Disclosed herein is a modular deck system that utilizes a combination of a movable platform having a plurality of vertical posts with engagement members. Decks, filled with freight, can be placed onto the vertical posts at various heights at different sections of the movable platform using a conveyance vehicle. Further, the height of the vertical posts can be extended using an extension post for securing tall cargo. The decks can also be locked to the vertical posts to prevent dislodgement of the deck during transport of the movable platform.

A system for quickly exchanging batteries, and their payment, in electric vehicles as they are battery powered vehicles (BPV). Includes requirement for all BPV to be constructed similarly for battery undercarriage horizontal slide insertion and removal, with electric and water socket plug-in connections in the undercarriage. Includes requirement that batteries are slab designed to be compatible in dimensions and weight for ease of exchanging batteries in BPV, with larger batteries for SUV's, trucks, busses. Includes, battery exchange multi lane building facilities for BPV to drive in, service personnel or robots to exchange batteries from plug-in charging racks with specially designed battery movement equipment, pay for their use, and BPV to drive away. Requires batteries, facilities, racks, equipment, and all data processing and its computers to be owned by investors, with initial battery, daily, and as-you-go, payments by BPV owners.

A system for quickly exchanging batteries, and their payment, in electric vehicles as they are battery powered vehicles (BPV). Includes requirement for all BPV to be constructed similarly for battery undercarriage horizontal slide insertion and removal, with electric and water socket plug-in connections in the undercarriage. Includes requirement that batteries are slab designed to be compatible in dimensions and weight for ease of exchanging batteries in BPV, with larger batteries for SUV's, trucks, busses. Includes, battery exchange multi lane building facilities for BPV to drive in, service personnel or robots to exchange batteries from plug-in charging racks with specially designed battery movement equipment, pay for their use, and BPV to drive away. Requires batteries, facilities, racks, equipment, and all data processing and its computers to be owned by investors, with initial battery, daily, and as-you-go, payments by BPV owners.

A modular parking system comprising at least one modular parking structure for use on a ground surface comprising a pair of opposing horizontal support members, a pair of opposing end plates, vertical support members, and a parking surface. The opposing end plates are coupled to the opposing horizontal support members. The vertical support members are coupled to at least one end plate. The parking surface is coupled to an upper surface of the pair of horizontal support members, positioned above the ground surface, and oriented generally horizontally. The modular parking system may also comprise a levelling system configured to align the modular parking structure, a laser monitoring system configured to monitor the height of each modular parking structure, a fire suppression system, and an electrical management system.

The present invention relates to the field of construction of underground buildings, specifically to an inverse construction method for a deep, large and long pit assembling structure of a suspension-type envelope enclosure. A method includes design and calculation; engineering construction of foundation piles; control over underground water; construction of a pit enclosure; building of a basement reinforcing and anti-seeping layer; inverse construction; and floor structure construction. By the inverse construction method for a deep, large and long pit assembling structure of a suspension-type envelope enclosure of the present invention, the pit construction quality is easily controlled, the basement is well waterproofed and easily monitored, and the quality control, service and maintenance are easy.

The present invention relates to the field of construction of underground buildings, specifically to an inverse construction method for a deep, large and long pit assembling structure of a suspension-type envelope enclosure. A method includes design and calculation; engineering construction of foundation piles; control over underground water; construction of a pit enclosure; building of a basement reinforcing and anti-seeping layer; inverse construction; and floor structure construction. By the inverse construction method for a deep, large and long pit assembling structure of a suspension-type envelope enclosure of the present invention, the pit construction quality is easily controlled, the basement is well waterproofed and easily monitored, and the quality control, service and maintenance are easy.

To provide a building for an apartment house that allows a vehicle to be parked adjacent to a residential part efficiently. A building includes: a plurality of housing parts formed on one floor of a building body, in each of which a resident H resides, and each including two or more residential floors and including a resident entrance part that allows entry and exit of the resident H and a service entrance part disposed on a residential floor that is different from the residential floor on which the resident entrance part is disposed; a housing-part parking part that communicates with the service entrance part of each housing part, the housing-part parking part being disposed adjacent to the housing part to enable a vehicle C.

A building element includes an upper side, a lower side, at least one first lateral face, and at least one first end face, where the at least one lateral face is formed with a longitudinal lateral groove such that a longitudinal upper grove edge and a longitudinal lower groove edge are formed. The upper groove edge has a toothed shape. A building includes one or more load bearing elements, and a plurality of building elements connected to respective load bearing elements. A method of joining building elements and load bearing elements in a building includes providing the load bearing elements with a not-cast upper part, putting up the load bearing elements, arranging two or more double T building elements therewith, pulling the telescoping elements, and cast filling the joints between the building elements and the upper part of the load bearing elements such that a smooth surface is formed.

An integrated renewable energy and asset system is provided. In some embodiments, the system comprises: an existing parking lot positioned adjacent to a building structure, wherein the existing parking lot has an associated pattern; bore holes that are formed into the existing parking lot, wherein the bore holes are organized based on the pattern of the existing parking lot; vertical columns inserted into at least a first portion of the bore holes, wherein: crossbeams are installed on an upper portion of a vertical column to form a support structure; and a canopy is connected to the crossbeams, wherein the canopy is formed from multiple attached photovoltaic modules and thermal tubes are integrated with the photovoltaic modules; geothermal tubes that capture thermal energy are inserted into at least a second portion of the bore holes, wherein each of the thermal tubes and each of the geothermal tubes is connected to a geothermal heat pump and wherein each of the thermal tubes is connected to the geothermal heat pump; and a hardware processor that is configured to: receive sensor information from sensors disposed on the canopy; determine whether to direct at least a portion of the thermal energy captured using the geothermal tubes to the solar thermal panels based on the received sensor information; and cause the heat captured using the geothermal tubes to be directed to the solar thermal panels based on the determination.

An integrated renewable energy and asset system is provided. In some embodiments, the system comprises: an existing parking lot positioned adjacent to a building structure, wherein the existing parking lot has an associated pattern; bore holes that are formed into the existing parking lot, wherein the bore holes are organized based on the pattern of the existing parking lot; vertical columns inserted into at least a first portion of the bore holes, wherein: crossbeams are installed on an upper portion of a vertical column to form a support structure; and a canopy is connected to the crossbeams, wherein the canopy is formed from multiple attached photovoltaic modules and thermal tubes are integrated with the photovoltaic modules; geothermal tubes that capture thermal energy are inserted into at least a second portion of the bore holes, wherein each of the thermal tubes and each of the geothermal tubes is connected to a geothermal heat pump and wherein each of the thermal tubes is connected to the geothermal heat pump; and a hardware processor that is configured to: receive sensor information from sensors disposed on the canopy; determine whether to direct at least a portion of the thermal energy captured using the geothermal tubes to the solar thermal panels based on the received sensor information; and cause the heat captured using the geothermal tubes to be directed to the solar thermal panels based on the determination.