KR102590607B1 - Fixing apparatus and method of constructing the high-density insulation on pressure hull in submarine - Google Patents

Abstract

The present invention is a submarine pressure hull surface high-density insulation fixing device for installing and fixing a high-density insulation material on the pressure hull interior surface of a submarine, comprising an adhesive applied to the pressure hull interior surface and attaching the high-density insulation material, and attached to the pressure hull interior surface. After compressing the high-density insulating material to the pressure hull, it includes a profile for supporting and fixing the high-density insulating material.

Description

Fixing apparatus and method of constructing the high-density insulation on pressure hull in submarine}

The present invention relates to a device and method for fixing submarine pressure hull surface insulation.

Submarines are ships that can move underwater and on the surface with their own propulsion and are mainly used for military purposes. Submarines have the characteristic of having to operate underwater most of the time without being exposed to the enemy.

Submarines are used in anti-submarine warfare to search for and attack enemy submarines, anti-surface warfare in which submarines are deployed on the outskirts of mobile combat units to scout and attack enemy surface ships, anti-surface warfare in which strategic missions are carried out by carrying strategic nuclear weapons and missiles, and operations of the opposing country in times of war. It performs important power missions such as reconnaissance and surveillance that collects electronic and communication information in the sea area, special operations that deploy special warfare personnel to collect information and destroy major facilities, and mine laying.

In the existing case, low-density insulation is installed on the interior surface of the submarine's pressure hull. Specifically, there is no fire protection zone, and the insulation material is used to prevent condensation due to temperature differences between the inside and outside of the ship (i.e., insulation) and to absorb sound, and a light, low-density insulation material is installed.

And low-density insulation materials installed on the interior surface of existing pressure hulls are mainly attached using adhesives.

However, the submarine repeatedly descends and surfaces below the surface of the water, and its hull surface is composed of a pressure hull to withstand the pressure of the deep sea. At this time, the pressure hull contracts when descending into the deep sea and expands to its original size when surfaced. Since it is impossible to weld the brackets for fixing various equipment to the interior surface of a round-shaped pressure hull, it is difficult to weld and fix the commonly used thermal insulation pins.

When applying existing submarine pressure hull surface insulation, low-density insulation is constructed, and adhesive is applied to the pressure hull interior surface and one side of the insulation material to attach and fix it. High-density insulation for submarines and other types of ships can be finished by welding a thermal insulation fin on the installation surface, then passing the insulation through the insulation fin and fixing a cap to the end of the insulation fin.

When constructing heavy high-density insulation materials (e.g. mineral wool, etc.) due to requirements for fire protection areas on board ships or for other reasons, the development of devices and methods for fixing insulation materials to the pressure hull surface is requested to prevent the insulation materials from falling off or sagging. .

As a related prior document, technology related to a submarine is disclosed in Republic of Korea Patent Publication No. 10-2004-0073360. However, there is no information on fixing the pressure hull high-density insulation material to the submarine disclosed in the prior literature.

Republic of Korea Patent Publication No. 10-2004-0073360

The purpose of the present invention is to provide a submarine pressure hull surface that can fix the insulation material to the pressure hull surface to prevent the insulation material from falling off or sagging during construction of heavy high-density insulation material (e.g., mineral wool, etc.) due to requirements for fire protection areas within the ship or other reasons. The purpose is to provide a high-density insulation fixing device and fixing method.

The objects of the present invention are not limited to the objects mentioned above, and other objects and advantages of the present invention that are not mentioned can be understood by the following description and will be more clearly understood by the examples of the present invention. Additionally, it will be readily apparent that the objects and advantages of the present invention can be realized by the means and combinations thereof indicated in the patent claims.

According to one aspect of the present invention, a submarine is capable of fixing the insulation material to the pressure hull surface to prevent the insulation material from falling off or sagging when constructing heavy high-density insulation material (e.g., mineral wool, etc.) due to requirements for fire protection areas within the ship or other reasons. Pressure hull surface high-density insulation fixing devices and fixing methods can be provided.

The submarine pressure hull surface high-density insulation fixing device according to an embodiment of the present invention is a submarine pressure hull surface high-density insulation fixing device that installs and fixes a high-density insulation material on the interior surface of the pressure hull of a submarine. It is applied to the pressure hull interior surface and secures the high-density insulation material. It includes an adhesive for attaching and a profile for supporting and fixing the high-density insulation material after pressing the high-density insulation material attached to the interior surface of the pressure hull to the pressure hull.

The profile may be fastened to the sides of a plurality of ring frames connected to the pressure hull in a cross direction.

