RU2036508C1 - Gas pressure regulator - Google Patents

Abstract

FIELD: automatics. SUBSTANCE: regulator has case 1 with inlet and outlet unions 2 and 3, sensitive member 4 with traction 5 fixed to the case by cap 6. Setting spring 7 is mounted between cap 6 and sensitive member 4. Lock-regulating member 9 provided with lever 10 is mounted onto the case at the side of outlet union 2. The other lever 11 is mounted at the opposite side, as well as compensation spring 14 and adjust member 13. EFFECT: improved precision of stabilization of output pressure. 1 dwg

Description

 The invention relates to automation, in particular to control equipment for cylinders with liquefied gas for automatic stabilization of gas pressure at various costs.

 Known spring-lever pressure regulators of vapor of liquefied gas, used for cylinders with liquefied gas [1] The disadvantage of such regulators is the low accuracy of stabilization of the outlet pressure when changing the gas flow.

 The closest in technical essence to the proposed solution is a gas pressure regulator [2] comprising a housing with inlet and outlet fittings, a sensing element, fixed by a cover on the housing, in which are located on the inlet side of the shut-off and regulating body mounted on the first lever associated with traction of the sensing element defining a spring located between the cover and the sensing element.

 The disadvantage of this regulator is the low accuracy of stabilization of the outlet pressure when the flow rate changes. This is due to a change in the force of the driving spring with a change in the position of the center of the sensing element, which, in turn, depends on the change in the locking and regulating body.

 The aim of the invention is to improve the accuracy of stabilization of the outlet pressure when changing the gas flow.

 This goal is achieved by the fact that the regulator introduced the node compensation force of the master spring, which includes installed in the housing from the side opposite the inlet fitting, the second lever, the compensation spring and the mounting body, mounted in the housing and connected with one end of the compensation spring, the other end which is bonded to a second lever associated with the first lever.

 The analysis of patent, information and catalog materials on gas pressure regulators by the funds of the regional scientific and technical library of the city of Saratov allows us to conclude that the invention is not known from the prior art, i.e. it is new.

 In addition, the proposed gas pressure regulator has an inventive step.

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

 The essence of the invention is illustrated in the drawing.

 The gas pressure regulator comprises a housing 1 with an input 2 and an output 3 fittings, a sensing element 4 with a rod 5, mounted on the housing 1 by a cover 6. Between the cover 6 and the sensing element 4 a driving spring 7 is installed, which forms the initial force. On the housing 1 from the side of the inlet fitting 2, a locking and regulating body 9 with a first lever 10 is mounted on the axis 8, and a second lever 11 on the axis 12 is installed on the opposite side. Between the lever 11 and the adjusting body 13 located behind the axis of rotation 12, there is a compensation tension spring 14.

 The gas pressure regulator operates as follows. The inlet pressure enters through the nozzle 2 and acts on the locking-regulating body 9. The force of the lever 10 and the force of the compensation spring 14 are transmitted through the lever 11 to the draft 5 of the sensing element 4, at the same time, the force of the driving spring 7 acts on the sensing element 4.

 The total force on the sensing element 4 from the influence of the master 7 and compensation 14 springs and the inlet pressure in the steady state is balanced by the force from the output pressure acting on the sensing element.

 The change in flow rate leads to a change in the gap between the fitting 2 and the locking-regulating body 9, which, in turn, will lead to the movement of the rod 5 of the sensing element 4. The movement of the rod 5 causes a change in the efforts of the driving spring 7 and the compensation tension spring 14, due to the angular movement of the lever 11 on the axis 12. With increasing gas flow, the gap between the fitting 2 and the locking-regulating body 9 increases, and the lever 10 moves clockwise on the axis 8. This movement of the lever 10 causes a decrease in the force th spring 7 and the counterclockwise angular movement of the lever 11. This increases the shoulder of the application of the force of the compensation spring 14 to the lever 11, and therefore, increases the force transmitted by the lever 11 to the rod 5. The total force on the sensor 4 from the action of the springs 7 and 14 will be constant, since a decrease in one of them is compensated by an increase in the other. With a decrease in consumption, the opposite picture will occur, i.e. turning the lever 10 counterclockwise will cause an increase in the force of the driving spring 7 and a decrease in the force of the compensation spring 14, and the total force will be constant.

 The output pressure is adjusted by changing the tensile forces of the compensation spring 14 by moving the adjusting body 13 along the threads in the housing 1.

 Thus, in the gas pressure regulator, the total force on the sensitive element is constant regardless of the size of the gap between the fitting and the locking-regulating body, and therefore, the stabilization of the outlet pressure regardless of the flow rate.

Claims (1)

 GAS PRESSURE CONTROLLER, comprising a housing with inlet and outlet fittings, a sensing element fixed by a cover to the housing, in which there is a shut-off-regulating body mounted on the inlet side of the inlet fitting, mounted on the first lever connected with the sensing element rod, defining a spring located between the cover and a sensitive element, characterized in that a node for compensating the efforts of the driving spring is inserted into it, including a second lever, computer installed in the housing from the side opposite to the inlet fitting satsionnuyu spring and a mounting body mounted in the housing and connected to one end of the compensating spring whose other end is connected to a second lever connected with the first lever.