Portable tents are well-known and can be used for many different purposes. This invention relates to tents adaptable for indoor use. More particularly, the tent of this invention incorporates a bottom portion adapted to be fitted over a conventional mattress. Known in the prior art as a Bed-tent, this embodiment is especially popular for use as a children's toy.
Prior art Bed-tents consist of some sort of a fabric covered pole structure, which rests on the top surface of a conventional bed mattress. Prior art Bed-tents utilize semi-rigid, bowed poles which place the cover or canopy under tension; the tension is provided by bending the support poles and securing them with a canopy which is attached to the mattress. Bed-tents have enjoyed commercial success but have always presented problems of various types.
One of the principal problems with prior art Bed-tents is that associated with erecting them. Prior art Bed-tents require simultaneous assembly of an independent pole structure and a separate canopy, and the user must be familiar with an exacting set-up procedure. The process begins with unpacking a bewildering assortment of pole segments and an enormous, shapeless canopy. Segments of different-length poles are connected and passed through a specific sequence of fabric sleeves or the like; the sleeves and canopy form a confusing labyrinth and choosing the correct pole for the correct sleeve makes this an unforgiving process. Each pole is then secured at both ends by insertion into a flexible pocket affixed to the canopy; the user must combat the tension of each pole during this process which becomes more difficult as more poles are added. Further, the finished set-up shape is completely unrecognizable when the structure's components are laid out; only after the final pole is secured does the Bed-tent's shape become apparent. It is no surprise that the instruction manuals for prior-art Bed-tents caution, “Adult assembly required.”
Further complicating the set-up procedure, all prior-art Bed-tents place the flexible frame members inside the canopy, where access is limited during set-up and assembly. Original Bed-tent U.S. Pat. No. 4,852,598 describes, “elongated flexible frame members adapted to support said canopy means over said mattress when positioned between said top surface of said mattress and said canopy means.” Erecting such Bed-tents requires adults to climb inside the partially supported, trembling canopy while securing the internal pole structure in an exact position. As most adults cannot fit inside prior-art Bed-tents, which are designed to attach to a child's twin size mattress, the torments above are greatly multiplied.
Ease of set-up is a strong consideration for adults purchasing toys such as a Bed-tent. In short, parents generally will not tolerate time-consuming assembly of toy products and frequently return a product to the retailer if assembly is too difficult. Present day Bed-tents suffer the significant liability of an extra-ordinarily high return percentage. Most Bed-tents are currently sold through mail-order outlets, which offer generous return privileges; traditional retailers no longer distribute the prior art product.
Attempts have been made to simplify the task of erecting the Bed-tent. U.S. Pat. No. 4,590,956 proved too difficult to assemble because of an integrated canopy and fitted sheet which attached to the mattress. U.S. Pat. No. 4,852,598 eliminated the integral fitted sheet and thus simplified the set-up procedure but only to a small degree.
A Bed-tent is disclosed herein which eliminates the internal frame assembly of the prior art. This Bed-tent instead utilizes a flexible, resilient strip material induced by a non-stretch fabric to form a weight-bearing panel. By itself the strip sags and offers no support, however because the strip is secured at generally all points of it's perimeter by the attached non-stretch fabric, it can bear considerable weight. The weight-bearing capacity of the resilient strip is increased by the provision of anchoring means or retainers, such as elastic bands, which releasably attach the structure to the mattress.
The strip material may be made of plastic, metal, fiber composite or the like and is collapsed by turning or twisting into a packed generally flat disk as illustrated. The strip may be a closed annulus and with the covering fabric forms a panel that is circular, oval, elliptical or generally square, rectangular or triangular with acute or truncated corners. It should be noted that different-shaped panels can be used interchangeably. The strip may also be open-ended rather than a closed annulus to form an arch-type panel; the strip(s) may be permanently or removably attached to the fabric cover to allow washing of the fabric. It may also include a coupling means that permits the abutting ends of the strip material to rotate with respect to each other to simplify the collapsing process. The panel incorporates openings for doors and/or windows and retains the weight-bearing feature.
