KR20210145040A - thickness measuring device and method for measuring insulation layer of ship storage tank - Google Patents

Abstract

Disclosed is an apparatus for measuring the thickness of an insulation layer of a storage tank for a ship. The apparatus for measuring the thickness of an insulation layer of a storage tank for a ship according to one embodiment comprises an insert body that is provided to be inserted into the insulation layer in order to measure the thickness of the insulation layer of the storage tank for a ship, wherein the insert body includes: a solid core member; and a tube member that is hollow to slidably support the circumference of the core member. An objective of the present invention is to provide the apparatus and a method for measuring the thickness of the insulation layer of a storage tank for a ship, which can effectively measure the thickness of the insulation layer of the storage tank for a ship.

Description

Thickness measuring device and method for measuring insulation layer of ship storage tank

It relates to an apparatus and method for measuring the thickness of the insulation layer of a storage tank for a ship for measuring the thickness of the insulation layer of the storage tank employed in the ship.

Some of the storage tanks are provided with an insulating layer to protect the contents stored therein.

In particular, in the case of a ship storage tank for storing cryogenic liquids such as LNG, it is inevitable to provide an insulating layer in preparation for the problem of evaporation of LNG.

On the other hand, in the storage tank, it is necessary to measure the thickness of the insulation layer for the purpose of inspecting the performance of the insulation layer in a state in which the insulation layer is constructed.

Japanese Patent Laid-Open No. 2011-127989 (June 30, 2011)

An object of the present invention is to provide an apparatus and method for measuring the thickness of the insulation layer of a storage tank for a ship that can effectively measure the thickness of the insulation layer of the storage tank for a ship.

An object of the present invention is to provide an apparatus and method for measuring the thickness of the insulation layer of a storage tank for a ship, which can prevent the insulation performance of the insulation layer from being impaired in measuring the thickness of the insulation layer of the storage tank for a ship.

The apparatus for measuring the thickness of the heat insulation layer of the storage tank for a ship according to an embodiment includes an insert that is provided to be inserted into the heat insulation layer in order to measure the thickness of the heat insulation layer of the storage tank for a ship, and the insert includes, a hollow core material ; and a hollow tube to slidably support the circumference of the core.

Further comprising; an injector for injecting a filler into the hole to fill the hole formed in the heat insulating layer through the insertion of the insert, wherein the injector includes a discharge port for discharging the filler; The outer diameter may coincide with the outer diameter of the core material.

A method for measuring the thickness of the heat insulation layer of a storage tank for a ship according to an embodiment includes measuring the thickness of the heat insulation layer by inserting an insert into the heat insulation layer having elasticity of the storage tank for a ship; preventing deformation according to the elastic restoring force of the hole formed in the heat insulating layer when the insert is inserted; Including; injecting a filling agent into the hole.

The insert, a hollow core; Including; and preventing deformation of the hole, removing the core material so that the hole is opened while the insert is inserted into the heat insulating layer, and the It may include; maintaining the tube material inserted into the hole so as to form an injection path of the filler.

Injecting the filling agent into the hole includes: using an injector having a discharge port of the same outer diameter as the core material for injection of the filling agent, and inserting the discharge port into the tube material to inject the filling agent; can do.

According to the apparatus and method for measuring the thickness of the insulation layer of the storage tank for a ship according to an embodiment, it is possible to effectively measure the thickness of the insulation layer of the storage tank for a ship.

According to the apparatus and method for measuring the thickness of the heat insulation layer of the storage tank for a ship according to an embodiment, it is possible to prevent the insulation performance of the heat insulation layer from being inhibited in measuring the thickness of the heat insulation layer of the storage tank for a ship.

1 is a front view illustrating a partial structure of a storage tank for a ship and a thickness measuring device for measuring the thickness of a heat insulating layer thereof according to an embodiment.
2 is a cross-sectional view showing a state in which the insert of the insulation layer thickness measuring device of the storage tank for a ship according to an embodiment is inserted into the heat insulation layer.
3 shows a state in which the core material of the insert is removed from the heat insulating layer in the state of FIG. 2 .
4 shows a process of injecting a filler into the tube of the insert in the state of FIG. 3 .
Figure 5 shows a state in which injection of the filling agent after that of Figure 4 is completed.
6 shows a state in which the tube material of the insert is removed from the heat insulating layer in the state of FIG. 5 .

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments introduced below are provided as examples in order to sufficiently convey the spirit of the present invention to those of ordinary skill in the art to which the present invention pertains. The present invention is not limited to the embodiments described below and may be embodied in other forms. In order to clearly explain the present invention, parts irrelevant to the description are omitted from the drawings, and in the drawings, the width, length, thickness, etc. of components may be exaggerated for convenience. Like reference numerals refer to like elements throughout.

