CN219385065U - Horizontal in-line metering tank - Google Patents

Abstract

The utility model relates to the technical field of separation tanks, in particular to a horizontal type in-line metering tank which comprises an upper tank body, a lower tank body, a gas-liquid separation device, a mist capturing device, a liquid level meter and a flowmeter, wherein the lower tank body is arranged below the upper tank body, a left communicating pipe is fixedly communicated between the lower side of the left part of the upper tank body and the upper side of the left part of the lower tank body, a float valve is arranged on the inner side of the lower end of the left communicating pipe, a right communicating pipe is fixedly communicated between the lower side of the right part of the upper tank body and the upper side of the right part of the lower tank body, and a lower connecting pipe is fixedly communicated on the outer side of the upper part of the right communicating pipe. The utility model has reasonable and compact structure and convenient use, and the gas-containing oil liquid enters the lower tank body from the lower oil inlet pipe and is firstly subjected to static gas-liquid separation, then is subjected to gas-liquid separation again by the gas-liquid separation device, and finally is subjected to third gas-liquid separation by the mist capturing device; monitoring the integral liquid level of the upper tank body and the lower tank body by arranging a liquid level meter; through setting up the flowmeter, to the measuring of oil pipe exhaust fluid, have reliable, stable and separation effectual characteristics.

Description

Horizontal in-line metering tank

Technical Field

The utility model relates to the technical field of separation tanks, in particular to a horizontal in-line metering tank.

Background

Crude oil is a viscous, dark brown liquid known as "industrial blood". The upper part of the crust has petroleum storage. The main component is a mixture of various alkanes, cycloalkanes and aromatic hydrocarbons. When the petroleum is collected, a large amount of impurities are doped in the petroleum, and then the petroleum is filtered, so that the petroleum can be better used, and the existing oil gas gathering and conveying integrated device has the problems of complex operation, poor gas-liquid separation effect and the like.

Disclosure of Invention

The utility model provides a horizontal type in-line metering tank, which overcomes the defects of the prior art and can effectively solve the problem that the existing gas-liquid separation tank has poor effect of separating natural gas from oil.

The technical scheme of the utility model is realized by the following measures: the horizontal type direct-discharge metering tank comprises an upper tank body, a lower tank body, a gas-liquid separation device, a mist capturing device, a liquid level meter and a flowmeter, wherein the lower tank body is arranged below the upper tank body, a left communicating pipe is fixedly communicated between the left lower side of the upper tank body and the left upper side of the left part of the lower tank body, a floating ball valve is arranged on the inner side of the lower end of the left communicating pipe, a right communicating pipe is fixedly communicated between the right lower side of the upper tank body and the right upper side of the right part of the lower tank body, and a lower connecting pipe is fixedly communicated on the outer side of the upper part of the right communicating pipe; the upper side of the left part of the upper tank body is fixedly communicated with a left guide pipe, the upper side of the right part of the upper tank body is fixedly communicated with a right guide pipe, an upper communicating pipe is fixedly communicated between the upper part of the left guide pipe and the upper part of the right guide pipe, a lower communicating pipe is fixedly communicated between the lower side of the middle part of the upper tank body and the upper side of the middle part of the lower tank body, and a valve is arranged on the lower connecting pipe; the upper end of the left guide pipe is fixedly provided with a pipe plug, the outer side of the lower part of the left guide pipe is fixedly communicated with an upper oil inlet pipe, a gas-liquid separation device with the lower end positioned in an upper tank body is arranged in the left guide pipe corresponding to the position of the upper oil inlet pipe, the upper end of the right guide pipe is fixedly communicated with an exhaust pipe, the inner side of the upper end of the right guide pipe is fixedly provided with a mist catching device, the outer side of the lower part of the right guide pipe is fixedly communicated with a lower connecting pipe, and a liquid level meter is arranged between the outer end of the upper connecting pipe and the outer end of the lower connecting pipe; the oil inlet pipe down is fixed in the outside of the middle part of the left side of the lower tank body, the sewage pipe is fixed in the middle part of the lower side of the lower tank body, the oil outlet pipe is fixed in the outside of the lower part of the right side of the lower tank body, and the flowmeter is arranged on the oil outlet pipe.

