CN204827418U - No pump type individual well three -phase metering device - Google Patents

Abstract

(B, ) the utility model relates to an oil well three -phase metering device technical field is a no pump type individual well three -phase metering device, and it has the import of the gas of filtration including (b) (b) knockout drum body on the knockout drum body, at the internal collecting tank that is fixed with of knockout drum that filters gas import below, the collecting tank lower part be fixed with with the communicating honeycomb duct of collecting tank, the internal liquid distributor that is fixed with of knockout drum in the honeycomb duct below, it has cloth liquid hole (b) (b) to distribute on the liquid distributor. (B, ) (b) the internal and external network physical isolation data exchange device is reasonable and compact in structure, high durability and convenient use, it is at the in -process to the measurement of individual well three -phase, can improve the precision of three -phase measurement, adopt notes and provide important dynamic mission profile in time for the oil gas exploitation realizes the high efficiency, the setting of electronic tee bend ball valve can reduce the knockout drum body and suppress the living harm of cutting down output, the setting of vertical filter can be filtered debris in the oil gas liquid, prevent that the pump is by the stifled commentaries on classics of debris, guarantee the normal clear of measurement operation, divide the gas bag can be for the pressure boost of the knockout drum body, guarantee continuously going on of knockout drum body oil extraction. (B, )

Description

Pump-free type individual well three-phase metering mechanism

Technical field

the utility model relates to oil well three phase metering device technical field, is a kind of pump-free type individual well three-phase metering mechanism.

Background technology

existing individual well oil-gas metering device possesses gas-liquid two-phase function of measuring usually, i.e. gas production and Liquid output, and in the manufacturing process of oil gas, and what more pay close attention to is oil production and the aquifer yield of individual well.Therefore, in order to the relevant parameter of the oil production and aquifer yield that obtain individual well, user is chemically examined by manual sampling and calculates crude oil water content, then, then estimates oil production in oil gas liquid measure and aquifer yield according to the crude oil water content calculated.Because metering and manual sampling chemically examine the time of crude oil water content not at one time in section, so, represent the moisture content moisture content of whole oil well section sometime to calculate oil output per well and aquifer yield exists larger error with certain any crude oil water content, three-phase (gas phase, aqueous phase and oil phase) measuring accuracy is not high.

when recovering the oil in the winter time, because crude oil is thicker, and tolerance is very little, cause the liquid in eliminator not discharge in time, cause metering device to carry out gage work thus, in this case, even if crude oil also usually can not be discharged by startup standby oil extraction centrifugal pump or gear pump, thus, can produce in eliminator and build the pressure phenomenon and cause safety valve jumping up pressure release, adverse influence is caused to the metering of gas production.In addition, when the pressure in eliminator is higher, the oil extraction ability of pump greatly declines and often reveals, and is also finally cause metering device often to quit work.

at present, enter between eliminator do not carry out filter operation to oil-gas-liquid at oil-gas-liquid, thus, the foreign material in oil-gas-liquid very easily cause pump (especially gear pump) stall, cause adverse influence to the metering of metering device.At present, usually adopt precession spiral flowmeter to measure gas production, because the measurement category of precession spiral flowmeter is narrower, and the gas production of individual well is comparatively large at present, adopts precession spiral flowmeter normally can not measure gas production.In addition, can not automatic water supplement at the water bag of separator bottom, thus adverse influence is caused to metering work.