One presently preferred embodiment of a Bed-tent is comprised of two opposing panels, a releasably connected pole to maintain them generally upright and a flexible fabric canopy, which forms an enclosure. The pole is segmented for folding and made of plastic, fiberglass or the like and may be adapted, as a non-limiting example, by forming an upside-down “V” for increased headroom inside the structure. The pole can be placed inside or outside of the canopy; the preferred embodiment utilizes an external pole to provide full accessibility while assembling and disassembling the structure. The resilient strip of the preferred embodiment may be substituted by semi-rigid members made of fiberglass, plastic or the like and made of segmented pieces and connected by an elastic cord, or telescoped, for ease of storage. Semi-rigid frame members may be utilized in the manner as prior bed-tent U.S. Pat. No. 4,852,598; however positioned outside the canopy for ease of assembly.
Similar to the preferred embodiment, a related arrangement is comprised of three panels (rather than two) and a canopy, which forms an enclosure. The additional panel is arranged along the third side of the structure; the pole, while not required, preferably supports the canopy and a fourth side of the structure. The three panels may also be arranged as two opposite sides and roof, in which case the pole may be eliminated, but this structure may be less stable.
A further related arrangement incorporates four panels and a fabric canopy to form an enclosure. As above, three panels are arranged along the sides of the structure. The additional panel supports the roof; the pole may be eliminated without loss of stability. One panel may also be arranged on each of the four sides of the structure and, as in the previous arrangement, the pole may be eliminated. However, in this arrangement at least one pole—or pole assemblies—may be releasably attached between the panels to provide for vestibules, awnings, wings, fins or other aesthetic and/or semi-functional adaptions. This latter arrangement may also accommodate a fifth panel to support the roof. Some embodiments with more than two panels may be easier to set-up and disassemble by the provision of at least one releasable coupling on one or more of the panels.
The panels can be adapted to provide increased stability. For example, panels suffer from buckling or bowing along the length of the mattress or when wider mattresses are contemplated; larger panels are also difficult to collapse. To increase the stability of the structure and to simplify the collapsing process, both the resilient strip and covering fabric of the panels may be adapted in several ways. Two strips, which overlie each other on a portion thereof in the same panel, provide more support than a single residual strip and collapse as usual. A panel utilizing a resilient strip formed in a “figure 8” arrangement (which is essentially two smaller panels) increases stability and collapses as usual. The “figure 8” arrangement can turn the corner of the mattress and thereby form at least a portion of two sides of the structure. Similarly, a larger panel may be comprised of two or more smaller panels in the same plane; the smaller panels can be adjoined or spaced apart and connected by an interconnecting piece of fabric, which is part of the panel. Adjoining panels may also be overlapped by a further panel secured to them by Velcro®, buttons, snap-fit engagements or ties as common in the art. Maximum stability is gained by overlapped panels secured by stitching or the like. In such an arrangement, one panel “pierces” the fabric covering of another panel and is stitched at the intersection point to the pierced panel. The overlapped panels pivot around the intersection point; when pivoted in one direction, the panels lie atop each other and collapse as usual. When pivoted in the opposite direction, the overlapped section of the panels prevents them from moving beyond an in-line configuration with each other. Two overlapped, intersecting panels in the same plane form a very stable equivalent of one larger panel. Similarly, two overlapped, intersecting panels in perpendicular planes form a very stable right-angle configuration for the corners of a structure. Elastic bands, attached to the outside distal section of the panels, maintain the overlapped panels in a right-angle configuration when stretched over the corners of the mattress.
An even simpler arrangement utilizes only a single resilient strip to form the frame of the structure, however it is the least stable of the embodiments. The single strip is induced by the fabric into a saddle-shaped annulus comprised of four serially-connected arches; each arch forms one side of a rectangle which corresponds generally to the shape of a bed mattress. The first arch is upwardly-shaped along the length of the mattress, the second arch is shaped downwardly as it traverses the mattress end, the third arch is again upwardly-shaped along the length of the opposite side of the mattress, the fourth arch is downwardly-shaped and traverses the opposite end of the mattress. A similar arrangement turns the saddle-shaped annulus upside down. Embodiments illustrated in the following figures include a resilient strip which crosses at the apex of the annulus in the formation of a “figure 8” with the arches of the “8” extending downwards to form the sides of the structure.
