A latching system used for a rotary closure of a shoe.

A latch assembly includes a rose, a handle rotatably coupled to the rose and rotatable around a rotation axis, and a latch. A biasing member is disposed within the rose and engaged with the latch. The biasing member being selectively connectable to the rose. When the biasing member is connected to the rose, the latch is pivotable around the rotation axis between a latched position and an unlatched position via the handle. The latch biased towards the latched position. When the biasing member is disconnected from the rose, the handle and the latch are rotatable together around the rotation axis between at least a left-handed configuration and a right-handed configuration. The biasing member connecting to the rose to secure the handle and the latch in either the left-handed configuration or the right-handed configuration.

A hands-free door latch allows closing the door and latching the door shut without a person using the person's hands, and further allows unlatching the latch without the person using the person's hands. In one preferred embodiment, shutting the door causes the latch to close by the force of gravity. In some embodiments, the latch can be unlatched with a person's foot. In other embodiments, the latch can be unlatched with a person's arm or elbow. The hands-free door latch allows a person to latch and unlatch a door without hands, thereby decreasing the likelihood of exposing a person's hands to germs left by someone else.

A latching system used for a rotary closure of a shoe.

A sliding door latch system and method is disclosed herein. The sliding door latch system is used to prevent movement of a sliding door between a closed position and an open position relative to a fixed door frame. The device may be installed as a secondary safety latch on a sliding door having a primary latch that is located at an elevation within the reach of the child. The device may be installed at an elevation above the reach of the child, but readily within the reach of an adult user. The sliding door latch includes a latch arm located outside the sliding door to simplify installation. The latch arm is user-locatable in a latched position, a momentarily released position, and a held-in-release position.

Latches are disclosed. One latch includes a housing, a cap, a bushing, and a ball. The housing is configured for engagement to the panel. The housing has a longitudinal axis and defines an aperture along the longitudinal axis. The aperture includes a cutout area. The cap and the bushing are mounted within the aperture for rotation about the longitudinal axis. The cap comprises an outer surface including a drive projection and a cutout area. The bushing comprises an upper surface and a sidewall positioned between the cap and the housing. The sidewall defines a drive surface positioned to contact the drive projection of the cap and an opening. The ball is positioned within the opening of the bushing. The ball is configured to be positioned at least partially within the cutout area of the housing or the cutout area of the cap.

A vehicle hood locking mechanism includes a locking member including a helical portion structured to be insertable into a cavity formed in a vehicle hood. The helical portion is structured to be rotatable with respect to the hood so that contact between the hood and the helical portion during insertion of the helical portion into the cavity causes a rotation of the helical portion from a first rotational position to a second rotational position different from the first rotational position. The locking mechanism is also structured so that the helical portion is rotatable from the second rotational position back to the first rotational position when the helical portion becomes positioned inside the cavity.

A latch assembly for use with a door includes a lock lever to lock the door in a locked position and to unlock the door in an unlocked position, a door ajar cam to rotate between a door open position in response to a door open condition and a door closed position in response to a door closed condition, a self cancel lever releasably engaged to the door ajar cam, wherein the self cancel lever is operated in response to the door ajar cam rotating to the door closed position, and a lock link selectively engaged to the self cancel lever, wherein the lock link is translated to a cancelling position in response to the self cancel lever operated from the door ajar cam.

A safety gate has a gate body and two first locking units. The gate body has two first connecting elements. The two first locking units are respectively mounted on two opposite sides of a door frame. Each first locking unit has a second connecting element and a blocking element. Each of the first connecting elements is rotatably connected with a respective one of the second connecting elements. Each blocking element has a blocking position for blocking a corresponding first connecting element to prevent it from being disengaged from the second connecting element and a pressed position for detaching the corresponding first connecting element from the second connecting element of the first locking unit.

An openable side window for a motor vehicle is provided having an openable side window which covers a lateral vehicle opening when in its closed position and can be locked by a securing device, the securing device comprising a pivotable securing handle which can be pivoted between an unlocked position and a locked position and has an operating arm and a latch arm which, when in the locked position, interacts with a latch counterpart, wherein the latch arm comprises a functional element which is pre-loaded radially outward with respect to a pivot axis of the securing handle.