Summary of the invention

the utility model provides a kind of pump-free type individual well three-phase metering mechanism, overcome the deficiency of above-mentioned prior art, it effectively can solve oil extraction problem not easily in the not high and knockout drum of three phase metering precision that existing single well metering device exists in actual use.

the technical solution of the utility model is realized by following measures: a kind of pump-free type individual well three-phase metering mechanism, comprise separation tank body, separation tank body has and filters gas import, separation tank body internal fixtion below the import of filtration gas has collecting tank, the mozzle communicated with collecting tank is fixed with in collecting tank bottom, separation tank body internal fixtion below mozzle has liquid distributor, liquid distributor is distributed with liquid distributing hole, the liquidceiver corresponding up and down with mozzle is fixed with on the top of liquid distributor, liquidceiver communicates with liquid distributor, separation tank body above filtered fluid import is fixed with escape pipe, escape pipe is installed with gas flowmeter, escape pipe between gas flowmeter and the outlet of escape pipe there is a point gas bag, being separated on tank body between collecting tank with liquidceiver is fixed with metering device, the separation tank body that liquidceiver upper end is corresponding is fixed with flowline, gutter is fixed with in the bottom being separated tank body, escape pipe and gutter are all installed with switch valve.

here is the further optimization and/or improvements to above-mentioned utility model technical scheme:

above-mentioned metering device comprises two bellows differential density meter and float type level switch, two bellows differential density meter comprises bellows and lower bellows, upper bellows and lower bellows are fixed on from top to bottom and are separated on tank body between collecting tank with liquidceiver, are fixed with float type level switch in be separated on tank body corresponding with the center of upper bellows.

above-mentioned metering device comprises two bellows differential pressure levelmeter and two bellows differential density meter, two bellows differential pressure levelmeter comprises the first bellows and the second bellows, first bellows and the second bellows are fixed on from top to bottom and are separated on tank body between collecting tank with liquidceiver, two bellows differential density meter comprises bellows and lower bellows, and upper bellows and lower bellows are fixed on the separation tank body between the first bellows and the second bellows from top to bottom.

above-mentioned gutter is installed with irrigation pipe, the groove of pouring water communicated with irrigation pipe is fixed with in the import of irrigation pipe, pour water slot in the top of liquidceiver, irrigation pipe is installed with switch valve, flowline is installed with electrical ball valve, between the outlet of flowline and escape pipe export, is fixed with oil collecting pipe.

above-mentioned pump-free type individual well three-phase metering mechanism also comprises vertical filter, vertical filter comprises filtration tank body, lower filtration tank body, filtration barrel body and support ring flat-plate in the form of a ring, the bottom of upper filtration tank body and the top of lower filtration tank body are fixedly installed togather, the support inner side of ring flat-plate and the top of filtration barrel body are fixed together, filtration barrel body is distributed with filter bores, filtration gas port is had on the top of upper filtration tank body, lower filtration tank body there is oil and gas import, lower filtration tank body below oil and gas import there is sewage draining exit, the aperture of filter bores is 0.425 millimeter to 2 millimeters, the lower outside of upper filtration tank body is fixed with upper flange plate, upper flange plate is distributed with upper flange hole, lower flange is fixed with in the upper outside of lower filtration tank body, lower flange is distributed with the laxative remedy flange aperture corresponding with upper flange hole, upper flange plate and lower flange are by upper flange hole, laxative remedy flange aperture and bolt are fixedly installed togather, supporting ring flat-plate is fixedly mounted between upper flange plate and lower flange, sealing mat is installed with between upper flange plate and support ring flat-plate, lower seal pad is installed with between lower flange and support ring flat-plate, filter gas port and be fixed with filtration tracheae, oil gas mixing tube is installed with at oil and gas import, blow-off pipe is installed with at sewage draining exit, blow-off pipe is installed with blow down branch, at filtration tracheae, oil gas mixing tube, blow-off pipe and blow down branch are all installed with switch valve, supporting ring flat-plate is stainless steel support ring plate, filtration barrel body is stainless steel filtration barrel body.

the lower end of above-mentioned mozzle is positioned at liquidceiver; Or/and, escape pipe between the entrance point and gas flowmeter of escape pipe fixes blow-down pipe, blow-down pipe is fixed with bursting tube, bursting tube is installed with switch valve and safety valve, auxiliary tube is installed with between safety valve and blow-down pipe, escape pipe and flowline are all installed with gate valve, and gas flow counts Intelligent Turbine Flowmeter; Or/and, collecting tank is fixed with baffle plate, the separation tank body above collecting tank is installed with pressure meter.

