A bounce house securing assembly includes a plurality of blocks that is each of the blocks is comprised of a weighted material such that each of the blocks has a weight of at least 40.0 pounds. In this way the plurality of blocks have sufficient weight to inhibit a bounce house from becoming airborne. A plurality of top handles is each coupled to a respective one of the blocks thereby facilitating the respective blocks to be carried. A plurality of side handles is each movably coupled to a respective one of the blocks thereby facilitating the respective block to be carried. A plurality of spikes is each of the spikes is coupled to and extends downwardly from a respective one of the blocks for penetrating a support surface to inhibit the respective block from moving on the support surface. Each of the spikes is extendable through a respective one of a plurality of securing loops on the bounce house to anchor the bounce house to the support surface.

A system may include a virtual reality system configured to present one or more virtual objects via an electronic display. The system may also include one or more inflatable objects that correspond to the one or more virtual objects, such that the one or more inflatable objects matches one or more shapes of the one or more virtual objects. The system may also include a processor configured to cause at least one of the one or more inflatable objects to inflate based on feedback from the virtual reality system.

A system may include a virtual reality system configured to present one or more virtual objects via an electronic display. The system may also include one or more inflatable objects that correspond to the one or more virtual objects, such that the one or more inflatable objects matches one or more shapes of the one or more virtual objects. The system may also include a processor configured to cause at least one of the one or more inflatable objects to inflate based on feedback from the virtual reality system.

A system may include an inflatable assembly having a plurality of members. The system may also include a plurality of sensors disposed at a plurality of positions inside or around the inflatable assembly, such that the plurality of sensors may acquire data related to a shape of the inflatable assembly. The system also includes one or more valves, each configured to direct a fluid into a corresponding member of the plurality of members of the inflatable assembly. The system also includes a processor that adjusts positions of the one or more valves to cause the fluid to be directed into the corresponding member of the plurality of members of the inflatable assembly based on the data and a desired shape of the inflatable assembly.

A system may include an inflatable assembly having a plurality of members. The system may also include a plurality of sensors disposed at a plurality of positions inside or around the inflatable assembly, such that the plurality of sensors may acquire data related to a shape of the inflatable assembly. The system also includes one or more valves, each configured to direct a fluid into a corresponding member of the plurality of members of the inflatable assembly. The system also includes a processor that adjusts positions of the one or more valves to cause the fluid to be directed into the corresponding member of the plurality of members of the inflatable assembly based on the data and a desired shape of the inflatable assembly.

The disclosure provides inflatable attachments for attractions, in addition to attractions and attraction parks having such inflatable attachments. The inflatable attachments represent a significant advancement m safety, and include a central column configured for coupling to a motion base, at least one arm extending away from the central column, and at least one inflatable air chamber extending through the at least one arm.

The disclosure provides inflatable attachments for attractions, in addition to attractions and attraction parks having such inflatable attachments. The inflatable attachments represent a significant advancement m safety, and include a central column configured for coupling to a motion base, at least one arm extending away from the central column, and at least one inflatable air chamber extending through the at least one arm.

An inflatable structure has a top wall, a bottom wall vertically spaced from the top wall, and a vertical baffle having a top edge connected to the top wall, and a bottom edge connected to the bottom wall. A pair of top diagonal support baffles connect the vertical baffle to the top wall, each of the pair of top diagonal support baffles being connected to the top wall on opposite sides of a top edge of the vertical baffle, and spaced a distance from the top edge of the vertical baffle. A pair of bottom diagonal support baffles further connect the vertical baffle to the bottom wall, each of the pair of bottom diagonal support baffles being connected to the bottom wall on opposite sides of bottom edge of the vertical baffle, and spaced a distance from the bottom edge of the vertical baffle.

A hovering air fort containing an inflatable housing having an open base defined by a periphery surrounding the opening, one or more apertures, wherein one of the apertures is for receiving air flow for inflation and wherein the other aperture is for connecting a second hovering air fort and a cord hemmed into the periphery of the open base forming a hemmed opening or at least one connecting panel is affixed to at least two side walls about the open base periphery of the inflatable air fort, wherein the air flow through the aperture provides structure and lift for the inflatable housing when the periphery of the open base is positioned against an external surface to create the hovering air fort.

A system may include an inflatable assembly having a plurality of members. The system may also include a plurality of sensors disposed at a plurality of positions inside or around the inflatable assembly, such that the plurality of sensors may acquire data related to a shape of the inflatable assembly. The system also includes one or more valves, each configured to direct a fluid into a corresponding member of the plurality of members of the inflatable assembly. The system also includes a processor that adjusts positions of the one or more valves to cause the fluid to be directed into the corresponding member of the plurality of members of the inflatable assembly based on the data and a desired shape of the inflatable assembly.