Bending or pre-forming the resilient strip of these embodiments contributes significant advantages. Strip members shaped at the four corners conform to the rectangular shape of the mattress instead of assuming a circular or oval shape which expands over the edges of the bed. The shaping also increases the internal “living space” of the structure. Similarly, bending the upward strip so it is approximately flat instead of arched raises the structure's height and increases “headroom” for the user. To facilitate bending of the resilient strip material, rounded stock (rather than flat stock) of plastic, metal, fiber composite or the like is preferred but not required. Rounded stock “takes” a bend in any direction more readily than flat stock which bends easily in one plane but not in the other.
Instead of a single strip, the structure of my invention may utilize two or more resilient strips for enhanced stability. Certain embodiments may include a second or third strip inside the same or separate fabric channels. The strips may be made from a continuous piece of strip material or from separate strips. Multiple strip embodiments also allow for frames made of different material and diameters; for example in one embodiment, the member forming the base of the Bed-tent is made of a lighter, reduced diameter, less-expensive stock than the upward-shaped member. Rotatable connectors between the ends of the strip material eases the folding of the structure and allows embodiments with base strip members to lay flat after assembly. The rotatable connector(s) may be designed to couple the separate strip members although such coupling is not required.
Another embodiment of the present invention utilizes a single continuous resilient strip, which forms the base of the structure. The fabric canopy is supported by one or more open-ended resilient strips formed into an arch shape by a fabric channel affixed to the base by stitching or the like. A pivoting junction, affixed to the base loop is a further non-limiting attachment means. To assemble the structure, the open-ended resilient strips are raised generally vertically and attached to the canopy by ties, tabs, Velcro® or the like. To collapse the structure, at least one open-ended resilient strip is detached from the canopy, allowing both open-ended strips to lie atop of the resilient base strip. The structure is collapsed by folding as usual. Both the base strip and the open-ended strip(s) can be bent, as previously described, to better conform to the rectangular shape of the mattress.
To assemble the bed-tent, the resilient strip pops open and virtually “self-erects” when shaken by the user. The segmented pole, when required, is unfolded and inserted into a flexible fabric sleeve or flexible pole-pockets attached to the canopy. Placing the structure on top of the bedding, the user fits elastic band retainers or the like, attached to the four corners of the bed-tent, over the four corners of the mattress. Elastic bands readily adapt to the user's bedding and to mattresses of varying thicknesses, whether 8 or 18 inches or any size. A similar means incorporates fabric pockets stitched to the ends of the structure. Both arrangements allow the bed-tent to be attached on top of bedding such as sheets and blankets. A third arrangement, attaches the structure to a conventional fitted sheet, but the user's bedding is partially or fully covered thereby. While the bed-tent of my invention is preferably attached to the top of a mattress, it can be adapted for a lower position on the bed: elastic bands or fabric sections, fitted between the mattress and box spring, or on top of the top mattress, or both, affix the bed-tent to the peripheral sides of the mattress and prevent the structure from sliding to the floor. This arrangement allows for bedding to be “tucked in” in the normal manner and otherwise includes all the features and forms disclosed previously.
To disassemble the bed-tent, the user detaches the elastic bands or the like from the mattress. When a segmented pole is used, it is detached from the structure and folded. If overlapped panels are used, they are manipulated to lie upon each other. The panels are collapsed as illustrated.
Accordingly, several advantages and benefits of the present invention are described hereinafter.
Base of Assembly
The bed-tents are uniquely easy to assemble. When shaken by the user, the collapsed panels pop open and virtually self-erect; the structure's finished set-up shape is immediately recognizable. The structure is attached to the mattress by elastic bands or the like in a manner common to the bedding industry. The bed-tents can be easily assembled by a novice or first-time user; there is no “adult assembly required.” Children six years old can assemble their own bed-tents without adult assistance and feel a sense of accomplishment. To disassemble the bed-tent, the assembly process is reversed and the resilient strip(s) collapsed by folding or winding as described in the accompanying drawings.