The following are further optimizations and/or improvements to the above-described inventive solution:

the gas-liquid separation device can comprise an upper sealing plate, a lower sealing plate, an inner gas guide pipe and an outer gas guide pipe, wherein the upper sealing plate is fixedly arranged on the inner side of the lower part of the left guide pipe corresponding to the position above the upper oil inlet pipe, the lower sealing plate is fixedly arranged on the inner side of the lower part of the left guide pipe corresponding to the position below the upper oil inlet pipe, a first mounting hole which penetrates up and down is arranged in the middle of the upper sealing plate, a second mounting hole which penetrates up and down is arranged on the lower sealing plate corresponding to the position of the first mounting hole, the inner gas guide pipe with the lower end positioned below the second mounting hole is fixedly arranged in the second mounting hole, the lower side of the upper sealing plate corresponding to the position of the first mounting hole is fixedly arranged together with the upper end of the inner gas guide pipe, the outer gas guide pipe is arranged on the outer side of the lower part of the inner gas guide pipe, and the lower end of the outer gas guide pipe is positioned below the inner gas guide pipe; the right part of the upper sealing plate is provided with at least one first liquid passing hole which is vertically communicated, and the right part of the lower sealing plate is provided with at least one second liquid passing hole which is vertically communicated.

The upper cyclone device comprises an upper steel bar and an upper steel ring, and a plurality of vertically upward upper steel bars are arranged on the upper side of the upper steel ring at intervals along the circumference; the inner side of the upper end of the right communicating pipe is fixedly provided with a lower rotational flow device, the upper end of the lower rotational flow device is positioned in the upper tank body, the lower rotational flow device comprises lower reinforcing steel bars and a lower steel ring, and a plurality of vertically downward lower reinforcing steel bars are arranged on the lower side of the lower steel ring along the circumference at intervals.

The upper communicating pipe can comprise a gas inlet pipe, a gas connecting pipe and a gas outlet pipe, wherein the gas inlet pipe is vertically and upwards arranged in the upper part of the left guide pipe, the lower end of the gas inlet pipe is fixedly communicated with the left end of the gas connecting pipe, the gas outlet pipe is vertically and downwards arranged in the upper part of the right guide pipe, and the upper end of the gas outlet pipe is fixedly communicated with the right end of the gas connecting pipe.

The valve can further comprise a first sampling tube, a second sampling tube and a third sampling tube, wherein the first sampling tube is fixedly communicated with the outer side of the upper part of the left communicating tube, the second sampling tube is fixedly communicated with the outer side of the lower part of the right communicating tube, and the third sampling tube is fixedly communicated with the outer side of the lower communicating tube corresponding to the upper position of the valve.

The pipe body can further comprise a manhole, and the center of the upper side of the upper pipe body is provided with the manhole.

The outer side of the middle part of the right guide pipe can be provided with a safety valve.

The lower oil inlet pipe can comprise a bobbin and a supporting pipe, the outer side of the middle part of the left side of the lower tank body is fixedly communicated with the bobbin with the inner end in the lower tank body, the bobbin is in a cylindrical shape with an opening left, the outer side of the right part of the bobbin is provided with a plurality of oil outlet through holes, and the right end of the bobbin and the inner side of the lower tank body are fixedly installed together through the supporting pipe.

The oil outlet pipe is provided with the electromagnetic valve, the liquid level gauge is connected with the controller, and the controller is connected with the electromagnetic valve.

The utility model has reasonable and compact structure and convenient use, and the gas-containing oil liquid enters the lower tank body from the lower oil inlet pipe and is firstly subjected to static gas-liquid separation, then is subjected to gas-liquid separation again by the gas-liquid separation device, and finally is subjected to third gas-liquid separation by the mist capturing device; by arranging the upper cyclone device and the lower cyclone device, vortex is avoided when liquid enters the upper tank body or the lower tank body; monitoring the integral liquid level of the upper tank body and the lower tank body by arranging a liquid level meter; through setting up the flowmeter, to the measuring of oil pipe exhaust fluid, have reliable, stable and separation effectual characteristics.

