CN204344099U - The electronic monitoring and metering eliminator of natural gas - Google Patents

Abstract

The utility model discloses the electronic monitoring and metering eliminator of a kind of natural gas, comprise knockout drum, inlet tube, external input pipe, interior shunting annular groove, connecting cylinder pipe, be separated tank, escape pipe, drain pipe, ring flat-plate, receipts water packing, upper stack, gas flowmeter, electropneumatic valve, lifting cylindrical tube, gripper shoe, spacing cross bar, ball float, monitoring holes, infrared detector, lower discharging tube, electrically controlled and hydraulically valve, a Monitoring and Controlling terminal.The clear in structure of the utility model device, by separation process being realized in tank body, makes outward appearance not have too much tie point, inner by colliding, being separated up and down, the multiple form such as filtration is separated gas liquid mixture, effect is more thorough.

Description

The electronic monitoring and metering eliminator of natural gas

Technical field

The utility model relates to the electronic monitoring and metering eliminator of a kind of natural gas, is a kind of electronic monitoring and metering eliminator of natural gas of multiple gas-liquid separation setting specifically.

Background technology

In the production base of natural gas, the natural gas just collected is all generally be transferred out with gas-liquid mixture phase, directly can not be transferred and come into enforcement use, and will between increase by one separation circuit, make export natural gas be pure gas.

Usually the characteristic of gravity inequality is each other adopted when carrying out gas-liquid separation, carry out sedimentation separation, but general gas will be dissolved in liquid under a certain pressure, be directly separated up and down against gravity and also can take away gas, production cost is uprised, efficiency reduce.

Utility model content

The object of utility model is the deficiency existed for prior art, provides a kind of natural gas electronic monitoring and metering eliminator.

To achieve the above object, the method that the utility model adopts is: the electronic monitoring and metering eliminator of a kind of natural gas, comprises knockout drum, inlet tube, external input pipe, interior shunting annular groove, connecting cylinder pipe, is separated tank, escape pipe, drain pipe, ring flat-plate, receipts water packing, upper stack, gas flowmeter, electropneumatic valve, lifting cylindrical tube, gripper shoe, spacing cross bar, ball float, monitoring holes, infrared detector, lower discharging tube, electrically controlled and hydraulically valve, a Monitoring and Controlling terminal, one end of described inlet tube is fixedly connected on the centre position, outer ring of knockout drum, inside and outside connection, described external input pipe is fixedly connected with the other end of inlet/outlet pipe by flange, described interior shunting annular groove is fixedly connected on the intermediate altitude of the inner ring surface of knockout drum, inner chamber is communicated with the endoporus of inlet tube, one end of described connecting cylinder pipe is fixedly connected on the inner ring surface of interior shunting annular groove, the other end is fixedly connected on the centre position, outer ring being separated a tank, one end of described escape pipe is fixedly connected with the center, upper surface being separated a tank, described escape pipe is fixedly connected on the center, lower surface being separated a tank, described ring flat-plate is fixedly connected on the upper end position of the inner chamber of knockout drum, Dual-layer, the upper surface of described receipts water packing contacts with the lower surface of upper strata ring flat-plate, lower surface contacts with the upper surface of lower floor's ring flat-plate, one end of described upper stack is fixedly connected with the center, upper surface of knockout drum, described gas flowmeter is between the pipeline section of upper stack, be positioned at upper end horizontal segment, described electropneumatic valve is connected between the pipeline section of stack, be positioned at lower end horizontal segment, one end of described gripper shoe is fixedly connected with the inner chamber wall of knockout drum, the other end is fixedly connected on the bottom cylindrical surface of lifting cylindrical tube, the two ends of described spacing cross bar are fixedly connected on the inner chamber lower end wall of lifting cylindrical tube, symmetrical, described ball float is positioned at the inner chamber of lifting cylindrical tube, described monitoring holes is positioned on the upper end cylinder of lifting cylindrical tube, described infrared detector is fixedly connected on the outer end cylinder of knockout drum, exploration hole and monitoring holes are just right, one end of described lower discharging tube is fixedly connected with the center, lower surface of knockout drum, described electrically controlled and hydraulically valve is connected between the pipeline section of lower discharging tube, described Monitoring and Controlling terminal by data wire respectively and gas flowmeter, electropneumatic valve, infrared detector and electrically controlled and hydraulically valve connect.