the utility model reasonable and compact in structure, easy to use, it is in the process to individual well three phase metering, the precision of three phase metering can be improved, for oil-gas mining realizes efficiently adopting the dynamic technique parameter that note provides important in time, the setting of electric three passes ball valve can reduce and is separated tank body and builds the pressure the harm produced, foreign material in oil-gas-liquid can filter by the setting of vertical filter, prevent pump by foreign material stall, ensure normally carrying out of metering work, point gas bag can for being separated tank body supercharging, ensure to be separated tank body oil extraction continue carry out.

Accompanying drawing explanation

accompanying drawing 1 is the process flow diagram of the utility model embodiment 2.

accompanying drawing 2 is the process flow diagram of the utility model embodiment 3.

accompanying drawing 3 is the structural representation of the vertical filter in the utility model.

coding in accompanying drawing is respectively: 1 for being separated tank body, 2 is collecting tank, 3 is mozzle, 4 is liquid distributor, 5 is escape pipe, 6 is gas flowmeter, 7 is two bellows differential pressure levelmeters, 8 is flowline, 9 is switch valve, 10 is gutter, 11 is irrigation pipe, 12 is groove of pouring water, 13 is electrical ball valve, 14 is a point gas bag, 15 is oil collecting pipe, 16 is gate valve, 17 is pressure meter, 18 is upper filtration tank body, 19 is lower filtration tank body, 20 for supporting ring flat-plate, 21 is filtration barrel body, 22 is upper flange plate, 23 is lower flange, 24 is bolt, 25 is upper sealing mat, 26 is lower seal pad, 27 for filtering tracheae, 28 is oil gas mixing tube, 29 is blow-off pipe, 30 is blow down branch, 31 is blow-down pipe, 32 is bursting tube, 33 is safety valve, 34 is auxiliary tube, 35 is baffle plate, 36 is two bellows differential density meters, 37 is vertical filter, 38 is liquidceiver, 39 is float type level switch, 40 is upper bellows, 41 is lower bellows, 42 is the first bellows, 43 is the second bellows.

Detailed description of the invention

the utility model by the restriction of following embodiment, can not determine concrete embodiment according to the technical solution of the utility model and actual conditions.

in the utility model, for convenience of description, the description of the relative position relation of each parts of embodiment 2 is all be described according to the Butut mode of Figure of description 1, as: the position relationship of forward and backward, upper and lower, left and right etc. determines according to the Butut direction of Figure of description 1; The description of the relative position relation of each parts of embodiment 3 is all be described according to the Butut mode of Figure of description 2, as: the position relationship of forward and backward, upper and lower, left and right etc. determines according to the Butut direction of Figure of description 2.

below in conjunction with embodiment and accompanying drawing, the utility model is further described:

embodiment 1: as shown in accompanying drawing 1 to 2, this pump-free type individual well three-phase metering mechanism comprises separation tank body 1, separation tank body 1 has and filters gas import, separation tank body 1 internal fixtion below the import of filtration gas has collecting tank 2, the mozzle 3 communicated with collecting tank 2 is fixed with in collecting tank 2 bottom, separation tank body 1 internal fixtion below mozzle 3 has liquid distributor 4, liquid distributor 4 is distributed with liquid distributing hole, the liquidceiver 38 corresponding with mozzle about 3 is fixed with on the top of liquid distributor 4, liquidceiver 38 communicates with liquid distributor 4, separation tank body 1 above filtered fluid import is fixed with escape pipe 5, escape pipe 5 is installed with gas flowmeter 6, escape pipe 5 between gas flowmeter 6 and the outlet of escape pipe 5 there is point gas bag 14, being separated on tank body 1 between collecting tank 2 with liquidceiver 38 is fixed with metering device, the separation tank body 1 that liquidceiver 38 upper end is corresponding is fixed with flowline 8, gutter 10 is fixed with in the bottom being separated tank body 1, escape pipe 5 and gutter 10 are all installed with switch valve 9.Oil gas enters in separation tank body 1 by filtering gas import, enter after gas-liquid separation occurs the oil gas be separated in tank body 1 top in motion process and obtain gas phase and liquid phase, liquid phase falls in collecting tank 2, liquid phase in collecting tank 2 falls in liquidceiver 38 by mozzle 3, liquid phase in liquidceiver 38 carries out cloth liquid by liquid distributor 4, water-oil separating is carried out in the bottom that liquid phase after cloth liquid is being separated tank body 1, oil phase floats up to the top of aqueous phase, the pressure differential deltap h(m water column be separated in tank body 1 is recorded by metering device) and time Δ t(second of correspondence), again according to the constant cross-section area S (m be separated in tank body 1 ² ) individual well daily fluid production rate (Q) can be calculated, Q=(S × Δ h)/Δ t × 3600 × 24 (t/d), when being separated the liquid level in tank body 1 and rising to the upper end of metering device, the reading of metering device is h(liquid level), if the pure oil density of this individual well sample examination is ρ oil, then can calculate the moisture content (φ) of this single-well crude oil, φ=[(h/H-ρ oil)/1-ρ oil] × 100%, H is the center to center distance of metering device, in conjunction with daily fluid production rate Q, individual well daily oil production (Q oil) and individual well water yield per day (Q water) can be calculated, Q oil=Q × φ (t/d), Q water=Q × (1-φ) (t/d), metering through gas flowmeter 6 after gas phase enters escape pipe 5 obtains gas production, from the above mentioned, the present embodiment can measure three-phase, avoid manual sampling chemical examination operation, improve the measuring accuracy of three-phase.The setting of collecting tank 2, liquidceiver 38, mozzle 3 and liquid distributor 4 can prevent the disturbance to liquid level in liquid phase dropping process, ensure that the measuring accuracy of three phase metering, for oil-gas mining realizes efficiently adopting the dynamic technique parameter that note provides important in time.When needing the oil be separated in tank body 1 to discharge, close filtered fluid import, make oil gas stop entering in separation tank body 1, then carry out oil extraction, when being separated the oil in tank body 1 and discharging a certain amount of, pressure in separation tank body 1 is lower than the pressure be separated outside tank body 1, cause continuing oil extraction, now, point gas bag 14 can by escape pipe 5 to supercharging in separation tank body 1, ensure oil extraction continue carry out, the carrying out for three phase metering operation establishes strong basis.Gas bag 14 is divided to be existing known technology.

embodiment 2: as shown in Figure 1, be with the difference of above-described embodiment, metering device comprises two bellows differential density meter 36 and float type level switch 39, two bellows differential density meter 36 comprises bellows 40 and lower bellows 41, upper bellows 40 and lower bellows 41 are fixed on from top to bottom and are separated on tank body 1 between collecting tank 2 with liquidceiver 38, are fixed with float type level switch 39 in be separated on tank body 1 corresponding with the center of upper bellows 40.Distance between the center of upper bellows 40 and the center of lower bellows 41 is H1, when liquid level is moved between upper bellows 40 and lower bellows 41, the pressure differential deltap h(m water column be separated in tank body 1 can be recorded by two bellows differential density meter 36) and time Δ t(second of correspondence), then according to the constant cross-section area S (m be separated in tank body 1 ² ) individual well daily fluid production rate (Q) can be calculated, Q=(S × Δ h)/Δ t × 3600 × 24 (t/d).When there is action in float type level switch 39, illustrate that the liquid level be separated in tank body 1 rises to the center of bellows 40, the reading obtaining now two bellows differential density meter 36 is h(liquid level), if the pure oil density of this individual well sample examination is ρ oil, then can calculate the moisture content (φ) of this single-well crude oil, φ=[(h/H1-ρ oil)/1-ρ oil] × 100%, in conjunction with daily fluid production rate Q, individual well daily oil production (Q oil) and individual well water yield per day (Q water) can be calculated, Q oil=Q × φ (t/d), individual well water yield per day Q water=Q × (1-φ) (t/d).The setting of float type level switch 39 can obtain the information that the liquid level be separated in tank body 1 arrives upper bellows 40 center in time, be convenient to more accurately learn the reading of now two bellows differential density meter 36, thus improve the measuring accuracy of oil phase and aqueous phase, in addition, float type level switch 39 has the not high advantage of price, thus is convenient to it and puts in the operation of individual well three phase metering.Metering through gas flowmeter 6 after gas phase enters escape pipe 5 obtains gas production, and two bellows differential density meter 36 is existing known technology.