Adaptable Design
The bed-tents permit a wide range of shapes by providing for increased adaptability of the structure's framing members. Some embodiments of the bed-tents utilize a segmented pole located outside the bed-tent canopy. Because the pole is accessible, users can conveniently and with minimal expense attach additional frame members for aesthetic or semi-functional purposes conveniently and with minimal expense. For example, frame members can be added to support extensions of the canopy such as awnings, verandas, vestibules or covered windows. Elements such as wings, fins or the like can be added to increase aesthetic options. The toy industry's commercial viability depends upon new shapes and designs which the bed-tent richly provides; this is a significant advantage in the crowded, competitive field of children's toys. Finally, the bed-tents can easily be adapted for larger mattresses by increasing the size or number of the panel(s) and enlarging the canopy.
Fewer Parts
Prior art bed-tent structures required as many as seven separate rods or at least two framing assemblies. One presently preferred embodiment of a bed-tent utilizes one pole, with segments interconnected via elastic shock cord or telescoped as is customary in the art. Other embodiments eliminate the pole and instead utilize additional flexible panels as described above. In addition to using fewer parts, some embodiments of the bed-tents eliminate the possibility of lost parts.
Speedier Assembly
Still another improvement in the bed-tents is the speed of assembly. In the preferred embodiment, poles rapidly self-assemble by means of an integrated, tensioned cord. The panels pop open instantly. The structure quickly attaches to the mattress with a few elastic bands. Other bed-tent embodiments, without the pole, require only to be popped open before attachment to the mattress. Adults and especially children will appreciate the increased speed in erecting their bed-tents.
Safety
A still further improvement of my bed-tent is safety and reliability. Prior art bed-tents, which secured the poles inside the canopy with fabric ties and the like, posed a potential hazard of the child's strangulation on the framing members. The pole of my invention is located out of harm's reach outside of the canopy. Embodiments utilizing a pole bend readily and can flatten all the way to the mattress and recover to their original position. The flexible strip(s) bend to absorb stress from any direction without breakage. Access from inside the bed-tent to the elastic straps which attach the structure to the mattress, is prohibited. Further, the bed-tents are devoid of small loose parts that can be mistakenly swallowed by a child.
My bed-tent's structure and attachment means remain secured to the mattress despite considerable lateral force applied against them. A surprising and unexpected result is that at least some embodiments of the bed-tents can actually catch and hold a small child who might otherwise fall to the floor. A larger child's fall is slowed and possible impact lessened. While especially effective when closed, a partially opened bed-tent can also perform this important function.
Child Friendly Shape
The bed-tents preferably rest on an approximately rectangular, open base attached to the mattress. The open base and attachment means enable the bed-tent to fit over a child's favorite bedding; no specialized sheets, blankets, etc., are required. Further, removal of sheets or blankets is not necessary for assembly or disassembly of the structure. Bedding, including fitted sheets beneath the structure, can be neatened in the normal manner. The vertical sidewalls of my invention provide for full utilization of the mattress so pillows, blankets and toys may be pushed all the way to the edge. Finally, the bed-tents desirably can provide a consistent height throughout the entire length of the bed-tent for maximum use of the internal space.
Less Expensive
Nature's most efficient shape (maximum internal volume with minimum surface area) is a sphere. Due to the circular, elliptical or arch shape of certain portions of some embodiments of my bed-tents, they may enclose more cubic living space per given amount of fabric than any prior-art bed-tent. Putting this another way, to provide a structure of given internal size, the bed-tent of my invention requires less fabric. The consistent height of my preferred embodiment also eliminates fabric waste as full widths of material can be utilized. Because my invention eliminates the apex common to all prior-art bed-tents, costly workmanship to cut and sew irregular fabric patterns is minimized. Finally, the bed-tents eliminate the obvious disadvantage of breakage suffered by prior art bed-tents, which are ruined if a single frame member fails. Present-day bed-tent manufacturers employ costly service departments, which serve primarily to replace broken frame members.
Compact and Portable
The bed-tents preferably fold into a compact flat disc. Weight of the packed bed-tent is evenly balanced for ease of transport. The segmented pole is folded into a small bundle as common in the prior art. Containerizing, shipping and insurance costs are correspondingly reduced.