As preferably, the section of described interior shunting annular groove is a trapezoidal faces to inner ring necking down.

As preferably, the diameter of described ball float is consistent with the annular diameters of lifting cylindrical tube.

Beneficial effect

The clear in structure of the utility model device, by separation process being realized in tank body, makes outward appearance not have too much tie point, inner by colliding, being separated up and down, the multiple form such as filtration is separated gas liquid mixture, effect is more thorough.

Accompanying drawing explanation

Fig. 1 the utility model apparatus structure schematic diagram;

Wherein, discharging tube, 21-electrically controlled and hydraulically valve, 22-Monitoring and Controlling terminal under 1-knockout drum, 2-inlet tube, the external input pipe of 3-, 4-interior shunting annular groove, 5-connecting cylinder pipe, a 6-separation tank, 7-escape pipe, 8-drain pipe, 9-ring flat-plate, 10-receipts water packing, the upper stack of 11-, 12-gas flowmeter, 13-electropneumatic valve, 14-lifting cylindrical tube, 15-gripper shoe, the spacing cross bar of 16-, 17-ball float, 18-monitoring holes, 19-infrared detector, 20-.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, illustrate the utility model further, the present embodiment is implemented under premised on technical solutions of the utility model, should understand these embodiments and only be not used in restriction scope of the present utility model for illustration of the utility model.

Embodiment 1:

As shown in Figure 1, the electronic monitoring and metering eliminator of a kind of natural gas, comprises knockout drum 1, inlet tube 2, external input pipe 3, interior shunting annular groove 4, connecting cylinder pipe 5, is separated a tank 6, escape pipe 7, drain pipe 8, ring flat-plate 9, receives water packing 10, upper stack 11, gas flowmeter 12, electropneumatic valve 13, lifting cylindrical tube 14, gripper shoe 15, spacing cross bar 16, ball float 17, monitoring holes 18, infrared detector 19, lower discharging tube 20, electrically controlled and hydraulically valve 21, Monitoring and Controlling terminal 22.

One end of inlet tube 2 is fixedly connected on the centre position, outer ring of knockout drum 1, inside and outside connection, external input pipe 3 is fixedly connected with the other end of inlet/outlet pipe by flange, interior shunting annular groove 4 is fixedly connected on the intermediate altitude of the inner ring surface of knockout drum 1, inner chamber is communicated with the endoporus of inlet tube 2, in order to increase the flow velocity entering the mixing material be separated in a tank 6, the section of interior shunting annular groove 4 is set to a trapezoidal faces to inner ring necking down, make to enter and be separated when propping up tank 6 and can first form a shock with inwall, make the gas separaion incorporated.

One end of connecting cylinder pipe 5 is fixedly connected on the inner ring surface of interior shunting annular groove 4, the other end is fixedly connected on the centre position, outer ring being separated a tank 6, one end of escape pipe 7 is fixedly connected with the center, upper surface being separated a tank 6, escape pipe 7 is fixedly connected on the center, lower surface being separated a tank 6, gas rises from upper end with the globule, enter and receive water packing 10, liquid drops directly to lower end.

Ring flat-plate 9 is fixedly connected on the upper end position of the inner chamber of knockout drum 1, Dual-layer, receives the upper surface of water packing 10 and contacts with the lower surface of upper strata ring flat-plate 9, and lower surface contacts with the upper surface of lower floor ring flat-plate 9, after steam enters and receives water packing 10, the stacked obstruct of water smoke, gradually formation water droplet are fallen.

One end of upper stack 11 is fixedly connected with the center, upper surface of knockout drum 1, gas flowmeter 12 is between the pipeline section of upper stack 11, be positioned at upper end horizontal segment, electropneumatic valve 13 is connected between the pipeline section of stack 11, be positioned at lower end horizontal segment, two electrical equipment sets cut-offfing of the monitoring that realizes flow velocity respectively and pipeline, passes through terminal control.

One end of gripper shoe 15 is fixedly connected with the inner chamber wall of knockout drum 1, the other end is fixedly connected on the bottom cylindrical surface of lifting cylindrical tube 14, lifting cylindrical tube 14 is vertically placed, the two ends of spacing cross bar 16 are fixedly connected on the inner chamber lower end wall of lifting cylindrical tube 14, symmetrical, mainly dropping to place after ball float 17 does not intercept, ensureing that ball float 17 fluctuates all the time in lifting cylindrical tube 14.