embodiment 3: as shown in Figure 2, with above-described embodiment 1 difference be, metering device comprises two bellows differential pressure levelmeter 7 and two bellows differential density meter 36, two bellows differential pressure levelmeter 7 comprises the first bellows 42 and the second bellows 43, first bellows 42 and the second bellows 43 are fixed on from top to bottom and are separated on tank body 1 between collecting tank 2 with liquidceiver 38, two bellows differential density meter 36 comprises bellows 40 and lower bellows 41, and upper bellows 40 and lower bellows 41 are fixed on the separation tank body 1 between the first bellows 42 and the second bellows 43 from top to bottom.Distance between the center of the first bellows 42 and the center of the second bellows 43 is H2, distance between the center of upper bellows 40 and the center of lower bellows 41 is H1, when being separated the liquid level in tank body 1 and moving between the first bellows 42 and the second bellows 43, the pressure differential deltap h(m water column be separated in tank body 1 can be recorded by two bellows differential pressure levelmeter 7) and time Δ t(second of correspondence), individual well daily fluid production rate (Q) can be calculated, Q=(S × Δ h)/Δ t × 3600 × 24 (t/d) again according to the constant cross-section area be separated in tank body 1.When being separated the liquid level in tank body 1 and rising to the center of upper bellows 40, the reading of two bellows differential density meter is h(m water column), if the pure oil density of this well sample examination is ρ oil, then can calculate the moisture content (φ) of this oil well crude oil: φ=[(h/H2-ρ oil)/1-ρ oil] × 100%, in conjunction with daily fluid production rate Q, individual well daily oil production (Q oil) and individual well water yield per day (Q water) can be calculated, individual well daily oil production: Q oil=Q × φ (t/d), individual well water yield per day: Q water=Q × (1-φ) (t/d).Metering through gas flowmeter 6 after gas phase enters escape pipe 5 obtains gas production, and the present embodiment can measure three-phase, avoids manual sampling chemical examination operation, improves the measuring accuracy of three-phase.Two bellows differential density meter 36 and two bellows differential pressure levelmeter 7 are existing known technology.

according to actual needs, above-described embodiment can be made further optimization and/or improvements:

as shown in accompanying drawing 1 to 3, gutter 10 is installed with irrigation pipe 11, the groove 12 of pouring water communicated with irrigation pipe 11 is fixed with in the import of irrigation pipe 11, groove 12 of pouring water is positioned at the top of liquidceiver 38, irrigation pipe 11 is installed with switch valve 9, flowline 8 is installed with electrical ball valve 13, between the outlet of flowline 8 and escape pipe 5 export, is fixed with oil collecting pipe 15.Electrical ball valve 13 is existing known technology.Oil collecting pipe 15 is in the process of conveying crude oil, and the gas in crude oil is assembled in point gas bag 14, and the gas of assembling in point gas bag 14 for being separated the oil extraction supercharging of tank body 1, can ensure that the oil extraction being separated tank body 1 can continue to carry out.