Drawings

Fig. 1 is a schematic view of a cross-sectional front view of a preferred embodiment of the present utility model.

The codes in the drawings are respectively: 1 is an upper tank body, 2 is a lower tank body, 3 is a mist capturing device, 4 is a left communicating pipe, 5 is a right communicating pipe, 6 is an upper connecting pipe, 7 is a lower connecting pipe, 8 is a left duct, 9 is a right duct, 10 is a gas inlet pipe, 11 is a gas connecting pipe, 12 is a gas outlet pipe, 13 is a lower communicating pipe, 14 is a valve, 15 is an upper inlet pipe, 16 is a bobbin, 17 is a supporting pipe, 18 is an oil outlet through hole, 19 is an exhaust pipe, 20 is a blow-off pipe, 21 is an oil outlet pipe, 22 is an upper sealing plate, 23 is a lower sealing plate, 24 is an inner air duct, 25 is an outer air duct, 26 is a first liquid passing hole, 27 is a second liquid passing hole, 28 is an upper reinforcing steel bar, 29 is an upper steel ring, 30 is a lower swirling device, 31 is a first sampling pipe, 32 is a second sampling pipe, 33 is a third sampling pipe, 34 is a manhole, 35 is a safety valve, and 36 is a float valve.

Description of the embodiments

The present utility model is not limited by the following examples, and specific embodiments can be determined according to the technical scheme and practical situations of the present utility model.

In the present utility model, for convenience of description, the description of the relative positional relationship of each component is described according to the layout manner of fig. 1 of the specification, for example: the positional relationship of the front, rear, upper, lower, left, right, etc. is determined in accordance with the layout direction of the drawings of the specification.

The utility model is further described below with reference to examples and figures:

as shown in fig. 1, the horizontal in-line metering tank comprises an upper tank body 1, a lower tank body 2, a gas-liquid separation device, a mist capturing device 3, a liquid level meter and a flowmeter, wherein the lower tank body 2 is arranged below the upper tank body 1, a left communicating pipe 4 is fixedly communicated between the lower left side of the upper tank body 1 and the upper left side of the lower tank body 2, a ball float valve 36 is arranged on the inner side of the lower end of the left communicating pipe 4, a right communicating pipe 5 is fixedly communicated between the lower right side of the upper tank body 1 and the upper right side of the lower tank body 2, and a lower connecting pipe 7 is fixedly communicated with the outer side of the upper part of the right communicating pipe 5; the upper side of the left part of the upper tank body 1 is fixedly communicated with a left guide pipe 8, the upper side of the right part of the upper tank body 1 is fixedly communicated with a right guide pipe 9, an upper communicating pipe is fixedly communicated between the upper part of the left guide pipe 8 and the upper part of the right guide pipe 9, a lower communicating pipe 13 is fixedly communicated between the lower side of the middle part of the upper tank body 1 and the upper side of the middle part of the lower tank body 2, and a valve 14 is arranged on the lower connecting pipe; the upper end of the left guide pipe 8 is fixedly provided with a pipe plug, the outer side of the lower part of the left guide pipe 8 is fixedly communicated with an upper oil inlet pipe 15, a gas-liquid separation device with the lower end positioned in the upper tank body 1 is arranged in the left guide pipe 8 corresponding to the position of the upper oil inlet pipe 15, the upper end of the right guide pipe 9 is fixedly communicated with an exhaust pipe 19, the inner side of the upper end of the right guide pipe 9 is fixedly provided with a mist capturing device 3, the outer side of the lower part of the right guide pipe 9 is fixedly communicated with a lower connecting pipe 7, and a liquid level meter is arranged between the outer end of the upper connecting pipe 6 and the outer end of the lower connecting pipe 7; the oil inlet pipe down is fixed to the outside of the middle part of the left side of the lower tank body 2, and the blow off pipe 20 is fixed to the middle part of the lower side of the lower pipe body, and the oil outlet pipe 21 is fixed to the outside of the lower part of the right side of the lower tank body 2, and a flowmeter is arranged on the oil outlet pipe 21. In the use process, after the gas-containing oil enters the upper tank body 1 from the upper oil inlet pipe 15, natural gas in the gas-containing oil is separated through the gas-liquid separation device, the upper communicating pipe, the mist capturing device 3 and the exhaust pipe 19 are sequentially arranged, the oil enters the lower tank body 2 from the right communicating pipe 5 and is discharged and metered from the oil outlet pipe 21, and therefore gas-liquid separation of a small amount of the gas-containing oil is achieved; after the gas-containing oil liquid enters the lower tank body 2 from the lower oil inlet pipe, natural gas in the gas-containing oil liquid is positioned on the upper layer of the lower tank body 2, enters the upper tank body 1 through the lower communicating pipe 13 and is separated through the gas-liquid separation device, the upper communicating pipe, the mist capturing device 3 and the exhaust pipe 19 are sequentially arranged for discharging, and the residual oil liquid in the lower tank body 2 is discharged and metered from the oil outlet pipe 21, so that the gas-liquid separation of a large amount of gas-containing oil liquid is realized; the gas-containing oil liquid enters the lower tank body 2 from the lower oil inlet pipe and is subjected to gas-liquid separation through standing, then is subjected to gas-liquid separation again through the gas-liquid separation device, and finally is subjected to gas-liquid separation for the third time through the mist capturing device 3, so that the gas-liquid separation effect is improved; through setting up ball float valve 36, avoid the fluid in the upper tank body 1 to discharge from left communicating pipe 4 to can be when the fluid pressure is too high in the lower tank body 2, jack-up ball float in ball float valve 36 makes the fluid in the lower tank body 2 get into upper tank body 1 from left communicating pipe 4 and right communicating pipe 5 acceleration.

