KR102601309B1 - Discharge pipe connecting apparatus for pump tower of liquid cargo - Google Patents

Abstract

The present invention relates to a discharge pipe of a pump tower provided inside a liquid cargo hold; a discharge pump provided inside the liquid cargo hold and discharging the liquid cargo contained in the liquid cargo hold through the discharge pipe; And a connection pipe disposed to be inclined upward to interconnect the discharge side of the discharge pump and the discharge pipe and forming an acute angle with respect to the discharge pipe, thereby reducing the pressure decrease due to the flow of liquid cargo through the discharge pump. This relates to a discharge pipe connection device for the pump tower of a liquid cargo hold that allows for significant improvement.

Description

Discharge pipe connection device for pump tower of liquid cargo hold {DISCHARGE PIPE CONNECTING APPARATUS FOR PUMP TOWER OF LIQUID CARGO}

The present invention relates to a discharge pipe connecting device for a pump tower in a liquid cargo hold, and more specifically, to a discharge pipe connecting device for a pump tower in a liquid cargo hold that can significantly improve the pressure drop due to the flow of liquid cargo through a discharge pump. It's about.

A general pump tower, such as “Pump tower structure of an LNG storage tank” (hereinafter referred to as “prior art”) in Publication Patent No. 10-2015-0069084, is a structure installed inside a cargo hold to unload and unload liquid cargo such as LNG contained inside the cargo hold. am.

A typical pump tower as described above is usually composed of a triangular platform tower with two discharge pipes and one emergency pipe as its axis.

Among these, the discharge pipe is connected to the discharge pump at the bottom of the cargo hold, and is used for the unloading and unloading of liquid cargo accommodated in the cargo hold. At this time, the end of the connection pipe connecting the discharge pipe and the discharge side of the discharge pump is connected to the discharge pipe. It is connected at an angle of 90 degrees.

The end of the connecting pipe is connected to the discharge pipe at an angle of 90 degrees, which can be said to be a design method that takes into account the inflow into the discharge pump due to the reverse flow of liquid cargo remaining in the connection pipe when unloading operations are stopped.

However, this structure connected at an angle of 90 degrees also faced the problem of not smoothly discharging the liquid cargo due to the pressure drop of the liquid cargo discharged from the discharge pump.

Public Patent No. 10-2015-0069084

The present invention was invented to improve the above problems, and is to provide a discharge pipe connection device for the pump tower of the liquid cargo hold that can significantly improve the pressure drop due to the flow of liquid cargo through the discharge pump. .

In order to achieve the above object, the present invention includes a discharge pipe of a pump tower provided inside a liquid cargo hold; a discharge pump provided inside the liquid cargo hold and discharging the liquid cargo contained in the liquid cargo hold through the discharge pipe; And it is possible to provide a discharge pipe connection device for a pump tower of a liquid cargo hold, characterized in that it includes a connection pipe disposed to be inclined upward to interconnect the discharge side of the discharge pump and the discharge pipe and forming an acute angle with respect to the discharge pipe.

Here, the acute angle is characterized in that it is 30 to 60 degrees.

At this time, the connection pipe includes an inclined connection part connected from the discharge pipe and disposed at an acute angle with the discharge pipe, a vertical connection part extending parallel to the discharge pipe from an end of the inclined connection part and connected to the discharge side of the discharge pump, It is characterized in that it includes a pressure reduction part provided between the inclined connection part and the vertical connection part to reduce the flow pressure of the liquid cargo discharged through the discharge pump.

In addition, the inclined connection portion and the vertical connection portion have the same inner diameter.

In addition, the pressure reduction unit is characterized in that it includes a puff housing that has a cross-sectional area larger than the inner diameter of the inclined connection part and the vertical connection part and forms an internal space in the shape of a sphere or an elliptical sphere.

And, a connection angle provided between the discharge pipe and the upper end of the connection pipe and between the discharge side of the discharge pump and the lower end of the connection pipe, and varying the acute angle formed by the connection pipe with respect to the discharge pipe within a certain range. It is characterized in that it further includes a variable part.