Ball float 17 is positioned at the inner chamber of lifting cylindrical tube 14, monitoring holes 18 is positioned on the upper end cylinder of lifting cylindrical tube 14, infrared detector 19 is fixedly connected on the outer end cylinder of knockout drum 1, exploration hole and monitoring holes 18 just right, when liquid level gradually lifting make ball float 17 moves, after ball float 17 covers monitoring holes 18, infrared detector 19 receives signal and is opened by the electrically controlled and hydraulically valve 21 of lower end, again closes after a certain time.

One end of lower discharging tube 20 is fixedly connected with the center, lower surface of knockout drum 1, electrically controlled and hydraulically valve 21 is connected between the pipeline section of lower discharging tube 20, and Monitoring and Controlling terminal 22 is connected with gas flowmeter 12, electropneumatic valve 13, infrared detector 19 and electrically controlled and hydraulically valve 21 respectively by data wire.

Embodiment 2:

As shown in Figure 1, the electronic monitoring and metering eliminator of a kind of natural gas, comprises knockout drum 1, inlet tube 2, external input pipe 3, interior shunting annular groove 4, connecting cylinder pipe 5, is separated a tank 6, escape pipe 7, drain pipe 8, ring flat-plate 9, receives water packing 10, upper stack 11, gas flowmeter 12, electropneumatic valve 13, lifting cylindrical tube 14, gripper shoe 15, spacing cross bar 16, ball float 17, monitoring holes 18, infrared detector 19, lower discharging tube 20, electrically controlled and hydraulically valve 21, Monitoring and Controlling terminal 22.

One end of inlet tube 2 is fixedly connected on the centre position, outer ring of knockout drum 1, inside and outside connection, external input pipe 3 is fixedly connected with the other end of inlet/outlet pipe by flange, interior shunting annular groove 4 is fixedly connected on the intermediate altitude of the inner ring surface of knockout drum 1, inner chamber is communicated with the endoporus of inlet tube 2, in order to increase the flow velocity entering the mixing material be separated in a tank 6, the section of interior shunting annular groove 4 is set to a trapezoidal faces to inner ring necking down, make to enter and be separated when propping up tank 6 and can first form a shock with inwall, make the gas separaion incorporated.

One end of connecting cylinder pipe 5 is fixedly connected on the inner ring surface of interior shunting annular groove 4, the other end is fixedly connected on the centre position, outer ring being separated a tank 6, one end of escape pipe 7 is fixedly connected with the center, upper surface being separated a tank 6, escape pipe 7 is fixedly connected on the center, lower surface being separated a tank 6, gas rises from upper end with the globule, enter and receive water packing 10, liquid drops directly to lower end.

Ring flat-plate 9 is fixedly connected on the upper end position of the inner chamber of knockout drum 1, Dual-layer, receives the upper surface of water packing 10 and contacts with the lower surface of upper strata ring flat-plate 9, and lower surface contacts with the upper surface of lower floor ring flat-plate 9, after steam enters and receives water packing 10, the stacked obstruct of water smoke, gradually formation water droplet are fallen.

In order to ensure that the natural gas drying exported does not have subsidiary water smoke, another kind of case study on implementation can be had when concrete enforcement, roll about on the mountain of upper stack between horizontal pipe end and set " U " shape pipeline section, place in the lower end pipe bent position of " U " shape pipe dry cotton.

One end of upper stack 11 is fixedly connected with the center, upper surface of knockout drum 1, gas flowmeter 12 is between the pipeline section of upper stack 11, be positioned at upper end horizontal segment, electropneumatic valve 13 is connected between the pipeline section of stack 11, be positioned at lower end horizontal segment, two electrical equipment sets cut-offfing of the monitoring that realizes flow velocity respectively and pipeline, passes through terminal control.

One end of gripper shoe 15 is fixedly connected with the inner chamber wall of knockout drum 1, the other end is fixedly connected on the bottom cylindrical surface of lifting cylindrical tube 14, lifting cylindrical tube 14 is vertically placed, the two ends of spacing cross bar 16 are fixedly connected on the inner chamber lower end wall of lifting cylindrical tube 14, symmetrical, mainly dropping to place after ball float 17 does not intercept, ensureing that ball float 17 fluctuates all the time in lifting cylindrical tube 14.