as shown in Figure 3, this pump-free type individual well three-phase metering mechanism also comprises vertical filter 37, vertical filter 37 comprises filtration tank body 18, lower filtration tank body 19, filtration barrel body 21 and support ring flat-plate 20 in the form of a ring, the bottom of upper filtration tank body 18 and the top of lower filtration tank body 19 are fixedly installed togather, the support inner side of ring flat-plate 20 and the top of filtration barrel body 21 are fixed together, filtration barrel body 21 is distributed with filter bores, filtration gas port is had on the top of upper filtration tank body 18, lower filtration tank body 19 there is oil and gas import, lower filtration tank body 19 below oil and gas import there is sewage draining exit, the aperture of filter bores is 0.425 millimeter to 2 millimeters, the lower outside of upper filtration tank body 18 is fixed with upper flange plate 22, upper flange plate 22 is distributed with upper flange hole, lower flange 23 is fixed with in the upper outside of lower filtration tank body 19, lower flange 23 is distributed with the laxative remedy flange aperture corresponding with upper flange hole, upper flange plate 22 and lower flange 23 are by upper flange hole, laxative remedy flange aperture and bolt 24 are fixedly installed togather, supporting ring flat-plate 20 is fixedly mounted between upper flange plate 22 and lower flange 23, sealing mat 25 is installed with between upper flange plate 22 and support ring flat-plate 20, lower seal pad 26 is installed with between lower flange 23 and support ring flat-plate 20, filter gas port and be fixed with filtration tracheae 27, oil gas mixing tube 28 is installed with at oil and gas import, blow-off pipe 29 is installed with at sewage draining exit, blow-off pipe 29 is installed with blow down branch 30, at filtration tracheae 27, oil gas mixing tube 28, blow-off pipe 29 and blow down branch 30 are all installed with switch valve 9, supporting ring flat-plate 20 is stainless steel support ring plate, filtration barrel body 21 is stainless steel filtration barrel body.Foreign material in oil gas can filter by the setting of vertical filter 37, prevent pump by foreign material stall, further ensure normally carrying out of metering work.

as shown in accompanying drawing 1 to 3, the lower end of mozzle 3 is positioned at liquidceiver 38; Or/and, escape pipe 5 between the entrance point and gas flowmeter 6 of escape pipe 5 fixes blow-down pipe 31, blow-down pipe 31 is fixed with bursting tube 32, bursting tube 32 is installed with switch valve 9 and safety valve 33, auxiliary tube 34 is installed with between safety valve 33 and blow-down pipe 31, escape pipe 5 and flowline 8 are all installed with gate valve 16, and gas flowmeter 6 is Intelligent Turbine Flowmeter; Or/and, collecting tank 2 is fixed with baffle plate 35, the separation tank body 1 above collecting tank 2 is installed with pressure meter 17.The setting of baffle plate 35 can enter in knockout drum at oil gas and collide with baffle plate 35, further increases the separative efficiency of oil gas.The lower end of mozzle 3 is arranged in arranging of liquidceiver 38 and reduces liquid phase dropping process further to the disturbance of liquid level, further ensures the measuring accuracy of three phase metering.Intelligent Turbine Flowmeter is existing known technology, and the setting of Intelligent Turbine Flowmeter can improve the measuring accuracy of gas production.

above technical characteristic constitutes embodiment of the present utility model, and it has stronger compliance and implementation result, can increase and decrease non-essential technical characteristic according to actual needs, meet the demand of different situations.

