KR101009815B1 - An Insulation Panel Assembly for Liquefied Gas Carrying Tank and An Assembling Method thereof - Google Patents

Abstract

The present invention relates to a heat insulating panel assembly for a liquefied gas storage tank and a method of installing the same, the configuration of the heat insulating panel portion is provided with a through hole penetrating the upper and lower inside, and the stud bolt portion attached to the outer surface of the liquefied gas storage tank And a fastening part for interlocking with the stud bolt part to fix the heat insulation panel part to an outer surface of the storage tank; And, it is inserted into the through hole, one end is coupled to the stud bolt portion, the other end is an insulating shaft coupled to the fastening portion; may be configured to include.

Stud bolt part, fastening part, insulation shaft

Description

Insulation Panel Assembly for Liquefied Gas Carrying Tank and An Assembling Method

The present invention relates to an insulating panel assembly for a liquefied gas storage tank and an installation method using the same, and more particularly, for a liquefied gas storage tank for stably blocking the outside and heat flow of the tank in order to suppress the vaporization of the liquefied gas to the maximum. It relates to an insulation panel assembly and an installation method using the same.

In general, liquefied gas is a liquefied gas such as petroleum gas, natural gas, ethylene gas at a cryogenic temperature, the liquefied gas storage tank is installed on the ground or buried underground, such as land storage tanks, cars, ships, etc. It is divided into a mobile storage tank installed in the means of transportation.

The liquefied gas has a risk of explosion when exposed to an impact, and is stored in a cryogenic state, the storage tank for storing it has a structure that requires heat insulation, durability, elasticity and the like.

In particular, the thermal insulation panel that keeps the inside of the storage tank in a cryogenic state is in contrast to the land storage tank which has almost no flow. There are some differences in the need to prepare for adaptability.

Conventionally, such a method of installing a heat insulating panel, as shown in Figure 1, to fix the stud bolt (2) at regular intervals on the outer surface of the storage tank (T), the heat insulating panel on the stud bolt (2) It installed by the method of installing (4).

However, the above-described prior art has the following problems.

By first fixing the stud bolts 2 to the outer surface of the storage tank T, and then installing the insulation panel 4 to engage the stud bolts 2, if the stud bolts 2 are not positioned correctly, A space is generated between the heat insulation panels 4, or the space in which the heat insulation panels 4 are installed is narrowed and needs to be installed again.

And, because the stud bolt (2) should be located exactly on the outer surface of the storage tank (T), the work process is difficult during the attachment work of the stud bolt (2), there is a problem that the work time is long, the cost is increased .

In the related art, as shown in FIG. 1, the welded stud bolt 2 and the connector 6 are coupled using the coupler 5 to temporarily fix the heat insulation panel 4, and then the washer 7. The nut 8 is used to fix the heat insulating panel 4, but a large number of parts causes a long process and an increase in cost.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, and to provide an insulation panel assembly for a liquefied gas storage tank that can easily install the insulation panel and an installation method using the same.

Another object of the present invention is to provide an insulation panel assembly for a liquefied gas storage tank and an installation method using the same, which can position the insulation panel at a position to be installed by an operator regardless of the position of the stud bolt.

Another object of the present invention is to provide an insulation panel assembly for a liquefied gas storage tank having a low number of parts and a simple operation, and an installation method using the same.

According to a feature of the present invention for achieving the above object, the heat insulation panel assembly for a liquefied gas storage tank of the present invention, the heat insulation panel portion is provided with a through hole penetrating the upper and lower inside, and the outer surface of the liquefied gas storage tank A stud bolt part attached thereto and a fastening part fixed to the outer surface of the storage tank by interlocking with the stud bolt part; And, it is inserted into the through hole, one end is coupled to the stud bolt portion, the other end is an insulating shaft coupled to the fastening portion; may be configured to include.

In addition, another embodiment of the heat insulating panel assembly for a liquefied gas storage tank of the present invention, the heat insulation panel portion is provided with a through hole penetrating up and down therein, a stud bolt portion attached to the outer surface of the liquefied gas storage tank, the stud bolt A fastening part for fixing the heat insulating panel part to an outer surface of the storage tank in conjunction with a part, and inserted into the through hole, one end of which is coupled to the stud bolt part, and the other end of which is coupled to the fastening part; Adiabatic shaft of relatively short length than thickness; And a filling part filling a space between the adiabatic shaft and the fastening part.