A device for fixing high-density insulation material on the surface of a submarine pressure hull according to an embodiment of the present invention is welded and installed to protrude at a predetermined length from the side of a plurality of ring frames connected in the cross direction to the pressure hull, and supports the weight of the high-density insulation material and the profile. Includes more stud bolts.

The profile is connected to a first frame that contacts and supports the high-density insulating material inserted into the space between the stud bolts and a second frame that is connected in a cross direction on both sides of the first frame and has a slot hole into which the stud bolt is inserted. Includes frame.

The slot hole is connected to a first slot hole formed in the horizontal direction within the second frame so that the stud bolt is inserted into the inner center of the second frame, and is connected to the first slot hole through the first slot hole. It includes a second slot hole formed in a vertical direction within the second frame so that the profile can be lifted upward based on the inserted stud bolt.

The submarine pressure hull surface high-density insulation fixing device according to an embodiment of the present invention includes a nut fastened to the stud bolt protruding from the second frame and loosening the nut when the stud bolt is located at the bottom of the second slot hole. Includes washer to prevent

The submarine pressure hull surface high-density insulation fixing device according to an embodiment of the present invention further includes a rubber pad provided at a contact area between the ring frame and the profile.

The high-density insulation material includes mineral wool, perforated glass fiber felt wrapped around the upper and lower surfaces of the mineral wool, and an insulation tape wrapped around the side of the mineral wool.

In addition, the present invention provides a method for fixing a high-density insulation material on the pressure hull surface of a submarine by installing and fixing the high-density insulation material on the interior surface of the pressure hull of a submarine. The method of fixing high-density insulation on the surface of a submarine pressure hull includes a stud bolt installation step of welding and installing stud bolts on the sides of a plurality of ring frames connected to the pressure hull in a cross direction, a high-density insulation preparation step of preparing a high-density insulation material, and the high-density insulation material of the high-density insulation material. An adhesive application step of applying adhesive to one surface, a high-density insulating material adhesion step of pushing and inserting the high-density insulating material between the stud bolts so that the adhesive-applied side faces the pressure hull, and adhering the high-density insulating material to the interior surface of the pressure hull; It includes a profile installation step of fastening the profile to the stud bolts to compress and support the high-density insulation material on the interior surface of the pressure hull.

The method of fixing a high-density insulation material on the surface of a submarine pressure hull according to an embodiment of the present invention includes the step of blocking the inflow of side noise by additionally attaching an insulation tape to the area where the high-density insulation material and the side of the ring frame contact before the profile installation step. Includes more.

According to the present invention, there is an advantage in that the insulation material can be fixed to the pressure hull surface to prevent the insulation material from falling off or sagging when constructing a heavy high-density insulation material (e.g., mineral wool, etc.) due to requirements for fire protection areas within the ship or for other reasons. .

In addition, according to the present invention, in consideration of the deformation of the pressure hull surface of the submarine due to deep-sea pressure when descending or surfacing below the water surface, the stud bolts between the sides of the member ring frame (i.e., ribs) rather than the inner surface of the pressure hull are maintained at a constant level when constructing high-density insulation material. Welding can be installed according to the separation distance. Then, the insulation material can be fixed by pushing the insulation material between the stud bolts and pressing it to the pressure hull, then fastening the 'ㄷ' shaped profile for supporting the insulation material with the stud bolts. Accordingly, it becomes possible to install high-density insulation on the surface of the submarine pressure hull, and by firmly fixing it physically, it is possible to prevent the insulation from falling off and sagging. Furthermore, there is the advantage of being able to prepare a response plan when setting up a fire prevention zone is required.

In addition to the above-described effects, specific effects of the present invention are described below while explaining specific details for carrying out the invention.

Figure 1 is a conceptual diagram of a submarine pressure hull surface high-density insulation fixing device according to an embodiment of the present invention.
Figure 2 is a process diagram for explaining a method of fixing a submarine pressure hull surface high-density insulation material according to an embodiment of the present invention.

The above-mentioned objects, features, and advantages will be described in detail later with reference to the attached drawings, so that those skilled in the art will be able to easily implement the technical idea of the present invention. In describing the present invention, if it is determined that a detailed description of known technologies related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the attached drawings. In the drawings, identical reference numerals are used to indicate identical or similar components.

Hereinafter, the “top (or bottom)” of a component or the arrangement of any component on the “top (or bottom)” of a component means that any component is placed in contact with the top (or bottom) of the component. Additionally, it may mean that other components may be interposed between the component and any component disposed on (or under) the component.

