KR20140088974A - Suction pot level control apparatus of high pressure pump for vessel and method for operating the apparatus - Google Patents

Abstract

The present invention relates to a suction port level control device for a high pressure pump of a vessel, which has structural stability and visibility and allows gas to be smoothly discharged by removing unnecessary components, and an operation method thereof. According to the present invention, the suction port level control device for a high pressure pump of a vessel comprises a submersible high pressure pump operated while being submerged in ultralow temperature liquid and having a liquid suction port and a liquid discharge port formed on the lower and upper parts thereof, respectively; a vent pipe extended between the liquid suction and discharge ports from the submersible high pressure pump and discharging gas generated generated from the ultralow temperature liquid sucked through the liquid suction port; a measuring pipe having the upper end branched off from the vent pipe and the lower end connected to the lower part of the submersible high pressure pump; and a level sensor mounted on the measuring pipe and sensing a liquid level inside the submersible high pressure pump in real time.

Description

TECHNICAL FIELD The present invention relates to a suction level control apparatus for a high-pressure pump for a ship, and a method for operating the same. [0001] The present invention relates to a high-

The present invention relates to a suction level control apparatus for a marine high pressure pump and a method of operating the same, and more particularly, to a high pressure pump for a ship, which removes unnecessary components to secure structural stability and a watch, And a method for operating the same.

Generally, a submergible high pressure pump for transferring a cryogenic liquid is characterized in that it is continuously evacuated from the low-temperature liquid flowing into the interior of the submerged high-pressure pump due to penetration of the surrounding heat, Gas) is generated.

Therefore, unless the generated gas is discharged, the gas accumulates in the suction tank, and thus the supply of the cryogenic liquid from the suction tank is disturbed. Therefore, the cryogenic high pressure pump The level of the liquid can not be maintained.

Therefore, cavitation is generated in the pump-type high-pressure pump, thereby causing damage to the pump or making it impossible to continuously operate the pump.

In order to prevent this, a gas degassing pot is installed in the liquid high pressure pump so as to smoothly supply the cryogenic liquid from the suction tank while removing generated gas.

FIG. 1 is a conceptual diagram showing an overall structure of a suction level control apparatus for a high-pressure pump for a ship according to the prior art.

As shown in FIG. 1, in order to measure the suction level of a submergible high pressure pump 10, a gas removal port 3 is conventionally provided.

The liquid high-pressure pump 10 is operated by being immersed in the cryogenic liquid, and the liquid suction port 11 is formed on the lower side and the liquid discharge port 12 is formed on the upper side. The liquid suction port 11 is connected to the suction pipe 11 'and the liquid discharge port 12 is connected to the discharge pipe 12'.

The vent piping 20 is disposed between the liquid suction port 11 and the liquid discharge port 12 and extends from the submerged high pressure pump 10. The gas generated from the cryogenic liquid sucked through the liquid suction port (11) is discharged through the vent pipe (20).

A gas removal port 3 is provided in the vent pipe 20 and a level control valve 6 is provided in the downstream side of the gas removal port 3. The liquid level in the degassing port is measured by the level sensor 4, and the measured value at this level sensor 4 is sent to the level controller 5. In the level controller 5, the level control valve 6 is opened according to the measured value of the level sensor 4, and the gas is discharged to adjust the low temperature liquid level in the suction tank.

Although it is optimal to install the gas removing port 3 in a position close to the suction tank of the plugging high-pressure pump, the actual mounting position is higher than the height at which the gas removing port 3 is required, And securing the watch of the ship, there arises a situation in which it is only necessary to install it at a considerable distance from the plug-type high-pressure pump 10.

Therefore, depending on the installation of the gas removal port, the liquid and the gas are mixed due to the piping between the suction tank and the gas removal port, so that there are many obstacles to the level control.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a suction level control apparatus for a high pressure pump for a ship, which can eliminate unnecessary components to secure structural stability, Method.

According to an aspect of the present invention, there is provided a submergible high pressure pump, which is operated by being immersed in cryogenic liquid and has a liquid suction port on a lower side and a liquid discharge port on an upper side, )Wow; A vent pipe extending between the liquid suction port and the liquid discharge port, the vent pipe extending from the liquid suction port and discharging gas generated from the cryogenic liquid drawn through the liquid suction port; A measuring pipe branched from the vent pipe at an upper end thereof and connected to a lower portion of the jack-type high-pressure pump at a lower end thereof; A level sensor mounted on the measurement pipe for sensing in real time the liquid level within the liquid tank; And a control unit for controlling the suction level of the high pressure pump for a ship.

