RU2361180C1 - Device for feeding and regulating flow of odorant (versions) - Google Patents

Abstract

FIELD: physics; measurement.

SUBSTANCE: invention relates to devices for automatic regulation of flow of liquid and can be used in different industries where there is need for proportional feeding of an odorant into a gas. The outcome is achieved due to that, the device has a holding tank with odorant, inside of which there is a piston dosing pump with a plunger and a rod, placed inside a case with an opening. The actuator of the dosing pump is outside the holding tank, which has a top cover with an opening, through which the rod of the piston dosing pump passes. The holding pump has suction and blowing lines, with inlet and outlet channels. The suction line has a filter. The blowing line has a cavitation Venturi pipe, two storage tanks, an overflow pipe, throttle needle valves and two droppers. The gas pipe has a diaphragm and a differential pressure pickup. The piston dosing pump is connected by the blowing line to holding-dosing tanks for connection with the gas pipe, on which the flow measuring device is located. The suction line is connected to a storage container, filled with liquid odorant. In the second version of the device a sylphon is hermetically fitted on the cover of the holding tank from the inside. An actuating rod is attached to the top of the sylphon and a piston rod is attached at the bottom. Movement of the actuating rod is transmitted to the piston rod through the sylphon.

EFFECT: increased operational reliability of the device, easier servicing and prevention of leakage of odorant into the atmosphere.

6 cl, 2 dwg

Description

The invention relates to automatic control of fluid flow and can be used in various industries, for example, in the odorization process, where a proportional flow of odorant into the gas is required.

A device for controlling the flow of odorant (patent No. 2173874, IPC G05D 7/00, publ. 2001.09.20), comprising a consumable container with liquid odorant and an adjustable heater to turn the odorant into a vapor state, the heater is made in the form of flooded in the lower part flow capacity of the recuperative heat exchanger, the input of which is connected to the hot end of the vortex energy separator, and the output to the neck of the Venturi pipe installed in the bypass line; On the branch of the pipelines for supplying hot gas to the heat exchanger and to the bypass line, a regulator is installed, made in the form of a flow distributor with a servo drive controlled by a signal from the control and control unit. The lower part of the tank is connected to the output of the feed metering pump, which is triggered by a signal from a sensor that controls the odorant level above the surface of the heat exchanger, and the upper part of the tank, above the spray separator, is connected to the pipe for removing odorant vapors, the output of which is connected to a utilizing ejector for mixing cold and used hot flows exiting the vortex energy separator.

A device for controlling the flow of odorant (patent No. 2153189, IPC G05D 7/00, published: 2000.07.20), closest to the claimed and adopted as a prototype, containing a sensing element, a metering pump, a flow tank with an odorant and a gas pipeline. The metering pump is designed as a piston pneumatic hydraulic booster and provides a discrete dosed odorant feed by feedback signal from the odorized gas flow meter, the discharge line is connected through a cavitation venturi, in front of which a pressure sensor is installed, to flow tanks installed in series, connected to the gas pipeline through the main and reserve droppers, respectively, while the internal volume of the metering pump above the odorant supply piston, limited by a seal along the piston rod nya, communicated with the suction line through the check valve. However, the known device does not provide sufficient accuracy of regulation and supply of an odorant to the gas pipeline and reliable protection against leakage of the odorant into the atmosphere.

The technical result to which the invention is directed is to increase the operational reliability of the work, to prevent leakage of odorant into the atmosphere and to ensure ease of maintenance.

The technical result is achieved by the fact that in the device for supplying and regulating the flow of odorant (option 1), containing a flow meter for installation on the gas pipeline, a flow tank with an odorant, a piston metering pump with suction and discharge lines, inlet and outlet valves, connected to the discharge line to consumable dosing tanks and for connecting to the gas pipeline, and the suction line connected to the cavity of the tank filled with liquid odorant, the drive and control system of the metering pump is new, that the piston metering pump is placed inside the supply tank with an odorant having a top cover, and the drive is outside the tank, while the hole in the top cover through which the piston metering pump rod passes is provided with a seal.

In the device for supplying and regulating the flow of odorant (option 2), containing a flow meter for installation on the gas pipeline, a flow tank with an odorant, a piston metering pump with suction and discharge lines, inlet and outlet valves, and a discharge line connected to consumable metering tanks for connection with a gas pipeline, and the suction line connected to the cavity of the tank filled with liquid odorant, the drive and control system of the metering pump, new is that the piston metering pump is located inside askhodnoy odorant tank having a top cover, drive - outside of the vessel, wherein the cover with the inner side of the container is sealed bellows mounted to which is fixed the top drive rod, and the bottom - of the piston rod of the metering pump.

For options 1 and 2, the supply container with an odorant is equipped with pressurization lines of high-pressure gas, filling and discharging a neutralizing solution, the discharge line is made in the form of a vertical pipe, the end of which is located in close proximity to the bottom of the container, and the filling line is connected to its top cover, and a hole is made in the pump housing over its piston.

