A parking vehicle for the transport and parking of an electric vehicle. The parking vehicle has a platform on which the electric vehicle can be parked and has a charging system to charge the electric vehicle. The charging system has an electric energy storage which is connected to a contact system. The charging system is connected to the platform. The parking vehicle is connected to an electric energy supply which is connected to the charging system. The parking vehicle has a charging regulator connected to the charging system. The parking vehicle has a communications device which transmits and receives the data of an external system. The parking vehicle has a control device connected with the communications device. Movement of the parking vehicle is controlled in longitudinal and transverse directions by the control device.

A connected vehicle lift and storage system (VLSS) can include a plurality of platforms for storing vehicles that are movable between a plurality of positions. The connected VLSS can communicate with a computing device operated by a user to receive requests to store or retrieve the user's vehicle(s). As part of the request, location data generated by the computing device can be transmitted to the connected VLSS. In response to the request, the connected VLSS can determine a sequence of platform movements to fulfill the request to store or retrieve the user's vehicle(s). The sequence can be determined, at least in part, on the location data of the requesting user and/or the location data of other users. In addition, the sequence can be determined to minimize wait times for the requesting user and other users.

A connected vehicle lift and storage system (VLSS) can include a plurality of platforms for storing vehicles that are movable between a plurality of positions. The connected VLSS can communicate with a computing device operated by a user to receive requests to store or retrieve the user's vehicle(s). As part of the request, location data generated by the computing device can be transmitted to the connected VLSS. In response to the request, the connected VLSS can determine a sequence of platform movements to fulfill the request to store or retrieve the user's vehicle(s). The sequence can be determined, at least in part, on the location data of the requesting user and/or the location data of other users. In addition, the sequence can be determined to minimize wait times for the requesting user and other users.

The present invention discloses an automatic parking system including an in-out space, a plurality of parking spaces arranged at multiple parking levels, a pickup machine, and a lifting tunnel with a lifting device disposed therein. The pickup machine includes a frame which includes a first frame and a second frame, a first pickup device and a second pickup device. The first pickup device is configured to move a loading board onto the first frame or out from the first frame. The second pickup device is configured to move the loading board onto the second frame or out from the second frame. The lifting device is configured to convey the pickup machine up and down in the lifting tunnel. The present invention also discloses a parking and unparking method of the automatic parking system. The parking and unparking efficiency of the automatic parking system of the present invention is greatly improved.

The present invention discloses an automatic parking system including an in-out space, a plurality of parking spaces arranged at multiple parking levels, a pickup machine, and a lifting tunnel with a lifting device disposed therein. The pickup machine includes a frame which includes a first frame and a second frame, a first pickup device and a second pickup device. The first pickup device is configured to move a loading board onto the first frame or out from the first frame. The second pickup device is configured to move the loading board onto the second frame or out from the second frame. The lifting device is configured to convey the pickup machine up and down in the lifting tunnel. The present invention also discloses a parking and unparking method of the automatic parking system. The parking and unparking efficiency of the automatic parking system of the present invention is greatly improved.

A vehicle lift and storage system (VLSS) can comprise a platform that can be moved between a plurality of positions by one or more moving mechanisms. The platform can be equipped with a wireless, multi-axis accelerometer that transmits data regarding the platform to a control system of the VLSS via a wireless sensor link. Using the data from the multi-axis accelerometer, the control system can generate control signals to control the one or more moving mechanisms. The control system can also detect the occurrence of a safety event based on the data received from the multi-axis accelerometer. In response to detecting a safety event, the control system can cause the one or more moving mechanisms to enter a safety mode to alleviate or respond to the detected safety event.

A vehicle lift and storage system (VLSS) can comprise a platform that can be moved between a plurality of positions by one or more moving mechanisms. The platform can be equipped with a wireless, multi-axis accelerometer that transmits data regarding the platform to a control system of the VLSS via a wireless sensor link. Using the data from the multi-axis accelerometer, the control system can generate control signals to control the one or more moving mechanisms. The control system can also detect the occurrence of a safety event based on the data received from the multi-axis accelerometer. In response to detecting a safety event, the control system can cause the one or more moving mechanisms to enter a safety mode to alleviate or respond to the detected safety event.

An automatic parking system with charging function includes an in-out space, parking levels, loading boards, and a conveyer. Each parking level includes parking spaces, each parking space has a charging pile and a power supply interface electrically connected with the charging pile. Each loading board includes a board portion, a power receiving interface, a charging cable for charging the electric vehicle, and a support foot. The conveyer includes a lifting platform and an automated guided vehicle, the automated guided vehicle is configured to drive into a position under the board portion and support the loading board upward so as to carry the loading board, when the loading board is carried to a predetermined position of the corresponding parking space, the automated guided vehicle is lowered to make the support foot be supported on the corresponding parking space and the power receiving interface mate with the corresponding power supply interface.

An automatic parking system with charging function includes an in-out space, parking levels, loading boards, and a conveyer. Each parking level includes parking spaces, each parking space has a charging pile and a power supply interface electrically connected with the charging pile. Each loading board includes a board portion, a power receiving interface, a charging cable for charging the electric vehicle, and a support foot. The conveyer includes a lifting platform and an automated guided vehicle, the automated guided vehicle is configured to drive into a position under the board portion and support the loading board upward so as to carry the loading board, when the loading board is carried to a predetermined position of the corresponding parking space, the automated guided vehicle is lowered to make the support foot be supported on the corresponding parking space and the power receiving interface mate with the corresponding power supply interface.

A mechanical parking garage includes a plurality of pallets, a parking system including a rail track unit and a plurality of tower units, and a transporting system. Each tower unit is mounted on and slidable along the rail track unit, and has a plurality of first parking spaces, each of which is disposed for storing one of the pallets. The transporting system includes a rail mechanism mounted above the parking system, and a transporting mechanism mounted to the rail mechanism and being horizontally movable. Any adjacent two of the tower units are movable relative to each other between approximate state and a distal state. At the distal state, the adjacent two of the tower units define a transporting aisle therebetween.