A pivoting shield assembly for hats is revealed. The pivoting shield assembly includes mounting slots arranged at two sides of a hat, a pivot base mounted to each mounting slot, a first connecting rod and a second connecting rod each of which having one end pivotally connected to the pivot base and the other end pivotally mounted to a shield, and a pathway groove disposed on an inner side of the first connecting rod. The pivot base includes an elastic locking piece which is mounted and moveable in the pathway groove correspondingly. Thereby lifting up and pulling down of the shield are more precise and having different stages. The pivoting shield assembly for hats is practical.

Implementations described herein include surgical helmet assemblies that have a helmet enclosure shaped to encircle a head of a user. The helmet enclosure retains a fan and includes a brow bar portion at a front of the helmet enclosure that is shaped to extend along a brow or a forehead of the user and having a light positioned therein. The helmet enclosure also includes a stabilizer extending downward from the helmet enclosure in front of the ears of a user, a face shield that is transparent and coupleable to at least the brow bar portion, a headband shaped to extend across an occiput region of the user's head, and a surgical garment for covering at least the head and shoulders of a user in use. The brow bar portion includes vents disposed therein to direct airflow pushed through the helmet enclosure from the fan onto the user. The face shield is coupleable to the helmet enclosure by one or more of a hook and loop fastener on the helmet enclosure or the stabilizer and a post protruding from the brow bar portion.

The present disclosure relates to a chin protector 10, 10′, 10″ to be attached to a protective face shield 100, 100′ or a protective helmet 200. The present disclosure further relates to an assembly 300, 300′ of a protective face shield 100, 100′ and a chin protector 10, 10′, 10″ as well as to an assembly 400 of a protective helmet 200 and a chin protector 10, 10′, 10″. Moreover, the present disclosure relates to a kit of parts comprising a protective face shield 100, 100′ and a chin protector 10, 10′, 10″ as well as to a method of retrofitting a protective face shield 100, 100′ with a chin protector 10, 10′, 10″. The chin protector 10, 10′, 10″ is provided generally planarly and is bendable to a curved configuration for use. The chin protector 10, 10′, 10″ is easily and quickly attachable to a protective face shield 100, 100′ or a protective helmet 200 and provides for an increased freedom of selection.

A headwear includes a hat having two connection portions formed to two opposite sides of the hat. Two connectors are respectively connected to the two connection portions of the hat by two respective first end parts thereof. Two first arms are respectively and pivotably connected between two respective second end parts of the two connectors and a protective shield. Two second arms are respectively and pivotably connected between two respective second end parts of the two connectors and the protective shield. The first and second arms form a link mechanism to smoothly pivot the protective shield between its operation position and its folded position relative to the hat.

An airborne pathogen extraction system that provides for continuous airborne pathogen particle extraction from a specifically targeted area in a room or a specifically targeted area proximate to a user. The pathogenic particles are filtered and/or disinfected before the air is returned proximate to the originating location, or are directed an area away from the user(s). The airborne pathogen extraction systems and methods lower the chances of contagion or infection from airborne pathogens, such as viruses.

A medical garment for use with a helmet, wherein the garment comprises a shell and a transparent face shield configured to define a barrier between the wearer and the environment. The transparent face shield may comprise a tab configured to be at least partially disposed within an alignment channel of the helmet when the medical garment is attached to the helmet to orient the shell relative to the helmet. The tab may also be separate from the transparent face shield and disposed on the shell of the medical garment. The transparent face shield may also comprise an attachment element configured to removably couple with a coupling member of the helmet, wherein the attachment element and coupling member comprise complementary coupling surfaces.

Sensor assisted head mounted displays for welding are disclosed. Disclosed example head mounted devices include an optical sensor, an augmented reality controller, a graphics processing unit, and a semi-transparent display. The optical sensor collects an image of a weld environment. The augmented reality controller determines a simulated object to be presented in a field of view, a position in the field of view, and a perspective of the simulated object in the field of view. The graphics processing unit renders the simulated object based on the perspective to represent the simulated object being present in the field of view and in the weld environment. The display presents the rendered simulated object within the field of view based on the position. At least a portion of the weld environment is observable through the display and the lens when the display is presenting the rendered simulated object.

Described is an upper garment worn by welders while welding overhead, which is made of a breathable fabric and leather. The garment has a hood comprising leather attached to the neckline of the garment body, at least one leather sleeve, and leather on one shoulder and an upper front portion and an upper back portion of the garment that is contiguous with the at least one leather sleeve. The hood may be partially or completely made of leather, and the other sleeve may be leather. The strategic placement of leather on the garment improves the garment's durability, minimizes burns on the wearer from sparks and spatter, and protects the garment from the environment.

A welding helmet includes at least one helmet shell, fixing elements, a glare shield device and at least one protective screen spaced therefrom, and at least one display device for presenting data in the field of view of a welder, the at least one display device being arranged in the edge region of the field of view in the intermediate space between the glare shield device and the protective screen. The glare shield device has at least one cut-out in the area of the at least one display device. Because there is no glare shield device in the region of the display device, the view of the display device is not impeded by the glare shield device.

Example hard hat adapters include: a coupling mechanism to removably couple the hard hat adapter to a hard hat; an upper arm configured to removably couple to an outer face shield and an inner face shield; and a lower arm configured to removably couple to a blower shell, wherein the outer face shield and the inner face shield are configured to removably couple to the hard hat adapter at a first pivot point of the hard hat adapter.