KR102210579B1 - Apparatus for filling pressure vessels with liquefied gases - Google Patents

Abstract

According to the present invention, a liquefied gas filling device comprises: a plurality of storage tanks (10) storing various types of liquefied gas; and a pump (120) transmitting liquefied gas stored in the storage tank (10) to a tank lorry vehicle (20). The pump (120) can be moved between the storage tanks (10), and the storage tanks (10) share the pump (120).

Description

Liquefied gas filling device{APPARATUS FOR FILLING PRESSURE VESSELS WITH LIQUEFIED GASES}

The present invention relates to a liquefied gas filling device, and in particular, by sharing one cryogenic pump for a plurality of storage tanks, it is possible to reduce equipment costs and prevent loss of liquefied gas, as well as a connection between the cryogenic pump and the storage tank. It relates to a liquefied gas filling device capable of stabilizing the state.

High-pressure oxygen gas, nitrogen gas, argon gas, carbon dioxide gas, etc. are required to produce steel products in a steel mill, and these gases are stored as liquid liquefied gas and supplied to the steel mill.

These liquefied gases are accommodated in a storage tank of a liquefied gas receiving facility in a cryogenic state, and if necessary, the liquefied gas is transported from the storage tank to the steel mill using a tank lorry vehicle.

At this time, the tank lorry vehicle receives liquefied gas from the storage tank using a cryogenic pump provided in the storage tank, and the storage tank is separately installed for each gas such as a liquefied oxygen storage tank, a liquefied nitrogen storage tank, and a liquefied argon storage tank, and the like. The cryogenic pump is installed one by one for each of the storage tanks, and serves to pump liquefied gas to the tank lorry vehicle.

As such, conventionally, since the cryogenic pumps are installed one by one for each storage tank, as shown in FIG. 1, there is a problem that excessive costs are generated to install several cryogenic pumps that cost tens of millions of won or more.

As such, examples of the prior art in which pumps are separately installed for each storage tank are disclosed in Patent Publication No. 10-2007-0000132 (name of the invention: method of filling low-temperature liquefied gas) or Patent Publication No. 10-2018-0138213 (invention Name: Method and device for filling high pressure storage tanks) and the like.

Meanwhile, in order to solve the above problem, a method of filling the tank lorry vehicle with liquefied gas by lowering the pressure in the storage tank can be considered, but in this case, a loss of liquefied gas occurs because part of the liquefied gas is discarded to reduce the pressure. There is this.

The present invention was derived to solve this problem, and by sharing one cryogenic pump for a plurality of storage tanks, it is possible to reduce equipment cost and prevent loss of liquefied gas, as well as between the cryogenic pump and the storage tank. The technical task is to provide a liquefied gas filling device that can stabilize the connection state.

As a means for achieving the above object, the liquefied gas filling apparatus according to the present invention includes a plurality of storage tanks for storing various liquefied gases, and a pump for transferring the liquefied gas stored in the storage tank to a tank lorry vehicle. In the apparatus, the pump is movable between the plurality of storage tanks, and the plurality of storage tanks share the pump.

Here, the liquefied gas filling device includes a pump conveying device, and the pump conveying device includes a bogie moving on a railroad track, a pump positioned on the bogie, and a first connecting pipe connecting the pump to the storage tank And, it is preferable to include a second connection pipe for connecting the pump to the tank lorry vehicle.

In addition, it is preferable to further include a pump height adjusting device for adjusting the height of the pump with respect to the bogie, and a bogie position adjusting device for adjusting the position of the bogie with respect to the railroad track.

Here, the pump height adjusting device comprises: a pump support installed under the pump to support the pump, a spring installed between the bogie and the pump support to support the pump support from the bogie, and the pump on the bogie It is preferable to adjust the height of the pump with respect to the bogie by adjusting the distance between the bogie and the pump support by including an anchor bolt fixing the support, and by tightening or loosening the anchor bolt.

In addition, the bogie position adjustment device includes a stopper installed at a certain position of the railroad track, and when the bogie moves on the railroad track, the stopper is operated to stop the bogie at a certain position of the railroad track. It is preferable to adjust the position of the bogie.

