RU2782075C1 - Unit for detecting process liquid leaks - Google Patents

Abstract

FIELD: measuring equipment.

SUBSTANCE: invention relates to monitoring and measuring equipment and can be used for routine monitoring of seal tightness of process equipment with dielectric or aggressive liquids. Unit for detecting process liquid leaks comprises a tray and a relay, a light source at the bottom in the centre of the tray and on top of the cup made with a base above the level of the tray bottom. Unit also comprises a vertically mounted bracket whereon a photovoltaic cell is mounted; the signal output of the photovoltaic cell is connected to the relay, connected to the output whereof are the acoustic and light alarm elements located in the alarm block. The signal output of the photovoltaic cell installed above the light source mounted on top of the cup is connected to the pump control unit.

EFFECT: prevented process liquid spillage.

5 cl, 3 dwg

Description

The invention relates to instrumentation and can be used for monitoring the tightness of process equipment with dielectric or aggressive liquids. [F17D 5/02, F17D 5/06]

A DEVICE FOR DETECTING A LEAK IN A PIPELINE [USSR author's certificate No. 806987] is known from the prior art, containing an insulated conductor laid along the pipeline and connected to one of the clamps of the leak location recorder, while the conductor is wound on the pipeline in a spiral and placed between layers of paper waterproofing topped with bitumen.

The disadvantage of the analog is that this device does not provide leakage detection of dielectric liquids, while the operation of the device requires special waterproofing of the entire pipeline and laying an expensive high-resistance conductor in the thickness of the waterproofing, which increases both the cost of the device and the complexity of installing the device as a whole.

The closest in technical essence is a DEVICE FOR DETECTING A LEAK IN A UNINSULATED PIPELINE WITH ELECTRICLY CONDUCTIVE RADIOACTIVE LIQUID [USSR author's certificate No. and lining of the tray at the beginning of the pipeline are connected to the leak location register with an alarm relay according to the scheme of a single-arm measuring bridge.

The disadvantage of the prototype is that it does not provide leakage detection of dielectric liquids, while this solution has a low efficiency of detecting the fact of leakage, which is due to the fact that detection occurs after reaching the liquid level in the tray of the location of the measuring conductor, in addition, when filling the tray, it is possible spillage of leaked liquid.

The objective of the invention is to eliminate the disadvantages of the prototype.

The technical result of the invention is to prevent spillage of process fluid.

The specified technical result of the invention is achieved due to the fact that the installation for detecting leaks of technological liquids, containing a tray and a relay, characterized in that it contains light sources at the bottom in the center of the tray and on top of the glass, the base of which is made above the bottom of the tray, a vertically mounted bracket on which photovoltaic cells are mounted, the signal output of the photovoltaic cell installed above the light source at the bottom of the tray is connected to the relay, to the output of which the sound and light signaling elements located in the alarm unit are connected, and the signal output of the photovoltaic cell installed above the light source mounted on top of the glass is connected to the control unit pump, while the inlet pipe of the pump is located in the accumulation tray, and the outlet pipe communicates with a container for collecting liquid.

In particular, the bottom of the tray is made at an inclination towards the center with the possibility of collecting process fluid in the center of the tray.

In particular, the bracket is mounted on one of the side walls.

In particular, the photovoltaic cell is on the same optical axis as the light source.

Brief description of the drawings

In FIG. 1 shows a general view of the installation for detecting leaks of process fluids without a protective cap.

In FIG. 2 shows a side view of the installation for detecting leaks of process fluids in section without a pump and a storage tank.

In FIG. 3 is a block diagram of the connection of the electrical components of the apparatus for detecting process fluid leaks.

The figures indicate: 1 - tray, 2 - light sources, 3 - housing, 4 - lenses, 5 - covers, 6 - nuts, 7 - sealing washers, 8 - glass, 9 - bracket, 10 - photovoltaic cells, 11.– alarm unit, 12 - relay, 13 - sound alarm, 14 - light alarm, 15. - protective cap, 16 - pump, 17 - inlet pipe, 18 - outlet pipe, 19 - storage tank.

Implementation of the invention.

Installation for detecting leaks of process fluids contains from the tray 1 (see Fig.1, 2), the bottom of which is made at an angle to the center of the tray 1 with the possibility of collecting process fluid in the center of the tray 1.

At the bottom of the tray 1 there is a hole for the light block, which contains a cylindrical body 3, in the upper part of which a flange is made, while a sealing washer 7 is located between the flange and the bottom of the tray. The body 3 is fixed in the hole in the bottom of the tray 1 with a nut 6, while The outer surface of the body 3 is threaded, corresponding to the thread of the hook 6. A cover 5 is installed at the bottom of the body 3, on which the light source 2 is located. From above, the body 3 is closed by a lens 4.

At the bottom of the tray 1, a glass 8 is also made, in which the base is located in the upper part above the bottom of the tray 1. A hole is made in the base of the glass 8, in which a second light block is located, similar to the light block described above.