In addition, the connection angle variable portion includes a ball joint provided at an upper end of the connection pipe to be rotatable in all directions with respect to the discharge pipe, and a joint housing provided in the discharge pipe to accommodate the ball joint, and the connection pipe The acute angle is varied within a certain range by varying the distance from the lower end to the discharge side of the discharge pump.

In addition, the connection angle variable part includes a flexible hose made of cryogenic resin connecting the discharge side of the discharge pump and the lower end of the connection pipe, and the connection pipe rotatably connected to the flexible hose or the connection pipe. It is characterized in that it includes a driving actuator that displaces the lower end of the connection pipe with respect to the upper end.

In addition, the driving actuator includes a connecting ring mounted on the outer peripheral surface of the flexible hose or the outer peripheral surface of the connecting pipe, a rod extending from the outer surface of the connecting ring, and removably accommodates the rod, and moves the rod using fluid pressure. It is characterized in that it includes a fluid cylinder for entering and exiting the rod.

According to the present invention having the above configuration, the discharge pipe of the pump tower provided inside the liquid cargo hold; a discharge pump provided inside the liquid cargo hold and discharging the liquid cargo contained in the liquid cargo hold through the discharge pipe; and a connection pipe disposed to be inclined upward to interconnect the discharge side of the discharge pump and the discharge pipe and forming an acute angle with respect to the discharge pipe, even if the connection pipe is structured to form an acute angle with respect to the discharge pipe. Even if the discharge of liquid cargo is stopped, durability can be maintained in response to an increase in the amount of backflow of liquid cargo remaining inside the connection pipe, and the problem of discharge pressure drop caused by the discharge pump can also be solved.

Figure 1 is a conceptual diagram showing the overall structure of the discharge pipe connection device for the pump tower of the liquid cargo hold according to an embodiment of the present invention.
Figure 2 is a conceptual diagram showing the overall structure of the discharge pipe connection device for the pump tower of the liquid cargo hold according to another embodiment of the present invention.
Figure 3 is a conceptual diagram showing the overall structure of the discharge pipe connection device for the pump tower of the liquid cargo hold according to another embodiment of the present invention.
Figure 4 is a simulation conceptual diagram showing the flow of liquid cargo according to various angle changes of the discharge pipe connection device for the pump tower of the liquid cargo hold according to an embodiment of the present invention compared with the existing piping structure.

The advantages and features of the present invention and methods for achieving them will become clear by referring to the embodiments described in detail below along with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms.

The examples herein are provided to make the disclosure of the present invention complete and to fully inform those skilled in the art of the scope of the invention.

And the present invention is only defined by the scope of the claims.

Accordingly, in some embodiments, well-known components, well-known operations and well-known techniques are not specifically described in order to avoid ambiguous interpretation of the present invention.

In addition, the same reference numerals refer to the same components throughout the specification, and the terms used (mentioned) in the specification are for explaining embodiments and are not intended to limit the present invention.

In this specification, the singular also includes the plural unless specifically stated in the phrase, and elements and operations referred to as 'including (or, including)' do not exclude the presence or addition of one or more other elements and operations. .

Unless otherwise defined, all terms (including technical and scientific terms) used in this specification may be used with meanings that can be commonly understood by those skilled in the art to which the present invention pertains.

Additionally, terms defined in commonly used dictionaries are not interpreted ideally or excessively unless they are defined.

Hereinafter, preferred embodiments of the present invention will be described with reference to the attached drawings.

First, Figure 1 is a conceptual diagram showing the overall structure of a discharge pipe connection device for a pump tower in a liquid cargo hold according to an embodiment of the present invention.

And, Figure 2 is a conceptual diagram showing the overall structure of the discharge pipe connection device for the pump tower of the liquid cargo hold according to another embodiment of the present invention.

And, Figure 3 is a conceptual diagram showing the overall structure of the discharge pipe connection device for the pump tower of the liquid cargo hold according to another embodiment of the present invention.

In addition, Figure 4 is a simulation concept diagram showing the flow of liquid cargo according to various angle changes of the discharge pipe connection device for the pump tower of the liquid cargo hold according to an embodiment of the present invention compared with the existing piping structure.

