The present invention relates to an educational device and play structure and, more particularly, to an inflatable construction set comprising a plurality of inflatable blocks or modules in various shapes and sizes to form structures of different configurations.
Inflatable construction toys are valuable tools for educational play because children can develop creativity and imagination while they have fun constructing various structures.
There are different types of inflatable construction toys known in the art. In particular, U.S. Pat. No. 6,679,007 B1 to David Russell Minchew discloses a plurality of inflatable tubular elements having a plurality of external attachments such as Velcro™, wherein inflatable tubular elements are held together by external attachments and stacked by a plurality of rigid brackets. Since each inflatable tubular element in the U.S. Pat. No. 6,679,007 B1 has a cylindrical shape, a plurality of rigid brackets must be utilized to hold the stacks of tubular elements. The use of such rigid brackets is complicated and cumbersome, and thus is not suitable for little children. Moreover, the additional element of rigid brackets in the inflatable play structure may cause relatively high manufacturing costs.
In addition, the way of stacking the inflatable tubular elements in U.S. Pat. No. 6,679,007 B1 is very limited. The inflatable tubular elements can only be lined up and cannot be stacked in any other way.
For the foregoing reasons, there is a need for a new and improved inflatable construction set for easy construction of various structures.
The purpose of the present invention is to provide an inflatable construction set that can easily be constructed in a variety of structures and overcomes the disadvantages of the prior art.
An inflatable construction set in accordance with the present invention comprises a plurality of inflatable modular blocks. Each modular block has substantially planar top and bottom surfaces and an attachment means located on each of the top and bottom surfaces. The substantially planar top and bottom surfaces of each modular block with the attachment means on each of the substantially planar surfaces enable a plurality of inflatable modular blocks to be stably stacked such that a bottom surface of one modular block is placed on a top surface of another modular block. Since the inflatable modular blocks can be stacked to be lined up or stacked in any orientation, the present invention allows a user to construct a variety of structures in various ways.
Each inflatable modular block has also a valve for inflation and deflation. An inflatable modular block can be easily stored or transported in its deflated form.
In a preferred embodiment, each inflatable modular block has at least one interior rib inside the modular block to reinforce the structure of the substantially planar top and bottom surfaces of the modular block. A top longitudinal edge of the interior rib is adhered to a top plastic film of the modular block, and a bottom longitudinal edge of the interior rib is adhered to a bottom plastic film of the modular block, such that a main plane of the interior rib is substantially perpendicular to the substantially planar top and bottom surfaces of the modular block. At least one of side edges of the interior rib does not extend to peripheral edges of the top and bottom plastic films of the modular block so that air can freely flow around the side edge and be evenly distributed inside the modular block.
In an inflatable modular block having a plurality of interior ribs, the interior ribs are positioned at spaced intervals within the modular block to further reinforce the structure of the modular block.
An inflatable construction set in accordance with the present invention may also include various accessory modules such as inflatable doors, windows, turrets, roof system, and other construction components. Such accessory modules can be attached to inflatable modular blocks by attachment devices such as hook and loop fasteners.
For a fuller understanding of the nature and objects of the present invention, reference should be made to the following detailed description and accompanying drawings:
The attachment means 50 on the inflatable modular blocks 20, 22 are preferably hook and loop fasteners such as Velcro™ or any other similar devices known in the art that are attachable to and detachable from each other. Due to the attachable and detachable property of the attachment means 50, the inflatable modular blocks can be assembled and reassembled to form structures of different configurations. The attachment means 50 may be adhered or heat welded to a surface 30, 32 of an inflatable modular block. Alternatively, as illustrated in
Each inflatable modular block has a valve 60 for allowing air in and out of the inflatable modular block for inflation and deflation. Air can be blown in the modular block through the valve 60 by a user's mouth, an air pump, or any similar device. When an inflatable modular block is deflated, it can be easily stored or transported. Preferably, when a user depresses the valve 60, the valve 60 is capable of being recessed so that the valve 60 does not protrude from a surface of the inflatable modular block.
The inflatable modular blocks 20, 22 may be of various shapes and sizes. For example,
The inflatable modular blocks 20, 22 may be transparent and/or of various colors. Also, the inflatable modular blocks 20, 22 may be decorated with flexible fabric or plastic sheets or any other decoration.