The fastening part, one end is characterized in that it comprises a bolt and the washer having an outer diameter larger than the cross section of the through hole coupled to the adiabatic shaft.

In another embodiment of the present invention, a method of installing a heat insulating panel assembly for a liquefied gas storage tank includes a first step of processing through-holes vertically penetrated inside the heat insulating panel part, and the heat insulating panel part outside the storage tank. And a third step of inserting the stud bolt welding gun into the stud bolt welding gun through the through hole, and attaching the stud bolt to the outer surface of the storage tank, and inserting an insulating shaft through the through hole. A fourth step of fastening to the part; And a fifth step of fastening a fastening part fastened to the heat insulating shaft on an upper part of the heat insulating panel part.

Further, another embodiment of the installation method of the heat insulating panel assembly for the liquefied gas storage tank of the present invention, the first step of processing the through-hole penetrating up and down inside the heat insulating panel portion, and the heat insulating panel portion on the outer surface of the storage tank A second step of installing, a third step of inserting the stud bolt welding gun into the storage tank by inserting the stud bolt welding gun through the through hole, and the thickness of the heat insulating panel part through the through hole. A fourth step of inserting a short adiabatic shaft into the stud bolt, and a fifth step of filling a filling part in a space between the adiabatic shaft and the through hole; And a sixth step of fastening the fastening part fastened to the heat insulating shaft on an upper part of the heat insulating panel part.

The fastening part may be formed of a heat insulating material.

Further, another embodiment of the installation method of the heat insulating panel assembly for the liquefied gas storage tank of the present invention, the first step of processing the through hole penetrating up and down inside the heat insulation panel portion, and the heat insulation panel portion outer surface of the storage tank And a third step of inserting the stud bolt welding gun into the storage tank by inserting the stud bolt welding gun through the through hole, and attaching the outer surface of the storage tank to the storage tank through the through hole. Inserting a short heat insulating shaft into the stud bolt and fastening the fourth step; a fifth step of coupling a pin to the heat insulating shaft; and a sixth step of filling a filling part in a space between the heat insulating side and the through hole; And a sixth step of fastening a washer or a nut fastened to the insulating shaft on an upper portion of the insulating panel.

Insulated panel assembly for a liquefied gas storage tank and an installation method using the same according to the present invention has the following effects.

After positioning the heat insulation panel portion, the stud bolt portion is fixed to the outer surface of the storage tank, so that the heat insulation panel portion can be installed without being influenced by the position of the stud bolt portion, and the work can be simplified.

After positioning the heat insulation panel portion, by fixing the stud bolt portion on the outer surface of the storage tank, the operator can be installed in a position to install the heat insulation panel portion, there is an effect that the work stability is increased.

By directly coupling the heat insulation shaft to the stud bolt portion, it is possible to fix the heat insulation panel portion, the overall number of parts is reduced to simplify the work process, there is an effect that the cost is reduced.

Hereinafter, a preferred embodiment of the insulation panel assembly for a liquefied gas storage tank and an installation method using the same according to the present invention will be described in detail with reference to the accompanying drawings.

The first embodiment of the heat insulating panel assembly for a liquid gas fuel storage tank of the present invention, as shown in Figure 2, the heat insulating panel portion 10 is provided with a through hole 12 penetrating up and down therein, and the liquid gas A fastening part for fixing the heat insulation panel part 10 to the outer surface of the storage tank T in conjunction with the stud bolt part 20 attached to the outer surface of the storage tank (T) and the stud bolt part 20 ( 30, and inserted into the through hole 12, one end is coupled to the stud bolt portion 20, the other end may be configured to include a heat insulating shaft 40 coupled to the fastening portion 30. .

First, the heat insulation panel assembly 10 according to the present invention is provided with a heat insulation panel portion 10. The heat insulation panel part 10 serves to suppress heat exchange between the cryogenic liquefied gas inside the tank T and the outside at room temperature.

The material of the heat insulation panel part 10 may be made of any material as long as it has a heat insulating function, for example, polyurethane foam or polystyrene foam.