Figure 1 presents the diagram of the device (option 1). Figure 2 - diagram of the device (option 2).

Here: 1 - consumable capacity with an odorant; 2 - piston metering pump; 3 - the piston; 4 - piston rod and actuator (option 1); 5 - pump housing; 6 - vertical pipe line drain neutralizing solution; 7 - double-acting solenoid valve; 8 - command unit of the drive and control system of the metering pump; 9 - pressure sensor; 10 - drive piston pump 2; 11 - cover of the supply tank, 12 - seal housing 13; 14 - hole in the pump housing 5; 15 - exhaust (discharge) valve; 16 - inlet (suction) valve; 17 - filter; 18 - cavitation venturi pipe; containers - dispensers 19 and 20; 21 - overflow pipe; 22 and 23 - throttle needle valves; 24 and 25 - droppers; 26 - diaphragm flow meter device; 27 - differential pressure sensor flow meter device; 28 - gas inlet gas pipeline (low pressure gas); 29 - line for refueling and discharging a neutralizing solution; 30 - refueling line of the odorant; 31 - line pressurization by high pressure gas; 32 - drainage line of an electric pneumatic valve of double action 7; 33 - output line odorized gas; 34-43 - valves on the pipelines; 44-46 - switching and control lines; 47 - discharge line; 48 - suction line; 49 - piston rod (option 2); 50 - drive rod (option 2); 51 - bellows (option 2).

The device for feeding and regulating the flow of odorant (option 1) contains a consumable container 1 with an odorant, inside of which there is a piston metering pump 2 with a piston 3 and a rod 4 located in the housing 5, in which there is an opening 14. The drive 10 of the piston metering pump 2 located outside of the supply tank 1, which has a top cover 11. The hole in the top cover 11, through which the rod 4 of the piston metering pump 2 passes, is equipped with a seal 13 located in the housing 12.

The supply tank 1 is equipped with suction lines 48 and discharge 47, and accordingly the inlet (suction) 16 and outlet (discharge) 15 valves. A filter 17 is installed on the suction line. The discharge line has a cavitation venturi 18, tanks 19 and 20, overflow pipe 21, throttle needle valves 22 and 23, droppers 24 and 25. A gas meter including a diaphragm (narrowing element) 26 is on the gas pipeline 28 and a differential pressure sensor 27. The piston metering pump 2 is connected by a discharge line 47 to the consumable metering tanks 19 and 20 for connection to the gas pipeline 28, and the suction line 46 is connected to the cavity of the tank 1 filled with liquid odorant. The drive and control system of the metering pump 2 includes a command unit 8, a double-acting electro-pneumatic valve 7, pressure sensors 9.

The supply tank with odorant 1 is equipped with pressurization lines of high pressure gas 31, filling and discharging the neutralizing solution 29. The discharge line is made in the form of a vertical pipe 6, the end of which is located in close proximity to the bottom of the tank 1, and the filling line 30 is connected to its top cover 11 The device has a drainage line 32 of a double-action electro-pneumatic valve 7, an output line of odorized gas 33. The hydraulic and pneumatic lines of the device are connected by pipelines on which valves 34-43 are installed. The drive and control system is connected to differential pressure sensors 27 and a double-action electro-pneumatic valve 7 switching and control lines 44-46.

The odorant supply and control device (option 2) differs from option 1 in that the bellows 51 is sealed on the inside of the cover 11 of the supply container 1, to which the actuator rod 50 is fixed from above and the piston rod 49 is attached from below. Moving the actuator rod 50 is transmitted to the piston rod 49 through the bellows 51. Thus, odorant vapor does not enter the metering pump drive line and the environment.

On the sealed cover 11 of the supply tank 1 (options 1 and 2) the drive 10 of the metering pump 2 and the filling and discharge lines of the neutralizing solution 29, the filling line of the odorant 30, the charging line of the high-pressure control gas 31 through valve 39 are mounted. The actuator of the device is a pump -doser 2 is made in the form of a piston pneumatic hydraulic booster, in which the volume above the odorant supply piston is connected via a hole 14 with a gas cavity above the odorant in the tank 1, while the seal 13 of the rod 4 (option 1) or a bellows 51 connecting the rods the piston 49 and the drive 50 (option 2), hermetically separate the steam cavity in the supply tank from the gas cavity of the drive 10 of the metering pump 2. The tight connection of the drive of the pump 10 with the cover 11 prevents the odorant from entering the environment.

The command unit 8 of the drive and control system of the metering pump is equipped with functions to control the operation of the device and performs the following operations: calculates the amount of incoming gas according to the readings of the flow sensor (differential pressure) 27 or other flow meter device (standard GDS flow meters can be used), calculates the amount of odorant, coming into the tank 19 or 20 according to the testimony of the sensor 9 (integrates pressure pulses when the odorant passes through the venturi cavitation pipe), generates a control signal for The double-acting electro-pneumatic valve 7, based on the results of the ratio of the amounts of odorized gas supplied to the outlet line 33 and the odorant supplied, informs the dispatcher about the failures of the system elements and the operation of the backup dropper 25.