1 to 4, the device for measuring the thickness of the heat insulation layer of the storage tank for a ship 10 according to an embodiment is an insert 20 that is provided to be inserted into the heat insulation layer 3 of the storage tank for a ship (1). ) is provided.

The storage tank 1 for a ship, in which the thickness of the heat insulation layer 3 is measured, has a body 2 in the shape of a cylinder to seal the inner space, and the heat insulation layer 3 covers the outer surface of the body 2 as a whole. 2) It may be provided on the outside.

The insert 20 can be vertically inserted into the heat insulating layer 3 so that a hole 4 is drilled through the heat insulating layer 3 , and the user of the measuring device 10 can use the insert 20 inserted into the heat insulating layer 3 . The thickness of the heat insulating layer 3 can be measured by measuring the insertion depth.

A scale for measuring the insertion depth of the insert 20 may be provided in the insert 20 along its longitudinal direction.

The insert 20 includes a hollow core 21 and a hollow tube 22 to slidably support the circumference of the core 21 .

The core 21 may be provided as an iron core having a circular cross-section having a predetermined diameter, and the tube member 22 may be provided through a circular pipe slidably coupled around the iron core to surround the iron core.

The core material 21 and the tube material 22 may have appropriate strength corresponding to the material of the heat insulation layer 3 so that there is no fear of being bent or deformed when inserted into the heat insulation layer 3 .

The core 21 includes a support 21a for supporting the upper end of the tube 22 so that the tube 22 slides with respect to the core 21 in the process of inserting the insert 20 into the heat insulating layer 3 . can be limited

Accordingly, the insert 20 may be inserted into the heat insulating layer 3 using the core 21 and the tube 22 at the same time in a state where the sliding of the tube 22 is restricted.

The support portion 21a may be provided to support the other end of the tube 22 and the other end of the tube 22 in a state in which one end of the core 21 coincides with each other. The support part 21a may be provided integrally with the core member 21 in the form of extending the outer diameter of the core member 21 .

In addition, the measuring device 10 further includes an injector 30 for injecting the filler 5 into the hole 4 to fill the hole 4 formed in the heat insulating layer 3 through the insertion of the insert 20 . And, the injector 30 may be provided with a discharge port 31 for discharging the filler (5). The injector 30 may be provided in the form of a gun or tube.

It is preferable that the discharge port 31 is provided so that the outer diameter of the filler 5 is smoothly injected into the hole 4 so that the outer diameter matches the outer diameter of the core member 21 .

That is, in a state in which the insert 20 is inserted into the heat insulating layer 3 for thickness measurement, the tube 22 may be left as it is, and only the core 21 may be removed from the tube 22 . Accordingly, the tube material 22, which maintains the state inserted into the heat insulation layer 3, has its outer diameter supported by the inner diameter of the hole 4, and prevents deformation of the hole while preventing the hole from being deformed. An injection path for guiding injection may be formed. At this time, by injecting the filler 5 in a state in which the discharge port 31 of the injector 30 having the same outer diameter as the core 21 is inserted into the tube 22, the filler 5 is not lost and the hole 4 ) can be accurately injected into the

Next, a method for measuring the thickness of the heat insulation layer of the storage tank for a ship according to an embodiment performed using the measuring device 10 configured as described above will be described.

Here, the storage tank for a ship (1) may include a pressure vessel (1a) in which urethane foam is applied to the outer surface of the main body (2) by a spray method to form a heat insulating layer (3).

The pressure vessel 1a may include an independent tank TYPE C prescribed by the International Maritime Organization (IMO) to be provided for storage of LNG on an LNG carrier.

And the heat insulating layer 3 may be provided with a material having elasticity, such as urethane foam.

In order to measure the thickness of the heat insulation layer 3 of the storage tank 1 for a ship, as shown in FIG. 2 , the end of the insert 20 of the measuring device 10 is supported on the body 2 so that the heat insulation layer 3 is supported. can be inserted into At this time, the insert 20 is vertically inserted into the heat insulating layer 3 , and the user of the measuring device 10 checks the insertion depth of the insert 20 inserted into the heat insulating layer 3 to determine the thickness of the heat insulating layer 3 . can be measured

At this time, a hole 4 is formed in the heat insulation layer 3 by the insertion of the insert 20, and in the method for measuring the thickness of the heat insulation layer according to an embodiment, the heat insulation performance of the heat insulation layer 3 is inhibited by the hole 4 In order to prevent this, it may include a process of filling the hole 3 with a filler 5 and closing the hole 3 .

The finishing agent 5 may include a urethane adhesive 5a having excellent thermal insulation properties, such as a polyurethane adhesive, in consideration of thermal insulation performance.

In addition, the finishing agent 5 may be provided with a material that is initially provided in liquid or gel form and hardens over time.

The process of closing the hole 4 with the filler 5 may include a process of preventing the deformation of the hole 4 and injecting the filler 5 into the hole 4 in this state.