In addition, the heat insulation panel part 10 is provided with a through hole 12 penetrating up and down. The through hole 12 is formed to have a thickness enough to pass through the stud bolt welding gun (not shown) so that the stud bolt portion 20 to be described below can be attached to the outer surface of the storage tank (T). In addition, the inner diameter of the through hole 12 is preferably configured to be the same or larger than the outer diameter of the heat insulating shaft 40 to be described below.

And, the stud bolt part 20 for fixing the heat insulation panel part 10 is provided. The stud bolt portion 20 is fixed to the outer surface of the storage tank (T), in conjunction with the fastening portion 30 to be described below, serves to fix the heat insulating panel portion 10 does not flow.

The stud bolt part 20 may be formed to a size sufficient to pass through the through hole 12. This is to allow the stud bolt part 20 to fix the stud bolt part 20 to the storage tank T after temporarily fixing the heat insulation panel part 10 to the outer surface of the storage tank T. For sake.

When the stud bolt portion 20 is fixed to the outer surface of the storage tank (T), by various methods, but generally by welding. In this case, the stud bolt part welding gun is used, and the nozzle of the welding gun is preferably formed to be inserted into the through hole 12.

That is, the nozzle of the stud bolt part welding gun is configured to be inserted into the through hole 12 so that the stud bolt part 20 can be fixed after the heat insulating panel part 10 is positioned. In addition, the stud bolt part 20 may be made of various materials, and preferably made of a strong metal material.

On the other hand, in conjunction with the stud bolt portion 20 is provided with a fastening portion 30 for fixing the heat insulating panel portion 10. As shown in FIG. 2, the fastening part 30 and the stud bolt part 20 pass through the through hole 12 and are fastened to both ends of the heat insulating shaft 40 to be described below. It serves to fix the part (10).

The fastening part 30 may be configured in various ways, for example, may be configured as shown in FIG. That is, the fastening part 30 includes a bolt 32 having one end coupled to the adiabatic shaft 40 to be described below, and a washer 34 having an outer diameter larger than a cross section of the through hole 12. Can be configured. Here, the bolt 32 may be composed of a pin 32a and a nut 32b.

In addition, the heat insulation panel 40 is provided in the heat insulation panel assembly according to the present invention. The adiabatic shaft 40 has an outer diameter equal to or smaller than the inner diameter of the through hole 12, is inserted into the through hole 12, and has one end coupled to the stud bolt part 20 and the other end. Is coupled to the fastening portion 30 serves to fix the heat insulating panel portion 10 does not flow. Of course, the heat insulating shaft 40 should also have a heat insulating function so that heat exchange is not achieved through the through hole 12.

The heat insulating shaft 40, the bolt 32, and the washer 34 may be made of various materials, and may be made of metal, plastic, wood, or the like for insulation and durability.

In addition, the second embodiment of the heat insulating panel assembly for a liquefied gas storage tank according to the present invention, as shown in Figure 3, and the heat insulating panel portion 10 is provided with a through hole 12 penetrating up and down therein; Stud bolt part 20 attached to the outer surface of the liquefied gas storage tank (T) and the stud bolt part 20 to interlock with the stud bolt part 20 to fix the heat insulating panel part 10 to the outer surface of the storage tank (T). Inserted into the fastening portion 30 and the through-hole 12, one end is coupled to the stud bolt portion 20, the other end is coupled to the fastening portion 30, the heat insulating panel portion 10 It may be configured to include a heat insulating shaft 40 of a length relatively shorter than the thickness, and the filling unit 50 to fill the space between the heat insulating shaft 40 and the fastening portion 30.

As described above, the configuration of the heat insulating panel assembly for the liquefied gas storage tank of the second embodiment is the same as the configuration of the first embodiment and the basic configuration, as shown in FIG. 2. However, the configuration of the fastening portion 30, the adiabatic shaft 40 and the filling unit 50 is different. Hereinafter, the structure of the fastening part 30, the heat insulation shaft 40, and the filling part 50 is demonstrated in detail.

