DEVICE FOR MEASUREMENT OF PHYSIOLOGICAL PARAMETERS THROUGH A SKIN CONTACT SURFACE

The present disclosure discloses a wearable device for measuring physiological parameters of a subject while being worn. The device includes one or more sensors that perform the measurement of the physiological parameters. The sensors can be selected from either a light-based sensor or displacement sensor. The device includes a skin contact member that has a skin contact surface facing an external side of the device that faces the skin of the subject. During measurements of one of the sensors, the contact surface engages the skin of the subject to allow performing measurements by at least one sensor. The light-based sensor is configured to perform the measurement via the skin contact surface, and the displacement sensor is configured to sense the displacement of the skin contact surface. For allowing accurate performance of the measurements, the skin contact surface is required to displace smoothly in response to contact or pressure by the skin of the subject thereon. Furthermore, the design of the skin contact surface should allow functional engagement with the skin of the subject. Thus, the skin contact member is integrally formed with a first end of a flexible member allowing the smooth displacement thereof. A housing of the device is integral with a second end of the flexible member such that the skin contact member displaces along at least one axis with respect to the static housing. The integration of the three elements, the skin contact member, the flexible member, and the housing forms a continuous structure, which is advantageous and allows to obtain the desired accuracy of the fine measurements. The integration of the three parts is typically performed by one or more over-molding processes.