Claims (10)

1. a pump-free type individual well three-phase metering mechanism, it is characterized in that comprising separation tank body, separation tank body has and filters gas import, separation tank body internal fixtion below the import of filtration gas has collecting tank, the mozzle communicated with collecting tank is fixed with in collecting tank bottom, separation tank body internal fixtion below mozzle has liquid distributor, liquid distributor is distributed with liquid distributing hole, the liquidceiver corresponding up and down with mozzle is fixed with on the top of liquid distributor, liquidceiver communicates with liquid distributor, separation tank body above filtered fluid import is fixed with escape pipe, escape pipe is installed with gas flowmeter, escape pipe between gas flowmeter and the outlet of escape pipe there is a point gas bag, being separated on tank body between collecting tank with liquidceiver is fixed with metering device, the separation tank body that liquidceiver upper end is corresponding is fixed with flowline, gutter is fixed with in the bottom being separated tank body, escape pipe and gutter are all installed with switch valve.

2. pump-free type individual well three-phase metering mechanism according to claim 1, it is characterized in that metering device comprises two bellows differential density meter and float type level switch, two bellows differential density meter comprises bellows and lower bellows, upper bellows and lower bellows are fixed on from top to bottom and are separated on tank body between collecting tank with liquidceiver, are fixed with float type level switch in be separated on tank body corresponding with the center of upper bellows.

3. pump-free type individual well three-phase metering mechanism according to claim 1, it is characterized in that metering device comprises two bellows differential pressure levelmeter and two bellows differential density meter, two bellows differential pressure levelmeter comprises the first bellows and the second bellows, first bellows and the second bellows are fixed on from top to bottom and are separated on tank body between collecting tank with liquidceiver, two bellows differential density meter comprises bellows and lower bellows, and upper bellows and lower bellows are fixed on the separation tank body between the first bellows and the second bellows from top to bottom.

4. the pump-free type individual well three-phase metering mechanism according to claim 1 or 2 or 3, it is characterized in that gutter is installed with irrigation pipe, the groove of pouring water communicated with irrigation pipe is fixed with in the import of irrigation pipe, pour water slot in the top of liquidceiver, irrigation pipe is installed with switch valve, flowline is installed with electrical ball valve, between the outlet of flowline and escape pipe export, is fixed with oil collecting pipe.

5. the pump-free type individual well three-phase metering mechanism according to claim 1 or 2 or 3, it is characterized in that pump-free type individual well three-phase metering mechanism also comprises vertical filter, vertical filter comprises filtration tank body, lower filtration tank body, filtration barrel body and support ring flat-plate in the form of a ring, the bottom of upper filtration tank body and the top of lower filtration tank body are fixedly installed togather, the support inner side of ring flat-plate and the top of filtration barrel body are fixed together, filtration barrel body is distributed with filter bores, filtration gas port is had on the top of upper filtration tank body, lower filtration tank body there is oil and gas import, lower filtration tank body below oil and gas import there is sewage draining exit, the aperture of filter bores is 0.425 millimeter to 2 millimeters, the lower outside of upper filtration tank body is fixed with upper flange plate, upper flange plate is distributed with upper flange hole, lower flange is fixed with in the upper outside of lower filtration tank body, lower flange is distributed with the laxative remedy flange aperture corresponding with upper flange hole, upper flange plate and lower flange are by upper flange hole, laxative remedy flange aperture and bolt are fixedly installed togather, supporting ring flat-plate is fixedly mounted between upper flange plate and lower flange, sealing mat is installed with between upper flange plate and support ring flat-plate, lower seal pad is installed with between lower flange and support ring flat-plate, filter gas port and be fixed with filtration tracheae, oil gas mixing tube is installed with at oil and gas import, blow-off pipe is installed with at sewage draining exit, blow-off pipe is installed with blow down branch, at filtration tracheae, oil gas mixing tube, blow-off pipe and blow down branch are all installed with switch valve, supporting ring flat-plate is stainless steel support ring plate, filtration barrel body is stainless steel filtration barrel body.

