RU2002130802A - LIQUID DISPENSER, LIQUID METERING METHOD AND TURBO MACHINE FUEL INJECTOR - Google Patents

Claims (10)

1. A dispenser (12) for a fluid containing a metering valve (14) having the ability to slide in the sleeve (26) under the action of the pressure of the fluid in order to allow the inlet of the fluid and then pumping it to the means (24) of using this moreover, the valve contains at its inlet end an inlet (16) extending into the longitudinal channel (18) for the fluid, and at its outlet end the valve head (20) provided with metering slots (22) for the fluid open in longitudinal channel and determining variables e cross-sections to said fluid utilization means, characterized in that said valve head further comprises at least one substantially transverse opening (38) located behind the metering slots in the direction of fluid flow, said opening being in communication with a longitudinal channel and determines at least one constant flow cross section for the fluid flow to the indicated means of its use. 2. A dispenser according to claim 1, characterized in that said hole (38) in the valve head (20) communicates with the longitudinal channel (18) through the first diaphragm (40), which allows to fix a certain flow rate of the fluid passing through this hole. 3. The dispenser according to claim 2, characterized in that the first diaphragm (40) is made in the form of a cup equipped with an opening, mounted in a tight fit in the valve head. 4. A dispenser according to any one of the preceding paragraphs, characterized in that it is made in the form of a fuel dispenser for a fuel nozzle of a turbomachine. 5. A fuel nozzle (2) of a turbomachine, comprising a housing (4) equipped with means (8) for supplying fuel under pressure, a metering valve (14) that can slide in the sleeve (26) under the action of the fuel supply pressure for dosing part of the fuel, received in the fuel injector body, to means (24) for using this fuel, the valve containing at its first, inlet end, an inlet (16) extending into the longitudinal channel (18) for the fluid, and a head at its second, outlet end ( 20) a valve equipped with metering p grooves (22) for fuel, open in the longitudinal channel and determining variable flow sections to the specified means of fuel use, characterized in that the valve head further comprises at least one essentially transverse hole (38) located behind the metering slots in the direction a fuel flow, said hole being in communication with a longitudinal channel and defining at least one constant passage section to said means of using fuel. 6. A fuel injector according to claim 5, characterized in that the hole (38) in the valve head (20) communicates with the longitudinal channel (18) through the first diaphragm (40), which allows to record a certain fuel flow through the specified hole. 7. A fuel nozzle according to claim 6, characterized in that the first diaphragm (40) is made in the form of a nozzle equipped with an opening, mounted in a tight fit in the valve head. 8. A fuel injector according to claim 6 or 7, characterized in that it further comprises a second diaphragm (42) integrated between the metering valve (14) and the fuel utilization means and allowing to fix the second specific fuel flow passing through this second diaphragm. 9. A method of dispensing a fluid in which a fluid is injected to the means of using this fluid through a metering valve (14) that slides in the sleeve (26) under the action of a fluid supply pressure, wherein a second fluid flow rate (D2), moving to the indicated means of its use, corresponds to the passage of fluid through the metering slots (22), which determine the variable flow sections made at the level of the specified valve head, starting from a predetermined pressure a second pressure threshold determining valve (S2), characterized in that the first flow rate (D1) of a fluid passing through an essentially transverse orifice (38) of constant cross section located at the level of the valve head behind said dispensing slots in the direction of the fluid flow is also set moving to the indicated means of use, starting from the supply pressure corresponding to a predetermined first threshold pressure (S1), which is lower than the specified second threshold pressure (S2). 10. The method according to claim 9, characterized in that the flow rate of the fluid passing through the transverse hole (38) is fixed at a predetermined level by the first diaphragm (40).