RU4844U1 - PRESSURE REGULATOR - Google Patents

Abstract

A pressure regulator comprising a housing, a seat and a control valve, the rod of which is connected to the first shoulder of the two shoulders lever, the second arm of which is connected through a rod to a membrane loaded with a task spring and forming a control cavity that communicates through an impulse tube with an output cavity, compensation springs stretching, fixed by the first ends with the second lever arm, and the second with the housing on the opposite side behind the axis of rotation of the lever, characterized in that the second lever arm is trident, with than the middle tooth is connected with the traction passing between the two edges of the teeth associated with the first ends of the expansion tensile springs.

Description

The 11o / .nezny model belongs to the technical control system and can be used in gas supply systems of boiler houses and other communal facilities.

Known spring-lever gas pressure regulators / Handbook of gas supply and gas utilization. Leningrad, Nedra, 1990; Ed. NL Staskevicha et al. / The disadvantage of such regulators is a change in the outlet pressure with a change in gas flow.

The closest in technical essence to the proposed solution is the pressure regulator according to the patent of the RSFSR No. 2047214 C. S 05 D 16/06,

The regulator contains a housing, a seat and a control valve, the stem of which is connected to the first arm of the two-arm ryag, the second arm of which is connected through a rod with a membrane loaded with a spring task and forming a control cavity with the housing, which is in communication through a shunt tube with an output splitter, co-oscillating tension springs, fixed first with the ends with the second 1.1 lever arm, and the second with the housing on the opposite side behind the axis of rotation of the lever.

The disadvantage of this design is the low stiffness compensation due to the small radius of rotation of the attachment point

springs.

The purpose of the proposed utility model is to increase accuracy.

Maintaining the outlet pressure in a wide range of gas flow rate changes due to an increase in the stiffness of the membrane and the target spring by increasing the radius of rotation of the attachment point of the compensation springs.

two teeth with extreme teeth connected to the first end of the expansion tensile springs.

Analysis of patent information and catalog materials on pressure regulators by the funds of the Regional Scientific and Technical Library of the city of Saratov allows us to conclude that the proposed solution is not known from the technical level, i.e. it is new.

In addition, the proposed gas pressure regulator does not follow explicitly from the prior art.

The practice of operating gas pressure regulators indicates that the proposed solution has industrial utility.

The gas pressure regulator is illustrated in the drawing, where in Fig. I, Fig. 2 shows a structural diagram of the regulator.

The gas pressure regulator comprises a housing I with an inlet II and an outlet 3 chambers, a seat 2, a control valve 4, a cover 7. In the control cavity 8 there is a regulating body in the form of a membrane 5 mounted on the housing I and a spring-loaded spring 6, a two-arm lever with an axis of rotation 12, the stem 9 and the coaxial tension spring 13. The control cavity b is connected with the load behind the gas pressure regulator / not shown /.

The first shoulder 14 of the two shoulders of the lever is connected to the rod 9, and the second shoulder is made trident. The middle tooth 10 is connected to the rod 16, mounted on the membrane 6.

On the extreme teeth 15, the first ends of the compensation springs 13 are fixed, and the second ends are fixed with the housing on the opposite side to the axis of rotation of the lever.

The gas pressure regulator operates as follows.

The force from the inlet pressure acting on the control valve 4 is transmitted through the rod n / ieiii L lever and rod 16 to the membrane 5, is summed up with the efforts of the spring 6 and the membrane 5, as well as from

tension of the compensating tension spring 13, which forms the torque relative to the axis of rotation 12 of the two shoulders of the lever, and in the fixed cutting position is balanced by the gas pressure in the control cavity 8. The total force corresponding to this flow rate is determined by the algebraic drying of the component forces. The pressure in the control cavity 8-, and therefore in the load, is determined by a total of 1 force and the effective area of the membrane 5,

When the flow rate changes, the outlet pressure changes, the balance of forces on the membrane 5 is violated, which leads to its movement and the corresponding changed position of the control valve 4, restoring the set gas pressure level.

For example, in the case of an increase in flow rate, the pressure in the load decreases, and therefore in the control cavity 8, which leads to the displacement of the membrane about down. At the same time, the force of the master spring 6 decreases, and the force from the coaxial tension springs 13 increases, since the shoulder of the application of this force to the axis of rotation of the two-arm lever, and the total force remains constant) L.

Since the first ends of the expansion springs 13 are fixed on the extreme teeth 15 of the second lever arm, and the radius of rotation of the sprue 1 is axial, the change in the action arm / 7 of these springs is maximum, and therefore the compensation of the stiffness of the membrane and the control spring of the regulator will increase.

Also, in the operating range of the flow rate change, the total force will be stabilized, and, therefore, the output damping will be stabilized.

Claims (1)

A pressure regulator comprising a housing, a seat and a control valve, the rod of which is connected to the first shoulder of the two shoulders lever, the second arm of which is connected through a rod to a membrane loaded with a job spring and forming a control cavity with the housing, which is communicated through an impulse tube with an output cavity, compensation springs stretching, fixed by the first ends with the second lever arm, and the second with the housing on the opposite side behind the axis of rotation of the lever, characterized in that the second lever arm is trident, with than the middle tooth is connected with the traction passing between the two edges of the teeth connected with the first ends of the expansion tensile springs.