RU207832U1 - A device for diagnosing the tightness of a shut-off pipeline valve - Google Patents

Abstract

The utility model refers to pipeline valves and is designed to determine the state of valves, in particular, the tightness of the valve at a given time without dismantling it from the pipeline. The task of the utility model is to increase the level of operational characteristics of the device for diagnosing the tightness of the valve of isolation valves. The problem is solved for due to the fact that in a device for diagnosing the tightness of a shut-off valve valve containing an injection channel for a test substance, the discharge channel is connected to the valve fitting through a bypass valve controlled by means of a corresponding shut-off valve, the outlet of which is connected to the cavity of the valve being diagnosed, and the input is divided into two channels, one of which is connected to the union of the sample substance overpressure source, and the other is connected to the union of the test substance discharge.

Description

The utility model refers to pipeline valves and is designed to determine the state of valves, in particular, the tightness of the valve at a given time without dismantling it from the pipeline.

A known method for diagnosing the tightness of a gate valve (wedge valve) and a device for its implementation (patent RU 2518798, F16K 37/00, publ. 10.06.2014). The device is equipped with a sample rigidly connected to a plug protruding either above the seats in the valve body passage, or above the internal surface of the pipeline, facing a flat controlled surface towards the flow of the medium flowing through the passage in the valve body during the period of its diagnosis. The invention is aimed at accelerating the process of diagnosing the valve by adapting it to diagnostic control without dismantling it from the pipeline. The disadvantage of the device is that for diagnostics, it is necessary to dismantle the sample, which requires preliminary release of excess pressure from the internal cavity of the valve. In this case, the discharge of the working medium to equalize the pressures occurs uncontrollably.

The closest analogue among the known solutions is a device for diagnosing the tightness of the shut-off valve valve (patent RU 2478860, F16K 37/00, publ. 04/10/2013), which includes a source of excess pressure of the test substance (compressor), a pressure sensor, an interface and communications unit , an individual control and registration unit, an injection channel, shut-off valves for controlling the flow of a test substance.

The disadvantage of the known designs is the low level of operational characteristics arising from the need to relieve excess pressure from the internal cavity of the valve before attaching the discharge channel to it, to which the diagnostic equipment is connected. In this case, the release of pressure from the internal cavity of the valve occurs into the environment, which, in the case of using substances with a high level of danger as a working medium, is unacceptable.

The task of the utility model is to increase the level of operational characteristics of a device for diagnosing the tightness of a shut-off pipeline valve.

The problem is solved due to the fact that in a device for diagnosing the tightness of a shut-off valve valve containing an injection channel for a test substance, the discharge channel is connected to the valve fitting through a bypass valve controlled by means of a corresponding shut-off valve, the outlet of which is connected to the cavity of the valve being diagnosed, and an inlet divided into two channels, one of which is connected to the sample material overpressure source connection, and the other to the sample substance discharge connection.

The essence of the described utility model is illustrated by the following drawings.

FIG. 1 - sectional view of the controlled bypass valve at the point of attachment to the valve body.

A device for diagnosing the tightness of a gate valve of shut-off pipeline valves contains a piston 1 installed in the hole of the gate valve 2, attached to the valve body (not shown), and fixed in the axial direction on one side using a flared sleeve 3 and a package of spring washers 4, and on the other side by the thrust surface of the gate valve choke 2. The valve stem 5, mated by means of a screw surface with the valve body 6, and with the flywheel 7 mounted on it. Seals 8, sealing the internal cavity of the valve. The connection of the overpressure source 9, the connection for the discharge of the test substance 10 and the connection of the valve 2, mated with the union nut 11 to form a detachable connection, are connected to the valve body 6.

The device for diagnosing the tightness of the shut-off pipeline valve works as follows.

Before the start of operation of the valve (not shown) in the threaded hole of its body, communicating with its internal cavity, a valve fitting 2 is installed with a piston 1, a flared sleeve 3 and a package of spring washers located in its central hole. of washers 4 are selected from the condition of ensuring the tightness of the internal cavity of the valve (not shown) in the conjugation of the piston 1 - the fitting of the valve 2 when the valve is operated in the nominal operating mode. If it is necessary to carry out diagnostic measures, the valve body 6 is attached to the valve nozzle 2 with the help of the union nut 11. of the valve body 6 to the fitting of the valve 2, the fittings of the overpressure source 9 and the discharge of the test substance 10 with the discharge channel (not shown) are connected through the corresponding shut-off valves (not shown). To relieve excess pressure from the internal cavity of the valve using the flywheel 7, the valve stem 5 makes a translational movement relative to the valve body 6 and, overcoming the compression force of the package of spring washers 4 and the force caused by the effect of excess pressure on the piston 1, moves the piston 1 in the axial direction, thus most depressurizing the internal cavity of the valve. The working medium through the formed gap in the pair of piston 1 - valve nozzle 2 enters the inner cavity of the valve body 6 and further into the discharge channel. The further algorithm of actions to diagnose the valve does not differ from the known solution.

Claims (1)

A device for diagnosing the tightness of a shut-off valve valve, containing a discharge channel for a test substance, characterized in that the discharge channel is connected to the valve fitting through a bypass valve controlled by means of a corresponding shut-off valve, the outlet of which is connected to the cavity of the valve being diagnosed, and the inlet is divided into two channels , one of which is connected to the union of the sample substance overpressure source, and the other is connected to the test substance discharge fitting.

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