As shown, the present invention includes a discharge pipe 10 of a pump tower provided inside the liquid cargo hold, a discharge pump 20 provided inside the liquid cargo hold for discharging the liquid cargo contained in the liquid cargo hold through the discharge pipe 10, and , It can be seen that it includes a connection pipe 30 that is disposed to be inclined upward to connect the discharge side of the discharge pump 20 and the discharge pipe 10 and forms an acute angle with respect to the discharge pipe 10.

Here, the connection pipe 30 is arranged to form an acute angle with respect to the discharge pipe 10 to prevent a drop in the flow pressure of the liquid cargo when discharging the liquid cargo to the discharge pipe 10 side by the discharge pump 20 and to ensure smooth operation. This is to ensure that it can be discharged through the discharge pipe (10).

At this time, the acute angle is preferably 30 to 60 degrees as shown in Figures 4(a) to 4(c), and the acute angle gradually decreases from 75 degrees as shown in Figure 4(d) to the angle shown in Figure 4(e). As a result of an experiment compared to the existing piping connection structure, it was confirmed that the flow pressure of the discharge pump 20 was significantly reduced starting when the angle formed by the connection pipe 30 with respect to the discharge pipe 10 was 60 degrees. there was.

When the acute angle is most preferably 45 degrees, the effect of reducing the flow pressure of the pump can be maximized.

Here, if the acute angle is less than 30 degrees, welding is difficult, and there is a problem that the amount of liquid cargo flowing back toward the discharge pump 20 increases when the unloading operation of the liquid cargo is stopped.

At this time, the acute angle of 60 degrees can be said to be the upper limit, that is, the inflection point, at which the decrease in flow pressure of liquid cargo changes rapidly.

On the other hand, the connection pipe 30 includes an inclined connection part 31 connected from the discharge pipe 10 and disposed at an acute angle with the discharge pipe 10, and extending parallel to the discharge pipe 10 from the end of the inclined connection part 31. It may include a vertical connection part 32 connected to the discharge side of the discharge pump 20.

Here, the connection pipe 30 is provided between the inclined connection part 31 and the vertical connection part 32, as shown in FIG. 2, and is a pressure reduction part ( 33) may also be included.

At this time, the inner diameters of the inclined connecting portion 31 and the vertical connecting portion 32 are the same, and the pressure reducing portion 33 has a cross-sectional area larger than the inner diameter of the inclined connecting portion 31 and the vertical connecting portion 32 and has a sphere or elliptical shape. Of course, it is possible to apply a structure including a puff housing 33 forming an internal space.

Meanwhile, the present invention artificially and forcibly reduces the flow pressure of the liquid cargo to improve the flow of the liquid cargo, between the upper end of the discharge pipe 10 and the connection pipe 30, and the discharge side of the discharge pump 20. A connection angle variable part 40 may be further provided between the lower ends of the connection pipe 30 and changes the acute angle formed by the connection pipe 30 with respect to the discharge pipe 10 within a certain range.

Here, the connection angle variable part 40 is connected to a ball joint 41 provided at the upper end of the connection pipe 30 so as to be rotatable in all directions with respect to the discharge pipe 10, as shown in FIG. 3, and the discharge pipe 10. It may include a joint housing 42 that accommodates the ball joint 41.

At this time, the acute angle may be varied within a certain range by varying the distance from the lower end of the connection pipe 30 to the discharge side of the discharge pump 20.

In addition, the connection angle variable part 40 includes a flexible hose 43 made of cryogenic resin that interconnects the discharge side of the discharge pump 20 and the lower end of the connection pipe 30, and a flexible hose 43 or a connection pipe ( It may also include a driving actuator 45 that displaces the lower end of the connecting pipe 30 with respect to the upper end of the connecting pipe 30 that is rotatably coupled to the 30).

Here, the driving actuator 45 includes a connecting ring 44 mounted on the outer peripheral surface of the flexible hose 43 or the outer peripheral surface of the connecting pipe 30, a rod 46 extending from the outer surface of the connecting ring 44, and Of course, it may also include a fluid cylinder 47 that accommodates the rod 46 in an accessible manner and moves the rod 46 in and out using fluid pressure.

Therefore, the drive actuator 45 rotates the lower end of the connector 30 along the arc-shaped arrow direction as shown, thereby variably adjusting the acute angle as described above in real time, thereby maintaining the optimal flow state of the liquid cargo. You might be able to keep it.

