An automated storage and retrieval system includes: a storage grid having storage columns arranged in rows, in which storage containers are stacked one on top of another; a rail system having a first set of parallel rails arranged in a horizontal plane and extending in a first direction, and a second set of parallel rails arranged in the horizontal plane and extending in a second direction orthogonal to the first direction, which first and second sets of rails form a grid pattern in the horizontal plane having a plurality of adjacent grid cells; at least one container handling vehicle configured to move on the rail system, including a wheel arrangement configured to guide the at least one storage container vehicle along the rail system in at least one of the first direction and the second direction; and a service vehicle for movement on the rail system.

An automated storage and retrieval system includes: a storage grid having storage columns arranged in rows, in which storage containers are stacked one on top of another; a rail system having a first set of parallel rails arranged in a horizontal plane and extending in a first direction, and a second set of parallel rails arranged in the horizontal plane and extending in a second direction orthogonal to the first direction, which first and second sets of rails form a grid pattern in the horizontal plane having a plurality of adjacent grid cells; at least one container handling vehicle configured to move on the rail system, including a wheel arrangement configured to guide the at least one storage container vehicle along the rail system in at least one of the first direction and the second direction; and a service vehicle for movement on the rail system.

An apparatus includes a base frame, first and second bins, first and second hydraulic assemblies, and a computer controller. The first hydraulic assembly is configured to selectively raise and lower the first bin relative to the base frame. The second hydraulic assembly is configured to selectively raise and lower the second bin relative to the base frame. The first and second hydraulic assemblies are individually actuable, and their actuation is coordinated by the controller. In another aspect, a method for transferring product using an apparatus includes inputting to a computer controller a first threshold rate of change in weight signals of a weight sensor; relaying a plurality of weight signals from the weight sensor to the controller; calculating a determination by the controller at least in part on whether the threshold rate of change has been exceeded; and automating actuation of a hydraulic assembly based on the determination.

The invention concerns a service vehicle (2) for movement on a rail system (108). The service vehicle (2) comprises a container vehicle handling part (8) for mechanical interacting with a container handling vehicle (300) operating on the rail system (108), an operational part (3) for controlling operations of the service vehicle (2) and caterpillar tracks (6) for allowing movement of the service vehicle (2) on the rail system (108) during operation.

The invention concerns a service vehicle (2) for movement on a rail system (108). The service vehicle (2) comprises a container vehicle handling part (8) for mechanical interacting with a container handling vehicle (300) operating on the rail system (108), an operational part (3) for controlling operations of the service vehicle (2) and caterpillar tracks (6) for allowing movement of the service vehicle (2) on the rail system (108) during operation.

A track slider mounting plate kit includes a first shark fin configured mounting plate including a first bottom mounting surface, a first beveled surface extending from the first bottom mounting surface, and a second beveled surface that extends from the first beveled surface, forming a first oblique angle with the second beveled surface. A track slider is attached to the first shark fin configured mounting plate that has a top surface extending from the rear surface toward the front surface defining a top surface radius of curvature ranging from 2200 mm to 2600 mm.

A track slider mounting plate kit includes a first shark fin configured mounting plate including a first bottom mounting surface, a first beveled surface extending from the first bottom mounting surface, and a second beveled surface that extends from the first beveled surface, forming a first oblique angle with the second beveled surface. A track slider is attached to the first shark fin configured mounting plate that has a top surface extending from the rear surface toward the front surface defining a top surface radius of curvature ranging from 2200 mm to 2600 mm.

A crawler traveling body includes: a wheel around which a crawler belt is wound; a disc; a disc connector configured to connect the wheel and the disc, and rotate the wheel and the disc together; a brake caliper configured to sandwich the disc with a brake pad; and a motor configured to open or close the brake pad according to a control signal for controlling a degree of opening or closing of the brake pad.

Disclosed is a surface cleaning robot and a process for manufacturing a track thereof. The surface cleaning robot includes a body, where a walking unit is provided at the bottom of the body, the walking unit includes a track and a gear driving the track, the track includes a hard layer in the inner ring engaging with the gear and a soft layer in the outer ring contacting a cleaning surface, and the hard layer and the soft layer are nested and combined as a whole. The present disclosure adopts a composite track that closely nests and combines inner and outer rings of different materials.

Disclosed is a surface cleaning robot and a process for manufacturing a track thereof. The surface cleaning robot includes a body, where a walking unit is provided at the bottom of the body, the walking unit includes a track and a gear driving the track, the track includes a hard layer in the inner ring engaging with the gear and a soft layer in the outer ring contacting a cleaning surface, and the hard layer and the soft layer are nested and combined as a whole. The present disclosure adopts a composite track that closely nests and combines inner and outer rings of different materials.