A protective helmet for practicing sports activities or using motorized vehicles is provided. The protective helmet has a cap provided with a front opening at an eye region of a user, and closed by a visor assembly. The visor assembly has at least one at least partially transparent structural lens, a guest-host type liquid crystal (LC) film adapted to modify its own transparency level, arranged behind the at least partially transparent structural lens, at least one electrical source for powering the LC film, and a frame for supporting the at least partially transparent structural lens and anchoring the at least partially transparent structural lens to the cap. The frame follows at least partially a perimeter of the at least partially transparent structural lens.

An automatic-darkening filter 10, 10 that comprises a first polarizer 14, a second polarizer 18, a first liquid-crystal cell 16, and a sensor 64. The first polarizer 14 has a first polarization direction, and the second polarizer 18 has a second polarization direction. The liquid crystal cell 16 is disposed between the first and second polarizers 14, 18 and contains first and second optically-transparent, flexible, glass layers 40 and 42 with the liquid crystal layer 48 being located between these layers. The sensor 64 detects incident light and causes a signal to be sent, which causes molecular rotation within the liquid crystal layer. The inventive automatic-darkening filter is beneficial in that overall product weight can be reduced and the view field can be increased.

The disclosure provides a protective visor applicable to multiple operation environments for dust prevention, anti-shock glasses, chemical defense and ray radiation protection. The protective visor comprises a headband, a face shield, protective goggles, a light shading screen, a light grid and a housing, which are connected to each other. The light shading screen and the light grid constitute a light refraction and transmission device for refracting and transmitting the light, which includes a light aperture processed to have a curved surface and located at the front and upper end portion of the housing. The light aperture has a serrated lattice shutter structure, and the light shading screen is disposed at the outer side of the light aperture. The protective visor can effectively prevent foreign splash, and absorb radiant heat and certain ultraviolet rays to protect an operator's face.

An adaptive screen including at least one liquid crystal shutter. At least one of the shutters includes at least two active zones which are addressed by a control signal which permits the switchover of the at least one corresponding shutter between a passing configuration, in which a transmittance is equal to a maximum value, and a blocking configuration, in which the transmittance is equal to a minimum value. A principal active zone covers a surface area of the adaptive screen which is equal to or lower than 60% of the surface area of the adaptive screen, in order to reduce the response time of the principal active zone.

Provided are protective glasses and/or sunglasses equipped with a frame adapted to support a lens assembly having at least one structural lens made of plastics material and at least one liquid crystal (LC) film of the guest host type arranged on an inner side of the at least one structural lens and controlled by an electronic board powered by an energy source. The at least one structural lens has a free edge extending beyond an outline of the at least one LC film at which the lens assembly is fixed to the frame. A free space is provided between the frame and the at least one LC film. The frame is provided with a vertically projecting rib covering the free edge and the free space. The rib not only reduces deformations of the lens assembly, but also prevents infiltrations of light around the LC film that would compromise comfortable vision.

Portable, light attenuating electrochromic device adapted for heating to prevent fogging and to enhance operability during colder weather comprising: opposed substrates defining an enclosed space for receiving a liquid crystal solution and having conducting layers, the first substrate having a heating element system thereon for controlled operation via a first voltage power supply circuit between an upper voltage limit and a lower voltage limit, the second substrate having a tint control system thereon for controlled operation via a second voltage power supply circuit at first and second state tint voltages outside the heating voltage range upper and lower voltage limits, for heating the device during cold-weather operation to prevent fogging of the device and for attenuating light through the device to account for varying ambient lighting conditions despite colder weather operating conditions.

Device (1) for protecting the eyes from radiation, preferably in the range from 100 nm to 1 mm and in particular from UV, light or infrared, comprising at least two sensor arrangements (2, 3), an external sensor arrangement (2) and an internal sensor arrangement (3), wherein each sensor arrangement (2, 3) comprises a plurality of radiation sensors (2a, 3a) arranged one after the other, which are each arranged along a closed curve (2b, 3b), and wherein the internal sensor arrangement (3) is surrounded by the external sensor arrangement (2), and wherein the external sensor arrangement and internal sensor arrangement (2, 3) are arranged adjacently to each other, and wherein the internal sensor arrangement (3) encloses a radiation passage region (4), and wherein the radiation passage region (4) comprises a radiation passage opening (5), and wherein a closing device (6) is arranged in such a way with respect to the radiation passage region (4) that an incident radiation (S) passing through the radiation passage opening (5) is either let pass through or at least partially attenuated, and comprising a control device (8) which is connected to the internal sensor arrangement (2), the external sensor arrangement (3) and the closing device (6).

The invention relates to spectacles. Said spectacles comprise a spectacle lens having a liquid crystal cell (LC) the transmission (TR) of which can be switched between transmitting and blocking. Furthermore, the spectacles comprise an eye tracker (ET) which can detect the viewing direction of the eye. They further comprise at least one sensor (IL, IR) for measuring the brightness of the visible light incident on it, said sensor being arranged on the eye side of the spectacle lens and measuring the brightness entering through the at least one spectacle lens in a spatially resolved manner. The sensor can determine the brightness of the visible light incident on it from the viewing direction of the eye detected by the eye tracker. The spectacles also have a closed loop control system for controlling the transmission of the liquid crystal cell, a desired value for the brightness at the level of the eye being predetermined, and the closed loop system using the brightness measured by the sensor in the viewing direction of the eye as the actual value.

There is set forth herein an optomechanical device which can comprise a first mirror and a second mirror forming with the first mirror a cavity. In one aspect the first mirror can be a movable mirror. The optomechanical device can be adapted so that the first mirror is moveable responsively to radiation force.

[Object] To provide a novel and improved surgical face guard with which a three-dimensional image can be used safely during medical treatment.

[Solution] Provided is a surgical face guard, including a frame configured to be worn on a head of a medical worker, and a polarization shield configured to cover at least an in-front-of-eyes part and a part of a side-of-face surface of the medical worker, and have a predetermined polarization property with respect to a three-dimensional image.