RU96426U1 - LEAKAGE CONTROL UNIT WITH GAS PRESSURE REGULATOR - Google Patents

Abstract

 Installation for tightness control with a gas pressure regulator, comprising a gas pressure switch connected in series, a boost gas pressure regulator in the form of a housing with inlet and outlet channels and a cavity, a valve, a rod with a drive and nuts, a pipeline and a compressed gas source, characterized in that the cavity between the valve and the stem is installed a sealing membrane, the stem is made with a spherical part in contact with one side of the membrane, the valve is spring loaded and made with spherical and conical parts, while its spherical part is in contact with the other side of the mentioned membrane, and the conical part is in contact with the outlet channel of the gas pressure regulator body.

Description

The utility model relates to test equipment, namely, equipment for leak testing and can be used for pneumatic tests with pressure control of the test gas.

The purpose of the utility model is to simplify the design and increase the reliability of operation and service life.

Known oxygen cylinder valve containing a housing with inlet and outlet channels and an internal cavity, a valve with a seal and a groove, a rod with a seal and a protrusion and a nut installed in the said cavity and a flywheel (RF Patent No. 69603, IPC ⁸ F16K 1/00, 2006 published on December 27, 2007) [1].

When working with the valve, the flywheel (actuator) is rotated, the torque is transmitted to the rod, the thread of which interacts with the nut thread and it moves translationally, while its protrusion rotating in the valve groove gives the latter a translational movement to partially overlap the inlet of the outlet channel (gas pressure regulation) or closing the input channel, to open the channel, turn the handwheel in the opposite direction.

The known valve allows you to adjust the pressure or block the gas flow by converting the rotational movement of the flywheel into rotational-translational or reverse motion of the rod and the reciprocating valve movement.

A disadvantage of the known design is the unreliability and fragility of work due to direct contact of the valve seals and the stem with the working test medium - gas.

A known system for checking the tightness of closed volumes (RF Patent No. 2097724, MKI ⁶ G01M 3/02, 1995, publ. 1997.11.27) [2].

The system comprises, connected in series with a boost gas pressure regulator, a boost valve with opening and closing actuators, a gas pressure signaling device, an information display unit, a signal generating unit, a first and second time delay unit, a first, second and third matching circuit, a signal inversion unit, first and second storage units, first and second amplifier units, and electrical communications.

The system operates as follows.

Compressed gas is supplied to the input of the regulator, and a command is launched at the input of the signal conditioning unit, which starts the leak test, by which pulses are generated, then these pulses and signals are processed using electronic blocks and the received data is transmitted to the information display unit.

The system allows you to check for leaks and transmit data at any distance in the form of a binary code, while eliminating the need for the operator to control the process of checking and processing instrument readings.

The disadvantages of the known system, when using it for the claimed purpose, are the design complexity due to the presence of electronic blocks for displaying and generating a signal, time delay, etc.

This goal is achieved by the fact that in the installation for monitoring the tightness, comprising, connected in series with a gas pressure switch, a regulator of boost gas pressure in the form of a housing with inlet and outlet channels and an internal cavity, a valve, a rod with an actuator and nuts, a pipeline and a source of compressed gas, a sealing membrane (sensing element) is installed in the cavity between the valve and the stem, the stem is made with a spherical part in contact with one side of the membrane, the valve is spring-loaded and also made with a spherical th and conical parts, while its spherical part is in contact with the other side of the mentioned membrane, and the conical part is in contact with the outlet channel of the gas pressure regulator body.

The problem to which the utility model is directed is as follows.

In the manufacture of devices, after assembly, adjustment, mechanical and climatic tests, it is necessary to carry out leak tests with an internal excess air pressure of 0.04 - 0.069 MPa (0.5 - 0.7 kgf / cm ² ) with an endurance of 30 - 50 minutes.

A particular device is a composite cylindrical body with various blocks, the sections (modules) of which are connected and sealed with rubber rings, it is these joints and seals that must be checked for leaks.

Due to the design features of the device, the lower end of the housing is open for electrical and hydraulic (liquid cooling system) connections to adjacent devices at the facility, therefore, to ensure pneumatic testing, the device is installed in a sealed tank (pneumatic tank), and the lower flange of the housing is sealed with regular rings, t. e. simulate installation and sealing at the facility.