The features, advantages and objects of my invention, which are explicit and implicit in the foregoing, as well as others, will become apparent and more fully understood from the following description of the invention made in connection with the accompanying drawings.
These and other objects, features and advantages of the present invention will be apparent from the following detailed description of the preferred embodiments and best mode, appended claims and accompanying drawings in which:
Referring now more particularly to the drawings, and especially
The bed-tent 10 comprises a canopy 19 having an open base 20 generally co-extensive with the peripheral edge 16 of the mattress. The canopy has end panels 22 and 24, and a flexible fabric cover 26. A supporting frame 28 holds the end panels in longitudinally spaced, generally upright position.
The end panels 22 and 24 are preferably of identical construction, each comprising a sheet 30 of substantially non-stretchable flexible fabric and a framing member in the form of hoop 32 of flexible, resilient strip material such as spring steel, composite rod or plastic, for example. Each hoop may be a continuous annulus or it may be transversely split with abutting ends at the split or open-ended to provide for an arch shape hoop (not shown). The hoops may be circular throughout a full 360° or they may be other than circular as by being of oval shape as shown in
The cover 26 is made of substantially non-stretchable, flexible fabric and extends between the end panels 22 and 24. The cover 26 is held fairly taut by having its ends stitched or otherwise secured to the margins of the end panels as by a zipper, for example and to the side edges of extensions 33 of the sheets 30. The cover 26 defines the sides and top of the canopy. One side of the cover 26 has a cut away portion providing a flap 35 that may be folded back to form an opening for access to the interior of the canopy. The flap serves as a closure for the opening when extended across the opening and held shut by a zipper or other fastening device.
Two flexible retainers, preferably in the form of elastic straps 40 are secured to extensions 33 of the sheet 30 of each end panel 22, 24. The straps 40 are adapted to be extended over the four corners of the mattress 14 to hold the tent on the mattress. The four corners of the bed-tent preferably have pads or triangular fabric pieces 41 stitched or otherwise secured to the lower edges of the sides of the cover 26 and the sheet extensions 33. The pads 41 may be formed of the same fabric as the cover 26 and sheet extensions 33. Alternatively, the pads may be non-stretchable flexible strips. The pads rest upon the top surface of the mattress 14 and prevent the sides of the cover and the sheet extensions from being pulled over the peripheral edge of the mattress by the straps 40. If the bed-tent 10 has an open base 20 smaller than the mattress 14, the pads 41 may be eliminated and the elastic straps 40 lengthened.
The frame 28 includes a stanchion 42 disposed externally of the canopy 19 adjacent the end panel 22, and a stanchion 44 externally of the canopy adjacent the end panel 24. The stanchion 42 includes a first pair of legs 46 and 48. The stanchion 44 includes a second pair of legs 50 and 52. The frame 28 also includes a horizontal frame member 53 that extends between and is secured to the stanchions 42 and 44 and holds the stanchions erect.
Each of the legs 46, 48, 50 and 52 has a plurality of elongated, tubular leg segments 56 removably connected together end-to-end in a linear series. The connecting of the leg segments is accomplished by a sleeve 57 on one leg segment slidably receiving an end of an adjacent leg segment. The uppermost leg segment of each of the legs 46 and 48 of the stanchion 42 is removably fitted into a hole in a hollow coupling 60. The uppermost leg segment of each of the legs 50 and 52 of the stanchion 44 is removably fitted into a hole in a hollow coupling 62.
Pockets 64 are secured to the extensions 33 of the sheet 30 of each end panel 22, 24 to receive the lower ends of the legs 46, 48, 50 and 52 as more fully described hereinafter.
Clips 65 are attached to the outer surface of the sheets 30 of each end panel 22, 24 and to the top of the cover 26 for removable connection to the legs 46, 48, 50 and 52 and to the frame member 53.
The frame member 53 comprises a plurality of elongated, tubular frame member segments 68 removably connected together end-to-end in a linear series in the same manner as the leg segments 56. The segments 68 at the ends of the frame member 53 are removably fitted in holes in the respective couplings 60 and 62.
