RU6638U1 - GAS PRESSURE REGULATOR - Google Patents

Abstract

A gas pressure regulator comprising a housing with inlet and outlet chambers, between which a valve seat of a shut-off valve is connected in series, connected to the installation unit of this valve in the open position, and a seat of a control valve, the rod of which is connected to the first shoulder of the two shoulders lever, the second shoulder of which is connected by the first spring stretching with the housing and with a membrane loaded with a task spring and forming a control cavity with the housing, which is communicated through an impulse tube with an output chamber, characterized in that a second tension spring is introduced, and the second shoulder is made in the form of a trident bracket, the middle tooth of which is connected to the membrane, and the lateral teeth are connected to the first ends of the tension springs, the second ends of which are fixed to the body at a distance from the control valve stem greater than the distance from this rod to the axis of rotation of the two shoulders of the lever.

Description

EE1TOR GAS PRESSURE

The utility model relates to techniques for automatic regulation and can be used in gas supply systems of boiler houses and other communal facilities.

Known spring-lever gas pressure regulators (a guide to gas supply and gas use, Leningrad, Nedra 1990, edited by N.L. Staskevich and others). The disadvantage of such regulators is the change in the float pressure with a change in gas flow.

The closest in technical essence to the proposed / from the solution is the pressure regulator ha according to the tension of the Russian Federation No. V032929 class. G-Q5 D 16/06.

The device contains a housing b BKOjtHOt and output1 cameras,

a mead with which the saddle of the shut-off valve connected to the unit for installing this valve in the open position is sequentially located, and the saddle of the regulating valve, the stem of which is connected to the first shoulder of the double shoulder, the second shoulder of which is connected by the first tension spring to the body and to the membrane loaded with the job spring and forming a control cavity with the housing, which is connected through an impulse tube to the output chamber.

The disadvantage of this design is the need to install spring tension along the axis of symmetry of the two shoulders of the lever to prevent it from skewing from the action of the force of this spring, which complicates the design of the controller.

The purpose of the proposed utility model is to simplify the design of the regulator.

library of the city of Saratov allows us to conclude that the proposed utility model is not known from the prior art, i.e. she 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 by the drawings of figure 1, figure 2.

The gas pressure regulator (Fig. 1) comprises a housing I with an inlet 2 and an outlet 3 chambers, a sedan 4, a regulating KJianaa 5 and a shut-off valve 16, a servo actuator consisting of a housing 6 and a cover 7, in the control cavity 8 of which there is a regulating body in the form a membrane 9 mounted on the housing 6 and a spring loaded task spring 10, a two-shouldered lever rotating on an axis 14, a rod 12 and two expansion tension springs 13. The control cavity 8 of the servo drive is connected with the load to the gas pressure regulator (not shown). The second shoulder (figure 2) of the two shoulders of the lever is made with a trident bracket, the middle tooth II of which is connected with the membrane, and the lateral teeth 15 with tension springs 13, fixed at the other ends with the housing I at a distance from the rod 12 greater than the distance from this rod 12 to axis of rotation 14 of the two shoulders of the lever.

The gas pressure regulator operates as follows.

In the initial state, the shut-off valve 17 is installed using the installation unit (not shown) in the open position. The force from the inlet pressure acting on the regulating valve 5 is transmitted through the rod 12 and the two-arm lever to the membrane 9, is summed up with the efforts of the spring task 10 and the membrane 9

(see chart 14), as well as from the tension of the compensation tension springs 13, which form a torque relative to the axis of rotation of the shoulder lever, and in a steady cut, it is balanced by the gas pressure in the control cavity 8 of the servo drive. The swash effort corresponding to a given 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 the total force and effective area of the membrane 9.

When the flow izmezheya flowing pressure changes, the balance of forces on the membrane 9 is violated, which leads to its movement and, accordingly: by allowing changes in the position of the control valve 5, restoring a given level of gas pressure. For example, in the case of an increase in flow rate, the pressure in the load decreases, and, consequently, in the control cavity 8, which leads to the displacement of the membrane 9 down. In this case, the force of the driving spring 10 decreases, and the force from the expansion tension springs 13 increases, since the shoulders of applying the forces of these springs to the axis of rotation of the other arm increase, and the total force remains constant.

The implementation of the second shoulder of the two shoulders of the lever trident allows you to place two tension springs 13 symmetrically with respect to the axis of the lever, fixing them with the sides for the lateral teeth 15, and the other sides for the housing I, which simplifies the design of the regulator.

Authors: Tselovalshov L.G.,

Claims (1)

A gas pressure regulator comprising a housing with an inlet and outlet chambers, between which a shut-off valve seat is connected sequentially, connected to the valve installation unit in the open position, and a control valve seat, the stem of which is connected to the first shoulder of the two shoulders lever, the second shoulder of which is connected by the first spring stretching with the housing and with a membrane loaded with a task spring and forming a control cavity with the housing, which is communicated through an impulse tube with an output chamber, characterized in that a second tension spring is introduced, and the second shoulder is made in the form of a trident bracket, the middle tooth of which is connected to the membrane, and the lateral teeth are connected to the first ends of the tension springs, the second ends of which are fixed to the body at a distance from the control valve stem greater than the distance from this rod to the axis of rotation of the two shoulders of the lever.