RU28266U1 - GAS VALVE VALVE WITH ELECTROMAGNETIC ACTUATOR PULSE - Google Patents

Description

GAS VALVE VALVE WITH ELECTROMAGNETIC ACTUATOR PULSE

The utility model relates to signaling technology and is intended for automatic and, if necessary, manual shutdown of the supply of fuel gas to gas heating devices.

Known electromagnetic gas valves MKG-15, MKG-20, MKG-25. Their main characteristics are described in technical specifications TU 1-5540035-93 “Electromagnetic gas valves MKG-3015, MKG-3020, MKG3025, Saratov Electric Aggregate Production Association, Saratov, 1994.

The valve consists of a housing with a seat, a locking element, a rod, an electromagnet with a movable armature, coaxial and moving the locking element through it towards the seat, a pusher that includes a spring that squeezes the locking element from the seat, and a permanent magnet that holds the anchor in a fixed position by attracting it with its magnetic field to the wall of the electromagnet.

This valve design does not allow it to be closed manually if necessary.

Known electromagnetic pulse gas valve (Certificate for utility model No. 8824, published December 16, 1998). The specified valve consists of a housing with a saddle, a locking element mounted on a movable plate, a pusher that allows you to manually open the valve, an electromagnet with an anchor located perpendicular to the axis of the plate. An anchor with its outer end holds the locking element open. The valve closes only when a pulse is applied to the electromagnet. In this case, the anchor is drawn into the coil of the electromagnet, releasing the locking element, which lowers onto the saddle.

The pedad of this valve is the inability to close the valve in the absence of an electrical signal and in case of emergency.

Known electromagnetic pulse gas valve (Certificate for utility model No. 15044, published September 10, 2000), according to the totality of features selected for the prototype. This valve consists of a housing with a seat, a movable flange with a locking element. Perpendicular to the axis of the blade is an electromagnet with a coil, a sleeve and an armature that holds the locking element in its highest position, ensuring the open state of the valve. The valve can be opened manually either by pressing the button, or by applying a pulse to the pusher drive.

MPCO 08 at 17/10.23 / 00, F 16K 31/05

The disadvantage of the prototype, as the above analogues, is the inability to close the valve manually in the absence of an electrical signal and in case of emergency.

The problem to be solved by the claimed technical solution. is to expand the operational capabilities of the valve by providing manual closing of the valve.

The problem is solved in a gas shut-off valve with an electromagnetic pulse actuator, including an armature perpendicular to the shut-off element, in that the electromagnetic actuator is equipped with a handwheel for closing the valve, made in the form of a spring-loaded handle connected to the armature with the possibility of its capture.

The model is illustrated in the drawing, where in FIG. presents a general view of the valve. The gas shut-off valve with an electromagnetic actuator pulse consists of a housing 1, a locking element 2. The electromagnetic actuator includes a sleeve 3, hermetically connected to the housing 1, a hollow armature 4, holding its protruding end locking element 2 in its highest position (valve open), manual override for closing the valve, consisting of a handle 5 connected to the rod 6, inserted into the hollow anchor 4 with a gap providing free movement of the anchor along the rod, and with the possibility of gripping the anchor when pulling the handle.

The valve is sealed at the outlet of the rod 6 from the sleeve 3 by means of a gasket 7 and a spring 8. The spring 8 provides the necessary clamping of the gasket 7 to the sleeve 3 and the handle 5 is returned to its original position after the end of manual interaction with it.

. The valve has two operating states - open and closed. In the open state, the locking element 3 is held in the upper position by the anchor 4. When pulling the handle 5, the rod 6 grabs the anchor and pulls it into the sleeve 3, releasing the locking element 2. The locking element 2 moves downward and closes the valve under the influence of gravity and magnetic field. When removing the manual force on the handle 5 under the influence of the spring 8, the gap between the sleeve 3 and the handle 5 is sealed through the gasket 7.

A valve was manufactured with a bore diameter of DN 32 mm for a nominal working pressure of 0.3 MPa (3 kgf / cm). The valve included an electromagnetic actuator and a handwheel. The electromagnetic drive contained a sleeve, a magnetic circuit, and a hollow armature. The manual backup included a spring-loaded handle connected to a rod with a diameter of 1.8 mm. The end of the rod had a protrusion with a diameter of 2.5 mm, which freely entered the cavity of the armature with a diameter of 2.8 mm. . The spring on the handle created a force of 3 kgf. Sealing was carried out through a rubber gasket.

Thus, the possibility of manually closing the valve is achieved.

Claims (1)

The gas shut-off valve with a pulse electromagnetic actuator, including an armature, located perpendicular to the shut-off element, characterized in that the electromagnetic actuator is equipped with a handwheel for closing the valve, made in the form of a spring-loaded handle connected to the armature with the possibility of its capture.