A handle structure (100) includes a shell (102), a handle (200), and a sliding member (300). An aperture (104) is provided on the shell (102). One end of the handle (200) pivots to the shell (102), and the handle (200) includes a pressing portion (210). The sliding member (300) is installed on the shell (102) corresponding to the handle (200). The sliding member (300) includes a hooking portion (310) penetrating the aperture (104) and a pressing area (302) pressed by the pressing portion (210) to move the hooking portion (310) from a first position (S) to a second position (E). By this arrangement, a case body can be easily pulled out and locked.

An exit device comprises an inner door handle adapted to be mounted to a door for movement relative to the door from a first position to a second position. A pair of brackets are adapted to be operatively connected between the respective ends of a horizontal portion and a vertical portion of the door handle. Each bracket comprises a first bracket member secured to the door handle, a second bracket member adapted to be secured to the door, and a pin for joining the first bracket member and the second bracket member for rotation about an axis through the pin. The first bracket member and the second bracket member pivot relative to one another when the door handle moves between the first position and the second position.

An exit device comprises an inner door handle adapted to be mounted to a door for movement relative to the door from a first position to a second position. A pair of brackets are adapted to be operatively connected between the respective ends of a horizontal portion and a vertical portion of the door handle. Each bracket comprises a first bracket member secured to the door handle, a second bracket member adapted to be secured to the door, and a pin for joining the first bracket member and the second bracket member for rotation about an axis through the pin. The first bracket member and the second bracket member pivot relative to one another when the door handle moves between the first position and the second position.

The present invention relates to a closed force transmission device in which an insertion depth of a latch bolt inserted into a latch bolt insertion groove can be adjusted to improve safety and components are simplified to allow for ease of assembly and to improve durability. The present invention also relates to a safety door lock using the device. The closed force transmission device of the present invention includes: a cylindrical body housing of which both sides are opened to penetrate a door; a main body slidably arranged within the body housing such that the main body moves in a straight line direction by the force applied from an external source, the main body having at least one tilt surface and a main body movement space formed orthogonally to the straight movement direction in a portion corresponding to the tilt surface.

The present invention relates to a closed force transmission device in which an insertion depth of a latch bolt inserted into a latch bolt insertion groove can be adjusted to improve safety and components are simplified to allow for ease of assembly and to improve durability. The present invention also relates to a safety door lock using the device. The closed force transmission device of the present invention includes: a cylindrical body housing of which both sides are opened to penetrate a door; a main body slidably arranged within the body housing such that the main body moves in a straight line direction by the force applied from an external source, the main body having at least one tilt surface and a main body movement space formed orthogonally to the straight movement direction in a portion corresponding to the tilt surface.

A gravity gate latch that is sized and configured to be positioned in the gap between the free end of a gate and a stationary object when the end of the gate is adjacent the stationary object to automatically engage a strike member on the gate. The gate latch has a pair of side plates that are spaced apart to define a space that encloses a lever actuating mechanism and a hook plate. The hook plate has a hook member that engages the strike member of the gate. The lever actuating mechanism has a pair of lever arms, which can be accessed from either side of the gate, that move the hook plate upward to disengage the strike member. A lock receiving member at the bottom of the gate latch receives a padlock to lock the gate latch. The padlock can also be accessed from either side of the gate.

A glove compartment lock device includes: a base member attached to a glove compartment; a knob member supported by the base member so as to be rotatable around a shaft portion between a closed position and an opened position; an arm member supported at a center portion in a longitudinal direction thereof by the base member so as to be swingable between a locked position and an unlocked position of the glove compartment and configured to come into contact with the knob member at one end portion thereof; and a spring member locked at one end portion thereof to the knob member, locked at another end portion thereof to another end portion of the arm member, and configured to generate a biasing force that rotates the knob member to the closed position and swings the arm member to the locked position. A rotation direction around the shaft portion in which the one end portion of the spring member rotates the knob member to the closed position and a rotation direction around the shaft portion in which the other end portion of the spring member swings the arm member to the locked position are opposite to each other.

