A foldable massage chair, including a face pillow assembly for supporting the head, a chest pillow assembly for supporting the chest, a handrail assembly for supporting wrists, a front support piece, a seat cushion assembly, a back support rod, a kneeboard assembly, a back supporting frame, and a front supporting frame. When a user needs to use this chair, it is placed in an expanded or use position, so the user may sit on the seat cushion and lean on the massage chair, completely exposing his back, waist, and hips for a masseur to massage. When the chair needs to be put away, it is possible to fold down the chair into a collapsed position by folding the seat cushion assembly, front support piece, chest pillow assembly, and handrail assembly. Also, the front supporting frame is folded towards the back supporting frame. Consequently, the size of the entire chair decreases.

A foldable massage chair, including a face pillow assembly for supporting the head, a chest pillow assembly for supporting the chest, a handrail assembly for supporting wrists, a front support piece, a seat cushion assembly, a back support rod, a kneeboard assembly, a back supporting frame, and a front supporting frame. When a user needs to use this chair, it is placed in an expanded or use position, so the user may sit on the seat cushion and lean on the massage chair, completely exposing his back, waist, and hips for a masseur to massage. When the chair needs to be put away, it is possible to fold down the chair into a collapsed position by folding the seat cushion assembly, front support piece, chest pillow assembly, and handrail assembly. Also, the front supporting frame is folded towards the back supporting frame. Consequently, the size of the entire chair decreases.

A chair for particular use in clinical or hospital environments has a frame to which a support material is secured. The support material may form a chair back and/or a seat for the chair to provide support to the chair occupant. The support material may be made from a textile of interwoven strands wherein some of the interwoven strands include copper containing particles, such as copper iodide or copper oxide within the textile fibers.

A chair for particular use in clinical or hospital environments has a frame to which a support material is secured. The support material may form a chair back and/or a seat for the chair to provide support to the chair occupant. The support material may be made from a textile of interwoven strands wherein some of the interwoven strands include copper containing particles, such as copper iodide or copper oxide within the textile fibers.

A system for a medical chair that has a chair assembly having a plurality of movable components, a control system that selectively controls the movable components, and a wireless controller that communicates wirelessly with the control system to modify a configuration of the movable components.

A self-supporting tube can support an associated medical or dental device, such as an extra-oral aerosol suction device. The self-supporting tube can be configured as a high-volume evacuator tube for a dental chair system. The self-supporting tube can include a first end that connects to an HVE port of a vacuum collection cannister directly or through a U-shaped tubular fitting and/or the first end of the self-supporting tube can connect to an inlet of a high-volume evacuator valve, and the self-supporting tube can include an opposite second end that connects to the associated aerosol suction device. The self-supporting tube can include at least one lumen that fluidically connects the first and second ends. The self-supporting tube can further include a manually operated inline valve. The self-supporting tube can be disposable and can be formed into a desired shape. When connected to an HVE valve, the self-supporting tube can include an anti-rotational device. The self-supporting tube can be provided as part of a modular system including at least one flexible tube segment and the self-supporting tube connected together. The self-supporting tube can be connected to an associated support structure of a dental delivery system unit such as an assistant's chair by a sleeve. The self-supporting tube can be connected to a support arm extending from a stopper connected to an HVE valve cradle. The self-supporting tube can include an aerosol suction funnel formed as a one-piece structure with the remainder of the self-supporting tube.

A self-supporting tube can support an associated medical or dental device, such as an extra-oral aerosol suction device. The self-supporting tube can be configured as a high-volume evacuator tube for a dental chair system. The self-supporting tube can include a first end that connects to an HVE port of a vacuum collection cannister directly or through a U-shaped tubular fitting and/or the first end of the self-supporting tube can connect to an inlet of a high-volume evacuator valve, and the self-supporting tube can include an opposite second end that connects to the associated aerosol suction device. The self-supporting tube can include at least one lumen that fluidically connects the first and second ends. The self-supporting tube can further include a manually operated inline valve. The self-supporting tube can be disposable and can be formed into a desired shape. When connected to an HVE valve, the self-supporting tube can include an anti-rotational device. The self-supporting tube can be provided as part of a modular system including at least one flexible tube segment and the self-supporting tube connected together. The self-supporting tube can be connected to an associated support structure of a dental delivery system unit such as an assistant's chair by a sleeve. The self-supporting tube can be connected to a support arm extending from a stopper connected to an HVE valve cradle. The self-supporting tube can include an aerosol suction funnel formed as a one-piece structure with the remainder of the self-supporting tube.

A dental chair is provided including a chair assembly comprising a backrest, a seat, and a base; and at least one set of utility ports disposed on the chair, adjacent to the seat, each port having a quick release fitting for receiving a flexible conduit connected to a hand piece.

A dental chair is provided including a chair assembly comprising a backrest, a seat, and a base; and at least one set of utility ports disposed on the chair, adjacent to the seat, each port having a quick release fitting for receiving a flexible conduit connected to a hand piece.

A pivoting examination chair mechanism for an examination chair related to a substantially immovable examination tool, which includes a rotation mechanism portion rotating about a first vertical axis, a rotation arm integral with, and extending from, the rotation mechanism portion, and a chair support portion attached proximate a distal end of the rotation arm and offset from the rotating base portion including a chair gimbal, in which the chair gimbal rotates around a second vertical axis and the first and second vertical axes are substantially parallel to one another, so that moving the rotation arm through 180, the examination chair is moved about the first vertical axis to provide a clear access area to the substantially immovable examination tool.