RU76125U1 - RESERVOIR TEST DEVICE - Google Patents

Abstract

The invention relates to a device for monitoring the tightness of tanks, tanks and other containers designed to store liquids or gases under pressure, allows leak detection with high accuracy and can be applied in various industries. The technical result consists in increasing the accuracy of monitoring the tightness of tanks with two walls by using an insert element in the form of an open accordion, as well as simplifying the tightness control by narrowing the search range of the location of the leak source on the unit of the controlled surface of the walls of the tank, as well as eliminating the loss of product filling the tank , in the event of a leak, by localizing the product flow from the gap formed in a certain segment, as well as the possibility of regulating pressure in it using a compressor with valves, which dramatically reduces the risk of environmental pollution. The achievement of this result is ensured due to the fact that the device for monitoring the tightness of the tank contains a pressure-sensitive element that is installed with the possibility of interaction with the controlled tank. The pressure-sensitive element is located in the space between the inner and outer walls of the tank body and is made in the form of a deployed accordion, which divides the space into segmented volumes sealed from each other. Segment volumes through one contact with the inner or outer walls of the tank. Each segment volume is equipped with a pressure sensor. Some segment volume pressure sensors monitor the tightness of the inner wall, while others control the tightness of the outer wall through one. All pressure sensors are connected in parallel to the transmitter, which in turn is connected in series with the storage device, and through it with the controller. The controller analyzes the signals of the pressure sensors and, accordingly, the data on the presence of a leak in the individual segment volumes of the tank, while giving a signal to a compressor connected in parallel to it, provided with feedback with valves installed in each segment volume and serving to control the pressure in a single segment volume tank in violation of its tightness.

Description

The invention relates to a device for monitoring the tightness of tanks, tanks and other containers designed to store liquids or gases under pressure, allows leak detection with high accuracy and can be applied in various industries.

It is known “Device for monitoring the tightness of a container” operating under overpressure, comprising a differential pressure sensor with a pipe connected to one of its cavities, and an additional container connected to its other cavity, while the additional container is made with an opening in the wall, the cross-sectional area which is less than the cross-sectional area of the hole of the sensor pipe. RF patent for the invention No. 1822607, G01M 3/26, D. publ. 02/20/1996

Closest to the proposed technical object of the invention is a "Device for monitoring the tightness of containers", containing a pressure or suction source, installed with the possibility of interaction with a controlled capacity, at least one pressure sensor that generates an electrical output signal, and connected in series to the output of the sensor pressure, the storage unit and the comparator, while the output of the pressure sensor is connected both with the input of the storage device and with one input of the comparator, and the The swarm input of the comparator is connected to the output of the storage unit.

RF patent for the invention No. 2123674, MKI: G01M 3/00, D. publ. 12/20/1998

The technical result consists in increasing the accuracy of monitoring the tightness of tanks with two walls by using an insert element in the form of an open accordion, as well as simplifying the tightness control by narrowing the search range of the location of the leak source on the unit of the controlled surface of the walls of the tank, as well as eliminating the loss of product filling the tank , in the event of a leak, by localizing the product flow from the gap formed in a certain segment, as well as the possibility of regulating pressure in it using a compressor with valves, which dramatically reduces the risk of environmental pollution.

The achievement of this result is ensured due to the fact that the device for monitoring the tightness of the tank contains a pressure-sensitive element that is installed with the possibility of interaction with the controlled tank. The pressure-sensitive element is located in the space between the inner and outer walls of the tank body and is made in the form of a deployed accordion, which divides the space into segmented volumes sealed from each other. Segment volumes through one contact with the inner or outer walls of the tank. Each segment volume is equipped with a pressure sensor. Some segment volume pressure sensors monitor the tightness of the inner wall, while others control the tightness of the outer wall through one. All pressure sensors are connected in parallel to the transmitter, which in turn is connected in series with the storage device, and through it with the controller. The controller analyzes the signals of the pressure sensors and, accordingly, the data on the presence of a leak in the individual segment volumes of the tank, and at the same time it gives a signal to a compressor connected in parallel to it and equipped with feedback with valves installed in each

segment volume and serving to regulate the pressure in a single segment volume of the tank in case of violation of its tightness.

Schemes of the claimed utility model are depicted in figures 1, 2 and 3.

Figure 1 - device for monitoring the tightness of the tank is a General view.

Figure 2 - device for monitoring the tightness of the tank is a side view in section.

Figure 3 - connection diagram of measuring and recording devices in the device for monitoring the tightness of the tank.

The device for monitoring the tightness of the tank according to figure 1, 2 and 3 contains a pressure-sensitive element 1 located in the space between the inner 2 and outer 3 walls of the tank body and made in the form of a deployed accordion, which divides the space into sealed volumes sealed from each other 4, in contact with the inner wall of the tank; and 5, in contact with the outer wall of the tank. Each segment volume is equipped with a pressure sensor. The pressure sensors of the segment volumes that control the tightness of the inner wall of the tank 6, and the pressure sensors of the segment volumes that control the tightness of the outer wall 7 are connected in parallel to the transducer 8, which converts the signals from the pressure sensors into electrical or electronic signals, depending on the need. The transducer 8 is connected in series with the storage device 9, and through it with the controller 10. The controller 10 analyzes the signals of the pressure sensors 6 and 7 and, accordingly, the data on the presence of a leak in the individual segment volumes 4 and 5 of the tank, and generates a signal in parallel with the compressor connected to it 11, provided with feedback with valves 12 and 13 installed in each segment volume and used to control the value

pressure in a single segmented volume of the tank in violation of its tightness.

The device operates as follows: if the tightness of the inner wall 2 or the outer wall 3 of the tank is violated, the pressure in a particular segment 4 or 5 changes, data about this from the pressure sensors 6 or 7 is transmitted to the converter 8, then to the storage device 9 and controller 10. For temporary blocking the leak, the controller 10 gives a signal parallel to the compressor 11 connected to it, provided with feedback with valves 12 and 13 installed in each segment volume. In case of violation of the walls between the segments, the incoming information from adjacent segments is analyzed.

The device for monitoring the tightness of the tank, proposed as a useful model, helps to simplify the tightness control by narrowing the search range of the location of the leak source on the unit of the surface of the walls of the tank and to eliminate the loss of the product filling the tank in the event of a leak, respectively, eliminating the risk of environmental pollution .

Claims (1)

A device for monitoring the tightness of the tank, containing a pressure-sensitive element installed with the possibility of interaction with the controlled tank, pressure sensors connected to the controller with a storage device, characterized in that the pressure-sensitive element is located in the space between the inner and outer walls of the tank body in the form of a deployed accordion, which divides the space into hermetically isolated from each other segmented volumes in contact through with internal or external walls of the tank, each segment volume being equipped with a pressure sensor, moreover, some pressure sensors of segment volumes control the tightness of the inner wall, while others control the tightness of the outer wall through one, and all pressure sensors are connected in parallel to the transmitter, in turn, in series connected to the storage device, and through it to the controller, which analyzes the signals of the pressure sensors and, accordingly, data on the presence of a violation sealing separate segmental volume of the reservoir, wherein the signal outputs parallel connected thereto a compressor provided with feedback from the valve, also defined in each screen segment and serving to regulate the pressure value in a particular segment of the tank volume in violation of its tightness.