A glove compartment lock device includes: a base member attached to a glove compartment; a knob member supported by the base member so as to be rotatable around a shaft portion between a closed position and an opened position; an arm member supported at a center portion in a longitudinal direction thereof by the base member so as to be swingable between a locked position and an unlocked position of the glove compartment and configured to come into contact with the knob member at one end portion thereof; and a spring member locked at one end portion thereof to the knob member, locked at another end portion thereof to another end portion of the arm member, and configured to generate a biasing force that rotates the knob member to the closed position and swings the arm member to the locked position. A rotation direction around the shaft portion in which the one end portion of the spring member rotates the knob member to the closed position and a rotation direction around the shaft portion in which the other end portion of the spring member swings the arm member to the locked position are opposite to each other.

A lock for securing to a movable body (1) and for cooperating with a strike plate (12) on a stationary body (11), which lock is movable away from the strike plate (12) for opening the movable body (11), which lock is movable into juxtaposition with the strike plate (12) for closing the movable body (11) and which lock comprises a casing (3) which includes a rotatable trigger (8) which is positioned in the casing (3) and a locking member (7) which is also positioned in the casing (3) and wherein; the rotatable trigger (8) projects from the casing (3); the rotatable trigger (8) rotates about an axis of rotation positioned on a front working plane of the casing (3) such that the rotatable trigger (8) rotates into the casing (3) and out of the casing (3) with the rotatable trigger (8) being spring biased to rotate out of the casing (3); the locking member (7) is movable between a projected position in which the locking member (7) projects from the casing (3) and a retracted position in which the locking member (7) is retracted into the casing (3); the locking member (7) is configured to move into the projected position when the rotatable trigger (8) rotates into the casing (3); the locking member (7) is configured to move into the retracted position when the rotatable trigger (8) rotates out of the casing (3); the locking member (7) moves into a locked position when the lock is brought into juxtaposition with the strike plate (12) such that the rotatable trigger (8) rotates into the casing (3) as it comes into juxtaposition with the strike plate (12), whereby the locking member (7) projects from the casing (3) such that the locking member (7) moves into a recess in the strike plate to lock the movable body (1) and: • when the lock is moved out of juxtaposition with the strike plate (12) the rotatable trigger (8) rotates out of the casing (3) and the locking member (7) moves into the retracted position.

A lock for securing to a movable body (1) and for cooperating with a strike plate (12) on a stationary body (11), which lock is movable away from the strike plate (12) for opening the movable body (11), which lock is movable into juxtaposition with the strike plate (12) for closing the movable body (11) and which lock comprises a casing (3) which includes a rotatable trigger (8) which is positioned in the casing (3) and a locking member (7) which is also positioned in the casing (3) and wherein; the rotatable trigger (8) projects from the casing (3); the rotatable trigger (8) rotates about an axis of rotation positioned on a front working plane of the casing (3) such that the rotatable trigger (8) rotates into the casing (3) and out of the casing (3) with the rotatable trigger (8) being spring biased to rotate out of the casing (3); the locking member (7) is movable between a projected position in which the locking member (7) projects from the casing (3) and a retracted position in which the locking member (7) is retracted into the casing (3); the locking member (7) is configured to move into the projected position when the rotatable trigger (8) rotates into the casing (3); the locking member (7) is configured to move into the retracted position when the rotatable trigger (8) rotates out of the casing (3); the locking member (7) moves into a locked position when the lock is brought into juxtaposition with the strike plate (12) such that the rotatable trigger (8) rotates into the casing (3) as it comes into juxtaposition with the strike plate (12), whereby the locking member (7) projects from the casing (3) such that the locking member (7) moves into a recess in the strike plate to lock the movable body (1) and: • when the lock is moved out of juxtaposition with the strike plate (12) the rotatable trigger (8) rotates out of the casing (3) and the locking member (7) moves into the retracted position.