/samsonite-eco-nu-20-expandable-spinner-/107639XXXX.html?dwvar_107639XXXX_color=Raspberry&cgidmaster=lugaz, 2018, 6 pages. |
Number | Date | Country | |
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20190166967 A1 | Jun 2019 | US |
Number | Date | Country | |
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Parent | 29628096 | Dec 2017 | US |
Child | 15835390 | US | |
Parent | 15835390 | US | |
Child | 15835390 | US |