Ball float 17 is positioned at the inner chamber of lifting cylindrical tube 14, monitoring holes 18 is positioned on the upper end cylinder of lifting cylindrical tube 14, infrared detector 19 is fixedly connected on the outer end cylinder of knockout drum 1, exploration hole and monitoring holes 18 just right, when liquid level gradually lifting make ball float 17 moves, after ball float 17 covers monitoring holes 18, infrared detector 19 receives signal and is opened by the electrically controlled and hydraulically valve 21 of lower end, again closes after a certain time.

One end of lower discharging tube 20 is fixedly connected with the center, lower surface of knockout drum 1, electrically controlled and hydraulically valve 21 is connected between the pipeline section of lower discharging tube 20, and Monitoring and Controlling terminal 22 is connected with gas flowmeter 12, electropneumatic valve 13, infrared detector 19 and electrically controlled and hydraulically valve 21 respectively by data wire.

Claims (3)

1. the electronic monitoring and metering eliminator of natural gas, it is characterized in that: comprise knockout drum (1), inlet tube (2), external input pipe (3), interior shunting annular groove (4), connecting cylinder pipe (5), be separated a tank (6), escape pipe (7), drain pipe (8), ring flat-plate (9), receive water packing (10), upper stack (11), gas flowmeter (12), electropneumatic valve (13), lifting cylindrical tube (14), gripper shoe (15), spacing cross bar (16), ball float (17), monitoring holes (18), infrared detector (19), lower discharging tube (20), electrically controlled and hydraulically valve (21), Monitoring and Controlling terminal (22), one end of described inlet tube (2) is fixedly connected on the centre position, outer ring of knockout drum (1), inside and outside connection, described external input pipe (3) is fixedly connected with the other end of inlet/outlet pipe by flange, described interior shunting annular groove (4) is fixedly connected on the intermediate altitude of the inner ring surface of knockout drum (1), inner chamber is communicated with the endoporus of inlet tube (2), one end of described connecting cylinder pipe (5) is fixedly connected on the inner ring surface of interior shunting annular groove (4), the other end is fixedly connected on the centre position, outer ring being separated a tank (6), one end of described escape pipe (7) is fixedly connected with the center, upper surface being separated a tank (6), described escape pipe (7) is fixedly connected on the center, lower surface being separated a tank (6), described ring flat-plate (9) is fixedly connected on the upper end position of the inner chamber of knockout drum (1), Dual-layer, the upper surface of described receipts water packing (10) contacts with the lower surface of upper strata ring flat-plate (9), lower surface contacts with the upper surface of lower floor's ring flat-plate (9), one end of described upper stack (11) is fixedly connected with the center, upper surface of knockout drum (1), described gas flowmeter (12) is positioned between the pipeline section of stack (11), be positioned at upper end horizontal segment, described electropneumatic valve (13) is connected between the pipeline section of stack (11), be positioned at lower end horizontal segment, one end of described gripper shoe (15) is fixedly connected with the inner chamber wall of knockout drum (1), the other end is fixedly connected on the bottom cylindrical surface of lifting cylindrical tube (14), the two ends of described spacing cross bar (16) are fixedly connected on the inner chamber lower end wall of lifting cylindrical tube (14), symmetrical, described ball float (17) is positioned at the inner chamber of lifting cylindrical tube (14), described monitoring holes (18) is positioned on the upper end cylinder of lifting cylindrical tube (14), described infrared detector (19) is fixedly connected on the outer end cylinder of knockout drum (1), exploration hole and monitoring holes (18) just right, one end of described lower discharging tube (20) is fixedly connected with the center, lower surface of knockout drum (1), described electrically controlled and hydraulically valve (21) is connected between the pipeline section of lower discharging tube (20), described Monitoring and Controlling terminal (22) by data wire respectively with gas flowmeter (12), electropneumatic valve (13), infrared detector (19) and electrically controlled and hydraulically valve (21) connect.

2. the electronic monitoring and metering eliminator of a kind of natural gas according to claim 1, is characterized in that: the section of described interior shunting annular groove (4) is a trapezoidal faces to inner ring necking down.

3. the electronic monitoring and metering eliminator of a kind of natural gas according to claim 1, is characterized in that: as preferably, and the diameter of described ball float (17) is consistent with the annular diameters of lifting cylindrical tube (14).