SU1234814A1 - Pressure regulator - Google Patents

Abstract

The invention relates to the field of automation and allows the pressure to be regulated after itself in devices and systems working with particularly aggressive gases. The controller contains a housing I with an input 2 and output 3 Channels, in which the sensitive element 4 in the form of a membrane with a rigid center is loaded, loaded with a spring of task 6 with an adjusting rf 7 (L 1C with 4 00 4 in yy and (J o

Description

screw 7, and a regulator of the nozzle type valve, the valve of which is made in the form of a blunt membrane 8, fixed on the edges of the housing I with a lining 9 and screws 10, and the solo I is made on the housing. The center in the left membrane 8 is clamped to the body and to the nozzle 11 by a spring 12 and a washer 13 and is connected in contact with the rod 14, Connection 1M with the sensing element 4. To eliminate the danger of sticking in the left membrane 8, radial 15 are made around the nozzle 1I. and annular 16 grooves coaxial with it ensuring the location of the peaks of the projections 17 of the annular 16 grooves in one plane.

The invention relates to devices for regulating pressure after se and can be used in devices and systems that also work with particularly aggressive gases.

The aim of the invention is to increase the reliability and enable the controller to operate in the line after itself, as well as with particularly aggressive gases.

Fig. 1 shows a pressure regulator, a general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. 2

The pressure regulator contains a housing 1 with an input 2 and an output 3 channels, in which the sensitive element 4 is placed in the form of a membrane with a rigid center 5, loaded with a spring 6 of the task with an adjusting screw 7, and a regulator of the nozzle-damper type, the damper of which is the form in the left diaphragm 8, fixed along the edges on the housing 1 with a lining 9 and screws 10, and the nozzle 11 is mounted on the housing 1. The center in the left membrane 8 is pressed to the housing 1 and to the nozzle 11 by a spring 12 and a washer 13 and is connected in contact with rod 14 connected to the sensor Nym element 4,

On the housing 1 around the nozzle 11 there are radial 15 and annular grooves 16 coaxial with it (Fig. 2 and

Moreover, the first protrusion 17 from the nozzle II is made continuous, and the remaining protrusions 17 are discontinuous due to the provision of radial grooves 15 connecting the annular grooves 16 to the inlet 2 channel and extending into the first groove from the nozzle 11. To ensure the operation of the regulator with especially aggressive gases, parts 4,8,9,10,19,23 are made of fluoroplastic-4, gaskets 22 are made of more elastic fluoroplastic-10, and parts 13 and 14 are made of glass, with housing 1 and the cover 19 is made up of two parts: the inner part is made of fluoroplastic, and the outer part is made of metal. 1 hp f-ly, 2 ill.

3) ensuring the location of the peaks of the protrusions 17 of the annular 16 grooves in the same plane, the first protrusion 17 of the nozzle 11 being solid, and the remaining protrusions 17 interrupting by making radial grooves 15 connecting the annular grooves 16 with the inlet 2 channel and leaving the first groove from the nozzle 11.

The housing 1 is connected to the covers 18 and 19 by means of nuts 20 and 21. The tightness is ensured by the gaskets 22.

On input 2 and output 3 channels

The fittings 23 are fitted, and the adjusting screw 7 is closed by the cap 24.

To ensure the operation of the regulator with especially aggressive gases, parts 1, 45 8, 9, 10, 19 and 23 are made of fluoroplastic-4, parts 22 are made of more elastic fluoroplast-10, and parts 13 and 14 are made of glass, with the case 1 and the lid 19 consists of two parts: the inner part - from the retractable layer and the outer part - from the metric head.

The pressure regulator works as follows,

Through the inlet fitting 23.gas enters through the inlet 2 channel in the housing 1 to the left diaphragm 8 from two sides: through the cavity in the pin 19, the gas comes

3

smears membrane 8 to nozzle 11 and outposts 17, and through annular 16 and radial 15 grooves on housing 1 gas pushes it from nozzle 11 and passes through nozzle 11 into output channel 3 and under membrane 4. Required output division values are set by spring 6 of task using screw 7, the membrane 4 stabilizes this pressure: if the pressure of the gas under the membrane 4 is less than the force of the spring 6 above the membrane 4, then the membrane 4 together with the rod 14 moves downwards and moves the fluid membrane 8 away from the nozzle 11, while the flow gas through the nozzle 11 increases, the pressure under the membrane 4 grows and the forces on the membrane 4 level off; if the pressure of the gas under the membrane 4 is greater than the force of the spring 6, then the membrane 4 moves upwards and the finaK membrane 8 is pressed against the nozzle 11 by the spring 12, the gas flow through the nozzle 11 decreases, the pressure under the membrane 4 drops and the forces on the membrane are not balanced . Output pressure is stabilized in line

le se

those. after regulator.

Claims (2)

Invention Formula five . A pressure regulator containing a housing with inlet and outlet ducts, in which a rigid center loaded sensing element, loaded with a spring of reference, and adjustable 48 h 5 five 0 144 A nozzle-flap type body, the flap of which is made in the form of a perforated membrane, and the nozzle is made on the body, characterized in that, in order to increase reliability and enable the controller to work in a line after itself, the membrane is fixed on the body, and its center is spring-loaded in the direction of the nozzle and connected to the rod connected to the sensing element; radial and annular grooves coaxial with it are formed on the housing around the nozzle; the first from the nozzle, the protrusion is continuous, and the remaining protrusions are discontinuous due to the provision of radial grooves connecting the annular grooves to the inlet channel and extending into the first groove from the nozzle. 2. The regulator according to claim 1, which is based on the fact that, in order to ensure the operation of the device with particularly aggressive gases, the casing is made of an internal part in contact with the working gas, the part and the external part, and the internal part of the case is made of material resistant to especially aggressive gases, in particular from fluoroplastic. and the outer part of the body is made of a material resistant to mechanical stress, in particular metal. Aa 17 15 No sixteen 17 B-s Yu Editor L. Veselovska Order 2984/50 Circulation 836 Subscription VNIIPI USSR State Committee for inventions and discoveries I3035, Moscow, Zh-35, Raushsk iab., d. 4/3 Production and printing company, Uzhgorod, st. Project, 4 Compiled by B. Latukhina Tehred O. Gortvay Proofreader G. Reshetnik