RU2014118485A - EJECTION TYPE FOAM GENERATOR - Google Patents

Abstract

An ejection-type foam generator containing a spray gun, a foam nozzle and a two-phase flow divider, the spray gun is made of a vortex type, which is connected to the foam nozzle body made in the form of a cylindrical shell mounted coaxially and axisymmetrically relative to the spray gun, and on the foam nozzle body, in the part located closer at least three windows for air ejection are made to the sprayer, and a two-phase flow divider is fixed at the outlet, and to the foam nozzle body, in its middle part, at the conical surface of the diffuser is mounted with its large base, on which at least three windows for air ejection are made, and the smaller base of the truncated conical surface of the diffuser is fixed at the outlet of the atomizer, the diameter of this base being equal to the diameter of the outlet of the atomizer, which consists of an axisymmetric sleeve a foam nozzle body, on one side of which a partition is located perpendicular to its axis, connected to an inlet fitting with an opening for supplying a foaming agent and fire the solution in the vortex chamber, mounted coaxially on the inner surface of the nozzle sleeve, and made in the form of a cylindrical cavity with at least three tangential holes connected to the cavity of the nozzle associated with the nozzle hole, while the cylindrical cavity is formed by a ring axisymmetric to the foam body nozzles, and two partitions, one of which, facing the nozzle side, is made blind, and the other, facing the diffuser side - with an outlet located axially

Claims (1)

An ejection-type foam generator containing a spray gun, a foam nozzle and a two-phase flow divider, the spray gun is made of a vortex type, which is connected to the foam nozzle body made in the form of a cylindrical shell mounted coaxially and axisymmetrically relative to the spray gun, and on the foam nozzle body, in the part located closer at least three windows for air ejection are made to the sprayer, and a two-phase flow divider is fixed at the outlet, and to the foam nozzle body, in its middle part, at the conical surface of the diffuser is mounted with its large base, on which at least three windows for air ejection are made, and the smaller base of the truncated conical surface of the diffuser is fixed at the outlet of the atomizer, the diameter of this base being equal to the diameter of the outlet of the atomizer, which consists of an axisymmetric sleeve a foam nozzle body, on one side of which a partition is located perpendicular to its axis, connected to an inlet fitting with an opening for supplying a foaming agent and fire the solution in the vortex chamber, mounted coaxially on the inner surface of the nozzle sleeve, and made in the form of a cylindrical cavity with at least three tangential holes connected to the cavity of the nozzle associated with the nozzle hole, while the cylindrical cavity is formed by a ring axisymmetric to the foam body nozzles, and two partitions, one of which, facing the nozzle side, is made blind, and the other, facing the diffuser side - with an outlet located axially metric to the ring, the two-phase flow divider is made in the form of a packet of series-connected grids formed by two second-order rotation surfaces having a common circular base fixed to the body, one of them facing the sprayer, made in the form of a complete conical surface with a vertex, lying on the axis of the body, and the other, facing the cut side of the cylindrical shell, is made in the form of a spherical surface, the boundary points of which are in the plane of cut of the cylindrical shell ki, characterized in that the cavity mesh divider formed by a circular mesh base fixed to the housing, and a spherical surface, which boundary points are located in the cutting plane of the cylindrical shell body filled reticulate material, such as wire type "thread waste."