The apparatus for controlling a suction level of a high pressure pump for a ship further includes a level control valve installed in the vent pipe and opening and closing the vent pipe to send the gas discharged from the high pressure pump to the buffer tank side can do.

The apparatus for controlling a suction level of a high pressure pump for a ship comprises a level controller electrically connected to the level sensor and a control unit for controlling the level of the gas to be supplied to the buffer tank and for discharging the gas discharged from the high- The level controller may further include a level control valve for opening / closing the vent pipe, wherein the level controller and the level control valve are electrically connected to each other.

The upper end of the vent pipe is connected to a buffer tank through which the gas is transferred, the vent pipe is filled with the cryogenic liquid to a predetermined height, the cryogenic liquid is filled with the gas, It is preferable to sense the liquid level from the lower side of the liquid high-pressure pump to the liquid surface of the cryogenic liquid inside the vent pipe.

According to another aspect of the present invention, there is provided a submergible high pressure pump which is operated by being immersed in a cryogenic liquid, a liquid suction port is formed on a lower side, and a liquid discharge port is formed on an upper side, Sensing the liquid level to the liquid surface of the cryogenic liquid filled in the vent pipe for discharging the gas generated from the cryogenic liquid sucked from the lower side of the liquid suction port through the liquid suction port and discharging the gas through the vent piping A method for operating a suction level control device of a high pressure pump for a ship is provided.

According to the present invention, the following effects can be achieved.

The present invention relates to a method and an apparatus for detecting a liquid level of a liquid from a liquid-side high-pressure pump to a vent pipe through a level sensor and discharging a gas inside a vent pipe, it is possible to smoothly discharge the gas without installing a degassing pot.

Accordingly, the present invention eliminates the need to worry about any liquid and gaseous inclusion inside the vent pipe, and discharges the gas by a level control valve electrically connected to the level controller according to the real-time sensing of the level sensor, By continuously maintaining the liquid level of the suction tank, it is possible to prolong the life of the whole device while improving the durability of the liquid high pressure pump by preventing various problems that may cause the pump to be damaged or unable to operate continuously. Will be.

1 is a conceptual view showing the overall structure of a suction level control apparatus for a high pressure pump for a ship according to the prior art, and
2 is a conceptual diagram showing the overall structure of a suction level control apparatus for a marine high pressure pump according to an embodiment of the present invention.

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

2 is a conceptual diagram showing the overall structure of a suction level control apparatus for a marine high pressure pump according to an embodiment of the present invention.

As shown in the drawing, the present invention includes a submergible high pressure pump 10, a vent pipe 20, a measurement pipe 30, and a level sensor 40 It is possible to recognize that the structure is included.

The liquid high-pressure pump 10 is operated by being immersed in the cryogenic liquid, and the liquid suction port 11 is formed on the lower side and the liquid discharge port 12 is formed on the upper side.

The liquid suction port 11 is connected to the suction pipe 11 'and the liquid discharge port 12 is connected to the discharge pipe 12'.

The vent piping 20 is disposed between the liquid suction port 11 and the liquid discharge port 12 and extends from the liquid high-pressure pump 10 and is discharged from the cryogenic liquid sucked through the liquid suction port 11 Gas is discharged.

The upper end of the measuring pipe 30 is branched from the vent pipe 20 and the lower end of the measuring pipe 30 is connected to the vicinity of the liquid discharge port 12 of the submerged high pressure pump 10.

The level sensor 40 is mounted on the measurement pipe 30 and senses the liquid level in the liquid high-pressure pump 10 in real time.

Therefore, the gas generated from the cryogenic liquid at the level sensor 40 senses in real time and is accumulated around the liquid suction port 11 can be discharged through the vent pipe 20.

The present invention can be applied to the embodiment described above, and it goes without saying that the following embodiments are also applicable.

The vent pipe 20 forms a passage through which gases generated from the cryogenic liquid are discharged as described above. The vent pipe 20 extends up to a predetermined height from the high-pressure liquid pump 10 and reaches a predetermined height of the vent pipe 20 The cryogenic liquid is filled and the remaining space is filled with gas generated from the cryogenic liquid.