As described above, the present invention changes the connection angle between the discharge pipe 10 and the discharge pump 20 from the existing 90 degrees to an acute angle in the range of 30 to 60 degrees, so that the liquid cargo discharged through the discharge pump 20 Power loss that occurs when the flow passes through the upper part of the connector 30 can be minimized.

Here, the change in flow pressure of the liquid cargo as shown in FIGS. 4(a) to 4(c) is achieved by adjusting the acute angle formed by the connection pipe 30 and the discharge pipe 10, as the above-mentioned acute angle decreases from 60 degrees. It was found that the effect of preventing a decrease in the flow pressure of the discharge pump 20 occurred.

As described above, it can be seen that the basic technical idea of the present invention is to provide a discharge pipe connection device for the pump tower of the liquid cargo hold that can significantly improve the pressure drop due to the flow of liquid cargo through the discharge pump. .

And, of course, many other modifications and applications are possible for those skilled in the art within the scope of the basic technical idea of the present invention.

10...Discharge pipe
20...Discharge pump
30...connector
31...inclined connection
32...vertical connection
33...Pressure reduction unit, puff housing
40...Connection angle variable part
41...Ball joint
42...joint housing
43...Flexible hose
44...Connecting ring
45...Drive actuator
46...load
47...fluid cylinder

Claims (9)

Discharge pipe of the pump tower provided inside the liquid cargo hold;
a discharge pump provided inside the liquid cargo hold and discharging the liquid cargo contained in the liquid cargo hold through the discharge pipe; and
It is disposed to be inclined upward to connect the discharge side of the discharge pump and the discharge pipe, and includes a connection pipe forming an acute angle with respect to the discharge pipe,
A connection angle variable portion is provided between the discharge pipe and the upper end of the connection pipe and between the discharge side of the discharge pump and the lower end of the connection pipe, and changes the acute angle formed by the connection pipe with respect to the discharge pipe within a certain range. Further comprising, the connection angle variable part,
A ball joint provided at the upper end of the connection pipe to be rotatable in all directions with respect to the discharge pipe,
It includes a joint housing provided in the discharge pipe to accommodate the ball joint,
A discharge pipe connection device for a pump tower in a liquid cargo hold, characterized in that the acute angle is varied within a certain range by varying the distance from the lower end of the connection pipe to the discharge side of the discharge pump. In claim 1,
A discharge pipe connection device for a pump tower in a liquid cargo hold, wherein the acute angle is 30 to 60 degrees. In claim 1,
The connector is,
an inclined connection part connected to the discharge pipe and disposed at an acute angle with the discharge pipe;
a vertical connection portion extending parallel to the discharge pipe from an end of the inclined connection portion and connected to the discharge side of the discharge pump;
A discharge pipe connection device for a pump tower in a liquid cargo hold, characterized in that it includes a pressure reduction part provided between the inclined connection part and the vertical connection part to reduce the flow pressure of the liquid cargo discharged through the discharge pump. In claim 3,
A discharge pipe connection device for a pump tower in a liquid cargo hold, wherein the inclined connection portion and the vertical connection portion have the same inner diameter. In claim 3,
The pressure reducing unit,
A discharge pipe connection device for a pump tower in a liquid cargo hold, comprising a puff housing having a cross-sectional area larger than the inner diameter of the inclined connection portion and the vertical connection portion and forming an internal space in the shape of a sphere or elliptical sphere. delete delete In claim 1,
The connection angle variable part,
A flexible hose made of cryogenic resin connecting the discharge side of the discharge pump and the lower end of the connection pipe,
A discharge pipe connection device for a pump tower in a liquid cargo hold, comprising a driving actuator that displaces a lower end of the flexible hose or the connecting pipe with respect to an upper end of the connecting pipe that is rotatably coupled to the flexible hose or the connecting pipe. In claim 8,
The driving actuator is,
A connecting ring mounted on the outer peripheral surface of the flexible hose or the outer peripheral surface of the connector pipe,
A rod extending from the outer surface of the connecting ring,
A discharge pipe connection device for a pump tower in a liquid cargo hold, comprising a fluid cylinder that movably accommodates the rod and moves the rod in and out using fluid pressure.

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