A magnetic buckling assembly includes a male buckling component, a female buckling component, a first locking portion, a second locking portion, an operating component, a first magnetic component and a second magnetic component. The first magnetic component magnetically attracts or magnetically repulses the second magnetic component during a connecting process of the male buckling component and the female buckling component along a connecting direction. The first magnetic component magnetically attracts the second magnetic component for preventing separation of the male buckling component and the female buckling component or magnetically repulses the second magnetic component for promoting the separation of the male buckling component and the female buckling component when the operating component is operated to disengage the first locking portion from the second locking portion for allowing the separation of the male buckling component and the female buckling component.

A strap attachment device includes a strap connector configured to attach to a strap and a connecting plate secured on the surface of an article such as a bag or suitcase. The strap connector includes a connector post configured to removably engage and be secured by a locking member located beneath the connecting plate. The locking member is biased into a closed position by a mechanical biasing means, such as a spring. The connector post may include a flanged end configured to partially disengage the locking member causing the flanged end to mate with and be secured by the locking member responsive to being inserted into the connecting plate. A pull tab is further disposed on a pull track within the connecting plate. A user can disengage the connector post from the locking member by moving the pull tab along the pull track.

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 strap attachment device includes a strap connector configured to attach to a strap and a connecting plate secured on the surface of an article such as a bag or suitcase. The strap connector includes a connector post configured to removably engage and be secured by a locking member located beneath the connecting plate. The locking member is biased into a closed position by a mechanical biasing means, such as a spring. The connector post may include a flanged end configured to partially disengage the locking member causing the flanged end to mate with and be secured by the locking member responsive to being inserted into the connecting plate. A pull tab is further disposed on a pull track within the connecting plate. A user can disengage the connector post from the locking member by moving the pull tab along the pull track.

A buffer device has a plate, a moveable ring, and an elastic member. The plate has an insertion hole formed through the plate, a connecting portion, and a retaining hole. The connecting portion and the retaining hole are formed on the plate and are located above the insertion hole of the plate. The moveable ring is moveably mounted out of a front side of the plate and has a slot. The slot is formed through the moveable ring. The elastic member is connected with the connecting portion of the plate and the moveable ring. A top section of the elastic member is wound on the connecting portion of the plate. A bottom section of the elastic member is wound on a top section of the moveable ring and passes through the slot of the moveable ring.

Provided is a closure device for the releasable connecting of two parts to each other including a first closure part, having a first base body, at least two first engaging sections formed on the first base body, spaced apart from each other along a loading direction and forming between them a gap, and at least one first magnetic section arranged on the first base body, and a second closure part, having a second base body, at least one second engaging section formed on the second base body, and at least one second magnetic section arranged on the second base body.

A buckle assembly is configured to securely attach to a component and may include a buckle housing and a securing member. The buckle housing may include a first connecting protuberance or first protuberance-retaining structure, and a second connecting protuberance or the second protuberance-retaining structure. The securing member may include the other of the first connecting protuberance or the first protuberance-retaining structure, and the other of the second connecting protuberance or the second protuberance-retaining structure. The first protuberance-retaining structure is configured to slidably receive the first connecting protuberance in a sliding direction. The second protuberance-retaining structure is configured to securely retain the second connecting protuberance so that the buckle housing is secured with respect to the securing member.

Self-aligning, durable quick connect strap end connector system that includes a pair of identical end connectors configured to slide together and interconnect. Each end connector includes a body with a strap bar and strap slot formed on the body's proximal end. The body includes a narrow section and a lip section that extends downward and rearward. The lip section includes an abutment surface transversely aligned with the body's longitudinal axis. Located adjacent to the abutment surface is a void area configured to receive the lip section on a second end connector longitudinally aligned with said first end connector. At least one projecting element extends from the abutment surface on said first end connector and fits into a hole formed on the abutment surface of the second end connector. Mounted on each abutment surface is at least one magnet that generate a magnetically attractive force between the two end connectors.

The present disclosure relates to a flap fixing buckle including: a plug member having a cross bar that transverses an intermediate portion of a loop-shaped frame, in which a coupling protruding portion in which a magnet is embedded protrudes from the cross bar; and a socket member having a coupling groove into which the coupling protruding portion is inserted and which is formed in an upper surface of the socket member, in which a magnet is embedded inside the coupling groove, and a wing portion extends at the periphery of the upper surface of the socket member, and as a result, when the flap fixing buckle is installed on a bag or the like, an aesthetic external appearance may be formed because of a simple configuration, and the flap fixing buckle may be stably and conveniently fastened.

A magnetic buckle includes two buckle bodies respectively have a magnetic attraction element fitted thereon. The two magnetic attraction elements bring the two buckle bodies to be magnetically detachably engaged with each other. A guide structure is formed on between the two buckle bodies. The two magnetic attraction elements and the guide structure together enable one of the two buckle bodies to move in different directions when it sequentially moves along an approaching path, within which the two buckle bodies are separate from each other, a contacting path, within which the two buckle bodies are brought to contact with each other, and a locating path, within which the two buckle bodies are brought to engage with each other. Thus, a user can conveniently magnetically engage the two buckle bodies with each other without the necessity of aligning them in advance or double-checking the engagement between them.