SU1536076A1 - Ejector - Google Patents

Abstract

The invention relates to inkjet technology and can be used when mixing gas with a liquid. The purpose of the invention is to increase productivity by improving the process of mixing media. The ejector contains a nozzle (P) 1 for supplying the active medium, located inside it and coaxially with P 1 pipe (T) 2 for supplying the passive medium, which has 3 conical fairing (CO) 4, forming a converging annular nozzle 5 of the active medium, and chamber 6 mix it up The ejector is provided with an impeller 7 mounted on the outer surface 8 T 2 rotatably, and between the impeller 7 and KO 4 in T 2 channels 9 are arranged tangentially relative to the inner surface 10 T 2 and at an angle to its longitudinal axis. The active medium (liquid) when moving along P 1 to the nozzle 5 rotates the impeller 7, which leads to cavitation of the liquid. The resulting bubble behind the impeller 7 promotes the suction of a part of the passive medium (gas) passing through T 2 and preliminary mixing in the area between the impeller 7 and KO 4. At the entrance to chamber 6 a cavitation cavity 11 is formed, the pressure in which corresponds to the saturation pressure working fluid. The presence of gas-filled bubbles in the active liquid contributes to the effective mixing of the media, which continues in the mixing chamber 6. 1 il.

Description

The invention relates to inkjet technology and can be used when mixing gas with a liquid.

The purpose of the invention of exhaustiveness by Cessa mixing media.

Figure 1 shows a longitudinal section; figure 2 is a section aa in figure 1. . ₁

The ejector contains a nozzle 1 root. and an active medium disposed inside and concentric pipe 1 tube 2 for supplying a passive medium, having at the outlet a conical section 3 ob- _f tekatel 4 forming a tapered annular nozzle 5 of the active medium and the mixing chamber 6. The ejector is equipped with an impeller 7 mounted on the outer surface 8 of the pipe 2 with the possibility of rotation, and channels 9 are made between the impeller 7 and the cowling 4 in the pipe 2, which are tangentially relative to the inner surface 10 of the pipe 2 at an angle to its longitudinal 25 axis.

The ejector works as follows.

The active medium (liquid) enters the pipe 1 and, accelerating in the nozzle 5, enters the mixing chamber 6. When the active medium moves, the impeller 7 rotates, which leads to cavitation of the liquid. The resulting bubble behind the impeller 7 with reduced pressure promotes the suction of part of the passive medium - gas passing through the pipe 2, the area between the body 4.

At the inlet, a cavitation cavity 11 is called, the pressure in which corresponds to the saturated vapor pressure of the working fluid. The presence of gas-filled bubbles in the active medium promotes the formation of a stable cavity with minimal energy costs. In chamber 6, the final mixing of the media occurs. The combination of flow turbulization, the formation of cavitation bubbles and cavities, the mixing of media both in the area of the nozzle 5 and in the chamber 6 leads to an increase in the productivity of the ejector.

Claims (1)

.Claim An ejector comprising a nozzle for supplying an active medium j located inside it and a coaxial nozzle for supplying a passive medium having a tapered cone at the outlet section forming a tapering ring nozzle of the active medium and a mixing chamber, characterized in that, in order to increase productivity by improving the process of mixing media , the ejector is equipped with an impeller mounted rotatably on the outer surface of the pipe, and channels are arranged between the impeller and the cowling in the pipe, located - ·. tangential to the inner surface of the pipe and at an angle