RU67252U1 - ODORIZING INSTALLATION - Google Patents

Abstract

The utility model relates to the field of the gas industry. The odorizing installation comprises a control unit; containers for odorant: consumable, metering, backup, and consumable capacity made in the form of parallel rows of eight cylinders paired; sensors-signaling devices of the lower and upper level of the odorant; site for visual monitoring of odorant dosage; capacity refueling unit; automatic gas odorization system; shutoff valves; connection elements of the above nodes and parts, a gas supply system to the metering device, a heater. The duration of trouble-free operation of the installation was increased while maintaining a high accuracy of the dose of the introduced odorant. 1 s.p. f-ly and 2 n.p. f-ly, 4 ill., 1 ave.

Description

The utility model relates to the field of the gas industry and can be used for dosed supply of odorant to the gas stream transported through the gas pipeline.

Known odorizers and odorant supply devices to the gas stream [patents for utility models RU No. 46093, No. 46092, No. 22708, patents for inventions RU No. 2176782, No. 2125713, patent SU for invention No. 219067].

A device for odorization is also known [patent for invention RU No. 2183134]. It contains a container for storing liquid odorant, which is mainly used as a mixture of natural mercaptans, including mercaptan sulfur as an aromatic substance, a flow meter installed on the gas pipeline, and an odorant dispenser through which the tank for storing liquid odorant is connected to the gas pipeline. The differences between the device are that it contains a unit for measuring the concentration of aromatic substances in the odorant and a unit for calculating the flow of odorant, while the first input of the unit for calculating the flow of odorant is connected to the output of the flowmeter, the second input of the unit for calculating the flow of odorant is connected to the output of the unit for measuring the concentration of aromatic substance in odorant, and the output is connected to the control input of the dispenser. In addition, the device comprises a unit for measuring the concentration of aromatic substances in non-odorized gas, connected to the input of the odorant consumption calculation unit. The odorant density measuring unit is connected to the fourth input of the odorant flow calculating unit.

The closest analogue of the claimed utility model is a device for automatically supplying an odorant to a gas stream [patent for utility model RU No. 53770], which consists of an odorant storage tank, a dosing device, controlled valves for supplying an odorant to a gas pipeline, an odorant supply control device and a flow meter gas. The differences between the device is that it has an odorant flow metering and metering unit included in the pipeline between

the storage capacity of the odorant and the metering device, while the device for automatically supplying the odorant to the gas stream is equipped with a sound detector connected to the control unit.

This solution set the task of increasing the accuracy of dosing the supplied odorant to the gas stream and increasing the accuracy of accounting for the flow of the odorant and its measurement directly in units of mass.

The objective of the claimed utility model is to increase the duration of trouble-free operation of the installation while maintaining high accuracy of the dose of the odorant introduced.

The inventive utility model is characterized in that the odorizing installation has a control unit; successively arranged containers for odorant: consumable, metering, backup, made in the form of elongated cylindrical bodies, and the consumable capacity is made in the form of parallel rows of eight cylinders connected in pairs; sensors-signaling devices of the lower and upper level of the odorant; site for visual monitoring of odorant dosage in the form of a viewing window and a dropper; refueling unit for the supply tank - in the form of a series-connected valve, the first pressure gauge, ejector, manovacuum meter, second pressure gauge, safety valve, ball valve; a system of automatic gas odorization in the form of a series-connected fine filter, inlet solenoid valve, measuring tube, differential pressure gauge, outlet solenoid valve; metering pump; shutoff valves, including ball valves and valves; connection elements of the above nodes and parts in the form of fittings and pipelines; pallet.

In addition, in the odorizing installation, a gas supply system can be introduced into the metering device, which is presented in the form of a third pressure gauge, a gearbox, a first receiver, a three-way solenoid valve, a metering pump, and a second receiver connected in series.

And also the inventive installation additionally has a heater.

The technical result of the claimed utility model consists in solving the problem of increasing the duration of the trouble-free operation of the installation while maintaining a high accuracy of the dose of the introduced odorant due to purely constructive original techniques - by the presence of an atypical number of containers that make up the consumable capacity, and their configuration in the form of extended bodies to increase the number of placed odorant and , at the same time, economical placement of tanks in the limited space of the odorizing installation. Long trouble-free

operation is also achieved by constructive methods due to odorant filters of not only coarse, but also fine cleaning.

The odorizing installation is illustrated using figures 1-4, which show:

Figure 1 - General diagram of an odorizing installation;

Figure 2 is a front view of the odorizing installation;

Figure 3 is a rear view of the odorizing installation;

Figure 4 - General view of the capacity of the expendable in the form of eight cylinders.

Positions 1-28 indicated:

1 - expendable capacity;

2 - metering capacity;

3 - reserve capacity;

4 - ejector;

5 - valve;

6 - manovacuum meter;

7 - ball valve;

8 - safety valve;

9 - coarse filter;

10 - deodorizer;

11 - control unit;

12 - fine filter;

13 - input solenoid valve;

14 - output electromagnetic valve;

15 - measuring tube;

16 - differential pressure gauge;

17 - metering pump;

18 - viewing window;

19 - flow meter;

20 - a dropper;

21 - gear;

22 - manometer;

23 - three-way solenoid valve;

24 - receiver;

25 - low level sensor;

26 - upper level sensor;

27 - explosion-proof junction box;

28 - heater.