First, the fastening part 30 is provided in the heat insulation panel assembly of the present invention. As shown in FIG. 3, the fastening part 30 fixes the heat insulation panel part 10 to the outer surface of the storage tank T in cooperation with the stud bolt part 20. Like the first embodiment, the fastening part 30 includes a bolt 32 having one end coupled to the adiabatic shaft 40 and a washer 34 having an outer diameter larger than a cross section of the through hole 12. It can be configured. Of course, like the first embodiment, the bolt 32 may be composed of a pin 32a and a nut 32b.

Then, the adiabatic shaft 40 is inserted into the through hole 12 is provided. 3, one end is coupled to the stud bolt part 20, and the other end is coupled to the fastening part 30 so that the heat insulation panel part 10 does not flow. It serves to fix it.

In addition, the outer diameter of the heat insulating shaft 40 is preferably configured to be the same or smaller than the inner diameter of the through hole 12, as shown in Figure 3, the length of the heat insulating shaft 40 is the heat insulating panel portion It is formed shorter than the thickness of (10). Of course, the length of the bolt 32 of the fastening portion 30, that is, the length of the pin 32a is the length of the pin 32a in the first embodiment to be coupled to one end to the adiabatic shaft 40. It is formed relatively longer.

In addition, a filling part 50 is provided between the heat insulating shaft 40 and the bolt 32 of the fastening part 30. The filling part 50 serves to fill the space (S) formed between the heat insulating shaft 40 and the bolt (32). Of course, the filling unit 50 also has a heat insulating function so that heat exchange is not performed along the through hole 12.

The filling unit 50 may be any material as long as it can fill the space S. The filling unit 50 is preferably composed of a heat insulating material, for example, may be composed of urethane.

Hereinafter, a heat insulation panel assembly for a liquefied gas storage tank and an installation method thereof according to the present invention having the configuration as described above will be described in detail.

First, the installation process of the insulation panel assembly according to the first embodiment will be described in detail.

As shown in FIG. 4, the through-hole 12 penetrating vertically through the heat insulation panel part 10 is processed (S10). Then, the heat insulating panel 10 is seated in a position to be installed (S20).

When the installation position of the insulation panel unit 10 is determined, the operator lifts the stud bolt welding gun and inserts it into the through hole 12 so that the stud bolt 20 is attached to the outer surface of the storage tank T. To be made (S30).

Then, when the attachment of the stud bolt 20 is completed, by inserting the adiabatic shaft 40, it is coupled to the stud bolt 20 (S40). When the stud bolt 20 and the adiabatic shaft 40 are coupled, the fastening part 30, that is, the washer 34, is positioned on the upper surface of the through hole 12, and then the bolt 32 is washer 34. Through the coupling to the heat insulating shaft 40 (S50).

By the above-described process, as shown in Figure 2, the heat insulating panel unit 10 is installed on the outer surface of the storage tank (T).

Next, the installation process of the insulation panel assembly according to the second embodiment will be described in detail.

As shown in FIG. 5, the through-hole 12 penetrating vertically through the heat insulation panel part 10 is processed (S100). Then, the heat insulating panel 10 is seated in a position to be installed (S200).

When the installation position of the insulation panel unit 10 is determined, the operator lifts the stud bolt welding gun and inserts it into the through hole 12 so that the stud bolt 20 is attached to the outer surface of the storage tank T. To be made (S300).

Then, when the attachment of the stud bolt 20 is completed, by inserting the adiabatic shaft 40, it is coupled to the stud bolt 20 (S400). When the stud bolt 20 and the adiabatic shaft 40 are coupled, the worker fills the filling part 50 in the space S of the through hole 12 (S500).

Then, the fastening part 30, that is, the washer 34 is positioned on the upper surface of the through hole 12, and then through the washer 34 with the bolt 32 is coupled to the adiabatic shaft 40 (S600) .

Of course, at this time, before filling the filling part 50, the pin 32a of the fastening part 30 is first coupled to the adiabatic shaft 40, and then filled in the space S of the through hole 12. The part 50 may be filled and the washer 34 and the nut 32b may be fastened.

