Disclosed are timepieces including a first mirror that is at least partially transparent and a second mirror. The second mirror is coupled to the first mirror to articulate with respect to the first mirror about a first axis. A time display is coupled to the second mirror. Also disclosed are reflecting devices including a first mirror and an articulating device coupled to the first mirror. A rotatable device is coupled to the articulating device and a second mirror is also coupled to the rotatable device. Additionally disclosed are reflecting kits including a mirror and an articulating device coupled to the mirror. A ring is coupled to the articulating device. The ring has an aperture. A reflective material is configured to be received by the ring. Methods of using these devices and kits are also disclosed.

A survival wristwatch includes a timepiece and a wristband that include integrated survival kit features for assisting a user with various survival tasks. The wristband includes a cord, or paracord, winding or braiding around a strap. The strap is uniquely designed to integrate with the cord and provide adjustability of the wristband.

A case configured to receive a plurality of mechanical watch movements in the wound state, each movement being housed inside a compartment, configured to receive and maintain the movement according to a predefined orientation. In this position, the winding buttons of the movements are positioned facing respective microphones which are mounted inside the case. The microphones are configured such that they cancel the noises detected, such that the acoustic measurements of each of the movements are essentially not disturbed by the noises produced by the adjacent movements. Also, a method for testing a plurality of mechanical movements installed in the case, and to a testing system which includes the case. The movements are measured by a plurality of cycles of consecutive and successive measurement periods.

A case configured to receive a plurality of mechanical watch movements in the wound state, each movement being housed inside a compartment, configured to receive and maintain the movement according to a predefined orientation. In this position, the winding buttons of the movements are positioned facing respective microphones which are mounted inside the case. The microphones are configured such that they cancel the noises detected, such that the acoustic measurements of each of the movements are essentially not disturbed by the noises produced by the adjacent movements. Also, a method for testing a plurality of mechanical movements installed in the case, and to a testing system which includes the case. The movements are measured by a plurality of cycles of consecutive and successive measurement periods.

A storage device, in particular a bath and/or shower storage device, includes at least one storage element, at least one fastening unit for fastening the storage element on a wall, in particular a tiled room wall, at least one electronics unit at least partially arranged on the storage element, in particular an illumination unit and/or an entertainment electronics unit, and at least one inspection unit, which comprises at least one inspection element removably and/or movably mounted on a main body element of the fastening unit and/or on the storage element.

A case configured to receive a plurality of mechanical watch movements in the wound state, each movement being housed inside a compartment, configured to receive and maintain the movement according to a predefined orientation. In this position, the winding buttons of the movements are positioned facing respective microphones which are mounted inside the case. The microphones are configured such that they cancel the noises detected, such that the acoustic measurements of each of the movements are essentially not disturbed by the noises produced by the adjacent movements. Also, a method for testing a plurality of mechanical movements installed in the case, and to a testing system which includes the case. The movements are measured by a plurality of cycles of consecutive and successive measurement periods.

A case configured to receive a plurality of mechanical watch movements in the wound state, each movement being housed inside a compartment, configured to receive and maintain the movement according to a predefined orientation. In this position, the winding buttons of the movements are positioned facing respective microphones which are mounted inside the case. The microphones are configured such that they cancel the noises detected, such that the acoustic measurements of each of the movements are essentially not disturbed by the noises produced by the adjacent movements. Also, a method for testing a plurality of mechanical movements installed in the case, and to a testing system which includes the case. The movements are measured by a plurality of cycles of consecutive and successive measurement periods.

Disclosed are timepieces including a first mirror that is at least partially transparent and a second mirror. The second mirror is coupled to the first mirror to articulate with respect to the first mirror about a first axis. A time display is coupled to the second mirror. Also disclosed are reflecting devices including a first mirror and an articulating device coupled to the first mirror. A rotatable device is coupled to the articulating device and a second mirror is also coupled to the rotatable device. Additionally disclosed are reflecting kits including a mirror and an articulating device coupled to the mirror. A ring is coupled to the articulating device. The ring has an aperture. A reflective material is configured to be received by the ring. Methods of using these devices and kits are also disclosed.

The present disclosure pertains to a pillow system (40), in particular a pillow system that surrounds the subject's head. In some embodiments, the pillow system provides sound suppression. In some embodiments used with positive airways pressure (PAP) systems, the pillow system includes a tube that delivers breathable gas to a mask.

The present disclosure pertains to a pillow system (40), in particular a pillow system that surrounds the subject's head. In some embodiments, the pillow system provides sound suppression. In some embodiments used with positive airways pressure (PAP) systems, the pillow system includes a tube that delivers breathable gas to a mask.