CN214748231U - Separation measurement sled of high-efficient intelligence - Google Patents

Abstract

The utility model discloses a separation measurement sled of high-efficient intelligence belongs to gas-liquid separation technical field, the on-line screen storage device comprises a base, one side at base top is provided with the transfer tank, the interior top of transfer tank is provided with contact cooling mechanism, the intermediate position department at base top is provided with the separator, one side that the base was kept away from at the base top is provided with the storage tank. The utility model discloses a cooling sump between transfer jar and the separator, the refrigerating mechanism's that spiral pipe and refrigerator are constituteed setting, make the separation measurement sled not only can carry out gas-liquid separation through the separator, can cool off the separation at the in-process that the natural gas was carried simultaneously, the efficiency of separation has been improved, the setting of transfer jar internal contact board in addition, cooperation circulating pump and cooling tube use, make the natural gas can directly carry out the contact cooling after entering into transfer jar inside, the effect of cooling has been ensured, and can carry out preliminary gas-liquid separation, the practicality is higher.

Description

Separation measurement sled of high-efficient intelligence

Technical Field

The utility model relates to a measurement sled especially relates to a separation measurement sled of high-efficient intelligence, belongs to gas-liquid separation technical field.

Background

The metering pry is a gas metering device, generally, a metering instrument, a flow computer, a valve, front and rear straight pipe sections, other devices and the like related to metering are integrally installed on a steel platform, and the device can be assembled and debugged in a production plant and then transported to a production site, so that in order to improve the functionality of the metering pry, a separated metering pry is adopted in the prior art;

but current separation measurement sled is at the in-process that uses, only separates the gas-liquid through the separator, and the separation effect is relatively poor, influences the speed of separation, and can't carry out quantitative taking and separation at the in-process that uses, and the practicality is lower, consequently, the utility model provides a separation measurement sled of high-efficient intelligence is in order to solve the problem that exists among the prior art.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims at providing a separation measurement sled of high-efficient intelligence to it is lower to solve among the prior art separation rate, can't carry out the problem that the ration was taken.

The purpose of the utility model can be achieved by adopting the following technical scheme:

a high-efficiency intelligent separation metering pry comprises a base, wherein a transfer tank is arranged on one side of the top of the base, a contact cooling mechanism is arranged on the inner top of the transfer tank, a separator is arranged at the middle position of the top of the base, a storage tank is arranged on one side, away from the base, of the top of the base, an air inlet pipe is arranged on one side of the transfer tank, a spiral pipe is arranged between the transfer tank and the separator, a cooling water bin is arranged on the outer side of the spiral pipe, a refrigerator is arranged at the bottom of the cooling water bin, a drain pipe is arranged at the bottom of the transfer tank, the bottom end of the separator is communicated with the drain pipe, a liquid flow meter is arranged on the drain pipe, a first three-way valve is arranged at the end part of the drain pipe, a group of output ends of the first three-way valve are communicated with the interior of the storage tank, an exhaust pipe is arranged on the separator, and a gas flow meter is arranged on the exhaust pipe, the utility model discloses a storage tank, including blast pipe, output, storage tank, baffle, the second three-way valve is installed to the tip of blast pipe, the output of second three-way valve bottom switches on with the inside of depositing the jar, the intermediate position department of depositing the jar is provided with the baffle.

Preferably: contact cooling mechanism includes contact plate, cooling pipe and circulating pump, the interior top at the transfer tank is fixed to the contact plate, the inside of contact plate is provided with the cooling pipe, the top at the cooling water storehouse is installed to the circulating pump, the output of circulating pump switches on with the inside in cooling water storehouse, the output of circulating pump switches on with the top of cooling pipe, the bottom of cooling pipe leads to pipe and switches on with the interior bottom in cooling water storehouse.

Preferably: the flow guide grooves are uniformly formed in one side, close to the air inlet pipe, of the contact plate, and the flow guide grooves are provided with multiple groups.

Preferably: the inner top of the transfer tank is obliquely provided with a baffle, the included angle between the baffle and the horizontal plane is 60 degrees, and the air inlet pipe is provided with a pressure regulating valve.

Preferably: the top outside the storage tank is provided with an exhaust port, and the bottom outside the storage tank is provided with a liquid outlet.

Preferably: and a mist catcher is installed at one end of the exhaust pipe close to the separator, and the bottom of the mist catcher is communicated with the inside of the separator through a pipeline.

The utility model has the advantages that:

the utility model provides a high-efficient intelligent separation measurement sled, through the setting of the refrigeration mechanism that cooling water sump, spiral pipe and refrigerator constitute between transfer jar and the separator, make separation measurement sled not only can carry out gas-liquid separation through the separator, simultaneously can carry out cooling separation in the process of natural gas transportation, the efficiency of separation is improved, in addition, the setting of transfer jar internal contact plate, cooperation circulating pump and cooling tube use, make the natural gas can directly carry out the contact cooling after entering transfer jar inside, the effect of cooling has been guaranteed, and can carry out preliminary gas-liquid separation, the practicality is higher, the setting of first three-way valve on the drain pipe and the setting of second three-way valve on the blast pipe, through a set of output of first three-way valve and second three-way valve and the inside of holding vessel switch on, make the device can carry out the ration or directly take to the liquid after the separation in the process of using, the use is more convenient.

