SU913342A1 - Pressure regulator - Google Patents

Description

The invention relates to pneumatic and can be used in gas supply systems, which are subject to increased requirements in terms of the purity of the working environment and the accuracy of pressure maintenance at the outlet of the system during long-term operation with gas flow.

During long-term operation, pressure regulators with a gas flow that has been pre-cleaned in compressor units emit a condensate (liquid phase) of oil during throttling.

A gas pressure reducer is known in which a throttling device is mounted on a housing in a chamber,

associated with the submembrane cavity, the housing also has a cavity, inside of which there is a needle valve with a gap that provides for the formation of a diffusion barrier, and a drainage channel is closed at the bottom of the lid, blocked by valve [β].

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The specified gearbox allows you to clean the gas entering the outlet. However, it is characterized by insufficient quality cleaning of the working environment and its parasitic flow through the nozzle, which is unacceptable in some cases.

Also known pressure regulator, comprising a housing with inlet, outlet, feedback channels and a throttling body located in it, the valve of which is kinematically connected with a sensitive element and located in the internal volume of the inlet filter [23.

The disadvantage of this gearbox is that the input filter of the gearbox does not prevent the condensation of oil from falling out during throttling and contamination of the main lines downstream of the gearbox.

The closest technical

The essence of this invention is a pressure regulator containing

housing with, the input cavity and the output cavity associated with the output

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a channel and a feedback channel, a regulating body connected by a rod with a sensitive element and a reference spring, and a filter element mounted directly at the output of the regulator B].

A disadvantage of the known regulator is a decrease in the accuracy of pressure maintenance as a result of an increase in the hydraulic resistance of the filter 10 as its filtering surface is contaminated, as well as a significantly lower value of the permissible hydraulic resistance on the filter, which causes a lower operating life with gas flow.

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

This goal is achieved by the fact that in a pressure regulator, comprising a housing with an input cavity and an output cavity associated with the output channel and feedback channel, a regulating body connected with a rod with a sensing element and a reference spring, and a filter element, the latter is installed between the output cavity and -channels - output and feedback. θ

With this installation of the filter _element , its hydraulic resistance does not affect the accuracy of pressure _maintenance , since the feedback channel is connected directly to the output channel, and as the filter becomes clogged, the pressure in front of it automatically increases, and the gas flow through the regulator remains unchanged.

The drawing shows schematically the proposed pressure regulator.

The pressure regulator consists of a housing 1 with input 2 and output 3 cavities, with input 4, output 5 channels and feedback channel 6, a regulator consisting of a seat 7 and a valve 8 with spring 9, stem 10, sensing element 11, a reference spring 12, the adjusting screw 13, the filtering element 14, the plug 15. The pressure regulator operates as follows.

The gas from the power source gets 55 to the inlet channel 4. When the spring of the task 12 is unloaded, the valve 8 is spring-loaded by the spring 9 to the saddle 7, while the input

'913342

4 channel 4 and the output channel 5 are hermetically separated. When the spring of reference 12 is loaded with the adjusting screw 13, the spring force through the sensing element 5, the rod 10 is transferred to the valve 8. The valve 8 is pressed out of the seat 7, and the gas through the formed annular gap flows through the filter element 14 into the output channel 5.

From the output channel 5, through the feedback channel 6, the gas flows under the sensing element 11. When equilibrium arises from pressure and springs acting on the valve and the sensitive element, a certain pressure is established at the regulator output. With an increase in gas extraction from the regulator, a pressure drop occurs in the output channel 5, and as a result, 20 valve 8 is depressed from the seat 7. The gas flow through the seat increases, and the outlet pressure rises to the original! pressure setting.

As the filter element becomes contaminated, the gas flow through it decreases, the pressure in the outlet channel 5 drops, and therefore it drops under the sensitive element 11. The valve 8 is pressed out of the seat 7, and 30 the pressure ahead of the filter element 14 increases and, consequently, increases gas flow through the filter element 14 to the original.

The pressure at the outlet ₃₅ regularization torus increases to the set pressure.

Thus, in spite of the fact that the hydraulic resistance of the filter element increases as it becomes contaminated, the gas flow rate through the filter element 14 does not decrease and the pressure at the outlet of the regulator does not change.

The use of the proposed invention allows not only to maintain the pressure at the regulator's output with high accuracy with increased hydraulic resistance of the filter element 14, but also to increase the _5θ regulator resource by several times due to a certain decrease in the pressure range at the regulator input ^p rx ^ 1 and ^p R ^and constant accuracy maintain ['eshh.

Claims (1)

Claim Pressure regulator containing housing with input cavity and output 5 91 a cavity connected to the output channel and a feedback channel, a regulating body connected by a rod with a sensitive element and a reference spring, and a filtering element, characterized in that, in order to improve the accuracy and reliability of the regulator, in it a filtering element is installed between the output cavity and Channels - Weekend and Feedback. ^{42 6}