SU1537900A1 - Ejector - Google Patents

Abstract

The invention relates to inkjet technology, mainly to ejectors for pumping liquid media with the inclusion of solid impurities (pulp). The aim of the invention is to increase the efficiency by reducing the hydraulic resistance. The ejector includes a housing 1 with a pre-chamber 2, a mixing chamber (CS) 3, a diffuser 4, nozzles 5.6 for supplying active and passive media, and an adjustable active nozzle (AC) 7 with a rotary valve 8. AC 7 is formed by a wall 9 КС 3 and a rotary valve 8, with the latter being made as part of a cylinder and smoothly matching with the outlet section of the nozzle 6 for supplying a passive medium. The camera 2 is equipped with a guiding element 10, made as part of a cylinder, conjugated with the nozzle 5 for supplying the active medium and interacting with the flap 8. The active liquid medium, having flowed out of AC 7, carries the passive medium into KS 3. From KS 3, the mixture of media comes into the diffuser 4 and from thereafter as intended. By turning the shutter 8, the flow area of the AC 7 is adjusted and, consequently, the performance of the ejector. By coupling the damper 8 AC 7 with the branch pipe 6 for supplying the passive medium and the guide element 10 with the branch pipe 5 for supplying the active medium, a decrease in the hydraulic resistance in the flow part of the ejector is achieved, thereby increasing the efficiency of the ejector. 1 hp ff, 3 ill.

Description

The invention relates to the field of inkjet technology, mainly to ejectors for pumping liquid media with the inclusion of solid impurities. (pulp), for example bottom sediments.

The aim of the invention is to increase the efficiency by reducing the hydraulic resistance.

FIG. 1 shows an ejector, longitudinal section; in fig. 2 is a section A-A in FIG. one; in fig. 3 shows a section B-B in FIG. one.

The ejector includes a housing 1 with a mold 2, a mixing chamber 3, a diffuser 4, nozzles 5 and 6 supplying active and passive media, and an adjustable active nozzle 7 with a rotating flap 8. The active nozzle 7 is formed by the wall 9 of the mixing chamber 3 and the damper 8, This latter is made as part of a cylinder and smoothly mates with the outlet section of the nozzle 6 for supplying a passive medium. Chamber 4 is provided with a guiding element 10, made as part of a cylinder, conjugated with a nozzle 5 for supplying an active medium and interacting with a flap 8.

The active liquid medium, having flowed out of the nozzle 7, carries the passive medium (the pulp) into the mixing chamber 3. From the mixing chamber 3, the mixture of media enters the diffuser b and then from it to the destination. By turning the shutter 8, the flow rate of the active medium through the nozzle 7 is adjusted with a corresponding change in the performance of the ejector. Connecting the nozzle 5 for supplying the active medium with the guide element 10 and the rotary valve 8 of the active nozzle 7 with the nozzle 6 for supplying the passive medium reduces the hydraulic resistance in the flow parts of the ejector.

Thus, by reducing the hydraulic resistance in the ejector, the efficiency of the latter is increased.

Claims (2)

1. The ejector, comprising a housing with a pre-chamber, a mixing chamber, a diffuser, active supply pipes and a passive balance and an adjustable active nozzle with a rotating flap, characterized in that, in order to increase efficiency by reducing the hydraulic resistance, the active nozzle is formed by the wall of the mixing chamber and the flap, the latter being made as part of a cylinder and smoothly matching the outlet portion of the nozzle supply of passive medium. 2. The ejector according to claim 1, characterized in that the Prechamber is provided with a guiding element made as part of a cylinder, which is conjugated with a nozzle for supplying an active medium and interacting with a flap. UUfffHTfTft t / O 8 Fie2 fie.Z