A pressure gauge (gas pressure signaling device), a boost gas pressure regulator, a pipeline and a compressor or a compressed air line (compressed gas source) are connected in series to the tank inlet.

They pump air into the device and create the necessary pressure, shut off the supply, maintain the set time and release the pressure, while the flow, discharge and shut off the air flow are controlled by the boost gas pressure regulator, and the pressure is monitored by a manometer (gas pressure signaling device).

The device is considered to have passed the test if there was no pressure drop on the manometer for a set time, with an air supply shut off.

Figure 1 shows a functional diagram, figure 2 - gas pressure regulator 2, enlarged, a dashed line shows the test product.

The installation comprises, in series, a gas pressure switch 1, a boost gas pressure regulator 2 in the form of a housing 3 with an inlet channel 4, an outlet channel 5 and a cavity 6, a valve 7, a rod 8 with an actuator 9 and a nut 10, a pipe 11 and a source of compressed gas 12 moreover, a sealing membrane 13 is installed in the cavity 6 between the valve 7 and the stem 8, the stem 8 is made with a spherical part 14 in contact with one side of the membrane 13, the valve 7 is spring-loaded and also made with a spherical part 15 in contact with the other side of the membrane 13, and conic Coy part 16 contacting with the outlet channel 5 of the housing 3, the gas pressure regulator 2.

To conduct a leak test with internal air pressure, the installation is assembled in accordance with the functional diagram i.e. connect to the test product (not shown in the diagram and drawing) gas pressure switch 1 (pressure gauge), boost gas pressure regulator 2, pipe 11 and compressed gas source 12 (compressor or compressed air line). They inject gas into the product, create the necessary pressure and shut off the supply of the boost gas pressure regulator 2, maintain the set time and release the pressure, while the pressure is monitored by the gas pressure switch 1.

To create the necessary pressure and shut off the gas supply, the following is done:

- using the actuator 9, rotate the rod 8, while the thread of the latter interacts with the thread of the fixed nut 10 and the rod 8 moves translationally downward, the spherical part 14 of the rod 8 acts on the spherical part 15 of the valve 7 through the membrane 13, sealing parts of the cavity 6 between the valve 7 and stock 8;

- under the influence of the rod 8 and the membrane 13, the valve 7, overcoming the resistance of the spring (not indicated in the drawing), moves progressively downward and partially overlaps the outlet opening (not indicated in the drawing) of the inlet channel 4 with its cylindrical part (not shown in the drawing), thereby the gas pressure itself or closes it completely, and also with its conical part 16 closes the outlet channel 5 of the housing 3 of the controller 2 and blocks the gas flow.

To relieve gas pressure, the following is done:

- using the actuator 9, rotate the rod 8 in the other direction, while the thread of the latter interacts with the thread of the fixed nut 10 and the rod moves back up and removes the effect from the membrane 13;

- under the action of the spring, the valve 7 returns to its original (upper) position and its conical part 16 opens the output channel 5, and the cylindrical part - the input channel 4 of the housing 3 of the controller 2.

The product is considered to have passed the test if there was no pressure drop on the gas pressure switch 1 (manometer) at the set time, with the gas supply shut off.

The purpose of the utility model is to simplify the design and increase the reliability of operation and service life.

The technical result in the implementation of the utility model is to simplify the design compared to [2] and to increase the reliability of operation and service life by eliminating the contact of standard seals with the working test medium - gas compared to [1].

Claims (1)

Installation for tightness control with a gas pressure regulator, comprising a gas pressure switch connected in series, a boost gas pressure regulator in the form of a housing with inlet and outlet channels and a cavity, a valve, a rod with a drive and nuts, a pipeline and a source of compressed gas, characterized in that the cavity between the valve and the stem is installed a sealing membrane, the rod is made with a spherical part in contact with one side of the membrane, the valve is spring loaded and made with spherical and conical parts, while its spherical part is in contact with the other side of the mentioned membrane, and the conical part is in contact with the outlet channel of the gas pressure regulator body.