A hand-held low-noise shock-absorbing electric massager includes a lower shell, an upper shell, and a moving shaft rod. A right end of the moving shaft rod is provided with a massage head. The hand-held low-noise shock-absorbing electric massager further includes a transmission module bracket. An outer side wall of the moving shaft rod is coaxially provided with a shaft sleeve lubricating member. The driving part is arranged at a left end of the transmission module bracket. Two sides of the transmission module bracket are each provided with a first shock-absorbing member. The moving shaft rod is installed on the shell through the transmission module bracket. The transmission module bracket is integrated, which can ensure consistency and stability of the moving shaft rod in high-speed linear motion, that is, vibration between the moving shaft rod and the transmission module bracket is reduced during motion, and noise is also reduced.

Provided is a massage module having an improved degree of freedom, and more particularly, to a massage module having an improved degree of freedom, which, when a force is applied to the massage module, may provide a safe massage to the body of a user by buffering the force. To this end, the massage module may include a massage part that provides a massage to the body of a user, a tilting part that is disposed on one side of the massage part and controls rotation of the massage part, and a height adjustment part that is connected to the tilting part and adjusts a height of the massage part, wherein the massage part includes at least one buffer part disposed at a portion of the massage part that is directly coupled to the tilting part.

A massage device includes a main body having a gripping section adapted to be held by a user, a massaging head, and an actuator configured to effect a reciprocating movement of the massaging head relative to the gripping section. The massaging head includes a negative pressure cavity connected to the suction pump.

A percussive therapy system that includes a percussive massage device including a network interface, and an intelligence engine. The intelligence engine is configured to receive manual capture data and real-time tracking data from the percussive massage device, receive remote data from a remote data source, and generate recommendation data comprising a recommended protocol to be performed by the percussive massage device. The recommendation data is generated from demographic, activity, temporal, analytics, and biometric data, received from the manual capture data, the real-time tracking data, and the remote data inputs.

A massage applicator including a housing, a piston having a proximal end and a distal end, a motor within the housing operatively connected to the piston, wherein the motor is configured to cause the piston to reciprocate, an applicator controller configured to operate the motor, and an attachment head releasably coupled to the piston so as to be located at the distal end of the piston, the attachment head including at least one sensor configured to collect sensor data, wherein the applicator controller is configured to adjust operation of the motor based on the collected sensor data.

A massage chair includes a seat portion, a back portion a leg portion, and a massage carriage configured to move within the seat portion, the back portion, and the leg portion. The massage carriage includes comprises a percussive massage assembly comprising a motor, a reciprocating shaft coupled to the motor and configured to reciprocate in response to activation of the motor, and a reciprocating massage head coupled to the reciprocating shaft. The massage chair also includes a support mechanism associated with the percussive massage assembly. The support mechanism is configured to support a weight of a user of the massage chair, thereby allowing the reciprocating shaft and the reciprocating massage head of the percussive massage assembly to reciprocate.

A percussive massage device includes a cylinder extending along a longitudinal axis. A motor shaft that rotates about a central axis perpendicular to the longitudinal axis. A crank coupled to the shaft includes a first pivot offset from the central axis. A pinion gear is coupled to the first pivot. The pinion gear rotates within a ring gear. The pinion gear has a second pivot that rotates about the first pivot. A reciprocation linkage is coupled between the second pivot and a piston that moves longitudinally within the cylinder. An applicator head coupled to a second end of the piston has an end exposed outside the cylinder for application to a person receiving treatment. An actuator selectively rotates the ring gear to cause the applicator head to have a first stroke length and at least a second stroke length.

Disclosed is a fascia gun (1), comprising a shell, a massage head (13), a transmission mechanism (15), a driving device (17) and a control device (18), wherein the control device (18) is connected to the driving device (17); the driving device (17) is connected to the transmission mechanism (17); the transmission mechanism (15) is connected to the massage head (13); the driving device (17), the transmission mechanism (15) and the control device (18) are all mounted in the shell; and the control device (18) comprises a wireless transmission module to be wirelessly connected to an upper computer. Compared with mechanical switch control, a wireless transmission function is provided, such that the vibration frequency of the fascia gun (1) can be wirelessly controlled, thus greatly improving the ease of use of the fascia gun (1).

A massage chair and an input device in data communication with the massage chair is disclosed. The massage chair has several massaging mechanisms, each of which is for massaging a corresponding one of a number of body parts of a user. The input device includes a touch screen display. The input device is operable to display on the touch screen display a body part selection screen. This body part selection screen includes a human body representation and a number of body part representations corresponding to the body parts of the user. Each body part representation is individually selectable for actuating a corresponding massaging mechanism to massage a corresponding body part of the user. One of more of the plurality of body part representations is of an irregular shape and of a size that at least substantially covers a corresponding body part of the human body representation.

A skin cleanser includes a surface, such as a silicone surface, with at least one textured portion for transmitting vibrational tapping to the skin. The skin cleanser includes at least one oscillating motor for generating the tapping motion to the skin. The textured portion in touch-points or a wave that transmit the tapping motion to skin in contact with the to portions. The touch-points may include thicker and thinner formations of the touch-points to provide firmer or softer vibrations to the skin. The touch-points are within about 0.5 to 2.5 mm in diameter. One configuration includes multiple oscillating motors configured to provide different vibration frequencies at around 50-300 Hertz and operable simultaneously.