Quick service restaurants with car wash systems and traffic management systems for managing customer traffic and routing customers who have made food-only purchases and customers who have purchased both a food item and a carwash service. In some examples, graphical user interfaces incorporated in point of sale systems display time predictions for the delivery of food items and carwash services to aid and encourage customer selection of both food items and carwash services.

Quick service restaurants with car wash systems and traffic management systems for managing customer traffic and routing customers who have made food-only purchases and customers who have purchased both a food item and a carwash service. In some examples, graphical user interfaces incorporated in point of sale systems display time predictions for the delivery of food items and carwash services to aid and encourage customer selection of both food items and carwash services.

A computing device receives a setup command and signals mobile robots to move sensor targets into positions within a predetermined range of a turntable. Each mobile robot may be coupled to a sensor target. Once the sensor targets are moved into the positions, calibration may be initiated, in which a vehicle is rotated using the turntable, and sensors coupled to the vehicle are calibrated based on detection of the sensor targets. The computing device may signal the mobile robots to adjust the sensor targets as needed, or, after calibration, to move into storage or charging positions

A computing device receives a setup command and signals mobile robots to move sensor targets into positions within a predetermined range of a turntable. Each mobile robot may be coupled to a sensor target. Once the sensor targets are moved into the positions, calibration may be initiated, in which a vehicle is rotated using the turntable, and sensors coupled to the vehicle are calibrated based on detection of the sensor targets. The computing device may signal the mobile robots to adjust the sensor targets as needed, or, after calibration, to move into storage or charging positions

A rotary table box manipulator, comprising: a horizontal supporting plane (1); a first rotary table (2) inscribed in and coplanar with said horizontal plane; a conveyor belt (3) arranged in a loop and movable along a longitudinal advancement direction above the supporting plane (1) and the table (2), equipped with a distribution of rotating balls (4) whose lower part is in contact with the upper surface of the plane (1) and of the table (2), so as to define an upper movable surface for supporting and transporting one or more boxes or packages of boxes (5), further comprising at least one second rotary table (6) inscribed in and coplanar with said first rotating table (2) and able to move independently from it.

A rotary table box manipulator, comprising: a horizontal supporting plane (1); a first rotary table (2) inscribed in and coplanar with said horizontal plane; a conveyor belt (3) arranged in a loop and movable along a longitudinal advancement direction above the supporting plane (1) and the table (2), equipped with a distribution of rotating balls (4) whose lower part is in contact with the upper surface of the plane (1) and of the table (2), so as to define an upper movable surface for supporting and transporting one or more boxes or packages of boxes (5), further comprising at least one second rotary table (6) inscribed in and coplanar with said first rotating table (2) and able to move independently from it.

The present disclosure relates to a system and a method for fine manipulation. The system for fine manipulation includes a tossing mechanism, a setting mechanism, and a leaf uniformly distributing mechanism. The tossing mechanism comprises a tossing machine, a leaf distributing assembly, a first feeding conveyor assembly, and a first receiving conveyor assembly. The setting mechanism comprises a setting assembly, a second feeding conveyor assembly, and a second receiving conveyor assembly. The setting assembly includes a setting belt and a setting belt driving device configured to drive the setting belt to move. The leaf uniformly distributing mechanism comprises a leaf uniformly distributing device and a lifting driving assembly. The leaf uniformly distributing device includes a shifting arm, a rotary table and a rotary table driving assembly. The lifting driving assembly can drive the leaf uniformly distributing device to move up and down. The system for fine manipulation is convenient to realize uniform distribution of leaves in the tossing machine, and allows alternating between tossing and setting, to realize continuous and automatic fine manipulation for tea leaves. It can significantly reduce labor intensity and improve production efficiency, while improving stability of oolong tea quality.

The present disclosure relates to a system and a method for fine manipulation. The system for fine manipulation includes a tossing mechanism, a setting mechanism, and a leaf uniformly distributing mechanism. The tossing mechanism comprises a tossing machine, a leaf distributing assembly, a first feeding conveyor assembly, and a first receiving conveyor assembly. The setting mechanism comprises a setting assembly, a second feeding conveyor assembly, and a second receiving conveyor assembly. The setting assembly includes a setting belt and a setting belt driving device configured to drive the setting belt to move. The leaf uniformly distributing mechanism comprises a leaf uniformly distributing device and a lifting driving assembly. The leaf uniformly distributing device includes a shifting arm, a rotary table and a rotary table driving assembly. The lifting driving assembly can drive the leaf uniformly distributing device to move up and down. The system for fine manipulation is convenient to realize uniform distribution of leaves in the tossing machine, and allows alternating between tossing and setting, to realize continuous and automatic fine manipulation for tea leaves. It can significantly reduce labor intensity and improve production efficiency, while improving stability of oolong tea quality.

There is provided shipping container handling systems and methods that maximize the number of containers that can be stored on a predetermined property, as well as increasing the efficiency of the transfer of containers between transshipment vehicles, such as cargo ships/barges, trucks, airline, rail systems and the like.

A machine for conveying objects, including: a base; a turret mounted to the base for rotation about an axis, the turret including a turret mounted track, and a turret shuttle with a gripper to grip an object, the turret shuttle mounted on the turret mounted track; a boom mounted to the turret, whereby turret rotation sweeps the boom radially about the axis, the boom including: a boom mounted track extending therealong, a boom shuttle with a gripper to grip an object, the boom shuttle mounted to the boom mounted track, and a carousel located proximal to the base extending around the turret and rotatable about the axis, the carousel having a plurality of object bays, the carousel being controllably rotatable about the axis to locate any of the object bays proximal to the turret mounted track for transfer of an object between the object bay and the turret shuttle.