6. pump-free type individual well three-phase metering mechanism according to claim 4, it is characterized in that pump-free type individual well three-phase metering mechanism also comprises vertical filter, vertical filter comprises filtration tank body, lower filtration tank body, filtration barrel body and support ring flat-plate in the form of a ring, the bottom of upper filtration tank body and the top of lower filtration tank body are fixedly installed togather, the support inner side of ring flat-plate and the top of filtration barrel body are fixed together, filtration barrel body is distributed with filter bores, filtration gas port is had on the top of upper filtration tank body, lower filtration tank body there is oil and gas import, lower filtration tank body below oil and gas import there is sewage draining exit, the aperture of filter bores is 0.425 millimeter to 2 millimeters, the lower outside of upper filtration tank body is fixed with upper flange plate, upper flange plate is distributed with upper flange hole, lower flange is fixed with in the upper outside of lower filtration tank body, lower flange is distributed with the laxative remedy flange aperture corresponding with upper flange hole, upper flange plate and lower flange are by upper flange hole, laxative remedy flange aperture and bolt are fixedly installed togather, supporting ring flat-plate is fixedly mounted between upper flange plate and lower flange, sealing mat is installed with between upper flange plate and support ring flat-plate, lower seal pad is installed with between lower flange and support ring flat-plate, filter gas port and be fixed with filtration tracheae, oil gas mixing tube is installed with at oil and gas import, blow-off pipe is installed with at sewage draining exit, blow-off pipe is installed with blow down branch, at filtration tracheae, oil gas mixing tube, blow-off pipe and blow down branch are all installed with switch valve, supporting ring flat-plate is stainless steel support ring plate, filtration barrel body is stainless steel filtration barrel body.

7. the pump-free type individual well three-phase metering mechanism according to claim 1 or 2 or 3, is characterized in that the lower end of mozzle is positioned at liquidceiver; Or/and, escape pipe between the entrance point and gas flowmeter of escape pipe fixes blow-down pipe, blow-down pipe is fixed with bursting tube, bursting tube is installed with switch valve and safety valve, auxiliary tube is installed with between safety valve and blow-down pipe, escape pipe and flowline are all installed with gate valve, and gas flow counts Intelligent Turbine Flowmeter; Or/and, collecting tank is fixed with baffle plate, the separation tank body above collecting tank is installed with pressure meter.

8. pump-free type individual well three-phase metering mechanism according to claim 4, is characterized in that the lower end of mozzle is positioned at liquidceiver; Or/and, escape pipe between the entrance point and gas flowmeter of escape pipe fixes blow-down pipe, blow-down pipe is fixed with bursting tube, bursting tube is installed with switch valve and safety valve, auxiliary tube is installed with between safety valve and blow-down pipe, escape pipe and flowline are all installed with gate valve, and gas flow counts Intelligent Turbine Flowmeter; Or/and, collecting tank is fixed with baffle plate, the separation tank body above collecting tank is installed with pressure meter.

9. pump-free type individual well three-phase metering mechanism according to claim 5, is characterized in that the lower end of mozzle is positioned at liquidceiver; Or/and, escape pipe between the entrance point and gas flowmeter of escape pipe fixes blow-down pipe, blow-down pipe is fixed with bursting tube, bursting tube is installed with switch valve and safety valve, auxiliary tube is installed with between safety valve and blow-down pipe, escape pipe and flowline are all installed with gate valve, and gas flow counts Intelligent Turbine Flowmeter; Or/and, collecting tank is fixed with baffle plate, the separation tank body above collecting tank is installed with pressure meter.

10. pump-free type individual well three-phase metering mechanism according to claim 6, is characterized in that the lower end of mozzle is positioned at liquidceiver; Or/and, escape pipe between the entrance point and gas flowmeter of escape pipe fixes blow-down pipe, blow-down pipe is fixed with bursting tube, bursting tube is installed with switch valve and safety valve, auxiliary tube is installed with between safety valve and blow-down pipe, escape pipe and flowline are all installed with gate valve, and gas flow counts Intelligent Turbine Flowmeter; Or/and, collecting tank is fixed with baffle plate, the separation tank body above collecting tank is installed with pressure meter.