Drawings

Fig. 1 is a front sectional view of the present invention;

FIG. 2 is a front view of the present invention;

fig. 3 is a diagram of a contact plate structure of the present invention.

In the figure: 1. a base; 2. a transfer tank; 3. a separator; 4. a storage tank; 5. an air inlet pipe; 6. a cooling water sump; 7. a spiral tube; 8. a refrigerator; 9. a drain pipe; 10. a liquid flow meter; 11. a first three-way valve; 12. an exhaust pipe; 13. a gas flow meter; 14. a second three-way valve; 15. a partition plate; 16. an exhaust port; 17. a liquid discharge port; 18. a mist catcher; 19. a contact plate; 20. a cooling pipe; 21. a circulation pump; 22. a baffle plate; 23. a pressure regulating valve; 24. and a diversion trench.

Detailed Description

In order to make the technical solutions of the present invention clearer and clearer for those skilled in the art, the present invention will be described in further detail with reference to the following embodiments and drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1-3, this embodiment provides a high-efficiency intelligent separation metering pry, which includes a base 1, a transfer tank 2 is disposed on one side of the top of the base 1, a contact cooling mechanism is disposed on the inner top of the transfer tank 2, a separator 3 is disposed at an intermediate position of the top of the base 1, a storage tank 4 is disposed on one side of the top of the base 1 away from the base 1, an air inlet pipe 5 is disposed on one side of the transfer tank 2, a spiral pipe 7 is disposed between the transfer tank 2 and the separator 3, a cooling water bin 6 is disposed on the outer side of the spiral pipe 7, a refrigerator 8 is disposed at the bottom of the cooling water bin 6, a drain pipe 9 is mounted at the bottom of the transfer tank 2, the bottom end of the separator 3 is communicated with the drain pipe 9, a liquid flow meter 10 is disposed on the drain pipe 9, a first three-way valve 11 is mounted at the end of the drain pipe 9, a group of output ends of the first three-way valve 11 is communicated with the interior of the storage tank 4, an exhaust pipe 12 is installed on the separator 3, a gas flowmeter 13 is arranged on the exhaust pipe 12, a second three-way valve 14 is installed at the end of the exhaust pipe 12, the output end of the bottom of the second three-way valve 14 is communicated with the inside of the storage tank 4, and a partition plate 15 is arranged in the middle of the storage tank 4.

In this embodiment, as shown in fig. 1 and 3, the contact cooling mechanism includes contact plate 19, cooling pipe 20 and circulating pump 21, contact plate 19 is fixed at the interior top of transit tank 2, the inside of contact plate 19 is provided with cooling pipe 20, circulating pump 21 is installed at the top of cooling water storehouse 6, the output of circulating pump 21 switches on with the inside of cooling water storehouse 6, the output of circulating pump 21 switches on with the top of cooling pipe 20, the bottom of cooling pipe 20 leads to pipe and the interior bottom of cooling water storehouse 6 switches on, the natural gas directly blows on contact plate 19 after entering into the inside of transit tank 2 through intake pipe 5, circulating pump 21 pumps the inside cooling water in cooling water storehouse 6 into the inside of cooling pipe 20, cool down the outside of contact plate 19, the natural gas directly cools down after contacting with contact plate 19.

In the present embodiment, as shown in fig. 3, the contact plate 19 is provided with a plurality of flow guiding grooves 24 on one side thereof close to the air inlet pipe 5, and the flow guiding grooves 24 are provided in a plurality of groups, so as to improve the flow guiding effect of the liquid.

In this embodiment, as shown in fig. 1, a baffle 22 is obliquely arranged at the top of the interior of the transfer tank 2, an included angle between the baffle 22 and the horizontal plane is 60 °, a pressure regulating valve 23 is arranged on the air inlet pipe 5, the residence time of the natural gas in the interior of the transfer tank 2 is increased by the baffle 22, and the pressure during air inlet can be regulated by the pressure regulating valve 23.

In this embodiment, as shown in fig. 1, an exhaust port 16 is provided at the top of the outside of the storage tank 4, and a liquid discharge port 17 is provided at the bottom of the outside of the storage tank 4, so as to facilitate the discharge of the solution or gas quantitatively stored in the storage tank 4.

In the present embodiment, as shown in fig. 1, a mist trap 18 is attached to one end of the exhaust pipe 12 close to the separator 3, and the bottom of the mist trap 18 is communicated with the inside of the separator 3 through a pipe, so that moisture in the gas can be absorbed, and the gas-liquid separation effect can be ensured.

