SU1552010A2 - Liquid microbatcher - Google Patents

Abstract

The invention makes it possible to increase the reliability of the microprocessor by eliminating the reverse flow of the metered liquid with a significant decrease in the operating temperature. At the operating temperature, the boiling liquid, in its vapor, creates pressure, which is transferred through the elastic partition to the metered liquid. In the initial position, the flow breaker is closed. The elastic tube 16 fixedly mounted in the groove of the base 15 is clamped by a shut-off organ in the form of a rod 17, because the measles 18 fastened to it are pressed against the stop 21 and the permanent magnet 22 located between the elastic tube 16 and the core 18 is held on it by the magnetic field control, it generates a pulse to open the flow interrupter and in the electromagnet 20 creates a magnetic field opposite to the direction of the magnetic field of the permanent magnet 22. Anchor 18 under the action of the force generated in the elastic tube g by the static pressure of the metered liquid, moves upwards, opening the elastic tube, and the metered liquid passes into the choke. Upon the arrival of the control pulse for closure in the electromagnet 20, a magnetic field is created which coincides in direction with the field of the permanent magnet 22. Anchor 18, overcoming the compressive force of the elastic tube, presses against the stop 21, and the rod presses the elastic tube 16. In case of decreasing operating temperature Upon the arrival of a control pulse for opening, the force generated in the elastic tube 16 by hydrostatic pressure is insufficient, and the measles 18 remain in the lower position, preventing the back flow of the metered liquid. 2 Il.

Description

The invention relates to dispensing devices and is an enhancement of the invention according to the author. $ 1051380.

The aim of the invention is to improve reliability by eliminating the f-rate flow of the dispensed liquid with a significant decrease in the working temperature.

Figure 1 schematically shows a liquid microdispenser; figure 2 - flow breaker.

The liquid microdosing unit comprises a housing 1, the internal volume of which is divided by an elastic hermetic septum 2 into a pressure chamber 3 filled with boiling liquid 4, and a dosing chamber 5 equipped with a filling unit 6 and an outlet channel 7, a throttle 8 and an interrupter 9 according to Yuka. The control unit 10 includes a clock generator 11, a driver 12 and a switch 13 in Seb. The thermoresistor 14 is placed outside the case 1 t to ensure thermal contact with the ballast and connected to the driver 12.

The flow interrupter (FIG. 2) is made in the form of a fixedly installed t groove 15 of the base of the elastic tube 16, which contacts the locking organ in the form of a rod 17 attached to a bore 18 located 6 of the sleeve 19 of a nonmagnetic material on which the electromagnet 20 is placed In the area of the electromagnet between the elastic tube 16 and the core, 18, a permanent magnet 22 is mounted on the stop 21. The limiter 23 of the working stroke of the core 18 is installed in the body 24 of the flow interrupter made of soft steel.

Microdispenser fluid works as follows.

At the operating temperature, the light liquid 4 boils, creating pressure in the pressure chamber 3, which through an elastic

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a sealed septum 2 is transferred to the metered liquid.

In the initial state, the flow interrupter is closed (immediately before the control unit turns off, it generates a pulse to close the flow interrupter), i.e. measles 18 is pressed against the stop 21 and held on it by the magnetic field of the permanent magnet 22, pinching the elastic tube 16 by the rod 17. After turning on the control unit, it generates a pulse to open the flow interrupter and in the electromagnet 20 creates a magnetic field opposite to the constant magnetic field. of the magnet 22. The anchor 18 under the action of the force generated in the elastic tube 16 by the hydrostatic pressure of the metered liquid moves to the upper position (Fig. 2), opens the elastic tube 16 and makes it possible to pass and the liquid to be metered into the throttle 8. After (the end of the action of the control pulse on the opening, the measles 18 remains in the upper position.

Upon the arrival of the control pulse for closure in the electromagnet 20, a magnetic field is created which coincides in direction with the field of the permanent magnet 22. Anchor 18, overcoming the compressive force of the elastic tube, is pulled into the electromagnet and pressed against the stop 21, the rod 17 pinches the elastic tube 16. After the end of the control pulse for closing, the bark 18 remains in this position until the next pulse for opening opens and then the cycle repeats.

In the event that a significant decrease in the operating temperature of the boiling liquid occurs, the pressure in the dosing chamber will drop. In this case, upon the arrival of the control pulse for opening, the force generated

in the elastic tube 16, the hydrostatic pressure will be insufficient and the measles 18 will remain in the lower position, thereby preventing the reverse flow of the metered liquid from the output line to the metering chamber.

Claims (1)

Invention Formula Microdispenser fluid auth.St. No. 1051380, different 0 By the fact that, in order to increase reliability by eliminating the reverse flow of the metered liquid, the flow interrupter is made in the form of a fixed tube fixedly mounted on the base, with which the shut-off member is in contact in the form of a rod attached to a core, a permanent magnet and an electromagnet, and The magnet is located between the elastic tube and the bark. Ј 7 16 3 8 Fm.1