Meanwhile, it is preferable that the pump transfer device further includes a storage tank-side flange formed at one end of the first connection pipe, and a tank lorry-side flange formed at one end of the second connection pipe.

According to the present invention, by sharing one cryogenic pump for a plurality of storage tanks, liquefied gas capable of reducing equipment costs and preventing loss of liquefied gas, as well as stabilizing the connection state between the cryogenic pump and the storage tank. A charging device can be provided.

1 is a conceptual diagram of a conventional liquefied gas filling device,
2 is a conceptual diagram of a liquefied gas filling device according to the present invention,
3 is a perspective view of a liquefied gas filling device according to the present invention.

The configuration shown in the following embodiments or drawings is merely a preferred example of the present invention, and it is revealed that there are various modifications that can be substituted for it.

2 and 3 are conceptual views and perspective views of a liquefied gas filling device according to the present invention.

2 and 3, first, the liquefied gas filling device according to the present invention delivers a plurality of storage tanks 10 for storing various liquefied gases and the liquefied gas stored in the storage tank 10 to the tank lorry vehicle 20. It includes a pump 120, the pump 120 is movable between the plurality of storage tanks 10, the plurality of storage tanks 10 share the pump 120.

At this time, the plurality of storage tanks 10 share the pump 120 through a pump transfer device, wherein the pump transfer device includes a bogie 110 moving on the railroad track 100, and the bogie 110 ) A pump 120 positioned above, a first connection pipe 130 connecting the pump 120 to the storage tank 10, and a first connecting pipe 130 connecting the pump 120 to the tank lorry vehicle 20 It consists of including two connecting pipes (140).

Therefore, the pump 120 positioned on the bogie 110 can move on the railroad 100, and the first connection pipe 130 connecting the pump 120 to the storage tank 10 and the By using the second connection pipe 140 connecting the pump 120 to the tank lorry vehicle 20, it can be freely connected to each of the plurality of storage tanks 10 and the tank lorry vehicle 20.

However, at this time, since the liquefied gas stored in the storage tank 10 exists in a high-pressure state, if you try to connect the pump 120 to the storage tank 10 or the tank lorry vehicle 20 while moving the pump 120, the connection state is unstable. There may be a serious problem of leaking liquefied gas.

Accordingly, the liquefied gas filling device according to the present invention includes a configuration capable of stabilizing the connection state when the pump 120 is moved and connected to the storage tank 10 or the tank lorry vehicle 20.

This configuration is made through a pump height adjusting device that adjusts the height of the pump 120 with respect to the bogie 110 and a bogie position adjusting device that adjusts the position of the bogie 110 with respect to the railroad track 100. I can.

Here, the pump height adjusting device is installed under the pump 120 to support the pump 120 and the pump support 210 is installed between the bogie 110 and the pump support 210 and the bogie ( It includes a spring 220 for supporting the pump support 210 from 110, and an anchor bolt 230 for fixing the pump support 210 to the bogie 110.

Accordingly, the height of the pump 120 with respect to the bogie 110 is adjusted by adjusting the distance between the bogie 110 and the pump support 210 by tightening or loosening the anchor bolt 230.

At this time, preferably, the spring 220 and the anchor bolt 230 are respectively installed at four corners of the pump support 210, and in this case, the bogie 110 by tightening or loosening each of the four anchor bolts 230 ) Can be adjusted more precisely the height of the pump 120.

According to this configuration, when the pump 120 is connected to the storage tank 10 or the tank lorry vehicle 20, the height of the pump 120 can be precisely adjusted, so that the pump 120 and the storage tank (10) Or it is possible to stabilize the connection state along the height direction in the connection between the tank lorry vehicle (20).

Meanwhile, the bogie position adjusting device includes a stopper 310 installed at a certain position of the railroad track 100.

Therefore, when the bogie 110 moves on the railroad track 100, the stopper 310 is operated to stop the bogie 110 at a certain position of the railroad track 100, thereby the bogie for the railroad track 100 Adjust the position of (110).

At this time, preferably, the stopper 310 is installed at a certain position on the railroad track 100, and the stopper 310 is configured to rotate at a certain angle with respect to the railroad track 100.

