An inexpensive, simple, effective, and easily implementable locking device for use with directional control valves that allows for the valve to be securely locked in a desired operating position, thereby preventing unauthorized, inadvertent or otherwise undesired manipulation of the valve minimizing potentially damaging or injurious conditions. The locking device has an adjustable locking plate and a fixed locking bracket, both of which are adapted to the valve using the valve's existing components for ease of installation and adaptation and so the normal operation of the valve is not impeded. The adjustable locking plate is mounted to the valve over the valve stem. The fixed locking bracket mounts to the valve body using the valve's existing bolts and nuts. Locking holes in the adjustable locking plate and fixed locking bracket line up and allow for the valve to be securely locked in a desired operating position with a locking member.

An inexpensive, simple, effective, and easily implementable locking device for use with directional control valves that allows for the valve to be securely locked in a desired operating position, thereby preventing unauthorized, inadvertent or otherwise undesired manipulation of the valve minimizing potentially damaging or injurious conditions. The locking device has an adjustable locking plate and a fixed locking bracket, both of which are adapted to the valve using the valve's existing components for ease of installation and adaptation and so the normal operation of the valve is not impeded. The adjustable locking plate is mounted to the valve over the valve stem. The fixed locking bracket mounts to the valve body using the valve's existing bolts and nuts. Locking holes in the adjustable locking plate and fixed locking bracket line up and allow for the valve to be securely locked in a desired operating position with a locking member.

A safety device allows selective opening or closing of a drain opening of a tank, to render such action more difficult for a child. The device has a body, a plug, a means for restricting axial movement of the plug in a conduit that runs through the body, and, optionally, a tether. The conduit is adapted for engagement in the drain opening. The plug is frictionally engaged in the conduit. The means for restricting axial movement has complementary elements disposed on the plug and on the body, such that, in a first rotational position, the plug is axially retained relative to the conduit and, in a second rotational position, the plug is not restricted from axial movement out of the conduit. The tether attaches to the plug and the body to keep the plug proximate to the body.

A safety device allows selective opening or closing of a drain opening of a tank, to render such action more difficult for a child. The device has a body, a plug, a means for restricting axial movement of the plug in a conduit that runs through the body, and, optionally, a tether. The conduit is adapted for engagement in the drain opening. The plug is frictionally engaged in the conduit. The means for restricting axial movement has complementary elements disposed on the plug and on the body, such that, in a first rotational position, the plug is axially retained relative to the conduit and, in a second rotational position, the plug is not restricted from axial movement out of the conduit. The tether attaches to the plug and the body to keep the plug proximate to the body.

An internal combustion engine cooling device includes a piston fixedly mounted within a device housing coupled to a plurality of flow paths through which cooling water flows, the piston disposed facing the interior of the device housing; a cylinder container that advances and retreats relative to the piston and has a flange valve that opens and closes a main flow path of the cooling water; a thermal expansion unit provided within the cylinder container that causes the cylinder container to advance and retreat due to volumetric changes attendant upon temperature changes; and a heat-emitting element provided within a piston casing that heats the thermal expansion unit when supplied with electricity. An insulating cover is provided to the exterior of the cylinder container at a portion of the cylinder container disposed facing the cooling water.

The present disclosure provides a pneumatically drivable actuator for setting a position of a valve closure element in a valve, comprising a piston, which is moveable in a pressure chamber by influence of a drive gas, and a locking mechanism for mechanically locking the piston relative to the pressure chamber. The actuator further comprises a ventilation device for venting the drive gas from the pressure chamber while the piston is mechanically locked relative to the pressure chamber, such that pressurization of the pressure chamber is prevented. A method of locking a valve closure element relative to a valve body of a valve that is controllable by a pneumatically driven actuator is also disclosed.

The present disclosure provides a pneumatically drivable actuator for setting a position of a valve closure element in a valve, comprising a piston, which is moveable in a pressure chamber by influence of a drive gas, and a locking mechanism for mechanically locking the piston relative to the pressure chamber. The actuator further comprises a ventilation device for venting the drive gas from the pressure chamber while the piston is mechanically locked relative to the pressure chamber, such that pressurization of the pressure chamber is prevented. A method of locking a valve closure element relative to a valve body of a valve that is controllable by a pneumatically driven actuator is also disclosed.

A handle assembly for an outlet valve for a tank, where the outlet valve has a coupler that is actuated to open and close the outlet valve, is provided. The handle assembly includes a handle with a shaft attached to the handle. The shaft has a tip. A bracket is adapted to mount the shaft to the tank so that the shaft is pivotally mounted with respect to the tank and movable with respect to the outlet valve between an engaged position, where the tip of the shaft engages the coupler, and a disengaged position, where the tip of the shaft is disengaged from the coupler.

A handle assembly for an outlet valve for a tank, where the outlet valve has a coupler that is actuated to open and close the outlet valve, is provided. The handle assembly includes a handle with a shaft attached to the handle. The shaft has a tip. A bracket is adapted to mount the shaft to the tank so that the shaft is pivotally mounted with respect to the tank and movable with respect to the outlet valve between an engaged position, where the tip of the shaft engages the coupler, and a disengaged position, where the tip of the shaft is disengaged from the coupler.

A method for operating a device at a desired temperature is described. In one example, current supplied to a heater that melts a wax medium or material controlling flow through a valve is adjusted to reduce valve opening and closing delay. The method may improve device temperature control, thereby reducing device emissions, enhancing device performance, and improving device durability.