Elastic cording 69 secures the segments of the legs 46-52 and of the frame member 53 together under tension. The cording includes an elastic cord 70 which has one end attached to the lowermost tubular leg segment of the leg 46 and extends through all of the leg segments 56 of leg 46, through the hollow coupling 60, through the tubular segments 68 of the frame member 53, through the hollow coupling 62, and through the tubular leg segments 56 of the leg 50, being attached at the opposite end to the lowermost leg segment of the leg 50. The cording 69 also includes an elastic cord 72 which has one end attached to the lowermost tubular leg segment of the leg 48 and extends through all of the leg segments of the leg 48, through the hollow coupling 60, through the tubular segments 68 of the frame member 53, through the hollow coupling 62, and through the tubular segments of the leg 52, being attached at the opposite end to the lowermost leg segment of the leg 52.
The elastic cords 70 and 72 hold together under tension the segments of all of the legs 46, 48, 50 and 52, as well as the segments of the frame member 53.
The bed-tent is easily erected over the top surface of the mattress 14. This is accomplished by stretching and extending the straps 40 over the four corners of the mattress, inserting the lower ends of the legs 46, 48 of the stanchion 42 at one end of the canopy into the pockets 64 provided in the extensions 33 of the sheet 30 of the end panel 22, and inserting the lower ends of the legs 50, 52 of the stanchion 44 at the opposite end of the canopy into the pockets 64 provided in the extensions of the sheet 30 of the end panel 24, with the frame member 53 extending between the upper ends of the stanchions to hold them erect. An important feature of the invention resides in the fact that the entire frame 28, including the stanchions 40 and 42 and the interconnecting frame members 53 are disposed externally of the canopy. This makes it very easy to assemble the tent as it does not require the assembler to get inside the canopy.
The clips 65 on sheets 30 of the two end panels and on the cover 26 are snapped on the legs 46, 48, 50 and 52 and are snapped on the frame member 53 to provide a firm support for the canopy. Other conventional attachment means such as buttons, hooks, Velcro®, snap-fit engagements and ties may also be used.
The tent is just as easily taken off the mattress and stored. This is done by first unclipping the frame 28 from the canopy 19. The segments of each leg 46, 48, 50 and 52 and of the frame member 53 are separated by pulling them apart against the tension of the cords 70 and 72. The upper segments of the legs and the end segments of the frame member 53 are also separated from the couplings 60 and 62 in the same manner. All of the segments 56 and 68 are then folded together parallel to one another for storage in a package 80, for example. The package 80 is transparent and has handles 81 to provide a convenient carrying case. See
The canopy 19 is collapsed and the hoops 32 of the end panels 22 and 24 are laid over one another and twisted (
If the hoops 32 of the end panels are transversely split rather than continuous, they may be removed from the fabric through an opening provided in the stitching around the margin of the sheet material in which the hoops are received. If the hoops are not removed from the fabric stitching, the end panels will fold in a similar manner even with the hoops in place. If the hoop is open-ended to form an open arch shape panel, the ends of the hoop are first placed together before the hoop is twisted in the usual manner.
The hoops 96 and 100 may be separately formed or they may, as here shown, be formed from one continuous length of strip material. Thus, referring to
The split ends of the strip material are secured together by a coupling 110 shown in
A sheet 112 of substantially non-stretchable fabric fills the space within the hoop 100 and is secured to hoop 100 as by a folded-over stitched margin 114 of the sheet. The arched frame 94 including the hoop 100 and the fabric sheet 112 forms the top and sides of the tent.
The front of the tent is completed by a fabric sheet 115 of non-stretchable fabric secured to the stitching along the margin of the fabric sheet 112 forming part of the arched frame 94 and also having a stitched margin to which the front and side portions of the base frame 92 is secured. A similar fabric sheet of non-stretchable fabric 116 is stitched in a similar manner both to the base frame 92 and to the arched frame 94 to complete the canopy enclosure.
