SU66923A1 - Device for the automatic regulation of the work of klerovochnye, etc. boilers - Google Patents

Description

The invention relates to devices for the automatic regulation of the work of klerovochnyh, etc., boilers using a membrane controller connected to the cepBolMOTOpa spool controlling the pumping of the solvent from the boiler to the boiler depending on the concentration of the solvent in it.

The proposed device is distinguished by the fact that for continuous supply in the cavity of the pressure regulator of the actuating medium, expansion vessels connected to the vent, the source of the actuating medium, and regulator m are used to create a hydraulic column that balances the pressure difference existing in the boiler at two different levels.

The drawing shows a diagram of the installation of the device on klerovochnam boiler.

The proposed automatic control device can operate both in the application of liquid and compressed gas, or a vapor of non-constant pressure. Smooth control of the differential pressure on both sides of the valve piston located on the IB cylinder (and, consequently, on the stroke of the piston in it) is performed by moving the spool 6 without using amplifying devices. The regulation is based on the following principle: the piston cylinder / on both sides of the piston is connected by a tube 5, along which the waste water or gas must exit. Diaphragms 2 with a hole of 1.3-2 mm are inserted into the sleeves of the discharge tube 5. Therefore, on both sides of the piston cylinder through the diaphragm 2, there is a constant outflow of fluid into the tube 3 at a rate that is critical in the thermodynamic sense. The spool 6 of the regulator 5 consists of a cylindrical body with a central hole in which the two-stage piston 4 moves, connected to the membrane 10 of the regulator. Inside the spool housing there are two annular channel tufts that communicate with the tubes 7 and S leading to the valve piston cylinder. The steps of the spool piston are located one from another at a distance equal to the distance between the middle lines of the annular channels of the housing. The working vapor or liquid flows in the middle of 1 between the steps of the piston through the tube 9 and presses on the same areas of the steps in opposite directions, therefore the regulating piston is balanced and does not force the MieeTCH against the walls of the housing. When the membrane 10 is in an average equilibrium position, the piston steps coincide with the middle lines of the annular channels and, consequently, access to these channels of the working medium is open equally, therefore, for any pressures in the I tube, the pressures in the tubes 7 and 8 will also be the same no pressure difference on the piston of the cylinder / there will be ke, i.e. when the membrane is in equilibrium, the valve piston will also be in equilibrium, regardless of its position in a given mill., if MVM1 is incorrect, and hence the piston of the spool If you move to the right or left of your middle position, the pressure will increase in one annular channel and decrease in the other as the continuous flow of the working medium through the diaphragm 2 from the piston cylinder / is increased and the other is reduced. Therefore, with a smooth movement of the membrane, there will also be a smooth, proportional increase in the difference of 1-110 effects in tubes 7-8 per cylinder piston /, which will have a smooth, proportional alternation of the membrane until the membrane returns to equilibrium. The stroke rate of the piston of the valve is determined by the acceleration that the syrup in the boiler / 4 syrup should have with changes (supply of solvent and solvent, i.e., acceleration of the process of changing the specific weight of syrup.

This acceleration also depends on the cross-sectional area of the boiler. For installations of different sizes, it is necessary to apply different valve piston stroke speeds accordingly. In the proposed regulator, there is an installation change.

The valve piston speeds are made by changing the diaphragms: 2 1 to others with a 66v4biiiBM or smaller hole. Diaphragms with a larger orifice increase the piston stroke speed of the valve, and with a smaller - reduce it.

In addition, the stroke speed of the piston can be changed by varying the pressure of the working medium in tube 9. In order for the syrup to stop when the boiler 14 stops working and the syrup regulator closes the regulator, it is necessary to install expansion tanks 11 and 12 above the syrup level in the boiler 14, as shown in the drawing. In addition, when closing the steam supply to the regulator (tube / 5). and it is necessary to open the taps on the expanders 11 and 12 so that they do not receive a vacuum that can suck the syrup into the regulator.

Regulation of the supply to the boiler of the solvent, as indicated above, is made depending on changes in the syrup level in the boiler 14, caused by controlling the consumption of the orphaned brinsu. The supply of solvent is made by an automatic level controller 15, attached to the boiler 14, a device that is clearly operating from a charger. This machine is distinguished by its application: a balanced gate valve 16 with a large valve stroke and,. consequently, greater throttling limits. Due to the high sensitivity of this mechanism, no lever gears are used here and the valve stem is fixed directly on the float rod.

Subject and Invented and

A device for the automatic regulation of the work of klerovochnyh, etc., 1KOTLOV1 with the use of a membrane regulator connected to the cepiBOuMOTOipa slide valve controlling the pumping valve from the solution or the solvent supply valve to the boiler, depending on the

Continuous supply in the cavity of the pressure regulator and the medium used are connected to the BOILER1, the source of the additional medium, and the regulator expansion vessels 11 and 12, creating a hydraulic column balancing the pressure difference existing in the boiler at two different levels.

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