A stacking ring for a chair base may be disposable between a first and second chair base such that the stacking ring generally prevents lateral movement of the first chair base relative to the second chair base. The stacking ring may be integrally formed to the chair base, or separate and disposable between at least two chair bases. The stacking ring may substantially prevent rotation of a first chair base relative to a second chair base.

A stowage device is equipped with a transport device that transports a plurality of types of objects in a random sequence, and a control device that sets a position of an object inside a containment area. The control device includes a complete pattern selection unit that selects a complete pattern in which an object transported by the transport device can be stowed on the basis of the type of the object and information on an object currently placed in the containment area. The control device includes a position determination unit that determines a position of an object inside the containment area on the basis of the complete pattern.

A stowage device is equipped with a transport device that transports a plurality of types of objects in a random sequence, and a control device that sets a position of an object inside a containment area. The control device includes a complete pattern selection unit that selects a complete pattern in which an object transported by the transport device can be stowed on the basis of the type of the object and information on an object currently placed in the containment area. The control device includes a position determination unit that determines a position of an object inside the containment area on the basis of the complete pattern.

A stacking device is provided for stacking plugs, in particular paint or installation plugs for motor vehicles, having a housing which has an opening, at at least one axial end, on a front side and in which extend in the axial direction, on an inner wall of the housing, at least two retaining and guide devices for the plugs. The retaining and guiding devices are designed to keep the plugs stacked in position, to allow axial movement of the plugs, and to guide the plugs in the axial direction.

A stacking device is provided for stacking plugs, in particular paint or installation plugs for motor vehicles, having a housing which has an opening, at at least one axial end, on a front side and in which extend in the axial direction, on an inner wall of the housing, at least two retaining and guide devices for the plugs. The retaining and guiding devices are designed to keep the plugs stacked in position, to allow axial movement of the plugs, and to guide the plugs in the axial direction.

A method for determining material-cage stacking, a computer device, and a storage medium are provided. The method includes the following. A material-cage image is obtained by photographing a first stacking apparatus of a first material cage and a second stacking apparatus of a second material cage. The stacking apparatuses of the two material cages in the material-cage image can be recognized respectively with two detection models. The first stacking result is obtained by obtaining location information of the stacking apparatuses of the two material cages with the first detection model, and the second stacking result is obtained with the second detection model.

A method for determining material-cage stacking, a computer device, and a storage medium are provided. The method includes the following. A material-cage image is obtained by photographing a first stacking apparatus of a first material cage and a second stacking apparatus of a second material cage. The stacking apparatuses of the two material cages in the material-cage image can be recognized respectively with two detection models. The first stacking result is obtained by obtaining location information of the stacking apparatuses of the two material cages with the first detection model, and the second stacking result is obtained with the second detection model.

A stacking ring for a chair base may be disposable between a first and second chair base such that the stacking ring generally prevents lateral movement of the first chair base relative to the second chair base. The stacking ring may be integrally formed to the chair base, or separate and disposable between at least two chair bases. The stacking ring may substantially prevent rotation of a first chair base relative to a second chair base.

A stacking ring for a chair base may be disposable between a first and second chair base such that the stacking ring generally prevents lateral movement of the first chair base relative to the second chair base. The stacking ring may be integrally formed to the chair base, or separate and disposable between at least two chair bases. The stacking ring may substantially prevent rotation of a first chair base relative to a second chair base.

An automatic tire loader/unloader for stacking/unstacking tires in a trailer is disclosed. In one embodiment, a mobile base structure provides a support framework for a drive subassembly, conveyance subassembly, an industrial robot, a distance measurement subassembly, and a control subassembly. Under the operation of the control subassembly, tires advance through a powered transportation path to an industrial robot which places the tires within the trailer in a vertical stacking pattern or a rick-stacking pattern, for example. The control subassembly coordinates the selective articulated movement of the industrial robot and the activation of the drive subassembly based upon the distance measurement subassembly detecting objects, including tires, within a detection space, dimensions of the trailer provided to the control subassembly, and dimensions of the tires provided to the control subassembly.