The subject matter of the solution is an automatic snap buckle intended in particular for joining together sections of safety harness tapes wherein the snap buckle consists of a body and a plug, wherein in the body there is a connection eyelet for sewing of the end of a textile strap of the safety harness, wherein in the plug there is a second connection eyelet for the sewing of the other tape end and wherein the finger of the plug is pushed to a stop, which is a central post located at the end of the slot in the body

A magnetic buckle assembly includes first buckle component, a second buckle component for mating with the first buckle component, a switch movably disposed on the second buckle component, an operating component slidably disposed on the second buckle component and for driving the switch to move. The first magnetic component, a first magnetic component disposed on the first buckle component, a second magnetic component disposed on the switch and for magnetically attracting or repelling the first magnetic component, and a latch movably disposed on the second buckle component and for engaging with the first buckle component. The latch moves along with sliding movement of the operating component. The operating component drives the switch to move to change a direction of a magnetic force of the second magnetic component acting on the first magnetic component when the operating component is operated to slide to disengage the latch from the first buckle component.

Provided is a closure device including a first closure part that includes a locking element, a force transmission element operatively connected to the locking element, which can be loaded along a force direction, and an actuating element movable relative to the locking element, and a second closure part that includes an engagement element. The locking element and the engagement element can be attached to each other for connecting the first closure part and the second closure part to each other and are connected to each other in a closed position. In the closed position, when the force transmission element is loaded along the force direction, the locking element is loaded in a locking direction towards contact with the engagement element by the action of force of the force transmission element. The actuating element can be actuated in order to adjust the locking element against the locking direction.

A latch assembly having a latch buckle and a latch tongue. The latch buckle includes: a buckle housing; a first lateral aperture disposed along a first side of the buckle housing; a second lateral aperture disposed along a second side of the buckle housing; a pair of h-shaped levers, each pivotally coupled to an interior of the buckle housing; a spring ring disposed between the pair of h-shaped levers; a pair of springs, each spring being coupled to an interior of the buckle housing and an h-shaped lever; and a buckle aperture disposed along a top of the buckle housing and between the pair of h-shaped levers. The latch tongue includes: a tongue plate; a plate spacer, coupled to the tongue plate; and a latch flange, coupled to the plate spacer, configured to be received by the buckle aperture. The latch tongue is selectably coupled to the latch base.

A buckle according to the present invention has two opposing ends that are removably attached to each other using a locking system. On one end of the buckle, the locking system includes two opposing locking pins coupled to a spring that is fully enclosed and protected from external elements. On the other end, corresponding rivets or pin casings with plungers are operable to receive the locking pins and lock the two ends together or push the pins out of the casings to release the buckle. The buckle may also include a plug that is removably attached to the adjustable loop end and allows the central bar of the adjustable loop end to be removed without deforming the central bar. Alternatively, each end of the buckle may include self-aligning tabs that guide the ends of the buckle for fastening and aid in the stability of the buckle.

Disclosed is a buckle assembly having a female buckle component and a male buckle component. The male buckle component configured to mate with the female buckle component and comprising a main body, a mating guide beam, and one or more lateral arms coupled to the main body and configured to deflect about pivot points. Each lateral arm having a distal end configured to engage said female buckle component via a latching ledge of a button. Each lateral arm is shaped to define an effective length between the latching ledge and the pivot point that is greater than a linear distance between the latching ledge and the pivot point.

A buckle assembly has a first buckle portion, a second buckle portion and a locking lid. The first and second buckle portions have magnets that attract each other. The locking lid is connected to the first buckle portion and has a sliding element, a spring connected to the siding element, a pivot axle for connecting the locking lid to the first buckle portion, and front and rear attachment elements. The second buckle portion has engagement flanges for engaging the front and rear attachment elements. The first and second buckle portions are connected together by placing the first and second buckle portions together so that the magnets attract each other, sliding the sliding element against a force of the spring until the attachment elements engage the engagement flanges, and then releasing the sliding element to return the spring to a resting position.

A chinstrap harness for a safety helmet, the chinstrap harness comprising first and second elongate side sections of flexible material (12a, 12b, 12c), each side section having a first end and an opposing second end, wherein said first end comprises means (3a, 3b) to connect said chinstrap harness to a safety helmet, and the opposing second end of each side section includes means (1) for releasably coupling said side sections adjacent a user's face. In use, said first side section (12b, 12c) incorporating along its length, and intermediate its first and second ends, a safety device (10) coupled across a break in said second side section (12b, 12c), said safety device (10) being selectively configurable between a first configuration, in which said safety device is free to release when a tensile force applied to said chinstrap harness exceeds a first predetermined threshold, and a second configuration, in which it can sustain, without releasing, a tensile force of at least a second predetermined threshold, said second predetermined threshold being greater than said first predetermined threshold.

A buckle assembly that includes a male buckle component to mate with a female buckle component into a securely connected position. The male buckle component includes a main body, a mating guide beam, and one or more lateral arms coupled to the main body to deflect about a pivot point. Each of the one or more lateral arms includes a flexible lateral arm and a button. The button engages the female buckle component via a latching ledge, which defines a sloped transition from the flexible lateral arm to the button. The female buckle component includes a housing that defines a button aperture to secure the button of the male component, a disengagement aperture proximal to the button aperture, and a pocket to receive the male buckle component.

A quick-release swivel latch may include male and female components configured to selectively connect to, swivel relative to, and detach from one another. The male component may include an arc slot and a central indent, while the female component may include outer surfaces that collectively form a chamber for receiving an insertable portion of the male component. The top surface of the female component may include a cantilever wall having a front lip and a central protrusion corresponding in shape, size, and/or arrangement to and configured to engage the arc slot and ball indent slot on the male component. These corresponding features, once engaged, may enable the male and female components to swivel in one or more dimensions relative to one another once connected, and a user to pull up on the cantilever wall to quickly disengage the male and female components.