Each inflatable modular block is preferably made of flexible plastic. One of skill in the art would recognize that the same or similar method of making conventional inflatable swimming pool rafts or swim rings can be used in making the inflatable modular blocks in the present invention. Preferably, each inflatable modular block in the present invention comprises a top plastic film 70 and a corresponding bottom plastic film 80. Peripheral edge 90 of the top plastic film 70 and peripheral edge 95 of the bottom plastic film 80 are adhered or heat welded together to form an enclosed air chamber.
In a preferred embodiment, each inflatable modular block has an interior rib 40 inside the inflatable modular block to reinforce the structure of the inflatable modular block, particularly the structure of the substantially planar top and bottom surfaces 30, 32 of the modular block. The interior rib 40 may be made of the same material as those for the top and bottom plastic films 70, 80 of the inflatable modular block, and may be transparent. The interior rib 40 comprises a main plane 42, side edges 44, a top longitudinal edge 46, and a bottom longitudinal edge 48. The top longitudinal edge 46 of the interior rib 40 is adhered to the top plastic film 70 of the inflatable modular block, and the bottom longitudinal edge 48 of the interior rib 40 is adhered to the bottom plastic film 80 of the modular block, such that the main plane 42 of the interior rib 40 is substantially perpendicular to the top and bottom plastic films 70, 80 of the modular block. At least one of the side edges 44 of the interior rib 40 does not extend to the peripheral edges 90, 95 of the modular block such that a space is formed between the side edge 44 of the interior rib 40 and the peripheral edges 90, 95 of the modular block. Due to the space, air can freely flow around the side edge 44 and be evenly distributed inside the modular block.
An inflatable modular block may have only one interior rib 40 as shown in
An inflatable construction set in accordance with the present invention may also include various accessory modules such as inflatable doors, windows, turrets, roof system, and other construction components. Examples of such accessory modules are illustrated in
The attachment devices 52 on the inflatable roof module 110 are preferably hook and loop fasteners such as Velcro™ or any other similar devices known in the art that are attachable to and detachable from each other. The attachment device 52 may be adhered or heat welded to a surface 120, 130 of the inflatable roof module 110. Alternatively, a planar member (not shown), such as a cardboard or a light plastic material, may be attached to a surface 120, 130 of the inflatable roof module 110, and an attachment device 52 attached to the planar member. The size of the planar member may be similar to or slightly larger than that of the attachment device 52.
The inflatable roof module 110 may have a valve for inflation and deflation, which can be recessed by a user. The inflatable roof module 110 is preferably made of flexible plastic and may be transparent.
The inflatable door 150 of the door module 140 may have an interior support member 170 inside the inflatable door 150. The configuration and arrangement of the interior support member 170 in the inflatable door 150 can be substantially same as that of an interior rib 40 in an inflatable modular block. Similar to the interior rib 40 in an inflatable modular block, the interior support member 170 in the inflatable door 150 may have at least one side edge that does not extend to peripheral edges of the inflatable door 150. Alternatively, as shown in
The inflatable door 150 may also have a valve 60 for inflation and deflation, which can be depressed by a user. The inflatable door 150 is preferably made of flexible plastic and may be transparent. The extension 160 and the hinge 155 may be made of somewhat rigid material such as rigid plastic. The attachment device 52 on the extension 160 of the door module 140 is preferably a hook and loop fastener such as Velcro™ or any other similar device known in the art.
The inflatable turret 200 may also have a valve 60 for inflation and deflation, which can be depressed by a user. The inflatable turret 200 is preferably made of flexible plastic and may be transparent. The extension 160 may be made of somewhat rigid material such as rigid plastic. The attachment device 52 on the extension 160 of the turret module 190 is preferably a hook and loop fastener such as Velcro™ or any other similar device known in the art.
The present invention has been described in an illustrative manner, and it is to be understood that the terminology used is intended to be in the nature of description rather than of limitation. Many modifications and variations of the present invention are possible in light of the above teachings. Therefore, it is to be understood that within the scope of the appended claims, the invention may be practiced otherwise than as specifically described.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US06/31370 | 8/11/2006 | WO | 00 | 2/15/2008 |
Number | Date | Country | |
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60709188 | Aug 2005 | US |