Apparatuses and methods for a self-deploying tree are disclosed. In an exemplary embodiment, a self-deploying tree system comprises a top tree assembly, a main tree assembly, and a base. The lower end of the top tree assembly may be coupled to the upper end of the main tree assembly, and the lower end of the main tree assembly may be coupled to the base, providing a vertical orientation of the self-deploying tree system. The self-deploying tree system further comprises a deployment mechanism which may be activated to automatically convert the tree from a collapsed configuration to a deployed configuration or from a deployed configuration to a collapsed configuration. The collapsed configuration comprises a reduced height and a reduced circumference to allow for ease of handling and storage. The deployed configuration provides for the tree to be extended to a desired height and for deployment of the limbs as desired for display.

Apparatuses and methods for a self-deploying tree are disclosed. In an exemplary embodiment, a self-deploying tree system comprises a top tree assembly, a main tree assembly, and a base. The lower end of the top tree assembly may be coupled to the upper end of the main tree assembly, and the lower end of the main tree assembly may be coupled to the base, providing a vertical orientation of the self-deploying tree system. The self-deploying tree system further comprises a deployment mechanism which may be activated to automatically convert the tree from a collapsed configuration to a deployed configuration or from a deployed configuration to a collapsed configuration. The collapsed configuration comprises a reduced height and a reduced circumference to allow for ease of handling and storage. The deployed configuration provides for the tree to be extended to a desired height and for deployment of the limbs as desired for display.

An apparatus is disclosed. The apparatus has a base assembly, a movable assembly that is movably supported by the base assembly, a structural assembly that is supported by the movable assembly, a plurality of electrical assemblies that are supported by the structural assembly, an actuating assembly configured to move the movable assembly relative to the base assembly, and a first electrical connector that is electrically connectable to the actuating assembly and the plurality of electrical assemblies. The apparatus also has a second electrical connector that is electrically connectable to a power source, and a switch assembly disposed on the second electrical connector. The first and second electrical connectors are electrically connected via one or more contact members that are movably disposed relative to the base assembly.

A tree stand having a base assembly including a bottom, a sidewall, a plurality of stanchions, and a plurality of receivers. The bottom, sidewall and plurality of stanchions define a water reservoir. Each stanchion includes an upper portion having a bore arranged and designed to engage a bolt for securing a tree. The tree stand includes a plurality of legs having a connecting end and a distal end. The connecting end of each leg is arranged and designed to be releasably attached to one of the plurality of receivers.

A tree stand having a base assembly including a bottom, a sidewall, a plurality of stanchions, and a plurality of receivers. The bottom, sidewall and plurality of stanchions define a water reservoir. Each stanchion includes an upper portion having a bore arranged and designed to engage a bolt for securing a tree. The tree stand includes a plurality of legs having a connecting end and a distal end. The connecting end of each leg is arranged and designed to be releasably attached to one of the plurality of receivers.

The disclosed technology includes a universal tree stand for supporting trees with tree trunks of various sizes. The universal tree stand may include a clamping element to flexibly receive and secure tree trunks of different sizes. The universal tree stand may further include a fastening element that can tighten the grip of the clamping element around the tree trunk.

Apparatus and associated methods relate to an artificial tree including a trunk with first tree branches extending from the trunk to above the floor, a base configured with apertures adapted to retain second tree branches extending from the base and covering the space between the floor and the first branches, and a light source configured to illuminate the first and second branches. In an illustrative example, the apertures may be tubes configured for fiber optics. The light source may be, for example, fiber optics illuminating branches inserted in the tubes, permitting full-flow appearance branches to spread out, covering the base. Some examples may employ additional illumination sources configured in the base below the apertures to shine through a color wheel offset from the trunk center.

Apparatus and associated methods relate to an artificial tree including a trunk with first tree branches extending from the trunk to above the floor, a base configured with apertures adapted to retain second tree branches extending from the base and covering the space between the floor and the first branches, and a light source configured to illuminate the first and second branches. In an illustrative example, the apertures may be tubes configured for fiber optics. The light source may be, for example, fiber optics illuminating branches inserted in the tubes, permitting full-flow appearance branches to spread out, covering the base. Some examples may employ additional illumination sources configured in the base below the apertures to shine through a color wheel offset from the trunk center.

Apparatus and associated methods relate to an artificial tree including a trunk with first tree branches extending from the trunk to above the floor, a base configured with apertures adapted to retain second tree branches extending from the base and covering the space between the floor and the first branches, and a light source configured to illuminate the first and second branches. In an illustrative example, the apertures may be tubes configured for fiber optics. The light source may be, for example, fiber optics illuminating branches inserted in the tubes, permitting full-flow appearance branches to spread out, covering the base. Some examples may employ additional illumination sources configured in the base below the apertures to shine through a color wheel offset from the trunk center.

Apparatus and associated methods relate to an artificial tree including a trunk with first tree branches extending from the trunk to above the floor, a base configured with apertures adapted to retain second tree branches extending from the base and covering the space between the floor and the first branches, and a light source configured to illuminate the first and second branches. In an illustrative example, the apertures may be tubes configured for fiber optics. The light source may be, for example, fiber optics illuminating branches inserted in the tubes, permitting full-flow appearance branches to spread out, covering the base. Some examples may employ additional illumination sources configured in the base below the apertures to shine through a color wheel offset from the trunk center.