SU830340A1 - Pressure regulator - Google Patents

Description

(54) PRESSURE REGULATOR

The invention relates to automation and can be used to control pressure in systems. gas supply.

A safety device is known, in the case of which there are telescopic pistons that are placed adjacent to each other and successively interacting with the corresponding protrusions in the housing, an auxiliary valve installed in a hollow, spring-loaded stem. Placing the pistons telescopically reduces the size and weight of the safety device ± 1,

However, it is not possible to use in the pressure regulator as a sensitive element of pistons telescopically conjugated to each other and successively interacting with the corresponding protrusions in the housing and the pistons themselves, Due to the fact that the reducing gap of the regulator valve is a variable value, depending on the size of the working medium flow, which varies from C (D ° O and the stroke of the pistons n value of valve throttling gap during operation of the regulator to the gas flow. The magnitude of the telescopic pistons move in the safety device is constant, since the hard stop and regu0 liruets.

A gas pressure reducer is also known, in which the sensitive element is made up of several pistons rigidly interconnected, the working cavity of each of which is connected to the output cavity via switch 2.

The disadvantages of this device is the presence of the switch working cavities, which reduces the reliability of the regulator, as it is necessary to seal the corresponding channels in the switch and channels of the working cavities, and much larger dimensions and weight, the complexity of the design by the equation with the proposed device.

The purpose of the invention is to determine the accuracy and reliability of the pressure regulator.

This goal is achieved by the fact that the pressure regulator, comprising a housing with inlet, outlet channels, a throttling valve connected by a rod with a sensitive element made in the form of interconnected telescopic pistons, and a spring set with an adjusting screw, has a mechanism for adjusting the position of telescopic pistons consisting of a threaded bushing and a pusher connected to a piston of larger diameter and installed with the possibility of axial movement, while the piston of larger diameter is made foam and compacted in each stage, with its smaller stage located on the output channel side,

Regulation accuracy increases in low pressure range

. P the same adjustment spring (maximum force developed by the spring), the area of the sensitive element can be increased.

The drawing schematically shows the proposed device.

The device comprises a housing 1 with inlet 2 and outlet 3 channels, a throttling valve 4 with a spring 5, a rod b for transmitting force from the piston 7 to the valve. The sensing element of the regulator consists of telescopic pistons 7-9. With the help of an adjusting screw 10 and a spring 11 of the setting, the regulator adjusts to the required pressure. To set the telescopic pistons to their original operating position, there is a mechanism consisting of a pusher 12 and a threaded sleeve 13 with a locking screw 14, which fits into the corresponding recesses of the cup 15. The rings 16 and 17 seal the steps of the piston 8,

The pressure regulator operates as follows.

Before starting, depending on the required value of the pressure Pry - rotation of the threaded sleeve .13 through the pusher 12 sets the position of the telescopic pistons 8 and 9, So for low pressures there is a fence between the pusher 12 and the piston 8, between the piston 9 and the ledge and the piston 8 is larger, than the throttling gap of the valve for the whole range of flow rates from, to O. In this case, all effective piston areas 7–9 are used. For higher pressures Rrych g when the force from pressure Pp exceeds by% max the effective area of all pistons imalnoe force of the spring 11, without pressure let down the input rotation of the threaded sleeve 13 via pusher 12 b is selected clearance. In this case, the piston 7 is turned off from work and the force from the pressure is transmitted through the threaded sleeve 13 to the cup 15 and then closes on the housing through the bolted connection. In this case, the pistons 7 and 8 operate. The accuracy of the pressure regulation decreases. With a further increase in pressure Pn.rv by rotating the threaded sleeve 13, a gap is selected, the piston 8 is turned off from work when the ledge is set on the end of the piston 9, Only the piston 7 is working, the regulator is adjusted to the required pressure by rotating the adjustable screw 10, Force from the spring 11 the task is transmitted to the sensitive element (piston-piston group), then through the rod 6n reducing valve 4. When pressure is applied to the regulator inlet, gas is throttled between the valve and the seat g and enters the output channel 3, and on the threaded sleeve 13 is as follows. When the piston 8 is moved, the slit sleeve 13 of the small diameter ledge with ring 16 is compacted, and the larger diameter step of ring 17 is unsealed, and the cavity e communicates with the atmosphere, while at this time the force on the threaded sleeve decreases by. .u.f kg, where Рр, is the outlet pressure, Af is the step area of the piston 8,

The accuracy of the proposed adjustment using the areas of pistons 8 and 9 increases by as many times as the area of pistons 8 and 9 is greater than the area of piston 7 with the same force of the adjusting spring 11,

Claims (2)

Invention Formula 1, a pressure regulator comprising a housing with inlet, outlet channels, a throttling valve, a stem connected with a sensing element, made in the form of interconnected telescopic pistons, and a spring set with an adjusting screw, characterized in that accuracy and reliability of the controller; it contains a mechanism 60 adjusting the position of the telescopic pistons, consisting of a threaded sleeve and a pusher, connected to a larger diameter piston and installed with the possibility b5 axial movement. 2. The regulator according to claim 1, characterized in that the larger diameter piston is stepped and compacted in each stage, with its smaller stage located on the side of the output channel. P Sources of information taken into account in the examination 1. USSR author's certificate 355433, cl. F 16 K 17/04, 1971. 2. USSR author's certificate 501235, cl. G 05 D 16/10, 1974 (prototype).