A camera housing includes a simplified draw latch for securing a first portion and a second portion of the camera housing together. The draw latch can include a draw hook and a wireform mid-linkage. The draw latch enables a user to easily open and close a camera housing, and to establish an air-tight or water-tight seal between the housing portions for use in various activities, including scuba diving.

A camera housing includes a simplified draw latch for securing a first portion and a second portion of the camera housing together. The draw latch can include a draw hook and a wireform mid-linkage. The draw latch enables a user to easily open and close a camera housing, and to establish an air-tight or water-tight seal between the housing portions for use in various activities, including scuba diving.

A latching mechanism suitable for suppository molds, where the latching mechanism is designed to assist the separation of mold when the latch is released. In embodiments, the latching mechanism has a lever portion on a first mold half and a catch portion on a second mold half. The lever portion is configured to impinge upon the catch portion to provide a force to bias the first mold half away from the second mold half. Other embodiments include methods of utilizing such a catching mechanism with a suppository mold.

A latching mechanism suitable for suppository molds, where the latching mechanism is designed to assist the separation of mold when the latch is released. In embodiments, the latching mechanism has a lever portion on a first mold half and a catch portion on a second mold half. The lever portion is configured to impinge upon the catch portion to provide a force to bias the first mold half away from the second mold half. Other embodiments include methods of utilizing such a catching mechanism with a suppository mold.

A high visibility hook latch may include a hook arm having a proximal end and a distal end; a handle pivotably attached to the proximal end of the hook arm; and a connector having a first connector end pivotably attached to the distal end of the hook arm via a link and a second connector end pivotably attached to the handle proximate to the hook arm.

A latch mechanism includes a handle connected to a pin by a linkage. The linkage converts rotation of the handle relative to a frame into axial movement of the pin between extended and retracted positions relative to the frame. The pin engages with a pre-load adjustment mechanism in the extended position to apply a pre-load through the linkage that biases the pin toward the extended position. The pre-load adjustment mechanism is adjustable to set the pre-load through the linkage to a predetermined value as selected by a user.

A latch mechanism includes a handle connected to a pin by a linkage. The linkage converts rotation of the handle relative to a frame into axial movement of the pin between extended and retracted positions relative to the frame. The pin engages with a pre-load adjustment mechanism in the extended position to apply a pre-load through the linkage that biases the pin toward the extended position. The pre-load adjustment mechanism is adjustable to set the pre-load through the linkage to a predetermined value as selected by a user.

A heavy-duty jamb latch for securing sliding doors to a rough opening of a building or structure includes a base plate, a handle, side plates adjacent and pivotably connected to the base plate, a carrier pin passing through recesses in the base plate and apertures in the side plates, and rigid members fastened to the carrier pin via bores drilled into the carrier pin. The rigid members extend away from the handle and secure sliding doors to a rough opening of a building or structure. The heavy-duty jamb latch may be mounted to the rough opening of the building or structure and may transition from an open position to a closed position by pulling the handle, thereby securing the sliding doors to the rough opening of the building or structure. Additionally, a locking pin or a padlock may lock the heavy-duty jamb latch.

A heavy-duty jamb latch for securing sliding doors to a rough opening of a building or structure includes a base plate, a handle, side plates adjacent and pivotably connected to the base plate, a carrier pin passing through recesses in the base plate and apertures in the side plates, and rigid members fastened to the carrier pin via bores drilled into the carrier pin. The rigid members extend away from the handle and secure sliding doors to a rough opening of a building or structure. The heavy-duty jamb latch may be mounted to the rough opening of the building or structure and may transition from an open position to a closed position by pulling the handle, thereby securing the sliding doors to the rough opening of the building or structure. Additionally, a locking pin or a padlock may lock the heavy-duty jamb latch.

A latching mechanism suitable for suppository molds, where the latching mechanism is designed to assist the separation of mold when the latch is released. In embodiments, the latching mechanism has a lever portion on a first mold half and a catch portion on a second mold half. The lever portion is configured to impinge upon the catch portion to provide a force to bias the first mold half away from the second mold half. Other embodiments include methods of utilizing such a catching mechanism with a suppository mold.