The present disclosure relates to a massage device capable of repositioning when a power failure occurs, comprising: an energy storage unit that stores electrical energy supplied from a power supply unit; an input unit that receives an input from a user when the electric energy supply is cut off from the power supply unit; a back angle actuator that receives, on the basis of the input unit, electric energy from the energy storage unit and moves a body massage unit such that the massage device is in an initial state; and a leg angle actuator that receives, on the basis of the input unit, electric energy from the energy storage unit and moves a leg massage unit such that the massage device is in an initial state.

A device for washing or treating the feet and lower legs of a user comprises an outer housing; a base assembly located in the outer housing; access means for providing access to a base assembly, a controller for controlling operation of the device, and a fluid supply mechanism. The base assembly includes a pair of footrests for supporting the feet and lower legs of a user during washing or treating, at least one rotatable transversely extending cleaning or treating assembly located above the footrest for washing or treating a user's feet; and a plurality of rotatable upright cleaning or treating assemblies for washing or treating the lower legs of the user. A ilting assembly is provided for tilting the base assembly relative to the outer housing through a plurality of inclined positions.

An infant burping assembly includes a belt that is longitudinally elongated for wearing around an infant's torso. An inflation unit is integrated into the belt and the inflation unit is repeatedly inflated and deflated when the inflation unit is turned on. In this way the inflation unit repeatedly engages the infant's back for burping the infant. A heating element is integrated into the belt to warm the infant when the heating element is turned on. A vibration unit is integrated into the belt to massage the infant when the vibration unit is turned on. A remote control is provided and the remote control is in remote communication with each of the inflation unit, the heating element and the vibration unit for turning each of the inflation unit, the heating element and the vibration unit on and off.

Pneumatic and therapeutic compression systems are disclosed including treatment protocols that may be used with such systems. A pneumatic compression system may include a source and sink of a pressurizing fluid. The pressurizing fluid may be sourced to a number of valves, each valve controllable by a control device including a computing device. The computing device may control each valve separately to allow any one or more of the valves to connect to the fluid source or the fluid sink. The computing device may include one or more therapeutic protocols that may direct one, two, or more valves to switch between fluid sourcing and fluid sinking, substantially simultaneously or in a sequence. A therapeutic compression system may include the pneumatic system in fluid communication with an inflation sleeve composed of multiple cells. Each cell may be inflated or deflated by a valve according to the therapeutic protocol.

An armrest portion of a chair-type massager includes a side wall disposed generally upright at either of the left and right sides of a seat portion. An air bag configured to press the thighs of a treated person is provided on a seat side face which is the side face of the armrest portion facing the seat portion along the left-right axis. The seat side face includes a side face of the side wall facing the seat portion and an installation face. The installation face, at least when the air bag is inflated, inclines the further to the seat portion side along the left-right axis the higher up. At least part of the air bag is provided on the installation face.

Apparatus and methods relate to a multi-modal rehabilitation device having a reconfigurably lockable, adjustable knee stabilizer and a removable foot plate provided with removable resistance elements. In an illustrative example, the resistance elements may be repositionable. The foot plate may be provided with rollers. The rollers may be configured for use in gliding exercises. The rollers may be configured for self-massage therapy. The rollers may be removable. The rollers may be disposed in a removable leg band which may be disposed around a leg of a user. In an illustrative example, the device further includes a graduated self-deflating thermal-compression device. Various embodiments may provide multiple therapy modalities in an efficient, economical, and user-friendly device.

A communication robot for operating a massage providing apparatus by executing an artificial intelligence algorithm (AI) and/or machine learning algorithm in a 5G environment connected for the Internet of things and a method for operating the communication robot are provided. The method for operating the communication robot may include acquiring a spoken utterance of a user positioned within a prescribed range from the massage providing apparatus, tracking a spoken utterance direction of the user from the spoken utterance of the user, orienting the communication robot towards the spoken utterance direction of the user, acquiring a voice command included in the spoken utterance in relation to operation of the massage providing apparatus, and operating the massage providing apparatus according to the voice command.

In a chair-type massager, a backrest portion includes a back frame, a pair of arm treatment portions, a support frame having a pair of support portions and a beam portion, and an actuator moving the support frame. The support portions are provided on the left and right sides, respectively, of the back frame and supports the arm treatment portions respectively. The beam portion extends from upper end parts of the support portions toward the back frame along the left-right axis. The actuator has a rod portion and a drive portion. The rod portion is connected to one of the back frame or the beam portion of the support frame, on the other of which the drive portion is pivotably supported. The drive portion is configured to move up and down the rod portion.

An automatic massage portable massage table, and belongs to the technical field of massage apparatuses. The automatic massage portable massage table includes a rigid planner surface, a cushioned pad, an upholstery cover, table legs, long leg supports, short leg supports, a cable system, a headrest cradle, a headrest cushion, and a plurality of airbags. According to the automatic massage portable massage table of the present disclosure, a user can command a circuit board to supply power to an air pump and a plurality of air valves through buttons of a controller. After being powered on, the air pump supplies air to the air valves. Meanwhile, the circuit board controls, according to a pre-stored program, the air valves to achieve air supply and air release, thus controlling the airbags to be inflated and deflated.

The present disclosure relates to an airbag type massage table, and belongs to the technical field of massage apparatuses, including a rigid planner surface, a table top, an upholstery cover, a headrest cushion, and a plurality of airbags. A user can lay in supine or prone position on the table top of the airbag type massage table of the present disclosure. A circuit board is instructed by means of buttons of a controller. The circuit board supplies power to an air pump Air pumps supply air to air valves. Meanwhile, the circuit board controls the opening, closing and air release of the air valves, thus controlling the airbags to be inflated, held and deflated.