The invention relates to a door handle having an actuation element (12) for sanitizing a handle surface (14) of the door handle (10), the actuation element (12) delimiting a hollow (16) in the interior of the door handle (10) in a non-actuated first position, the door handle (10) being pierced by a channel (24) in order to guide a liquid to the hollow (16). According to the invention, the hollow (16) is sealed by at least one sealant (18) between a first sealing surface (20) of the actuation element (12) and a second sealing surface (22) of the door handle (10), a cutout (32) being formed in at least one of the sealing surfaces (20, 22) in order to release the sealant (18) from at least one sealing surface (20, 22) in a second position of the actuating element (12) decreasing the volume of the hollow (16), the liquid being displaced from the hollow (16) towards the handle surface (14).

A handle structure includes a first handle body, a second handle body, and a transparent plate. The first handle body includes a first handle portion and a first connecting portion. The second handle body includes a second handle portion and a second connecting portion. The first handle body and the second handle body are hollow. The first connecting portion is detachably connected with the second connecting portion when the first handle body and the second handle body are in an installed position. The transparent plate is within and sealingly connected with the first connecting portion and the second connecting portion when the first handle body and the second handle body are in the installed position.

Handle device for operating doors, windows and the like, comprising a first element (3), which is rotatable about an axis of rotation, a second element (8, 108, 208, 308), and a coupling device which is designed to selectively allow and prevent relative rotation about the axis of rotation between the first and the second element. The coupling device comprises; a first coupling member (15, 115, 215, 315, 515, 615) being connected to the first element; a second coupling member (8, 150, 208, 350) being connected to constituting the second element and at least one engaging member (19, 119, 219, 319, 519) which is displaceable between an engagement position in which it simultaneously engages the first and the second coupling members to thereby prevent relative rotation between the first and second element and a release position in which it is disengaged from at least one of the first and second coupling members to thereby allow relative rotation between the first and second element. A drive member (21, 121, 221, 321, 421, 521, 621) is arranged axially displaceable, concentrically with said axis of rotation, by means of an electrical motor (6, 106, 206, 306, 406, 506) having a rotational output shaft (36, 136, 236, 336, 436, 536, 636). The engaging member and drive member comprise interacting contact surfaces arranged, during axial displacement of the drive member, to displace the engagement member from the release position to the engagement position. The drive member exhibits an interior recess (27, 127, 227, 327, 427, 527). A portion (36, 136, 236, 336, 436a, 536, 636) of the output shaft extends axially through the recess. A helical coil spring (38, 138, 238, 338, 538, 638) is arranged in the recess, concentrically about the output shaft, limitedly axially displaceable relative to the drive member and the output shaft and prevented from free rotation relative to the drive member or the output shaft. The output shaft or the drive member is provided with a radially extending spring engagement member (37, 137, 237, 337, 537, 637) which is arranged to engage the helical coil spring for axial displacement of the drive member relative to the output shaft upon rotation of the output shaft.

A lock device is provided with a housing, a rotary member, a pair of link rods provided with a hook part, a spring for the rotary biasing of the rotary member, and an operative member mounted so as to be able to be inserted into the housing. A cam protrusions formed in the rotary member, and a wall part having a cam slope which abuts the cam protrusion is formed in the operative member. The configuration is such that by inserting the operative member, the rotary member resists the biasing force of the spring and rotates, and the hook part of the link rods slides in a position in which it does not engage with the lock part.

Embodiments of the disclosure are directed to a cabinet for storing server equipment. The cabinet includes a fan cover disposed over the cabinet and configured to secure a plurality of fan units, and a locking system for securing the fan cover. The fan cover has a channel disposed along a front edge of the fan cover. The locking system includes at least one T-bar and a bracket. The at least one T-bar includes a horizontal bar movably disposed within the channel, and a vertical bar extending generally perpendicularly to the horizontal bar from a first end of the vertical bar. The bracket is coupled to a second end of the vertical bar. The bracket has a knob attached thereto for locking and unlocking the horizontal bar at a first position that locks the fan cover and a second position that unlocks the fan cover.

A door entry system for operating a door using a wireless transmitter device containing identification credentials of a user. The system includes a door operable by an uncoupling or releasing securing mechanism, a door controller capable of operating the uncoupling or releasing securing mechanism and a door handle for grasping by the user to operate the door, the handle having a cavity, the handle being secured to the door and spaced away from a surface thereof. The system includes a wireless device reader disposed in the handle cavity and a power source connected to the card reader. The wireless transmitter may be presented in the vicinity of the reader in the door handle and, upon verification of the credentials transmitted from the wireless transmitter device, the reader sends a signal to the door controller to uncouple or release the securing mechanism and permit the door to open.

A device includes a door latch activator configured to disengage a door latch from a door frame and a door handle coupled to the door latch activator and configured to activate the door latch activator to disengage the door latch from the door frame. The device further includes a movable plunger having a first end coupled to the door latch activator and adapted to activate the door latch activator to disengage the door latch from the door frame, and an arm rest coupled to a second end of the plunger. The second end is opposite the first end, and the arm rest includes a base region adapted to receive a downward force to engage the plunger. When the base region engages the plunger, the plunger causes the door latch activator to disengage the door latch from the door frame. The plunger may be spring-activated.

A lock includes a housing assembly, an actuatable lock assembly and a latching assembly. The actuatable lock assembly is positionable in at least a closed orientation and an open orientation. The latching assembly further includes a latch, a cam and a motor. The latch, having a cam profile, is movable between a locked position and an unlocked position. In the locked position, the actuatable lock assembly is maintained in the closed orientation. In the unlocked position, the actuatable lock assembly is positionable into an open orientation. The cam is rotatably mounted and has a first follower configured to intermittently coact with the cam profile of the latch, to, in turn, move the latch between the locked position and the unlocked position. The motor is coupled to the cam. Actuation of the motor causes rotation of the cam, resulting in movement of the latch between the locked and unlocked positions.

The present invention concerns a control system (1) for a micro-motor for dental or surgical use comprising a control box (10) provided with an adjustment knob (2), mounted in a way rotatable about a rotational axis (A-A). The adjustment knob (2) is made up of a control support (20) integral with an encoder (3) integrated in the said box (10), and a sterilizable button (21) coupled in a removable way to the said control support (20).

A handle (100), having: an escutcheon (106) having a recessed area (300); a lever (104) pivotally mounted toward the top end of the escutcheon and at least a portion of the lever is disposed within the recessed area when in a lever closed position (102); a first gear (310) operatively connected to a top side (312) of the lever and a portion of the first gear including gear teeth (320) extending through an opening (360) in the escutcheon; a second gear (324) mounted on a back (130) of the escutcheon and having cam teeth (322) that mesh with the gear teeth of the first gear; a cam latch (140) operatively connected to the second gear to rotate when the second gear rotates; and, a lock assembly (146) mounted to a bottom end (202) of the lever.