The present disclosure illustrates a motorized mount with a plurality of degrees of freedom coupled to a seating system. The motorized mount assembly can include an attachment assembly configured to attach to a seating assembly. A vertical control assembly can be connected to the attachment assembly with an arm having a first end attached to vertical control assembly by a first hinge. A mounting assembly can be attached to a second end of the arm. The mounting assembly can configured to receive a personal computing device. A linear actuator may be attached to the vertical control assembly to raise and lower the arm and mounting assembly. A first motor can be configured to attach to the arm. A second motor can be configured to attach between the arm and the mounting assembly.

The present disclosure illustrates a motorized mount with a plurality of degrees of freedom coupled to a seating system. The motorized mount assembly can include an attachment assembly configured to attach to a seating assembly. A vertical control assembly can be connected to the attachment assembly with an arm having a first end attached to vertical control assembly by a first hinge. A mounting assembly can be attached to a second end of the arm. The mounting assembly can configured to receive a personal computing device. A linear actuator may be attached to the vertical control assembly to raise and lower the arm and mounting assembly. A first motor can be configured to attach to the arm. A second motor can be configured to attach between the arm and the mounting assembly.

An embodiment of the invention is a terminal device controlling a body support apparatus capable of a first operation and a second operation; the terminal device includes a displayer and a controller; the displayer displays an operator controlling an operation of the body support apparatus; the controller switches between a first display format and a second display format based on an instruction from an outside; the first display format displays a first operator and a second operator in the displayer; the first operator controls the first operation; the second operator controls the second operation; and the second display format displays one of the first operator or the second operator in the displayer.

An oscillating sleep induction bed of the present invention enables a person suffering from insomnia, etc., to efficiently fall asleep by means of slow lateral oscillation, which accompanies a gentle vertical motion, within a near-horizontal plane slightly curved into an arc shape, rather than by rotational motion or high-frequency vibratory motion. The bed is provided with a support section (2) having an upper-surface curved section (2a) configured such that the cross section perpendicular to the longitudinal direction of the bed forms a downwardly convex arc shape, an oscillating section (3) that oscillates along the upper-surface curved section (2a) of the support section (2) in the lateral direction of the bed, and a drive means for causing the oscillating section (3) to oscillate in the lateral direction of the bed. The curvature radius of the upper-surface curved section is 1.5≤r≤25 m. The horizontal amplitude d of the oscillating section (3) produced by the drive means is set to be variable within the specific range of 0 cm<d≤10 cm, and a vibration frequency f is set to be variable within the specific range of 0.1 Hz<f≤0.6 Hz.

The application provides an oscillating sleep induction bed capable of smoother oscillation than conventional sleep induction beds. This oscillating sleep induction bed includes a plurality of oscillating support devices positioned in a dispersed manner. Each oscillating support device is provided with a support part) installed on the floor surface, a pendulum member capable of oscillating in the lateral direction of the bed, and link members that link the upper part of the support part and the lower part of the pendulum member. The upper end part of the pendulum member is fixed to the lower surface side of the bed body. The pendulum member oscillates with respect to the support part. A drive device is provided between the bed body and the upper part of the support part constituting the oscillating support device, whereby the bed body can be made to oscillate laterally with respect to the support part.

A bed leg for connecting to a bed frame includes one or more leg sections. Each of the one or more leg sections includes a central column having a first end, an opposite, second end, and a connecting bolt attached to the first end; and a decorative shell configured to detachably sleeve on the central column.

A system can include a foundation structure and a sensor. The foundation structure can have a plurality of deck panels configured to support a mattress. The plurality of deck panels can include a head panel. The plurality of deck panels can have a head, a foot, a first side, and a second side, a first edge along the head, a second edge along the foot opposite of the first edge, a third edge along the first side, and a fourth edge along the second side opposite the third edge. The sensor can be configured to detect a sound indicative of a snore. The sensor can be positioned along the third edge or fourth edge of the head panel.

A piezoelectric sensor (10) having an elongated-sheet shape includes a piezoelectric layer (11) containing an elastomer and piezoelectric particles and electrode layers (12a and 12b) which are disposed with the piezoelectric layer (11) sandwiched between the electrode layers. In the piezoelectric sensor (10), a pressure sensing region (S) has a length of 500 mm or longer in a longitudinal direction thereof; the electrode layers (12a and 12b) contain an elastomer and flaky conductive materials and are capable of elongating by 10% or more in one direction of plane directions; and when a space between one end portion (A) and the other end portion (B) of the pressure sensing region (S) in the longitudinal direction is set as a measurement zone, an electrical resistance in the measurement zone in the electrode layers (12a and 12b) is 3,000Ω or lower, and the specific Expression (I) is satisfied.

A piezoelectric sensor (10) having an elongated-sheet shape includes a piezoelectric layer (11) containing an elastomer and piezoelectric particles and electrode layers (12a and 12b) which are disposed with the piezoelectric layer (11) sandwiched between the electrode layers. In the piezoelectric sensor (10), a pressure sensing region (S) has a length of 500 mm or longer in a longitudinal direction thereof; the electrode layers (12a and 12b) contain an elastomer and flaky conductive materials and are capable of elongating by 10% or more in one direction of plane directions; and when a space between one end portion (A) and the other end portion (B) of the pressure sensing region (S) in the longitudinal direction is set as a measurement zone, an electrical resistance in the measurement zone in the electrode layers (12a and 12b) is 3,000Ω or lower, and the specific Expression (I) is satisfied.

A user module for a patient support is provided. The user module is coupled to a patient support barrier, such as a siderail or a footboard.