Here, to prevent the deformation of the hole 4 is to consider the material properties of the heat insulating layer 3 having elasticity, such as urethane foam, before the hole 4 is filled with the filler 5 of the heat insulating layer 3 It means to prevent deformation by its own elastic restoring force, which is to increase the filling effect of the filler (5).

That is, the heat insulating layer 3 having elasticity is elastically deformed in the process of forming the hole 4, and the hole 4 in this state can be filled or reduced in volume through the elastic restoring force of the heat insulating layer 3, at this time The space that can be filled with the filler (5) is missing or insufficient, the thermal insulation performance of the hole (4) side of the thermal insulation layer (3) may be reduced.

Therefore, according to the method of measuring the thickness of the insulation layer of this embodiment, the hole ( It is possible to prevent the thermal insulation performance of the thermal insulation layer 3 from being deteriorated due to 4).

As shown in FIG. 3 , in a state in which the insert 20 is inserted into the heat insulating layer 3 , the core material 21 is removed so that the hole 4 is opened, and an injection path of the filler 5 can be formed. It is possible to maintain the tube 22 in a state inserted into the hole (4).

At this time, the tube 22 can form an injection path that guides the injection of the filler 5 into the hole 4 while preventing the deformation of the hole 4 while the outer diameter is supported by the inner diameter of the hole 4 . have.

In this state, as shown in FIG. 4, by injecting the filler 5 in the state that the discharge port 31 of the injector 30 having the same outer diameter as the core 21 is inserted into the tube 22, the filler 5 is It can be smoothly injected into the hole 4 without loss.

In addition, the process of closing the hole 4 with the filler 5 further includes a process of curing the filler 5 injected into the hole 4, and the process of curing the filler 5 is shown in FIG. As shown, the tube 22 can be removed from the hole 4 before the filler 5 has cured.

As the tube 22 is removed, the filler 5 injected inside the tube 22 can be evenly spread throughout the hole 4, and thus the filler 5 is completely filled in the hole 4 It can be cured to a state.

At this time, the filling agent 5 may be in a state in which curing has progressed to a weak degree, and the filling agent 5 may fill the hole 4 as a whole while suppressing the deformation of the hole 4 and flowing while being pressurized by an external force. .

5 and 6 together, when injecting the filler 5 into the hole 4, by injecting the filler 5 into the tube 22 higher than the height of the hole 4, the hole ( In the state in which the tube 22 is removed from 4), the height of the hole 4 and the filling height of the filler 5 may be matched.

According to this, the injection height of the filler 4 injected into the tube 22 is set higher based on the surface of the heat insulating layer 3 by the volume occupied by the tube 22 in the hole 4, and the filler 5 ) By making the injection amount equal to the volume of the hole 4 , the filler 5 can be filled with the hole 4 in a state in which the tube 22 is removed. In FIG. 5 , the unexplained reference numeral t indicates a gap between the height of the filler 5 injected into the tube 22 and the height of the hole 4 .

In this state, the inlet of the hole 4 filled with the filler 5 may be covered with a finishing material (not shown) such as a tape, and thus the operation of closing the hole 4 may be completed.

1: Ship storage tank 2: Main body
3: heat insulation layer 4: hole
10: A device for measuring the thickness of the insulation layer of a storage tank for a ship
20: insert 21: core material
22: tube 30: injector
31: outlet

Claims (5)

Including; an insert that is provided to be inserted into the heat insulating layer to measure the thickness of the heat insulating layer of the storage tank for a ship;
The insert is
hollow heartwood;
Insulation layer thickness measuring device of a storage tank for ships comprising a; hollow tube to slidably support the circumference of the core material. The method of claim 1,
Further comprising; an injector for injecting a filling agent into the hole to fill the hole formed in the heat insulating layer through the insertion of the insert,
the injector,
Including; a discharge port for discharging the filling agent;
The outer diameter of the discharge port is the same as the outer diameter of the core material for measuring the thickness of the insulation layer of the storage tank for ships. measuring the thickness of the heat insulating layer by inserting an insert into the heat insulating layer having elasticity of the storage tank for a ship;
preventing deformation according to the elastic restoring force of the hole formed in the heat insulating layer when the insert is inserted;
Injecting a filler into the hole; Method for measuring the thickness of the insulation layer of a storage tank for ships comprising a. 4. The method of claim 3,
The insert is
hollow heartwood;
Including; and a tube material that is hollow to slidably support the circumference of the core material.
To prevent deformation of the hole,
Removing the core material so that the hole is opened in a state in which the insert is inserted into the heat insulation layer, and maintaining the tube material inserted into the hole to form an injection path of the filler. A method of measuring the thickness of the insulation layer of a storage tank. 5. The method of claim 4,
Injecting the filler into the hole,
Using an injector having a discharge port of the same outer diameter as the core material for the injection of the filler, and inserting the discharge port into the tube to inject the filler.

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