By the above-described process, as shown in Figure 3, the heat insulation panel portion 10 is installed on the outer surface of the storage tank (T). In addition, according to the above-described process, a plurality of heat insulating panel portions 10 are temporarily fixed to the outer wall of the storage tank (T), and each of the heat insulating panel portions 10 by coupling the stud bolts 20, heat insulation The shaft 40 and the fastening part 30 may be fastened.

The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and those skilled in the art can make various modifications and adaptations within the scope of the claims. It is self-evident.

1 is a side cross-sectional view showing the configuration of a heat insulating panel assembly for a liquefied gas storage tank according to the prior art.

Figure 2 is a side cross-sectional view showing a first embodiment of the insulating panel assembly structure for a liquefied gas storage tank according to the present invention.

Figure 3 is a side cross-sectional view showing a second embodiment of the insulation panel assembly structure for a liquefied gas storage tank according to the present invention.

Figure 4 is a flow chart illustrating a method of installing the insulation panel assembly for a liquefied gas storage tank of FIG.

5 is a flow chart illustrating a method of installing the insulation panel assembly for a liquefied gas storage tank of FIG.

Explanation of symbols on the main parts of the drawings

10: heat insulation panel portion 12: through hole

20: stud bolt portion 30: fastening portion

32: bolt 34: washer

40: axle shaft 50: filling part

Claims (7)

An insulation panel unit having a through hole penetrating the upper and lower sides thereof; A stud bolt part attached to an outer surface of the liquefied gas storage tank; A fastening part which interlocks with the stud bolt part to fix the heat insulating panel part to an outer surface of the storage tank; And, Is inserted into the through hole, one end is coupled to the stud bolt portion, the other end is insulated shaft coupled to the fastening portion; the insulation panel assembly for a liquefied gas storage tank comprising a. An insulation panel unit having a through hole penetrating the upper and lower sides thereof; A stud bolt part attached to an outer surface of the liquefied gas storage tank; A fastening part which interlocks with the stud bolt part to fix the heat insulating panel part to an outer surface of the storage tank; Is inserted into the through hole, one end is coupled to the stud bolt portion, the other end is coupled to the fastening portion, the heat insulation shaft of a length relatively shorter than the thickness of the heat insulation panel portion; And, Insulating panel assembly for a liquefied gas storage tank comprising a; filling portion for filling the space between the insulating shaft and the fastening portion. The method according to claim 1 or 2, The fastening portion, One end is coupled to the bolt and the insulating shaft, Insulating panel assembly for a liquefied gas storage tank comprising a washer having an outer diameter larger than the cross-section of the through hole. A first step of processing a through hole penetrating up and down inside the insulation panel unit; A second step of installing the insulating panel part on an outer surface of the storage tank; A third step of inserting a stud bolt portion into the storage tank by inserting the stud bolt welding gun through the through hole; Inserting an adiabatic shaft through the through hole to fasten the stud bolt to the fourth step; And, And a fifth step of fastening a fastening part fastened to the heat insulating shaft on an upper part of the heat insulating panel part. A first step of processing a through hole penetrating up and down inside the insulation panel unit; A second step of installing the insulating panel part on an outer surface of the storage tank; A third step of inserting a stud bolt portion into the storage tank by inserting the stud bolt welding gun through the through hole; A fourth step of inserting an insulation shaft shorter than the thickness of the insulation panel portion through the through hole and fastening to the stud bolt portion; A fifth step of filling a filling part in a space between the adiabatic shaft and the through hole; And, And a sixth step of fastening a fastening part fastened to the heat insulating shaft on an upper part of the heat insulating panel part. The method according to claim 1 or 2, Insulation panel assembly for a liquefied gas storage tank, characterized in that the fastening portion is composed of a heat insulating material. A first step of processing the through hole penetrating up and down inside the Dean heat panel unit; A second step of installing the insulating panel part on an outer surface of the storage tank; A third step of inserting a stud bolt portion into the storage tank by inserting the stud bolt welding gun through the through hole; A fourth step of inserting an insulation shaft shorter than the thickness of the insulation panel portion through the through hole and fastening to the stud bolt portion; A fifth step of coupling a pin to the adiabatic shaft; A sixth step of filling a filling part in a space between the heat insulating side and the through hole; And, And a sixth step of fastening a washer or a nut fastened to the insulating shaft on an upper portion of the insulating panel portion.

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