The horizontal in-line metering tank can be further optimized or/and improved according to actual needs:

as shown in fig. 1, the gas-liquid separation device comprises an upper sealing plate 22, a lower sealing plate 23, an inner gas guide pipe 24 and an outer gas guide pipe 25, wherein the upper sealing plate 22 is fixedly arranged on the inner side of the lower part of the left guide pipe 8 corresponding to the upper position of the upper oil inlet pipe 15, the lower sealing plate 23 is fixedly arranged on the inner side of the lower part of the left guide pipe 8 corresponding to the lower position of the upper oil inlet pipe 15, a first mounting hole which penetrates up and down is formed in the middle of the upper sealing plate 22, a second mounting hole which penetrates up and down is formed in the lower sealing plate 23 corresponding to the first mounting hole position, the inner gas guide pipe 24 with the lower end positioned below the second mounting hole is fixedly arranged in the second mounting hole, the lower side of the upper sealing plate 22 corresponding to the first mounting hole position is fixedly arranged together with the upper end of the inner gas guide pipe 24, the lower side of the lower sealing plate 23 corresponding to the second mounting hole position is fixedly arranged together with the upper end of the outer gas guide pipe 25, and the lower end of the outer gas guide pipe 25 is positioned below the inner gas guide pipe 24, and the lower end of the outer gas guide pipe 25 is positioned in the upper part of the upper tank 1; the right part of the upper sealing plate 22 is provided with at least one first through-liquid hole 26 which penetrates up and down, and the right part of the lower sealing plate 23 is provided with at least one second through-liquid hole 27 which penetrates up and down. In the use process, the gas-containing oil liquid enters the left guide pipe 8 at the position between the upper sealing plate 22 and the lower sealing plate 23 from the upper oil inlet pipe 15, enters the upper tank body 1 from the second liquid passing hole 27, and the natural gas in the gas-containing oil liquid in the upper tank body 1 sequentially passes through the lower end of the outer gas guide pipe 25, the lower end of the inner gas guide pipe 24, the upper communicating pipe, the mist capturing device 3 and the exhaust pipe 19 to be discharged, so that the gas-liquid separation of the gas-liquid is realized.

