RU123948U1 - LARGE VESSEL VESSEL TEST DEVICE - Google Patents

Abstract

1. A device for monitoring the tightness of large-volume vessels, which is a compact assembly located inside the closed volume of the vessel under test and containing a reference pressure chamber with two solenoid valves connected hermetically in series with gas-inlet adapters, a differential pressure sensor installed in the thermal resistance reference chamber , as well as the device control harnesses and control of their readings through the passage elements of the tested vessel to the control register iruyuschuyu apparatus disposed outside the vessel, characterized in that the safety valve construction introduced sealingly connected to the reference pipe kameroy.2. The device according to claim 1, characterized in that the safety valve has a range of regulation of the limiting pressure.

Description

The utility model relates to the field of testing equipment and can be used to test the tightness of large vessels using a reference chamber.

As an analogue, we consider the technical solution "Method for leak testing" (see patent RU No. 2290617, G01M 3/00, publ. 12/27/2006, Bull. No. 36).

The invention relates to the field of testing equipment and is aimed at providing an inexpensive method for testing the tightness of closed vessels, provided that one of the filling products is a liquid component that provides a short test cycle and high measurement accuracy.

This result is ensured by the fact that the test vessel is installed in the test chamber, which is pumped out at least to the vapor pressure of this liquid component. Control the pressure in the surrounding space and thus in the test chamber.

The control is carried out by a vacuum pressure sensor, while the decrease in pressure surrounding the vessel of space is carried out by a vacuum pump.

A leak is detected by monitoring the change in pressure in the surrounding space, which occurs due to the evaporation of the fluid leaving the leak and evaporating in the surrounding space with lower pressure.

The disadvantage of the analogue is the need to fill the internal volume of the test vessel with a liquid component.

As a prototype, the invention "Method for testing the tightness of large vessels and a device for its implementation (see patent RU No. 2409806, G01M 3/00, publ. 01.20.2011, Bull. No. 2) was selected. The invention relates to the field of testing equipment and It is aimed at providing the possibility of testing large volume vessels for leaks with an air leakage control level of ≤1 × 10 ^-4 cm ³ / s at a pressure drop of 1 kgf / cm ^2. This technical result is ensured by the fact that a compact device is installed in the tested vessel implement method, containing a reference pressure chamber connected to it hermetically sequentially with the help of gas-adapter adapters of two solenoid valves, a differential pressure sensor installed in the reference thermistor chamber, as well as control device harnesses and control of their readings through pressure gates to the monitoring and recording equipment located outside the vessel.

A disadvantage of the device is the existing danger of destruction of the reference chamber and, at the same time, causing damage to the internal surfaces and elements of the vessel in the presence of a significant leak in the inspected vessel or non-functioning (non-opening) of the electrovalves when the test pressure is released upon completion of the inspection of the vessel.

The technical task is to eliminate the possibility of destruction of the reference chamber and ensure the safety of work.

The problem is solved in that in a device for monitoring the tightness of large-volume vessels, which is a compact unit located inside the closed volume of the vessel under test, and containing a reference pressure chamber with two solenoid valves connected to it tightly in series with gas and water inlets, a differential pressure sensor installed into the thermal resistance reference chamber, as well as the device control harnesses and control of their readings through the checkpoints of the tested state yes to control the recording apparatus located outside the vessel, the safety valve introduced. The safety valve has a pressure limit control range.

The introduction of a safety valve in the design of the reference chamber of the device ensures the safety of work.

Figure 1 shows the design of a device for monitoring the tightness of large vessels, which is located in the test vessel, and consists of a reference pressure chamber 1, connected to it hermetically through the adapter-gas inlets 2, 3, 4, in series of two solenoid valves 5, 6 , differential pressure sensor 7 installed in the reference chamber of the thermistors 8, the safety valve 9, hermetically connected by a pipe 10 with the reference chamber 1, as well as connecting harnesses 11. The device is compactly mounted about on plate 12, the reference camera 1 is fastened to the studs 13, and the differential pressure sensor on the studs 14 screwed into the plate.

The inspection procedure is as follows: compressed air is supplied to the test vessel until the steady-state test pressure is obtained, with the electric valves 5, 6 of the reference chamber 1 open. After the air supply is stopped and the steady-state test pressure in the reference chamber 1 and the controlled vessel are equal, the electric valves 5, 6 are closed. During the time set for the test and after it, the change in pressure drop is recorded according to the readings of the differential pressure sensor 7. Based on these readings, leaks are calculated and conclusions are made about the tightness of the vessel under test, while the safety valve constantly maintains a fixed and safe differential pressure in the test vessel and reference chamber.

A device with a safety valve has been tested on a prototype of the tightness control complex, while its functionality has been confirmed, the ability to control the maximum pressure drop within a given range and obtain the specified tightness control parameters in real-world applications.

Claims (2)

1. A device for monitoring the tightness of large-volume vessels, which is a compact assembly located inside the closed volume of the vessel under test and containing a reference pressure chamber with two solenoid valves connected hermetically in series with gas-inlet adapters, a differential pressure sensor installed in the thermal resistance reference chamber , as well as the device control harnesses and control of their readings through the passage elements of the tested vessel to the control register iruyuschuyu apparatus disposed outside the vessel, characterized in that the safety valve construction introduced sealingly connected to a conduit with a reference camera. 2. The device according to claim 1, characterized in that the safety valve has a range of regulation of the limiting pressure.

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