SU1765701A1 - Fluid dosimeter - Google Patents

Description

The invention relates to the field of hydraulic engineering and can be used for automatic dosing of liquid media with various properties.

A known membrane pump metering fluid containing a housing, a membrane, a separation fluid, a piston and a piston stroke limiter (1).

The disadvantages of this dispenser are insensitivity to the breakthrough of the membrane and the lack of indication of a possible breakthrough, the difficulty of adjusting the dose, i.e. low reliability.

Known liquid dispenser, the closest in technical essence to the proposed, containing a housing with a piston and a membrane located in the supra-piston cavity with the formation of the working and intermediate chambers (2).

The disadvantage of this dispenser is the design complexity due to the presence of a two-layer membrane and a pressure indicator in the intermembrane space.

The aim of the invention is to simplify the design of the fluid dispenser.

The essence of the invention is illustrated in the drawing, which shows a schematic diagram of a liquid dispenser.

The liquid dispenser contains a housing 1 with a piston 2, a membrane 4 installed in the epigastron cavity, dividing the cavity 3 into a working chamber 5, equipped with a fitting 6, and an intermediate chamber 7 filled with indicator fluid 8, as well as a piston 2 drive 9, stops 10 and 11, moreover, the emphasis 11 is adjustable, the cavity 12, formed by a step of the housing 1 and the piston 2, filled with a damping fluid 13 and connected through a flow limiter 14 with a reserve capacity 15. An inlet valve 16 is installed in front of the dispenser, through which the dose of the working fluid is set bones. After the dispenser, an outlet valve 17 is installed through which the dose is delivered to the consumer. The valves 16 and 17 are controlled by external commands, coordinated with the Rupr team, which controls the piston 2 stroke of the dispenser.

The liquid dispenser operates as follows.

The dose is set when the inlet valve 16 is open and the outlet valve 17 is closed. When the control pressure R is _{supplied, the} actuator 9 drives the piston 2, lowers it to the lower position (to the stop 11). In this case, under the action of the membrane 4, a dose of the working fluid is set through the nozzle 6 into the working chamber 5 of the supra-piston cavity 3 of the dispenser. The speed of movement of the actuator 9 with the piston 2 is limited due to the fact that a pressure drop occurs in the cavity 12 filled with the damping liquid 13 and the liquid is sucked from the reserve tank 15 through the flow limiter 14. Then, a command is issued to close the inlet valve 16 and open the outlet valve 17 and the excess control pressure P _control . The actuator 9 drives the piston 2 and makes it move up. The movement is carried out at a limited speed. The damping fluid 13 is throttled by the pressure increasing in the cavity 12 through the flow restrictor 14 to the backup tank 15. The membrane 4, driven by the indicator fluid 8, displaced from the intermediate chamber 7 by the piston 2, pushes the dose of fluid accumulated in the previous cycle through the nozzle 6 and the outlet valve 17 from the dispenser.

The actuator 9 reaches the extreme upper position defined by the stop 10. Next, the valves 16 and 17 are switched and the process is repeated.

The design of the over-piston cavity 3 is such that in case of a breakthrough, the membrane 4 tends to take a position as close as possible to the piston 2 and displace the indicator liquid 8 from the intermediate chamber 7. This ensures that the indicator liquid 8 penetrates from the intermediate chamber 7 into the working chamber 5 and stains the working fluid .

When dosing, for example, an indicator solution for radioactivity sensors, an aqueous 0.05% NaNCh or KNO2 solution, which is a litmus solution for the working fluid, is used as a separation liquid. Thus, when the indicator 8 and the working fluids are mixed, the solution acquires a characteristic red color, and a breakthrough of the membrane 4 is accompanied by an indication.

Claims (1)

Claim A fluid dispenser comprising a housing with a piston and a membrane located in the supra-piston cavity to form the working and intermediate chambers, an indicator fluid and inlet and outlet valves associated with the working chamber, characterized in that, in order to simplify the design, the indicator fluid is made in the form of an active in relation to the dosed liquid of the reagent and is located in the intermediate chamber, and its volume is equal to the volume of the intermediate chamber.