A bracket 9 is vertically mounted on the side wall of the tray 1. Photovoltaic cells 10 are mounted on the bracket 9, while one of the mentioned elements 10 is on the same optical axis with the light source 2 mounted on the bottom of the tray 1, and the other element 10 is on the same optical axis with light source 2 mounted on the base of the glass 8.

An alarm unit 11 is mounted on one of the side walls of the tray. The output of the photovoltaic cell mounted above the light source 2 installed at the bottom of the tray 1 is connected through a relay 12 (see Fig. 3) to the sound 13 and light 14 alarm elements mounted in the alarm unit 11. From above photovoltaic cells 10, a protective cap 15 is installed to prevent the process liquid from getting on the photovoltaic cells 10 from above and from the side, as well as to reduce the influence of external lighting on the operation of photovoltaic cells 10. A pump is connected to the signal output of the photovoltaic cell 10 installed above the light source 2 mounted on top of the cup 8 16, the inlet 17 of which is located in the tray 1, and the outlet 18 communicates with the storage tank 19.

Installation for detecting leaks of process fluids is used as follows.

Tray 1 with a bracket 8 mounted on it with a photovoltaic cell 9 and an alarm unit 10 is installed under the process equipment - circulation pumps, filters, fittings, storage tanks.

The signaling unit 11 is turned on and the light flux from the light sources 2 is directed to the photovoltaic cells 10. In this case, voltage is continuously supplied to the light sources 2. The photovoltaic cells 10 capture light from the light sources 2 transmit an analog electrical signal to the relay 12, which breaks the electrical circuit of the sound 13 and light 14 alarm, as well as in the control unit (not shown in the figures) pump 16.

In case of leaks from units or elements of technological equipment, the dielectric liquid will drip into tray 1, while the liquid flows down to the center of tray 1 and covers the light source 2 installed at the bottom of tray 1. A change in the intensity of the light flux is fixed by a photovoltaic cell 10 installed above the above-mentioned light source2, in the event of a change in the output signal of the photovoltaic cell 10 set in the relay 12 threshold, the relay 12 is activated and actuates the sound signal element 13 and the light signal element 14.

When the liquid level reaches above the light source 2 installed on top of the glass 8, the photovoltaic cell 10, installed above this light source 2, detects the change in the light flux and transmits a signal to the pump control unit 16, which turns on and pumps the liquid out of the tray 1 through the inlet 17 and outlet 18 nozzles into the storage tank 19, when the liquid level drops below the light source 2 installed on the glass 8, the photovoltaic cell captures the light flux and transmits a signal to the pump control unit 16 to turn it off; pump 16 is switched off.

Thus, the installation for detecting leaks of process fluids allows the detection of all known process fluids, including dielectric and aggressive ones.

The technical result of the invention - providing the possibility of detecting leaks of dielectric liquids, is achieved due to the fact that the installation for detecting leaks of technological liquids contains a tray 1, a light source 2 at the bottom in the center of the tray 1, a vertically mounted bracket 9 on which a photovoltaic cell 10 is mounted, which is located on the same optical axis with light source 2 installed at the bottom of tray 1.

The technical result of the invention - increasing the efficiency of leak detection, is achieved due to the fact that the bottom of the tray 1 is made at an angle to the center of the tray 1 with the possibility of collecting process fluid in the center of the tray 1, as well as the signal output of the photovoltaic cell 10 is connected to the relay 12, to the output which the elements of sound 13 and light signaling 14 are connected, while the installation provides the ability to set the value of the threshold voltage of the relay 12, which can respond to technological fluids of different transparency.

The technical result of the invention - prevention of spillage of the leaked liquid is achieved due to the fact that the pump control unit 16 is connected to the signal output of the photovoltaic cell 10 installed above the light source 2 mounted on top of the glass 8, while the inlet pipe 17 of the pump 16 is located in the storage tray 1, and the output branch pipe 18 communicates with storage tank 19.

Claims (5)

1. An installation for detecting leaks of technological liquids, containing a tray and a relay, characterized in that it contains light sources at the bottom in the center of the tray and on top of the glass, the base of which is made above the bottom of the tray, a vertically mounted bracket on which photovoltaic cells are mounted, a signal output of the photovoltaic cell installed above the light source at the bottom of the tray is connected to the relay, to the output of which the sound and light signaling elements located in the alarm unit are connected, and the signal output of the photovoltaic cell installed above the light source mounted on top of the cup is connected to the pump control unit , while the inlet pipe of the pump is located in the accumulation tray, and the outlet pipe communicates with the container for collecting liquid. 2. Installation according to claim 1, characterized in that the bottom of the tray is made at an inclination towards the center with the possibility of collecting process fluid in the center of the tray. 3. Installation according to claim 1, characterized in that the light source is configured to focus the light flux on the photovoltaic cell. 4. Installation according to claim 1, characterized in that the bracket is mounted on one of the side walls. 5. Installation according to claim 1, characterized in that the photovoltaic cell is on the same optical axis as the light source.

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