SU564537A1 - Pneumatic deposit signalling device - Google Patents

Description

(54) PNEUMATIC SEDIMENT LEVEL SIGNALIZER

The drawing shows. The principle scheme of the described sludge level signaling device.

Pneumatic sensor 1, built into the tank 2 with a controlled environment, takes the weight of sediment falling out of the pulp. Auxiliary tube 3 with shut-off valve 4 and piston 5 is connected to submembrane chambers b and 7 of sensor 1 and pressure limiter 8, and also communicates with a deaf chamber 9 of flow regulator 10 and a backpressure chamber 11 of pneumoelectric relay 12 and serves to create air pressure in chamber 6 , the value of which is equal to the hydrostatic column of the pulp acting on the membrane 13 of sensor 1, the membrane element 14, the chamber 15 of which is connected to the output of the memory pad 16 with a fixed zero, is intended to control the shut-off valve 4 during emergency stopping depressurization pneumatic or pneumatic line. A pneumatic valve 17 with a flying diaphragm 18 and a constant throttle 19 provides instantaneous disconnection of the measuring cxeNU signaling device from the flow stabilizer when the pneumatic voltage is disconnected. |

Measuring tube 20 is connected to pneumatic-electric relay 13, in chamber 21 of which there is a contact for closing 22. Valve nozzle 23 is connected to flow regulator 10 and throttle 24, another valve outlet 17 is connected to measuring throttles 25 and 26. Diaphragm element 14 has a spring 27. The stop valve 4 is connected to a relay 16, one of the chambers of which has a spring 28.

The detector works as follows.

Until the osad, falling out of the pulp, reaches a controlled level, the air pressure in chambers 11 and 21 of relay 12, in a deaf chamber 9 of the flow regulator 1U and chambers 6 and 7 are equal to each other and proportional to the height of the pulp column on the diaphragm 13 of the sensor 1 Air through the gap formed by the membrane 13 and the end of the measuring tube 20, the auxiliary tube 3 and the pulp in the tank 2 is released into the atmosphere.

When the sediment reaches a controlled level, the membrane 13 under the action of the weight of the sediment will move down and cover the outlet of the tube 20. This increases the pressure in the chamber 21 of the pneumo-electric relay 1 to a value sufficient to close the contacts 22 of the relay 12.

In case of emergency shutdown of the Pneumatic network or depressurization of the pneumatic line, the pneumatic membrane 18

the valve 17 will block the nozzle 23 connected to the flow stabilizer 1 The remaining volume of air enclosed in the chamber of the valve 17 is sufficient

5 to. Support air flow through the measuring throttles. 25 and 26, therefore, through the auxiliary tube 3 for some time. During this time, the chamber 15 of the membrane element 14 is first discharged through the feeding nozzle of the relay 16 and the stabilizer 10, and then through the atmospheric nozzle of the relay 16 is discharged, and under the action of the spring 27 the valve 4 tightly closes the outlet opening of the auxiliary tube 3.

The transit time of air through the auxiliary tube 3 can be increased by parallelly connecting the reservoir capacity in the valve chamber 17.

When the pneumatic network is turned on, valve 4 will open the outlet of the tube 3 n immediately, and after some time determined by the conductivity

25drossel 24 and spring stiffness 28. This time is sufficient for the pressure-exerting pressure in the chamber 6 of the sensor 1 and the chamber 7 of the pressure limiter 8

30 columns of fluid acting on the membrane of the sensor 16, the value of N.

Thus, the use of a membrane pressure limiting device and an auxiliary tube with a shut-off valve in the signaling device completely eliminates the possibility that the sensitive element (membrane) of the pneumometric sensor escapes from malfunctioning and clogging the internal valve of the auxiliary tube with a controlled substance at the time of the emergency pneumatic network or depressurization of the pneumatic line. This increases the operational reliability of the sludge level alarm.

Claims (1)

Invention Formula gQ A pneumatic level switch containing a pneumatic sensor, a compressed air flow stabilizer, a pneumatic electric relay and an auxiliary tube immersed at one end in a controlled medium to the level of the membrane plane plane, in order to protect the sensor membrane from destruction and protect the auxiliary tube from driving control "11m substance at the time of emergency shutdown of the pneumatic network or depressurization of the pneumatic line; a membrane pressure limiter connected to the flow stabilizer and pneumatic