As shown in
Sheets 150 of substantially non-stretchable fabric at the front, sides and rear of the tent extend downwardly from the arched frame to the bottom of the tent, being secured as by stitching to the marginal edge portions of the sheets 146 and 147 of the arched frame. The lower edges of the canopy sheets 150 are adapted to extend down to the upper surface of a rectangular mattress 156 and may be held in place along the sides by flaps 154 secured to the side portions of the sheet and adapted to be tucked under the mattress 156 between the mattress and a supporting box spring (not shown).
The bed-tent 140 is secured to the corners 158 of the rectangular mattress 156 by straps 160 secured to the corner portions of the fabric sheets. The bed-tent preferably extends over substantially the entire top surface of the mattress. The four corners of the bed-tent preferably have pads 161 secured to the lower edges of the sheets 150. These pads 161 are like the pads 41 previously described and serve the same purpose. If the bed-tent 140 is smaller than substantially the entire top surface of the mattress, straps 160 are lengthened and pads 161 can be eliminated. The sheet on one side of the bed-tent has a cutaway portion providing a panel 162 which may be folded back for access to the interior of the bed-tent.
Referring in more detail to the drawings,
The bed-tent 200 includes a cover 214 and an open base that preferably is generally coextensive with the periphery of the mattress 202. The cover 214 has end panels 216 that may be positioned adjacent to the head and foot of the bed and a flexible fabric canopy portion 218 spanning the end panels 216. The supporting frame 220 holds the end panels 216 in laterally spaced and generally upright position. The frame 220 includes a pole 222 positioned about the exterior of the fabric canopy 218 and extending between at least one pair of pockets 224 each attached to the cover or to the hoop generally adjacent to a separate one of the end panels 216, and through one or more sleeves 226 or loops along the canopy 218 to facilitate maintaining the canopy 218 erect above the mattress 202. Alternately, the pole 222 may be positioned about the interior of the fabric canopy 218. Preferably, each end of the pole 222 is disposed within a separate one of the pockets 224 to maintain the spacing of the end panels 216 from each other. The pockets 224 preferably are disposed in flaps 225 attached to the cover and extending laterally beyond the end panels 216. The pockets may also be attached to fabric canopy 218 so that the pole 222 does not extend laterally beyond the end panels 216. Further, the pole(s) may be releasably attached to the collapsible frame members 230 (not shown). This facilitates holding the canopy 218 in tension so that it is fully expanded for maximum interior tent space. The pole 222 preferably comprises a plurality of elongated, tubular frame segments removeably connected together end-to-end in a linear series providing a generally continuous pole. Each segment of the pole 222 is preferably interconnected by an elastic cord (not shown) under tension. The cord holds together the segments of the pole 222 to facilitate their alignment, and interconnection. The cord also prevents individual segments of the pole 222 from becoming misplaced or lost when not in use.
The frame 220 preferably further includes at least a pair of collapsible frame members 230, one in each end panel 216, such as resilient strips of a flexible material such as spring steel, composite rod or plastic, for example. The hoops 230 may be generally circular, oval, may incorporate one generally square corner, two square corners, may be triangular, approximately square or rectangular; the corners of the various versions may be curved, truncated or generally form right angles. Each hoop frame member 230 may be a continuous annulus or it may be transversely split annulus with abutting ends at the split or open ended. The hoop frame members 230 are preferably disposed in the plane of the end panels 216 and are secured to the outer edge of the panels 216 such as by folding the outer edge of each panel over the hoop 230 and stitching the folded edge to the panel 216. For additional strength, a second hoop of resilient strip material can be secured to the outer edge of the panel. This second hoop can also be formed, with the first hoop, of a single unitary piece. Finally, this second hoop can be adapted to be secured to the first hoop along a limited portion or periphery thereof. The portion of the end panels bounded by each hoop or frame member is held taut by the frame member and resists distortion or collapse of the end panel.
A screened window opening 240 may be provided in the end panels 216, or canopy 218, as desired. The canopy 218 preferably is made of substantially nonstretchable, flexible fabric and extends between the end panels 216. The canopy 218 is held fairly taut by having its ends stitched or otherwise secured to the margins of the end panels 216. So arranged, the canopy 218 defines opposed sides and a top or roof of the tent 200. One side of the canopy 218 preferably has a cutaway portion providing a flap 242 that may be folded back to form an opening 244 for access to the interior of the bed-tent 200. The flap 242 serves as a closure for the opening 244 when extended across the opening and may be releasably held shut by a zipper, Velcro® straps, or other fastening device.
