SU853216A1 - Apparatus for controlling working fluid flowrate - Google Patents

Description

air line (PA drawing not shown). The screw 23 is designed to turn off the stopper 9. From the end 24 of the housing, / the forcing screw 25 is mounted.

Nozzles 10 is in contact with nuts 26 and 27. The adjusting sleeve 11 through the gasket 28 communicates with the housing /. A wrench 29 is provided on the adjusting sleeve 11 for adjusting the force of the spring 6. A spring 7 is mounted between the nut 26 and the end 30 of the sleeve 31 provided with slots for adjusting the force 7. The key / groove 32 is made for the wrench.

The device for adjusting the flow rate of the working medium operates as follows.

Before operation, the piston 4 with the rod 5 is cocked to its original position with the aid of the forcing screw 25 and fixed by the stop 8, while the limiter 9 is released by the screw 23. After the piston 4 is reset to the initial position, the forcing screw 25 and the screw 23 turn out and the working medium is fed into the input pipe 2 (Fig. 1). At the moment of switching on the device, air is supplied to the spring-loaded piston 22, which removes the locking element 14 of the limiter 8 from engagement with the gear shank 17 of the rod 5. The piston 4 under the action of the spring 6 begins to move uniformly accelerated, taking the working medium and accelerating it to a certain speed. When the piston 4 moves, the spring 7 and the expansion of the spring 6 are compressed. When a certain value is reached, the compression force of the spring 7 will move the piston 4 immediately until its speed is zero, and the piston rod is caught by the stop 9.

The characteristics of the springs and 7 are selected so that when the piston 4 is completely stopped, the flow area of the outlet nozzle 3 is fully open.

The flow rate of the working medium through the outlet nozzle 3 depends on the speed of movement of the piston 4 and the cross sectional area of the outlet nozzle 3. The flow rate increases to a certain value c. the start of the working medium supply (point C

4) ig. 2) by increasing the cross-sectional area of the inlet nozzle 3 and the speed of movement of the piston 4, greater than at steady-state movement of the working medium, i.e. the working medium is accelerated by the piston 4.

When reducing the speed of movement of the piston 4 despite the increase in the cross-sectional area of the outlet pipe

3, by counteracting the spring 7, the flow rate is reduced to a normal value during steady-state movement of the working medium, and the flow area of the outlet nozzle 3 is completely open and the hole 4 is stopped.

In devices that do not have a piston acceleration mechanism, the flow rate of the working medium cannot exceed the value at steady motion (point K. in Fig. 2).

The change in the characteristic of the spring 6 is achieved by rotating the adjusting sleeve 11, and the spring 7 by rotating the sleeve 31.

Claims (2)

1. A device for controlling the flow of the working medium, comprising a housing with inlet and outlet nozzles and a piston, the stem of which is equipped with two springs and limiters, characterized in that, in order to extend the functionality by increasing the flow rate of the working medium in the initial period of injection, the device is equipped with a piston acceleration mechanism, made in the form of a nozzle concentrically covering the piston rod, and an adjusting sleeve with a nut mounted for axial displacement along the outer surface of the nozzle, wherein one of the springs is installed between the nozzle and the nut. 2. A device according to claim 1, characterized in that the stops are provided with locking elements. The source of information taken into account in the examination: 1. USSR author's certificate No. 402744, cl. G 01 F 3/16, 1973.  Cffi .2