KR102147651B1 - Manhole for cryogenic media - Google Patents

Abstract

In the present invention, a cryogenic liquefied gas is stored or used, and a body having a first connection part protruding outward, a cover part provided on the body and having a second connection part in close contact with the first connection part, and the first connection part And a sealing part provided between the second connection part and a fixing part that penetrates and couples the first connection part and the second connection part, wherein the fixing part, the first connection part, and the fixing part A heat transfer part is provided in the space between the second connection parts, and the cooling heat by the cryogenic liquefied gas is transferred to the fixing part through the heat transfer part, and the fixing part corresponds to the contraction amount of the first connection part and the second connection part. It is characterized in that the shrinkage is made to increase the sealing rate.

Description

Manhole for cryogenic media

The present invention relates to a cryogenic manhole with improved sealing performance, and relates to a technology in which the sealing performance is maintained by increasing the bonding force even in a cryogenic state of a pressure vessel manhole in which cryogenic liquefied gas is stored or used.

In accordance with the recent demand for the use of eco-friendly fuels, LNG carriers carrying liquefied natural gas have a method of driving an engine using LNG as fuel.

In order to drive an engine with LNG fuel, a high-pressure carburetor that can vaporize LNG and push it to the engine is required. This high-pressure carburetor is designed and manufactured so that the tube sheet and the head part are joined by welding because it is operated under ultra-low temperature and ultra-high pressure. However, due to problems such as perforation or cleaning of the tube, the head must be opened to check the condition of the tube and tube sheet and take action. However, the LNG vaporizer is manufactured by welding, so due to work restrictions in places where explosive LNG is operated. Maintenance is difficult in the field, and for maintenance, the carburetor must be separated from the ship and moved to a place where work is easy to proceed. Accordingly, manholes, costs, and time are largely required, and manholes are required for internal repair of the high-pressure carburetor in the field.

1 is a diagram showing a conventional manhole configuration. Referring to FIG. 1, a main body 20 connected to a storage tank 30 and a cover part 10 are installed on the upper part of the main body 20.

In order to use the manhole, it is necessary to secure structural integrity and airtightness in which the cover part is easy to disassemble and assemble by bolting and does not generate leaks under operating conditions of ultra-low temperature, ultra-high pressure.

In particular, in the cryogenic state, the amount of contraction between the main body and the cover is large due to direct contact, but since there is a gap due to the fastening of the externally coupled bolt, the cryogenic heat is not sufficiently transferred, There is a problem in that a gap may occur.

KR 10-1371890 B1

The present invention is to solve the above problem, even if the manhole of the heat exchange equipment storing or operating LNG is expanded due to internal pressure and contraction deformation due to cryogenic temperature, a cryogenic manhole capable of maintaining sealing performance by increasing the bonding force is provided. I want to provide.

In order to solve the above problem, the present invention is to store or use a cryogenic liquefied gas, wherein a body having a first connection part protruding outward, and a second connection part provided on the body and in close contact with the first connection part are formed. In a cryogenic manhole including a cover part, a sealing part provided between the first connection part and the second connection part, and a fixing part that penetrates and couples the first connection part and the second connection part, the fixing part and the first A heat transfer part is provided in a space between the connection part and the fixing part and the second connection part, so that cooling heat by the cryogenic liquefied gas is transferred to the fixing part through the heat transfer part, and the first connection part and the second connection part It is characterized in that the sealing rate is increased by shrinking the fixing portion corresponding to the amount of shrinkage.

A female screw hole is formed in the first connection part and the second connection part, and the fixing part is formed of the male screw and is coupled to the female screw hole.

An injection hole communicating with the female screw hole is formed on a side surface of the first connection part and the second connection part, and the heat transfer part is filled through the injection hole.

The heat transfer part is characterized in that copper and metal binding are mixed.

According to the configuration provided in the means for solving this problem, the following effects can be expected.

First, in a cryogenic state, a heat transfer part is formed between the manhole (body and the cover part) and the bolt to transfer cold heat in the cryogenic state, so that the bolt is contracted as much as the manhole, thereby preventing the bolt loosening effect. Therefore, it is possible to minimize leakage of cryogenic gas by increasing the bonding force between the body and the cover.

1 is a diagram showing a conventional manhole configuration.
Figure 2 is a cross-sectional view of a cryogenic manhole according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. Bars shown in the following description and accompanying drawings are presented for an overall understanding of the present invention, so the technical scope of the present invention is not limited thereto. In addition, detailed descriptions of known configurations and functions that may unnecessarily obscure the subject matter of the present invention will be omitted.