A device for feeding and regulating an odorant works as follows. The initial state of the device is as follows: the tank 1 is filled with an odorant, gas is supplied with a control and low pressure in line 31 (pressurization line of high pressure gas) and 28 (gas pipeline). Before starting work, the hydraulic refueling systems of the odorant 30 are filled with an odorant, for which control gas is supplied to the pump drive 10 in manual mode and, for several cycles of operation of the metering pump 2, fill the reservoir 19 with liquid. Then, using the throttle needle valve 22, the dropping rate of the dropper 24 is established so that a portion of the odorant entering a single cycle of operation of the metering pump 2 into the tank 19, is completely dripped through the dropper 24 for a period of time slightly less ( 5-10%) of the response time of the metering pump between unit cycles, set by command unit 8 with a minimum gas flow through the device. The minimum gas flow rate is set by the technical conditions for the device (operating mode of the gas distribution station, gas distribution station), the gas flow rate is measured by the flow sensor 27. After these operations, the device switches to automatic operation.

In the automatic mode of operation, the device and the response frequency of the metering pump 2 are controlled by a command unit (quantity counter) 8, which, upon passing a certain amount of gas through the gas pipeline 28, provides an impulse for the double-acting solenoid valve 7 to operate, as a result of which a single cycle of the odorant enters the tank 19. The movement of the piston of the pump drive, due to the pressure of the control gas, leads to the movement of the piston 3 of the metering pump 2. When the suction stroke into the cavity on a suction meter through the filter 17 and the suction valve 16 receives a portion of the odorant. When the injection stroke is due to the reverse movement of the piston 3, a portion of the odorant is displaced through the discharge valve 15, the venturi 18 into the container 19 and then through the needle valve 22 and the dropper 24 into the low pressure gas pipeline 28.

As a quantity counter, the standard system of the flow meter assembly can be used (in the natural gas supply lines, the standard GRS system, an ultrasonic flow meter, etc.).

With increasing gas consumption, the pressure drop across the diaphragm (local restriction) 26 increases and this pressure increase through the valve 37 and the connecting line is transferred to the tanks 19 and 20. The increase in gas flow and the consequent increase in pressure in the tanks 19 and 20 leads to the fact that the odorant arrives (digs through a dropper 24) with a greater speed proportional to the increase in gas flow.

To increase the reliability of the device, a reserve tank 20 with a dropper 25 is included in the system. In case of clogging of the dropper 24 or other failure, the liquid level in the tank 19 rises and through the overflow pipe 21 enters the tank 20 and then through the dropper 25 the odorant enters the gas pipeline 28.

The operation of option 2 is similar to the operation of the device of option 1.

In the proposed device, the gas is proportionally diluted with an odorant by means of a metered supply of liquid odorant with automatic control from a flow meter. The tight connection of the supply tank with the odorant and the drive and control system of the metering pump increases the operational reliability of the device, prevents leakage of the odorant into the atmosphere and ensures easy maintenance of gas pipelines.

Claims (6)

1. The device for supplying and regulating the flow of odorant containing a flow meter for installation on the gas pipeline, a flow tank with an odorant, a piston metering pump with suction and discharge lines, inlet and outlet valves, a discharge line connected to consumable metering tanks for connection to the gas pipeline, and the suction line connected to the cavity of the tank filled with liquid odorant, the drive and control system of the metering pump, characterized in that the piston metering pump is located inside the consumable containers with an odorant having a top cover, and the drive is outside the tank, while the hole in the top cover through which the piston metering pump rod passes is provided with a seal. 2. The device for supplying and regulating the flow of odorant according to claim 1, characterized in that the flow tank with an odorant is equipped with pressurization lines of high-pressure gas, filling and draining of a neutralizing solution, the drain line is made in the form of a vertical pipe, the end of which is located in close proximity to the bottom capacity, and the refueling line is connected to its top cover. 3. The device for supplying and regulating the flow of odorant according to claim 1, characterized in that an opening is made in the pump housing above its piston. 4. A device for supplying and regulating the flow of an odorant containing a flow meter for installation on a gas pipeline, a flow tank with an odorant, a piston metering pump with suction and discharge lines, inlet and outlet valves, a discharge line connected to consumable metering tanks for connecting to the gas pipeline, and the suction line connected to the cavity of the tank filled with liquid odorant, the drive and control system of the metering pump, characterized in that the piston metering pump is placed in the supply tank and with an odorant having a top cover, and the drive is outside the container, while a bellows is sealed in the cover on the inside of the container, to which the actuator rod is fixed on top and the piston metering pump rod on the bottom. 5. The device for supplying and regulating the flow of odorant according to claim 4, characterized in that the flow tank with an odorant is equipped with pressurization lines of high-pressure gas, filling and discharging a neutralizing solution, the discharge line is made in the form of a vertical pipe, the end of which is located in close proximity to the bottom capacity, and the refueling line is connected to its top cover. 6. The odorant supply and control device according to claim 4, characterized in that an opening is made in the pump housing above its piston.

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