In the conventional degassing pot, a certain portion of the vent pipe is expanded so as to fill the inside with a cryogenic liquid to a certain height, and the rest to be filled with gas. Due to such a structural feature, In order to support the port and maintain the structural stability, it is inevitable to use a material such as a supporting structure, and thus it was difficult to secure a watch.

In contrast, according to the present invention, the upper end of the vent pipe 20 is connected to a buffer tank (not shown) through which the gas is transferred, a cryogenic liquid is built up to a certain height in the vent pipe 20, The upper part is filled with gas.

Therefore, since the level sensor 40 senses the liquid level from the lower side of the liquid high-pressure pump 10 to the liquid surface of the cryogenic liquid inside the vent pipe 20, it is necessary to install the same components as the above- I will not.

The vent pipe 20 may further include a level control valve 60 that opens and closes a flow path inside the vent pipe 20 that sends the gas discharged from the plug-type high-pressure pump 10 to the buffer tank side.

Here, the level control valve 60 can be controlled by the level controller 50, which is electrically connected to the level sensor 40.

Therefore, according to the present invention, the liquid surface of the cryogenic liquid filled in the vent pipe 20 for discharging the gas generated from the cryogenic liquid sucked through the liquid suction port 11 from the lower side of the liquid high-pressure pump 10 The level sensor 40 senses the liquid level of the level sensor 40 and discharges the gas through the vent pipe 20. The level controller 50 electrically connected to the level sensor 40 discharges the gas through the level control valve 60, By performing an opening /

Therefore, when the level sensor 40 reaches the liquid level required to discharge the gas in accordance with the liquid level to the liquid level of the cryogenic liquid filled in the vent pipe 20 which is sensed in real time, the liquid level information sensed by the level sensor 40 becomes level The level controller 50 transmits the signal instructing the opening of the level control valve 60 so that the level control valve 60 opens the flow path of the vent pipe 20, It is transported to the tank side.

As described above, according to the present invention, it is possible to provide a suction level control apparatus for a high-pressure vessel for a ship and a method for operating the same, which are capable of eliminating unnecessary components and securing a structural stability and a watch, .

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

10: Pump-type high-pressure pump 11: Liquid suction port
11 ': Suction piping 12: Liquid discharge port
12 ': discharge pipe 20: vent pipe
30: Measurement piping 40: Level sensor
50: Level controller 60: Level control valve

Claims (5)

A submergible high pressure pump operated by being immersed in the cryogenic liquid and having a liquid suction port on the lower side and a liquid discharge port on the upper side;
A vent pipe extending between the liquid suction port and the liquid discharge port, the vent pipe extending from the liquid suction port and discharging gas generated from the cryogenic liquid drawn through the liquid suction port;
A measuring pipe branched from the vent pipe at an upper end thereof and connected to a lower portion of the jack-type high-pressure pump at a lower end thereof;
A level sensor mounted on the measurement pipe for sensing in real time the liquid level within the liquid tank; Wherein the high-pressure pump is provided with a high-pressure pump. The method according to claim 1,
Further comprising a level control valve installed in the vent pipe for opening and closing the vent pipe to send the gas discharged from the pump high pressure pump to the buffer tank side. Level control device. The method according to claim 1,
The apparatus for controlling a suction level of a high pressure pump for a ship comprises a level controller electrically connected to the level sensor and a control unit for controlling the level of the gas to be supplied to the buffer tank and for discharging the gas discharged from the high- And a level control valve for opening and closing the vent pipe,
Wherein the level controller and the level control valve are electrically connected to each other. The method according to claim 1,
The upper end of the vent pipe is connected to a buffer tank through which the gas is transferred. The vent pipe is filled with the cryogenic liquid to a predetermined height, the cryogenic liquid is filled with the gas,
Wherein the level sensor senses a liquid level from a lower side of the liquid high-pressure pump to a liquid level of the cryogenic liquid inside the vent pipe. A submergible high pressure pump in which the liquid suction port is formed at the lower side and the liquid discharge port is formed at the upper side, and the liquid suction port is connected to the lower side of the liquid high- And a control unit for sensing a liquid level to the liquid surface of the cryogenic liquid filled in the vent pipe for discharging the gas generated from the cryogenic liquid sucked through the vent pipe and discharging the gas through the vent pipe. A method for operating a level control device.

Images