SU1158981A1 - Regulator of solution level - Google Patents

Abstract

1. SOLUTION LEVEL REGULATOR containing a bath with a piezometric level sensor installed in it. n, a pneumatic amplifier, to the input of which one end of the flexible tube is connected, and the output is connected to 1 € ESH S t 4 | control cavity of the pneumatic membrane actuator, the input current of which through the lever is kinematically connected to a valve installed in the pipeline supplying the solution to the bath, characterized in that, in order to simplify the design and increase the sensitivity of the regulator, the piezometric level sensor is equipped with a hollow rod to which the second is connected the end of the flexible tube, the brush being kinematically connected to the lever of the pneumatic diaphragm actuator. I -

Description

2. The regulator according to claim 1, about 10 and with the fact that the rod of a tl and h of the aerial level sensor is connected by a piezometer with a lever with the possibility of adjustment 1158981

I: The invention relates to the automatic regulation of the level of liquid media and can be used to regulate the level of film-forming solution in the dies of the tape 5 casting machines that produce the triacetate base of film films.

The aim of the invention is to simplify the design and increase the sensitivity of the controller,

The drawing shows a schematic diagram of a solution level regulator.

The solution level regulator contains a bath 1 with a level measuring sensor 2 installed in it, 5 pneumatic amplifier 3, input 4 of which is connected to cavity 7 of sensor 2 by means of a flexible tube 5 and hollow rod 6, and output 8 to a control cavity 9 pneumatic diaphragm-20 of the actuator 10, the output rod .11 of which through the chip 12 is kinematically connected to the valve 13 installed in the pipeline 14 for supplying the solution to the bath. A 25 gauge 2 sensor is rigidly connected to the hollow rod 6, which is enclosed in a vertical guide bushing 15 and through an adjusting screw 16 is connected to the holder 17. The last hinge 3d is connected to the connecting rod 18, which is kinematically connected with the lever 12.

The solution level regulator works as follows .. 35

Before switching on the solution level regulator, the necessary level of the solution in bath 1 is set manually with the help of valve 13. To activate the regulator to the torus, it is necessary to loosen the adjusting screw 5 and to load the piezometric sensor 2 into the bath I with the solution. In this case, in the cavity 7 of the sensor 2, a pressure arises, which is supplied to the input A of the pneumatic amplifier 3. At the output of the .8 pneumatic 1 amplifier, a command pressure appears that enters the control cavity 9 of the pneumatic diaphragm actuator 10, resulting in its output rod 11 moves and rotates the lever 12. The rod 6 of the piezometric sensor 2 with the help of an adjusting screw 16 located on the holder 17 is fixed in such a position that the lever 12 is approximately in the middle position apazone it possible displacements. Then the free end of the lever 12 is connected to the valve 13 of the solution supply pipe 14 to the bath. After that, the controller automatically maintains the level of the solution in the bath.

If the height of the level in the bath does not change, then in cavity 7 of sensor 2 a constant pressure is established proportional to the depth of immersion of the sensor in the solution, which enters input 4 of pneumatic amplifier 3, from output 8 of which the amplified signal enters cavity 9 of the control of the membrane actuator 10, the rod 11 which with the help of the lever 12 holds the valve 13 in a position in which the inflow of solution into the bath 1 is equal to the flow.

When the level deviates, for example, upwards, the pressure in cavity 7 of piezometric sensor 2 increases and, consequently, pressure increases at inlet 4 of pneumatic amplifier 3. The amplified signal from pin 8 of pneumatic amplifier 3 enters control cavity 9 of membrane actuator 10, which using the lever 12, it moves the flap 13 towards the closing side and thereby reduces the inflow of solution into the bath 1, restoring the level of the solution in the bath. At the same time, the lever 12 using the rod 18, the holder 17 and the rod 6 moves the piezometric sensor 2 upwards, which leads to a decrease in 3 pressure in its cavity 7 and at the inlet of the pneumatic amplifier 3. The movement of the lever 12 continues until the force developed by the membrane unit of the actuator 10, due to an increase in the outlet air pressure pneumatic amplifier 3 does not balance with the spring of the actuator 10; In this case, in the cavity 7 of the piezometric sensor 2 is set greater than before the level deviation, the pressure, the value of which is amplified by pneumatic amplifier 3 is sufficient to hold the flap 13 in the new steady state. When the level deviates towards a decrease in the level of the solution, the valve 13 moves in the same way towards the opening and thereby increases the inflow of the solution into the bath, restoring the solution level in it. Thus, when the level of the solution in the bath deviates from the set value, the regulator works out the regulating effect in the form of a turn by the valve knob 13 proportional to the deviation value, i.e. implements the proportional law of regulation. The gain of the regulator is determined by the position of the fastening of the rod 18 on the lever 12. If during the operation of the regulator it is necessary to change the set value of the solution level in the bath, then loosening the adjusting screw 16, move the piezometric sensor 2 with the rod 6 along the holder 17 upwards (with increasing the set value of the level) go down (with a decrease of the set value of the level) and in the new position is locked with an adjusting screw 16. For convenience of setting the holder 17 there are risks with an interval equal to the unit of level measurement, and 6, there is a current pointer index. . The regulator can be used to stabilize the level of film-forming solution in the dies of tape casting machines.

Claims (2)

1. SOLUTION LEVEL CONTROLLER containing a bath with a piezometric level sensor installed in it, a pneumatic amplifier, one end of the flexible tube connected to its input, and the output connected to the control cavity of the pneumatic membrane actuator, the output rod of which through the lever is kinematically connected to the shutter, · installed in the pipeline for supplying the solution to the bath, characterized in that, in order to simplify the design and increase the sensitivity of the regulator, the piezometric level sensor is equipped with olym rod that is connected to a second end of the flexible tube, and a rod kinematically connected to the lever a pneumatic diaphragm actuator. .., SU, 1158981 2. The regulator according to π. 1, due to the fact that the rod of the char- acteristic level sensor is connected to the piezometer with a lever with the possibility of adjustment *