As shown in fig. 1, the device also comprises an upper swirling device and a lower swirling device 30, wherein the inner side of the lower end of the right guide pipe 9 is fixedly provided with the upper swirling device with the lower end positioned in the upper tank body 1, the upper swirling device comprises an upper reinforcing steel bar 28 and an upper steel ring 29, and a plurality of upper reinforcing steel bars 28 which are vertically upwards are arranged on the upper side of the upper steel ring 29 at intervals along the circumference; the inner side of the upper end of the right communicating pipe 5 is fixedly provided with a lower rotational flow device 30, the upper end of which is positioned in the upper tank body 1, the lower rotational flow device 30 comprises lower reinforcing steel bars and a lower steel ring, and a plurality of vertically downward lower reinforcing steel bars are arranged on the lower side of the lower steel ring along the circumference at intervals. In the use process, by arranging the upper cyclone device and the lower cyclone device 30, vortex is avoided when liquid enters the upper tank body 1 or the lower tank body 2.

As shown in fig. 1, the upper communicating pipe comprises a gas inlet pipe 10, a gas connecting pipe 11 and a gas outlet pipe 12, wherein the gas inlet pipe 10 which is vertically and upwards arranged is arranged in the upper part of the left guide pipe 8, the lower end of the gas inlet pipe 10 is fixedly communicated with the left end of the gas connecting pipe 11, the gas outlet pipe 12 which is vertically and downwards arranged is arranged in the upper part of the right guide pipe 9, and the upper end of the gas outlet pipe 12 is fixedly communicated with the right end of the gas connecting pipe 11. In the use, the characteristic of low density of gas is utilized, and the effect of gas-liquid separation is enhanced through the arrangement, so that oil liquid is prevented from entering the upper communicating pipe.

As shown in fig. 1, the device further comprises a first sampling tube 31, a second sampling tube 32 and a third sampling tube 33, wherein the first sampling tube 31 is fixedly communicated with the outer side of the upper part of the left communicating tube 4, the second sampling tube 32 is fixedly communicated with the outer side of the lower part of the right communicating tube 5, and the third sampling tube 33 is fixedly communicated with the outer side of the lower communicating tube 13 corresponding to the position above the valve 14. In use, through such an arrangement, sampling of the left communicating tube 4, the right communicating tube 5, and the lower communicating tube 13 is facilitated.

As shown in fig. 1, the pipe further comprises a manhole 34, and the center of the upper side of the upper pipe body is provided with the manhole 34. In the use process, through the arrangement, the maintenance is convenient.

As shown in fig. 1, a safety valve 35 is arranged on the outer side of the middle part of the right guide pipe 9. In the use process, through the arrangement, the safety is improved.

As shown in fig. 1, the lower oil inlet pipe comprises a bobbin 16 and a supporting pipe 17, the outer side of the middle part of the left side of the lower tank body 2 is fixedly communicated with the bobbin 16 with the inner end positioned in the lower tank body 2, the bobbin 16 is in a cylindrical shape with an opening left, the outer side of the right part of the bobbin 16 is provided with a plurality of oil outlet through holes 18, and the right end of the bobbin 16 and the inner side of the lower tank body 2 are fixedly installed together through the supporting pipe 17. In the use process, through the arrangement of the plurality of oil outlet through holes 18, the gas-containing oil liquid can flow into the lower tank body 2 from the lower oil inlet pipe more uniformly, thereby being convenient for the separation of natural gas and oil liquid.

As shown in fig. 1, the device also comprises a controller and an electromagnetic valve, the electromagnetic valve is arranged on the oil outlet pipe 21, the liquid level meter is connected with the controller, and the controller is connected with the electromagnetic valve. In the use, through setting up left communicating pipe 4 and right communicating pipe 5 with last jar body 1 with lower jar body 2 whole intercommunication, monitor through the level gauge and go up jar body 1 and lower jar body 2 holistic liquid level, be connected the solenoid valve on level gauge and the play oil pipe 21 through current well-known controller, discharge oil and measure through the flowmeter through play oil pipe 21 when the liquid level is too high.

