CN217870820U - Automatic drainage device for booster - Google Patents

Abstract

The utility model relates to a booster drainage device technical field for acetylene production is a device for booster automatic drainage, including acetylene drainage tank, the supporting booster of acetylene apparatus for producing one and import big pipe drain pipe and the supporting booster of No. two acetylene apparatus for producing two and No. two import big pipe drain pipes, two booster of at least supporting of acetylene apparatus for producing one, two booster two of at least supporting of No. two acetylene apparatus for producing. The utility model has the advantages of reasonable and compact structure, convenient to use, it is through increasing acetylene water discharge tank and supporting pipeline, collects the drainage in the supporting drain pipe of each booster to acetylene water discharge tank, forms the liquid seal to the acetylene gas that the aquatic contains, in good time with the log raft play of booster to guarantee that each booster advances, outlet pressure is steady, reduces the drainage number of times, reduces staff's work load, prevents pipeline ponding, reduces the operation risk.

Description

Automatic drainage device for booster

Technical Field

The utility model relates to a booster drainage device technical field for acetylene production is a device for booster automatic drainage.

Background

The total amount of water drained by an inlet large pipe of a booster (namely an air compressor) of a device (namely an acetylene production device No. 1), U-shaped water drained by an inlet of the booster, water drained by a steam-water separator of the booster and water drained by an outlet large pipe of the booster is 0.13 m/h, the total amount of water drained by an inlet large pipe of a booster of the device No. 2, U-shaped water drained by an inlet large pipe of the booster, water drained by a steam-water separator of the booster and water drained by an outlet large pipe of the booster is 0.15 m/h, the water drainage modes of the two devices are manual water drainage for team workers, the water drainage frequency is 6 times/team pressure fluctuation, the workload of the team workers is large, if the water drainage is not timely, the pipeline water is accumulated, the water enters and exits the booster, and the stable operation of the device is influenced.

Disclosure of Invention

The utility model provides a device for booster automatic drainage has overcome above-mentioned prior art not enough, and it can effectively solve the manual drainage mode of current booster and have that work load is big, the untimely problem that causes the pipeline ponding easily of drainage.

The technical scheme of the utility model is realized through following measure: a device for automatic drainage of a booster comprises an acetylene drainage tank, a first booster and a first inlet large pipe drainage pipe which are matched with a first acetylene production device, and a second booster and a second inlet large pipe drainage pipe which are matched with a second acetylene production device, wherein the first acetylene production device is at least matched with the first booster, and the second acetylene production device is at least matched with the second booster; an inlet of each booster is communicated with a first inlet large pipe drain pipe, an inlet of each booster is communicated with a first inlet U-shaped pipe, an outlet of each first inlet U-shaped pipe is communicated with a first drain pipe, an inlet of each second booster is communicated with a second inlet large pipe drain pipe, an inlet of each second booster is communicated with a second inlet U-shaped pipe, an outlet of each second inlet U-shaped pipe is communicated with a second drain pipe, a valve is fixedly mounted between the first drain pipe and the second drain pipe, a drain end of the first drain pipe extends into an acetylene drain tank, a drain pipe is communicated with the top of the acetylene drain tank, a gas phase balance pipe is communicated with the top of the acetylene drain tank, the gas phase balance pipe is respectively communicated with an inlet of one booster matched with a first acetylene production device and an inlet of the second booster matched with a second acetylene production device, and a liquid outlet of the lower part of the acetylene drain tank is communicated with a liquid discharge pipe.

The following are further optimization or/and improvement on the technical scheme of the invention:

the aforesaid still includes supporting big back flow drain pipe, little back flow drain pipe, UNICOM U type drain pipe one, catch water work liquid and export the big pipe drain pipe one of acetylene manufacturing installation, big back flow drain pipe, little back flow drain pipe, UNICOM U type drain pipe one, catch water work liquid and export the big pipe drain pipe one all with a drain pipe intercommunication.

The device further comprises a second communicated U-shaped drain pipe, a steam-water separator working solution and a second outlet large pipe drain pipe which are matched with the second acetylene production device, and the second communicated U-shaped drain pipe, the steam-water separator working solution and the second outlet large pipe drain pipe are communicated with the second drain pipe.

The acetylene water draining tank is provided with a liquid level meter.

The liquid discharge pipe close to the liquid outlet of the liquid discharge pipe is provided with a sight glass, a first hand valve and a second hand valve are arranged on the liquid discharge pipe on the front side and the rear side of the sight glass along the flowing direction of fluid, an adjusting valve is arranged on the liquid discharge pipe behind the second hand valve, and a bypass pipe connected with the second hand valve and the adjusting valve in parallel is communicated with the liquid discharge pipe.

The utility model has the advantages of reasonable and compact structure, convenient to use, it is through increasing acetylene water drainage tank and supporting pipeline, collects the drainage in the supporting drain pipe of each booster to acetylene water drainage tank, forms the liquid seal to the acetylene gas that the aquatic contains, in good time with booster's water discharge to guarantee that each booster advances, outlet pressure is steady, reduces the drainage number of times, reduces staff's work load, prevents pipeline ponding, reduces the operation risk.

