SU1665106A1 - Ejector unit - Google Patents

Abstract

The invention relates to inkjet technology. The purpose of the invention is to increase productivity by providing a continuous supply of the pumped liquid. The ejector unit contains a liquid tank 1 with a float 2, a pipeline 3 for supplying a liquid with a discharge valve 5, a gas ejector 6 with a nozzle 7 for supplying an active medium, a nozzle 8 for supplying a passive medium and an adjusting valve 9 installed at the outlet of a gas ejector 6. The unit is equipped with a liquid ejector 10 with a pipe 11 for supplying a passive medium connected to the pipeline 3 for supplying a liquid, and pipe 12 for supplying an active medium connected to a liquid tank 1, the float 2 is equipped with magnets 13 placed on its side surface and facing poles of the same name outwards, and the tank 1 is equipped with a control device containing a vertical axis 14 with plates 15 fixed to it with magnets 16 and locking magnets 17 for interacting with the magnets 16 plates 15, while the gate 9 is kinematically connected to one of the plates 15. 2 ill.

Description

ABOUT

skel

oh oh

The invention relates to inkjet technology, mainly to ejector units for pumping various liquids. The purpose of the invention is to increase productivity by providing a continuous supply of the pumped liquid. Figure 1 shows schematically an ejector installation; figure 2 - section aa in figure 1.

The ejector unit contains a liquid tank 1 with a float 2, a pipeline 3 for supplying a liquid, a pipeline 4 for discharging liquid with a discharge valve 5, a gas ejector 6 with a branch pipe 7 for supplying an active medium, a branch pipe 8 for supplying a passive medium and a control valve 9 installed at the outlet of the gas ejector 6 The installation is equipped with a liquid ejector 10 with a branch pipe 11. a passive medium supply connected to the liquid supply line 3 and a branch pipe 12 of the active medium connected to the liquid tank 1; the float 2 is supplied with 13, placed on its side surface and facing like poles out, and the container 1 is equipped with a control device containing a vertical axis 14 with plates 15c with magnets 16 fixed on it and fixing magnets 17 for interacting with magnets 16 of plates 15, and the valve 9 kinematically connected to one of the plates 15.

When a gas ejector 6 compressed air is supplied to the connection 7 of the active medium of the gas ejector 6 through the connection 8 of the passive medium supply, gas will be pumped out in the liquid tank 1, the internal cavity of the liquid ejector 10 and the liquid supply pipeline 3.

As a result of the pressure difference — atmospheric and residual, created by a gas ejector 6 — liquid begins to move through pipe 2, pipe 11 and 12 of liquid ejector 10, into liquid tank 1. Float 2 begins to float and move up as the tank 1 is filled with liquid. At the moment when the magnets 13 of the float 2 are in front of the magnets 16 mounted on the top bar 15 of the control device, as a result of the interaction, the top bar 15 moves radially from the axis of the tank 1, and the top locking magnets 17 will hold the bar 15 in the new position . The bottom plate 15, also fixed on the axis 14, moves in the radial direction to the axis of the tank 1. As a result, the valve 9, kinematically connected by the plate 15, moves and blocks the outlet of the gas ejector 6. As a result, the compressed air with a certain excess pressure enters through liquid tank 1 on top

and displaces the fluid through the pipe 12 of the liquid ejector 10, the pipe 4 of the liquid outlet and the valve 5 to the discharge.

At the same time, having elapsed through the pipe 12, the liquid carries the liquid 3 from the pipeline 3 into the pipeline 4. When emptying the container 1, the plate 15 returns to its original position, the valve 9 opens the outlet of the gas ejector 6 and the filling process resumes

liquid tank 1. At the same time, regardless of the mode of operation of the installation, continuous flow of the liquid is maintained in the pipeline 2 for supplying the liquid.

Thus, by providing a continuous supply of fluid, an increase in fluid supply performance is achieved.

Claims (1)

Invention Formula An ejector unit containing a liquid tank with a float, a liquid supply pipeline, a liquid discharge pipeline with a discharge valve, a gas ejector with an active medium supply pipe, a passive medium supply pipe and a regulating valve installed at the gas ejector outlet, characterized in that increase productivity by providing a continuous supply of the pumped liquid, the installation is equipped with a liquid ejector with a nozzle for supplying a passive medium connected to the pipeline for supplying a liquid and a nozzle supplying the active medium connected to the liquid tank, the float is equipped with magnets placed on its side surface and facing the same poles to the outside, and the tank is equipped with a control device containing a vertical axis with plates with magnets attached to it and latching magnets for interacting with the plate magnets, the gate being kinematically connected to one of the plates.