COAXIAL SPRAY INJECTOR Russian patent published in 2013 - IPC F02K9/52 

Abstract RU 2482318 C1

FIELD: engines and pumps.

SUBSTANCE: coaxial spray injector includes a tubular housing with the main axial channel, which has an axial inlet and outlet, as well as a blind tube fixed at least on one pylon coaxially to the housing inside it, which is made as an integral part of the pylon and the tubular housing. At least one inlet through hole is made in the pylon, which is spread along the pylon from external surface of the injector to the axial channel in the blind tube on the side of its blind end. The blind tube channel is formed on the outlet side with its blind axial channel and on the inlet side with an inlet through hole in the pylon. The main axial channel of the tubular housing on the outlet side is made so that it has stepped change of a flow passage. Stepped change of the flow passage of the tubular housing is made so that the flow passage of the above housing reduces from pylons to the outlet part mainly in the form of one confuser. A sleeve is installed on the outlet part of the tubular housing so that an annular cavity, in which screw channels are arranged, is formed between external surface of the above housing and internal surface of the sleeve. On the side of the axial inlet of the tubular housing there made is an adjustment element in the form of a chamfer provided with possibility of changing its geometrical parameters during adjustment. Tubular housing is split-type. On external surface of the blind tube, which is arranged in outlet part of the tubular housing, there made are pylons interacting with internal surface of the tubular housing. Longitudinal axes of the pylons are installed at an angle to longitudinal axis of the injector. In the pylons there are the channels, the outlet part of which is directed at an angle to longitudinal axis of the injector, which is different from the installation angle of longitudinal axes of the above pylons. The inlet part of the above channels is connected to the cavity of the blind tube, and the outlet part is connected to the annular cavity formed with the tubular housing and the blind tube. Axes of channels in the pylons are located opposite to the direction of axes of screw channels in annular cavity between sleeve and external surface of the tubular housing. The blind tube is split-type and consists of a pylon part and a tip; at that, a jet nozzle is installed at their joint point.

EFFECT: increasing the economy of the working process at the injector operation.

4 cl, 4 dwg

Similar patents RU2482318C1

Title Year Author Number
METHOD FOR SUPPLYING FUEL COMPONENTS TO LIQUID-PROPELLANT ENGINE CHAMBER 2012
  • Chernichenko Vladimir Viktorovich
  • Shepelenko Vitalij Borisovich
RU2482320C1
METHOD FOR SUPPLYING FUEL COMPONENTS TO LIQUID-PROPELLANT ENGINE CHAMBER 2012
  • Chernichenko Vladimir Viktorovich
  • Shepelenko Vitalij Borisovich
RU2482317C1
LIQUID-PROPELLANT ROCKET ENGINE COMBUSTION CHAMBER 2012
  • Chernichenko Vladimir Viktorovich
  • Shepelenko Vitalij Borisovich
RU2479740C1
METHOD FOR SUPPLYING FUEL COMPONENTS TO LIQUID-PROPELLANT ENGINE CHAMBER 2012
  • Chernichenko Vladimir Viktorovich
  • Shepelenko Vitalij Borisovich
RU2481494C1
MIXING HEAD OF LIQUID-PROPELLANT ENGINE CHAMBER 2012
  • Chernichenko Vladimir Viktorovich
  • Shepelenko Vitalij Borisovich
RU2484289C1
LIQUID-PROPELLANT ROCKET ENGINE MIXING CHAMBER 2012
  • Chernichenko Vladimir Viktorovich
  • Shepelenko Vitalij Borisovich
RU2479741C1
METHOD FOR SUPPLYING FUEL COMPONENTS TO LIQUID-PROPELLANT ENGINE CHAMBER 2012
  • Chernichenko Vladimir Viktorovich
  • Shepelenko Vitalij Borisovich
RU2481492C1
LIQUID-PROPELLANT ENGINE 2012
  • Chernichenko Vladimir Viktorovich
  • Shepelenko Vitalij Borisovich
RU2480607C1
LIQUID-PROPELLANT ENGINE CHAMBER 2012
  • Chernichenko Vladimir Viktorovich
  • Shepelenko Vitalij Borisovich
RU2481485C1
MIXING HEAD OF LIQUID-PROPELLANT ENGINE CHAMBER 2012
  • Chernichenko Vladimir Viktorovich
  • Shepelenko Vitalij Borisovich
RU2481491C1

RU 2 482 318 C1

Authors

Chernichenko Vladimir Viktorovich

Shepelenko Vitalij Borisovich

Dates

2013-05-20Published

2012-03-15Filed