Drawings

FIG. 1 is a schematic process flow diagram of the preferred embodiment of the present invention.

The codes in the figures are respectively: the device comprises a booster I, a booster II, an acetylene drainage tank 3, an inlet large pipe drainage pipe 4, an inlet large pipe drainage pipe 5, an inlet large pipe drainage pipe two 5, an inlet U-shaped pipe I6, a drainage pipe I7, an inlet U-shaped pipe II 8, a drainage pipe II 9, a valve 10, an emptying pipe 11, a gas phase balance pipe 12, a liquid discharge pipe 13, a large backflow drainage pipe 14, a small backflow drainage pipe 15, a communicated U-shaped drainage pipe I16, a steam-water separator working liquid and an outlet large pipe drainage pipe I17, a communicated U-shaped drainage pipe II 18, a steam-water separator working liquid and an outlet large pipe drainage pipe II 19, a liquid level meter 20, a viewing mirror 21, a hand valve I22, a hand valve II 23, a regulating valve 24 and a bypass pipe 25.

Detailed Description

The utility model discloses do not receive the restriction of following embodiment, can be according to the utility model discloses a technical scheme and actual conditions determine concrete implementation.

In the present invention, for convenience of description, the description of the relative position relationship of the components is described according to the layout mode of the attached drawing 1 in the specification, such as: the positional relationship of front, rear, upper, lower, left, right, etc. is determined in accordance with the layout direction of fig. 1 of the specification.

The invention will be further described with reference to the following examples:

as shown in fig. 1, the device for automatic drainage of the booster comprises an acetylene drainage tank 3, a first booster 1 and a first inlet large pipe drainage pipe 4 matched with a first acetylene production device, and a second booster 2 and a second inlet large pipe drainage pipe 5 matched with a second acetylene production device, wherein the first acetylene production device is at least matched with the first booster 1, and the second acetylene production device is at least matched with the second booster 2; an inlet 1 of each booster is communicated with a large inlet pipe drain pipe 4, an inlet 1 of each booster is communicated with a first inlet U-shaped pipe 6, an outlet 6 of each first inlet U-shaped pipe is communicated with a first drain pipe 7, an inlet 2 of each second booster is communicated with a large inlet pipe drain pipe 5, an inlet U-shaped pipe 8 is communicated with an inlet 2 of each second booster, an outlet 8 of each inlet U-shaped pipe is communicated with a second drain pipe 9, a valve 10 is fixedly installed between the first drain pipe 7 and the second drain pipe 9, a drain end of the first drain pipe 7 extends into an acetylene drain tank 3, a drain pipe 11 is communicated with the top of the acetylene drain tank 3, a gas phase balance pipe 12 is communicated with the top of the acetylene drain tank 3, the gas phase balance pipe 12 is respectively communicated with an inlet 1 of the first booster matched with the first acetylene production device and an inlet 2 of the second booster matched with the second acetylene production device, and a liquid outlet of the lower portion of the acetylene drain tank 3 is communicated with a liquid discharge pipe 13.

Through increasing acetylene water drainage tank 3 and supporting pipeline, collect the drainage in the supporting drain pipe of each booster (except that a drain pipe 7, no. two drain pipes 9, evacuation pipe 11, gas phase balance pipe 12, fluid-discharge tube 13) to acetylene water drainage tank 3, form the liquid seal to the acetylene gas that aquatic contains, in good time with the water discharge of booster, in order to guarantee that each booster advances, outlet pressure is steady, reduce the drainage number of times, reduce staff's work load, prevent pipeline ponding, reduce the operational risk.

After the device is adopted for draining water, accumulated water in the pipeline is thoroughly eliminated, the operation frequency of workers is reduced to 0 time, and the stable operation of the device is ensured. The number of times of manual drainage of employees in a company team is 0/class, the pressure fluctuation caused by the water accumulation of the inlet and outlet large pipes of the booster is 0/month, and the index deviation caused by the water accumulation of the inlet U-shaped pipe of the booster is 0/month.

As shown in fig. 1, the first acetylene production unit is matched with four first boosters 1, and the second acetylene production unit is matched with four second boosters 2.

The device for automatically draining the water of the booster can be further optimized or/and improved according to actual needs:

as shown in the attached figure 1, the acetylene production device also comprises a large backflow drain pipe 14, a small backflow drain pipe 15, a first communicated U-shaped drain pipe 16, a first steam-water separator working solution outlet large pipe drain pipe 17, wherein the large backflow drain pipe 14, the small backflow drain pipe 15, the first communicated U-shaped drain pipe 16, the first steam-water separator working solution outlet large pipe drain pipe 17 are communicated with the first drain pipe 7.

The device collects the water drained by a large backflow drain pipe 14, a small backflow drain pipe 15, a communicated U-shaped drain pipe 16, a steam-water separator working solution and an outlet large pipe drain pipe 17 which are matched with an acetylene production device to an acetylene drain tank 3.

As shown in the attached figure 1, the acetylene production device also comprises a second communicated U-shaped drain pipe 18, a steam-water separator working solution and a second outlet big pipe drain pipe 19 which are matched with the second acetylene production device, and the second communicated U-shaped drain pipe 18, the steam-water separator working solution and the second outlet big pipe drain pipe 19 are communicated with the second drain pipe 9.