The technical characteristics form the optimal embodiment of the utility model, have stronger adaptability and optimal implementation effect, and can increase or decrease unnecessary technical characteristics according to actual needs so as to meet the requirements of different situations.

Claims (10)

1. A horizontal in-line metering tank is characterized in that: the device comprises an upper tank body, a lower tank body, a gas-liquid separation device, a mist capturing device, a liquid level meter and a flowmeter, wherein the lower tank body is arranged below the upper tank body, a left communicating pipe is fixedly communicated between the left lower side of the upper tank body and the upper side of the left part of the lower tank body, a float valve is arranged on the inner side of the lower end of the left communicating pipe, a right communicating pipe is fixedly communicated between the right lower side of the upper tank body and the upper side of the right part of the lower tank body, and a lower connecting pipe is fixedly communicated on the outer side of the upper part of the right communicating pipe; the upper side of the left part of the upper tank body is fixedly communicated with a left guide pipe, the upper side of the right part of the upper tank body is fixedly communicated with a right guide pipe, an upper communicating pipe is fixedly communicated between the upper part of the left guide pipe and the upper part of the right guide pipe, a lower communicating pipe is fixedly communicated between the lower side of the middle part of the upper tank body and the upper side of the middle part of the lower tank body, and a valve is arranged on the lower connecting pipe; the upper end of the left guide pipe is fixedly provided with a pipe plug, the outer side of the lower part of the left guide pipe is fixedly communicated with an upper oil inlet pipe, a gas-liquid separation device with the lower end positioned in an upper tank body is arranged in the left guide pipe corresponding to the position of the upper oil inlet pipe, the upper end of the right guide pipe is fixedly communicated with an exhaust pipe, the inner side of the upper end of the right guide pipe is fixedly provided with a mist catching device, the outer side of the lower part of the right guide pipe is fixedly communicated with a lower connecting pipe, and a liquid level meter is arranged between the outer end of the upper connecting pipe and the outer end of the lower connecting pipe; the oil inlet pipe down is fixed in the outside of the middle part of the left side of the lower tank body, the sewage pipe is fixed in the middle part of the lower side of the lower tank body, the oil outlet pipe is fixed in the outside of the lower part of the right side of the lower tank body, and the flowmeter is arranged on the oil outlet pipe.

2. The horizontal inline metering tank of claim 1, wherein: the gas-liquid separation device comprises an upper sealing plate, a lower sealing plate, an inner gas guide pipe and an outer gas guide pipe, wherein the upper sealing plate is fixedly arranged on the inner side of the lower part of the left guide pipe corresponding to the position above the upper oil inlet pipe, the lower sealing plate is fixedly arranged on the inner side of the lower part of the left guide pipe corresponding to the position below the upper oil inlet pipe, a first mounting hole which penetrates up and down is arranged in the middle of the upper sealing plate, a second mounting hole which penetrates up and down is arranged on the lower sealing plate corresponding to the position of the first mounting hole, the inner gas guide pipe with the lower end positioned below the second mounting hole is fixedly arranged in the second mounting hole, the lower side of the upper sealing plate corresponding to the position of the first mounting hole is fixedly arranged together with the upper end of the inner gas guide pipe, the lower side of the lower sealing plate corresponding to the position of the second mounting hole is fixedly arranged together with the upper end of the outer gas guide pipe, and the lower end of the outer gas guide pipe is positioned below the inner gas guide pipe; the right part of the upper sealing plate is provided with at least one first liquid passing hole which is vertically communicated, and the right part of the lower sealing plate is provided with at least one second liquid passing hole which is vertically communicated.

3. The horizontal inline metering tank of claim 1 or 2, wherein: the upper swirling device comprises an upper steel bar and an upper steel ring, and a plurality of vertical upper steel bars are arranged on the upper side of the upper steel ring at intervals along the circumference; the inner side of the upper end of the right communicating pipe is fixedly provided with a lower rotational flow device, the upper end of the lower rotational flow device is positioned in the upper tank body, the lower rotational flow device comprises lower reinforcing steel bars and a lower steel ring, and a plurality of vertically downward lower reinforcing steel bars are arranged on the lower side of the lower steel ring along the circumference at intervals.