Figure 2 is a cross-sectional view of a cryogenic manhole according to an embodiment of the present invention.

Referring to FIG. 2, the present invention comprises a main body 100, a cover part 200, a sealing part 300, a fixing part 400, and a heat transfer part 500.

The body 100 stores or uses cryogenic liquefied gas, and a first connection part 120 protrudes outward.

Here, the main body 100 may be implemented as a pedestal coupled to the cover part 200, or itself may be implemented as a container. In the present invention, the main body 100 is used as a container, and it can be used as a heat exchanger for heat exchange of liquefied natural gas.

The cover part 200 is provided on the main body 100 and has a second connection part 220 that is in close contact with the first connection part 120.

The first connection part 120 and the second connection part 220 abut for mutual connection and may be viewed as a flange.

Here, the cover portion 200 is characterized in that it has a shape rounded upwards, has structural strength against high pressure, and minimizes the thickness to minimize the amount of deformation in the vertical direction due to contraction when the cryogenic liquefied gas is introduced into the interior.

The sealing part 300 may be interposed between the first connection part 120 and the first connection part 120 and the second connection part 220 to seal a gap. Here, the sealing part 300 is preferably formed of an elastic material.

The fixing part 400 is coupled through the first connection part 120 and the second connection part 220.

Here, the fixing part 400 is formed of a male screw, and a female screw hole is formed in the first connection part 120 and the second connection part 220 to be coupled.

The heat transfer part 500 is provided in a space between the fixing part 400 and the first connection part 120 and the fixing part 400 and the second connection part 220.

So, the cold heat by the cryogenic liquefied gas is transferred to the fixing part 400 through the heat transfer part 500, and corresponds to the shrinkage of the first connection part 120 and the second connection part 220. It is characterized in that the fixed portion 400 is contracted to increase the sealing rate.

Meanwhile, an injection hole 600 communicating with the female screw hole is formed on a side surface of the first connection part and the second connection part so that the heat transfer part 500 is filled through the injection hole 600. This is because the bolt of the fixing part 400 can be easily injected while the bolt of the fixing part 400 is fastened to the main body 100 and the cover part 200.

Here, the heat transfer part 500 is a foam in which copper (Cu) having a high heat transfer rate and metal binding are mixed, so that it can be filled without an empty space, and the cooling and heat of the cryogenic liquefied gas is fixed. ), so high heat transfer can be expected.

Therefore, the first connecting portion 120 and the second connecting portion 220 for connecting the main body 100 and the cover 200 are sufficiently contracted in the bolt, which is the fixing part 400, corresponding to the amount of contraction by the cryogenic liquefied gas. It is possible to increase the fastening force by preventing the fixing part 400 from being released. As a result, the high fastening force of the fixing part 400 prevents a gap between the first connection part 120 and the second connection part 220 from occurring, thereby improving the performance of the manhole for storing or using the cryogenic liquefied gas.

The present invention described above is not limited to the above-described embodiments, and any person having ordinary knowledge in the technical field to which the present invention pertains without departing from the gist of the present invention claimed in the following claims can be changed in various ways. It should be regarded as belonging to the scope of protection of the claims to the extent that it can be implemented.

100: main body
120: first connection
200: cover
220: second connection
300: sealing part
400: fixed part
500: heat transfer unit

Claims (4)

Cryogenic liquefied gas is stored or used, and a main body having a first connection part protruding outward, a cover part provided on the body and having a second connection part in close contact with the first connection part, the first connection part and the first connection part In the cryogenic manhole comprising a sealing portion provided between the two connecting portions, and a fixing portion that penetrates and couples the first connecting portion and the second connecting portion,
A heat transfer part is provided in the space between the fixing part and the first connection part and the fixing part and the second connection part,
The cold heat by the cryogenic liquefied gas is heat transferred to the fixing part through the heat transfer part, and the fixing part is contracted to correspond to the contraction amount of the first connection part and the second connection part to increase the sealing rate,
A female screw hole is formed in the first connection part and the second connection part, and the fixing part is formed as a male screw and is coupled to the female screw hole, and an injection hole communicating with the female screw hole is formed on the side of the first connection part and the second connection part. A cryogenic manhole, characterized in that the heat transfer part is filled through the injection hole. delete delete The method of claim 1,
The heat transfer unit,
Cryogenic manhole, characterized in that a mixture of copper and metal binding.

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