As shown in fig. 1-3, the present embodiment provides an efficient and intelligent separation metering pry, which works as follows:

step 1: communicating gas with the gas inlet pipe 5, adjusting the pressure regulating valve 23, controlling the pressure during gas inlet, directly blowing the gas onto the contact plate 19 after the gas enters the interior of the transfer tank 2, pumping cooling water in the cooling water bin 6 into the interior of the cooling pipe 20 by the circulating pump 21, cooling the outer side of the contact plate 19, directly cooling natural gas after the natural gas is contacted with the contact plate 19, forming water drops on the contact plate 19 after the liquid in the gas reaches a condensation point, and then dropping the water drops to the bottom of the transfer tank 2 along the diversion trench 24;

step 2: the gas after the preliminary temperature reduction enters the inside of the separator 3 from the spiral pipe 7, after flowing through the inside of the spiral pipe 7, the gas is completely cooled by cooling water in the cooling water bin 6, and the gas after the gas is completely cooled is subjected to gas-liquid separation again through the separator 3;

and step 3: the liquid accumulated at the bottom of the transfer tank 2 and the liquid separated by the separator 3 are discharged through a drain pipe 9, the total amount of the generated liquid is observed by a liquid flow meter 10, and the liquid can be directly taken and taken by adjusting a first three-way valve 11 and can be quantitatively taken and taken by storing the liquid at the bottom of the storage tank 4;

and 4, step 4: the gas separated by the separator 3 is discharged from the exhaust pipe 12, demisted by the mist trap 18, and then the flow rate of the gas is detected by the gas flow meter 13, and the gas can be directly taken out by the second three-way valve 14, or the gas can be quantitatively taken out by introducing the gas to the inner top of the storage tank 4.

The above description is only a further embodiment of the present invention, but the scope of protection of the present invention is not limited thereto, and any person skilled in the art can replace or change the technical solution and the concept of the present invention within the scope of the present invention.

Claims (6)

1. The utility model provides a separation measurement sled of high-efficient intelligence which characterized in that: comprises a base (1), one side of the top of the base (1) is provided with a transfer tank (2), the inner top of the transfer tank (2) is provided with a contact cooling mechanism, a separator (3) is arranged at the middle position of the top of the base (1), one side of the top of the base (1) far away from the base (1) is provided with a storage tank (4), one side of the transfer tank (2) is provided with an air inlet pipe (5), a spiral pipe (7) is arranged between the transfer tank (2) and the separator (3), the outer side of the spiral pipe (7) is provided with a cooling water bin (6), the bottom of the cooling water bin (6) is provided with a refrigerator (8), the bottom of the transfer tank (2) is provided with a drain pipe (9), the bottom end of the separator (3) is communicated with the drain pipe (9), the drain pipe (9) is provided with a liquid flow meter (10), first three-way valve (11) are installed to the tip of drain pipe (9), a set of output of first three-way valve (11) with deposit jar (4) inside and switch on, install blast pipe (12) on separator (3), and be provided with gas flowmeter (13) on blast pipe (12), second three-way valve (14) are installed to the tip of blast pipe (12), the output of second three-way valve (14) bottom switches on with the inside of depositing jar (4), the intermediate position department of depositing jar (4) is provided with baffle (15).

2. The efficient and intelligent separation metering pry of claim 1, wherein: contact cooling mechanism includes contact plate (19), cooling pipe (20) and circulating pump (21), the interior top at transfer tank (2) is fixed in contact plate (19), the inside of contact plate (19) is provided with cooling pipe (20), the top at cooling water sump (6) is installed in circulating pump (21), the output of circulating pump (21) switches on with the inside of cooling water sump (6), the output of circulating pump (21) switches on with the top of cooling pipe (20), the bottom of cooling pipe (20) leads to pipe and switches on with the interior bottom of cooling water sump (6).

3. The efficient and intelligent separation metering pry of claim 2, wherein: flow guide grooves (24) are uniformly formed in one side, close to the air inlet pipe (5), of the contact plate (19), and multiple groups of flow guide grooves (24) are formed.

4. An efficient and intelligent separation metering pry as defined in claim 1 or 2, wherein: the inner top of the transfer tank (2) is obliquely provided with a baffle (22), an included angle between the baffle (22) and the horizontal plane is 60 degrees, and a pressure regulating valve (23) is arranged on the air inlet pipe (5).

5. The efficient and intelligent separation metering pry of claim 1, wherein: an exhaust port (16) is arranged at the top of the outer side of the storage tank (4), and a liquid discharge port (17) is arranged at the bottom of the outer side of the storage tank (4).

6. The efficient and intelligent separation metering pry of claim 1, wherein: and a mist catcher (18) is arranged at one end of the exhaust pipe (12) close to the separator (3), and the bottom of the mist catcher (18) is communicated with the inside of the separator (3) through a pipeline.

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