The odorizing installation includes a system of the above mechanisms and assemblies integrated on a supporting frame frame. It includes containers for an odorant, an odorant level indicator, a pressure measuring system, a device for visually monitoring the dosage of an odorant, a gas supply system to a metering device, a refueling system for a consumable 1 container, an automatic odorization system for gas, shutoff valves, connecting elements, a pallet. Capacities for an odorant include a consumable 1 capacity made in the form of parallel rows of pairwise connected cylinders, a measurement 2 and a reserve 3 capacity, also made in the form of cylindrical bodies. Moreover, on metering 2 and standby 3 tanks there are flange connections. The odorant level indicator includes two sensors - the lower 25 and the upper 26 of the odorant level. The pressure measuring system contains manometers 22 and a manovacuometer 6. The visual control device for the odorant dosage includes a viewing window 18 and a dropper 20. The gas supply system to the dosing device is presented in the form of a circuit: pressure gauge 22 - pressure reducer 21 - 1st receiver 24, vertically oriented - three-way solenoid valve 23 - metering pump - 2nd receiver 24, horizontally oriented. The system for refueling a supply tank 1 includes a valve 5, an ejector 4, a pressure gauge 22, a vacuum gauge 6, a safety valve 8, a ball valve 7. The automatic gas odorization system is a chain: a fine filter 12 - inlet solenoid valve 13 - measuring tube 15 - differential pressure gauge 16 - output solenoid valve 14. In the place of supply of the odorant, in front of the supply 1 capacity, there is a filter 9 of rough cleaning. The above-mentioned circuit elements are interconnected via pipelines, valves, including ball valves 7, valves 5 and connecting elements in the form of fittings. The difference of the claimed utility model is that:

- consumable capacity in the form of parallel rows of eight cylinders connected in pairs;

- has a filter of two stages - coarse and fine cleaning.

Odorizing installation works as follows.

Before starting the device, consumable 1, measuring 2, backup 3 containers are filled with an odorant. Refueling of the consumable container 1 is carried out using an ejector 4. Gas from the high pressure pipeline through the valve 5 is fed to the ejector 4, which creates a vacuum in the container 1, which can be observed

manovacuum gauge 6. Vapors pumped from the supply tank 1 are discharged through the ball valve 7 into the outlet pipeline. A pressure relief valve 8 is provided against the increase in pressure in the outlet pipe. When refueling the supply tank, the odorant passes through the coarse filter 9. When repairing the ejector 4, “pressure” filling is provided, for which a pressure of 0.05 MPa is created in the tank of the refueling tank. The pressure in the reservoir 1 is discharged through the deodorizer 10, thereby neutralizing the odorant pairs.

After starting the system in automatic mode, an odorant is supplied using the control unit 11. The odorant from the supply tank 1 enters the fine filter 12 with the input solenoid valve 13 open and the output solenoid valve 14 closed, fills the measuring tube 15. The input solenoid valve 13 closes, output 14 opens. Then, the control unit 11, using a differential pressure gauge 16, measures the level in the measuring tube 15. At the command of the control unit 11, the metering pump 17 is activated and a dose of odorant is supplied to the gas pipeline through the inspection window 18. If the flowmeter 19 is faulty, the control unit 11 uses the last gas flow value to calculate the response time of the dispenser and gives a malfunction signal. In this case, the installation goes into semi-automatic mode.

When repairing an automatic system, a manual mode of operation is used. In the supply tank 1 we bring the gas pressure from the pipeline. An odorant under its own weight flows through the calibrated hole of the dropper 20 into the gas stream of the pipeline.

The metering pump 17 is driven by gas from a high pressure pipe. Through the pressure reducer 21, the gas pressure decreases by a predetermined pressure under the control of the pressure gauge 22. The control unit 11 generates a signal for the operation of the three-way solenoid valve 23. The pulsation during gas discharge is smoothed out in the receiver 24. The lower and upper levels in the metering tank 1 are controlled using the lower level sensor 25 and a top-level sensor 26. All electrical equipment opens in an explosion-proof junction box 27. The required temperature in the odorizing installation is maintained using a heater 28.

Claims (3)

1. Odorizing installation, characterized in that it has a control unit; successively arranged containers for odorant: consumable, metering, backup, made in the form of elongated cylindrical bodies, and the consumable capacity is made in the form of parallel rows of eight cylinders connected in pairs; sensors-signaling devices of the lower and upper level of the odorant; site for visual monitoring of odorant dosage in the form of a viewing window and a dropper; refueling unit for the supply tank - in the form of a series-connected valve, the first pressure gauge, ejector, manovacuum meter, second pressure gauge, safety valve, ball valve; automatic gas odorization system in the form of a series-connected fine filter, inlet solenoid valve, measuring tube, differential pressure gauge, outlet solenoid valve; metering pump; shutoff valves, including ball valves and valves; connection elements of the above nodes and parts in the form of fittings and pipelines; pallet. 2. The odorizing installation according to claim 1, characterized in that it further includes a gas supply system to the metering device in the form of series-connected third pressure gauge, gearbox, first receiver, three-way solenoid valve, metering pump, second receiver. 3. Odorizing installation according to claim 1, characterized in that it further has a heater.