The device collects the water discharged by a second communicated U-shaped water discharge pipe 18, a steam-water separator working solution and a second outlet large pipe water discharge pipe 19 matched with a second acetylene production device to the acetylene water discharge tank 3.

As shown in FIG. 1, a liquid level meter 20 is provided on the acetylene water drainage tank 3.

As shown in fig. 1, a view mirror 21 is provided on the discharge pipe 13 near the discharge port of the discharge pipe 13, a first hand valve 22 and a second hand valve 23 are mounted on the discharge pipe 13 on the front and rear sides of the view mirror 21 along the flow direction of the fluid, an adjusting valve 24 is mounted on the discharge pipe 13 behind the second hand valve 23, and a bypass pipe 25 connected in parallel with the second hand valve 23 and the adjusting valve 24 is communicated with the discharge pipe 13.

The liquid level meter 20 can adopt a remote transmission type liquid level meter 20, and the remote transmission type liquid level meter 20 is in joint control with the regulating valve 24 to control the liquid level of the acetylene drainage tank 3.

According to actual production needs, corresponding valves 10 are arranged on corresponding pipelines.

Above technical feature constitutes the utility model discloses a best embodiment, it has stronger adaptability and best implementation effect, can increase and decrease unnecessary technical feature according to actual need, satisfies the demand of different situation.

Claims (8)

1. A device for automatic drainage of a booster is characterized by comprising an acetylene drainage tank, a booster I and a booster II matched with a first acetylene production device, a booster II and a booster II matched with a second acetylene production device, wherein the first acetylene production device is at least matched with the first booster, and the second acetylene production device is at least matched with the second booster; an inlet of each booster is communicated with a first inlet large pipe drain pipe, an inlet of each booster is communicated with a first inlet U-shaped pipe, an outlet of each first inlet U-shaped pipe is communicated with a first drain pipe, an inlet of each second booster is communicated with a second inlet large pipe drain pipe, an inlet of each second booster is communicated with a second inlet U-shaped pipe, an outlet of each second inlet U-shaped pipe is communicated with a second drain pipe, a valve is fixedly mounted between the first drain pipe and the second drain pipe, a drain end of the first drain pipe extends into an acetylene drain tank, a drain pipe is communicated with the top of the acetylene drain tank, a gas phase balance pipe is communicated with the top of the acetylene drain tank, the gas phase balance pipe is respectively communicated with an inlet of one booster matched with a first acetylene production device and an inlet of the second booster matched with a second acetylene production device, and a liquid outlet of the lower part of the acetylene drain tank is communicated with a liquid discharge pipe.

2. The device for automatically draining the booster of claim 1, further comprising a large backflow drain pipe, a small backflow drain pipe, a first communication U-shaped drain pipe, a first steam-water separator working fluid and a first outlet large pipe drain pipe which are matched with the first acetylene production device, wherein the large backflow drain pipe, the small backflow drain pipe, the first communication U-shaped drain pipe, the first steam-water separator working fluid and the first outlet large pipe drain pipe are all communicated with the first drain pipe.

3. The device for automatic drainage of the booster according to claim 1 or 2, further comprising a second communicated U-shaped drain pipe, a second steam-water separator working solution and a second outlet large pipe drain pipe which are matched with the second acetylene production device, wherein the second communicated U-shaped drain pipe, the second steam-water separator working solution and the second outlet large pipe drain pipe are all communicated with the second drain pipe.

4. The device for automatically draining water of a booster according to claim 1 or 2, wherein a liquid level meter is arranged on the acetylene water draining tank.

5. The device for automatically draining water of the booster as claimed in claim 3, wherein a liquid level meter is provided on the acetylene water draining tank.

6. The automatic drainage device for the booster according to claim 1, 2 or 5, wherein a sight glass is arranged on the drainage pipe close to the outlet of the drainage pipe, a first hand valve and a second hand valve are arranged on the drainage pipe at the front side and the rear side of the sight glass along the flow direction of the fluid, a regulating valve is arranged on the drainage pipe behind the second hand valve, and a bypass pipe connected with the second hand valve and the regulating valve in parallel is communicated with the drainage pipe.

7. The automatic water discharge device for booster of claim 3, wherein a sight glass is disposed on the drain pipe near the outlet of the drain pipe, a first hand valve and a second hand valve are mounted on the drain pipe at the front and rear sides of the sight glass along the fluid flowing direction, an adjusting valve is mounted on the drain pipe behind the second hand valve, and a bypass pipe connected in parallel with the second hand valve and the adjusting valve is communicated with the drain pipe.

8. The automatic water discharge device for booster of claim 4, wherein a sight glass is disposed on the drain pipe near the outlet of the drain pipe, a first hand valve and a second hand valve are mounted on the drain pipe at the front and rear sides of the sight glass along the fluid flowing direction, an adjusting valve is mounted on the drain pipe behind the second hand valve, and a bypass pipe connected in parallel with the second hand valve and the adjusting valve is communicated with the drain pipe.

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