Retainers 246 are preferably disposed at each corner of the bed-tent 200 and are adapted to be secured to or about each corner 212 of the mattress 202. These retainers preferably are flexible straps formed of a relatively elastic and resilient material. The ends of the straps 246 are attached to the fabric of the end panels 216 and/or canopy 218. The strap 246 preferably are U-shaped with 2 legs 248 disposed on and attached to adjacent sides of a corner of the bed-tent 200 with a central bight (not shown) adapted to be disposed around the corner 212 of the mattress 202, preferably with a portion underneath the lower surface 206 of the mattress 202. The straps 246 may be disposed in or covered by a flap of fabric, or they may simply be exposed elastic straps, as shown in
As best shown in
The bed-tent 200 is easily erected over the top surface 204 of the mattress 202. This is accomplished by stretching and extending the retainers 246 over the four corners 212 of the mattress 202, and inserting the ridge pole 222 through the sleeve 226 and into the pockets 224. The ridge pole 222 is preferably disposed externally of the canopy 218 which facilitates assembly of the ridge pole 222 to the bed-tent 200.
The tent 200 is just as easily taken off of the mattress 202 and stored. This may be done by removing the ridge pole 222 from the tent, and then removing the retainers 246 from the mattress 202. The segments of the pole 222 may then be disconnected and folded together for convenient storage. The tent 200 may be collapsed and the resilient strip frame members 230 of the end panels 216 are laid over one another and twisted around into a substantially flat coil of reduced diameter so that the entire tent 200 will fit nicely into a very small package for storage. Alternatively, one or more retainers 246 can be wound or wrapped about the flat coil and material of the tent to prevent it from unwinding and expanding, without the need to place the tent within a separate bag or package.
If the resilient strip frame members 230 of the end panels 216 are split rather than continuous, they may be removed from the fabric through an opening provided in the stitching around the panel in which the frame members are received. If the hoop frame member 230 is open ended to form an open arch shaped panel, the ends of the hoop are preferably first placed together before the hoop is twisted in the usual manner.
A modified bed-tent 300 is shown in
Another implementation of a bed-tent 400 is shown in
Another implementation of a bed-tent 500 is shown in
Another modified bed-tent 600 or structure is shown in
Another implementation of a bed-tent 600′ is shown in
The bed-tent 600″ shown in
The bed-tent 700 of
The bed-tent 700′ shown in
The bed-tent 800 shown in
The bed-tent 900 of
An alternate embodiment of a panel 950 for a bed-tent is shown in
An alternate embodiment panel 960 is shown in
Two similar bed-tent frame members 1000 and 1000′ are shown in
The frame member 1000′ shown in
One of ordinary skill in this art will readily recognize that the preceding description has been set forth in terms of description rather than limitation. While many of the panels of the bed-tents disclosed herein have been shown as being circular, oval, square or rectangular, the panels and any desired portion of the bed-tents may be formed in any desired shape. The panels of the various embodiments may be releasably attached to allow the separate panels to be easily folded for storage. The pads, which maintain the bed-tent on top of the mattress, may be eliminated if the structure is 2-4 inches smaller than the mattress. Further, while the bed-tents disclosed herein have been shown with an open base so that immediate access can be provided to the sheets, blankets or other linens on the bed with which the tent is used, a base panel may be provided if desired. Still further, while the frame members have been described as being retained in or on the panels of the bed-tent by stitching or the fabric around the frame members, they may be otherwise connected. For example, adhesive, or hook and loop type fasteners, may be employed to name a couple of many possibilities. Still other modifications and substitutions can be made without departing from the spirit and broad scope of this invention. The invention is to be defined by the following claims.
This application is a continuation-in-part of U.S. patent application Ser. No. 10/649,036, filed on Aug. 27, 2003.
Number | Date | Country | |
---|---|---|---|
Parent | 10649036 | Aug 2003 | US |
Child | 11247542 | Oct 2005 | US |