RU2000130707A - ELECTROMAGNETIC VALVE FOR GAS-FREE FLUID MEDIA - Google Patents

Claims (11)

1. An electromagnetic valve for a gaseous fluid, characterized in that it includes a combination of an electromagnetic circuit (13, 12, 17), which when activated generates an electromagnetic force to mechanically open or close the valve; a movable element having the form of a disk (disk element) (17), at least a part of which is included in the specified electromagnetic circuit, and for which a direction of linear motion perpendicular to the surface of the disk element is specified; valve seats (21, 24), which, acting in conjunction with the disk element, mechanically closes and seals the valve; an elastic element (15) acting on the disk element (17); dispensing devices (23) in the form with a constriction, located immediately behind the valve seat in the direction of flow, providing conditions for creating a sound gas flow, which, when the valve is open, makes the gas flow independent of pressure fluctuations at the outlet.  2. The electromagnetic valve according to claim 1, characterized in that the movable disk element (17) has a circular shape and is equipped with a concentric cylindrical guide element or rod (34) attached thereto, attached to and located perpendicular to the upper surface of the disk element (17), and entering into the sliding bearing (14) in the center of the fixed housing (12) in order to direct the movement of the disk element in the direction perpendicular to the surface of the disk.  3. An electromagnetic valve according to claim 2, characterized in that the plain bearing (14) does not need to be lubricated.  4. The electromagnetic valve according to any one of paragraphs. 1-3, characterized in that the valve seat (24) has the shape of a ring and, at rest, hermetically isolates the lower surface of the disk element (17).  5. The electromagnetic valve according to any one of paragraphs. 1-4, characterized in that the valve seat (24) is provided with a ring (21) made of elastic material, which allows, on the one hand, to absorb impact energy when the disk is lowered onto the seat due to the cessation of the operation of the solenoid (13), thus restraining returns, and, on the other hand, this allows hermetically isolating the valve when it is closed.  6. The electromagnetic valve according to any one of paragraphs. 1-5, characterized in that the elastic element (15) has the shape of a spring located in the center of the disk element (17).  7. The electromagnetic valve according to any one of paragraphs. 1-6, characterized in that the disk element (17) is provided with recesses (25) located radially on its lower surface, and these recesses have a beveled cross-section, which causes rotation of the disk (17) when the gaseous fluid passes from the inlet ( 26) through the valve towards the outlet (36).  8. The electromagnetic valve according to any one of paragraphs. 1-7, characterized in that the disk element (17) is provided with slots (28) located radially in the disk (17), the slots have a beveled cross section, which causes rotation of the disk (17) when the gaseous fluid passes from the inlet (26) ) through the valve towards the outlet (36).  9. The electromagnetic valve according to any one of paragraphs. 1-8, characterized in that the disk element (17) is provided with at least one through hole having side walls located at an angle to the lower and upper surfaces of the disk (17), which causes the rotation of the disk (17) when gaseous fluid flows from the inlet (26) through the valve toward the outlet (36).  10. An internal combustion engine equipped with at least one nozzle needle for gaseous fuel, characterized in that the nozzle needle includes a combination of an electromagnetic circuit (13,12,17), which, when activated, generates electromagnetic force to mechanically open or close the valve; a movable structural member in the form of a disk (disk element) (17), at least part of which is included in the specified electromagnetic circuit and for which a direction of linear motion is specified perpendicular to the surface of the disk element; valve seats (21, 24), which, acting together with the disk element, mechanically closes and seals the valve; an elastic element (15) acting on the disk element (17); the engine contains dispensing means (23) in the form of a constriction located immediately behind the valve seat along the flow, which provides conditions for creating a sound gas flow, and that when the valve is open makes the gas flow independent of fluctuations in the outlet pressure.  11. The internal combustion engine according to claim 10, characterized in that at least one probe (40, 41) is installed on the engine to measure important control parameters and transmit the corresponding electrical signals to the control unit (39), where calculation is performed according to the corresponding control algorithm and the resulting control signal is generated, which is fed to the electrical connections (33) of the solenoid (13), forming part of the specified electromagnetic circuit (13, 12, 17), which allows you to activate the electromagnetic valve and makes Injection can exercise a predetermined amount of gaseous fuel into the compressed air supplied to the engine at any particular point in the cycle of engine operation.