4. The horizontal inline metering tank of claim 1 or 2, wherein: the upper communicating pipe comprises a gas inlet pipe, a gas connecting pipe and a gas outlet pipe, wherein the gas inlet pipe is vertically and upwards arranged in the upper part of the left guide pipe, the lower end of the gas inlet pipe is fixedly communicated with the left end of the gas connecting pipe, the gas outlet pipe is vertically and downwards arranged in the upper part of the right guide pipe, and the upper end of the gas outlet pipe is fixedly communicated with the right end of the gas connecting pipe.

5. A horizontal inline metering tank as claimed in claim 3, wherein: the upper communicating pipe comprises a gas inlet pipe, a gas connecting pipe and a gas outlet pipe, wherein the gas inlet pipe is vertically and upwards arranged in the upper part of the left guide pipe, the lower end of the gas inlet pipe is fixedly communicated with the left end of the gas connecting pipe, the gas outlet pipe is vertically and downwards arranged in the upper part of the right guide pipe, and the upper end of the gas outlet pipe is fixedly communicated with the right end of the gas connecting pipe.

6. The horizontal inline metering tank of claim 1 or 2 or 5 wherein: still include first sampling tube, second sampling tube and third sampling tube, left communicating pipe upper portion outside fixed intercommunication has first sampling tube, and right communicating pipe lower part outside fixed intercommunication has the second sampling tube, and the lower communicating pipe outside fixed intercommunication that corresponds the valve upper position has the third sampling tube.

7. A horizontal inline metering tank as claimed in claim 3, wherein: still include first sampling tube, second sampling tube and third sampling tube, left communicating pipe upper portion outside fixed intercommunication has first sampling tube, and right communicating pipe lower part outside fixed intercommunication has the second sampling tube, and the lower communicating pipe outside fixed intercommunication that corresponds the valve upper position has the third sampling tube.

8. The horizontal inline metering tank of claim 4, wherein: still include first sampling tube, second sampling tube and third sampling tube, left communicating pipe upper portion outside fixed intercommunication has first sampling tube, and right communicating pipe lower part outside fixed intercommunication has the second sampling tube, and the lower communicating pipe outside fixed intercommunication that corresponds the valve upper position has the third sampling tube.

9. The horizontal inline metering tank of claim 1 or 2 or 5 or 7 or 8 wherein: the pipe also comprises a manhole, and the center of the upper side of the upper pipe body is provided with the manhole; or/and, a safety valve is arranged at the outer side of the middle part of the right guide pipe; or/and, the lower oil inlet pipe comprises a bobbin and a supporting pipe, the outer side of the middle part of the left side of the lower tank body is fixedly communicated with the bobbin with the inner end positioned in the lower tank body, the bobbin is in a cylindrical shape with an opening left, the outer side of the right part of the bobbin is provided with a plurality of oil outlet through holes, and the right end of the bobbin and the inner side of the lower tank body are fixedly installed together through the supporting pipe; or/and, still include controller and solenoid valve, be equipped with the solenoid valve on the oil outlet pipe, the level gauge is connected with the controller, and the controller is connected with the solenoid valve.

10. The horizontal inline metering tank of claim 6, wherein: the pipe also comprises a manhole, and the center of the upper side of the upper pipe body is provided with the manhole; or/and, a safety valve is arranged at the outer side of the middle part of the right guide pipe; or/and, the lower oil inlet pipe comprises a bobbin and a supporting pipe, the outer side of the middle part of the left side of the lower tank body is fixedly communicated with the bobbin with the inner end positioned in the lower tank body, the bobbin is in a cylindrical shape with an opening left, the outer side of the right part of the bobbin is provided with a plurality of oil outlet through holes, and the right end of the bobbin and the inner side of the lower tank body are fixedly installed together through the supporting pipe; or/and, still include controller and solenoid valve, be equipped with the solenoid valve on the oil outlet pipe, the level gauge is connected with the controller, and the controller is connected with the solenoid valve.