In this case, when the stopper 310 rotates at a certain angle, the movement of the bogie 110 is blocked, and when the stopper 310 rotates at a different predetermined angle, the movement of the bogie 110 is opened.

According to this configuration, when the pump 120 is connected to the storage tank 10 or the tank lorry vehicle 20, the position of the pump 120 can be precisely controlled, so that the pump 120 and the storage tank (10) Or, in the connection between the tank lorry vehicles 20, the connection state in the direction along the railroad 100 can be stabilized.

In addition, in order to further stabilize the connection state between the pump 120 and the storage tank 10 or the tank lorry vehicle 20, the power of the pump 120 is connected to the pump height adjusting device and the bogie position adjusting device. It is also possible to do it.

In this case, the power of the pump 120 is connected to the pump height control device and the cart position control device via a limit switch, and if the pump height control device and the cart position control device have a predetermined control value, the Turn on the limit switch so that the power of the pump 120 can be supplied to the pump 120, and if the pump height control device and the balance position control device do not have a predetermined control value, the limit switch is turned off. Thus, the power of the pump 120 cannot be supplied to the pump 120.

According to this configuration, if the pump 120 does not have a predetermined height and position by the pump height adjusting device and the bogie position adjusting device, the power of the pump 120 is cut off and the pump 120 can be driven. By doing so, it is possible to efficiently prevent leakage of liquefied gas.

Meanwhile, the pump transfer device further includes a storage tank side flange 410 formed at one end of the first connection pipe 130 and a tank lorry side flange 420 formed at one end of the second connection pipe 140 can do.

In this case, the storage tank side flange 410 can be easily coupled with the flange provided on the storage tank 10, and the tank lorry side flange 420 can be easily coupled with the flange provided on the tank lorry vehicle 20. You will be able to.

10: storage tank 20: tank lorry vehicle
100: rail 110: bogie
120: pump 130: first connection pipe
140: second connection pipe 210: pump support
220: spring 230: anchor bolt
310: stopper 410: storage tank side flange
420: tank lorry side flange

Claims (6)

delete delete delete A plurality of storage tanks 10 for storing various liquefied gases,
In the liquefied gas filling apparatus comprising a pump 120 for delivering the liquefied gas stored in the storage tank 10 to the tank lorry vehicle 20,
The pump 120 is movable between the plurality of storage tanks 10,
The plurality of storage tanks 10 share the pump 120,
The liquefied gas filling device includes a pump transfer device,
The pump transfer device,
A bogie 110 that moves on the railroad track 100,
A pump 120 positioned on the bogie 110,
A first connection pipe 130 connecting the pump 120 to the storage tank 10,
Includes a second connection pipe 140 connecting the pump 120 to the tank lorry vehicle 20,
The liquefied gas filling device,
A pump height adjusting device for adjusting the height of the pump 120 with respect to the bogie 110,
Further comprising a bogie position adjusting device for adjusting the position of the bogie 110 with respect to the railroad 100,
The pump height adjustment device,
A pump support 210 installed under the pump 120 to support the pump 120,
A spring 220 installed between the bogie 110 and the pump support 210 to support the pump support 210 from the bogie 110,
Including an anchor bolt 230 for fixing the pump support 210 to the bogie 110,
Characterized in that the height of the pump 120 with respect to the bogie 110 is adjusted by adjusting the gap between the bogie 110 and the pump support 210 by tightening or loosening the anchor bolt 230 Liquefied gas filling device. The method of claim 4,
The balance position adjustment device,
Including a stopper 310 installed at a certain position of the railroad 100,
When the bogie 110 moves on the railroad track 100, the stopper 310 is operated to stop the bogie 110 at a certain position of the railroad track 100, thereby making the bogie for the railroad track 100 ( 110) liquefied gas filling device, characterized in that to adjust the position. The method according to claim 4 or 5,
The pump transfer device,
A storage tank side flange 410 formed at one end of the first connection pipe 130,
Liquefied gas filling device, characterized in that it further comprises a tank lorry side flange (420) formed at one end of the second connection pipe (140).

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