Additionally, when a component is described as being “connected,” “coupled,” or “connected” to another component, the components may be directly connected or connected to each other, but the other component is “interposed” between each component. It should be understood that “or, each component may be “connected,” “combined,” or “connected” through other components.

Hereinafter, with reference to the attached drawings, a device and method for fixing a high-density insulation material on the surface of a submarine pressure hull according to a preferred embodiment of the present invention will be described in detail.

Figure 1 is a conceptual diagram of a submarine pressure hull surface high-density insulation fixing device according to an embodiment of the present invention.

The submarine pressure hull surface high-density insulation fixing device 100 according to an embodiment of the present invention is a device for installing and fixing the high-density insulation material 120 on the interior surface of the pressure hull 10 of the submarine, using adhesive 110 and profile 130. Includes.

Adhesive 110 is applied to the interior surface of the pressure hull 10 and attaches the high-density insulation material 120.

The profile 130 presses the high-density insulating material 120 attached to the interior surface of the pressure hull 10 to the pressure hull 10 and then supports and fixes the high-density insulating material 120.

The profile 130 may be fastened to the side of a plurality of ring frames 20 connected to the pressure hull 10 in a cross direction.

The submarine pressure hull surface high-density insulation fixing device 100 according to an embodiment of the present invention further includes stud bolts 140.

The stud bolts 140 are welded and installed to protrude at a predetermined length from the sides of the plurality of ring frames 20 connected in the cross direction to the pressure hull 10, and the weight of the high-density insulator 120 and the profile 130 is I support it.

As a specific example, the profile 130 is connected to a first frame 131 that contacts and supports the high-density insulating material 120 inserted into the space between the stud bolts 140, and on both sides of the first frame 131. It is connected in the cross direction and includes a second frame 132 having a slot hole 134 into which the stud bolt 140 is inserted.

The inside of the first frame 131 may be further provided with a support bar 133 for preventing bending that protrudes long along the longitudinal direction of the first frame 131.

As a specific example, the slot hole 134 is a first slot hole 1341 formed horizontally within the second frame 132 so that the stud bolt 140 is inserted into the inner center of the second frame 132. And, the second frame is connected to the first slot hole 1341 and allows the profile 130 to be lifted upward based on the stud bolt 140 inserted through the first slot hole 1341. It includes a second slot hole 1342 formed in the vertical direction within (132).

The submarine pressure hull surface high-density insulation fixing device 100 according to an embodiment of the present invention further includes a nut 150 and a washer 160.

The nut 150 is fastened to the stud bolt 140 protruding from the second frame 132 when the stud bolt 140 is located at the bottom of the second slot hole 1342.

The washer 160 prevents the nut 150 fastened to the stud bolt 140 from loosening.

In addition, the submarine pressure hull surface high-density insulation fixing device 100 according to an embodiment of the present invention further includes a rubber pad 170.

A rubber pad 170 may be provided at a contact area between the ring frame 20 and the profile 130. The rubber pad 170 prevents metal noise caused by interference between the profile 130 and the side of the ring frame 20.

Meanwhile, the high-density insulation material 120 includes mineral wool, perforated glass fiber felt wrapped around the upper and lower surfaces of the mineral wool, and an insulating tape wrapped around the side of the mineral wool.

Hereinafter, a method of fixing a high-density insulation material to a submarine pressure hull surface according to an embodiment of the present invention will be described with reference to the attached FIG. 2.

Figure 2 is a process diagram for explaining a method of fixing a submarine pressure hull surface high-density insulation material according to an embodiment of the present invention.

The method of fixing high-density insulation material on the surface of a submarine pressure hull according to an embodiment of the present invention includes a stud bolt installation step (S10), a high-density insulation preparation step (S20), an adhesive application step (S30), a high-density insulation adhesion step (S40), and an insulation tape attachment. It includes a step (S50) and a profile installation step (S60).

The stud bolt installation step (S10) is a step of welding and installing stud bolts on the sides of a plurality of ring frames connected to the pressure hull in a cross direction.

The high-density insulating material preparation step (S20) is a step in which high-density insulating material is prepared. At this stage, high-density insulating material (e.g. mineral wool, etc.) is cut to the width of the space between the ring frames, and then the side parts of the module with perforated glass cloth attached to the upper and lower parts with adhesive are applied with insulation tape (glass cloth or Finish by wrapping it with Al. Foil.

The adhesive application step (S30) is a step of applying adhesive to one surface of the high-density insulating material.

The high-density insulation material adhesion step (S40) is a step of inserting the high-density insulation material into close contact with the interior surface of the pressure hull by inserting the high-density insulation material between the stud bolts so that the adhesive-coated side faces the pressure hull.

The insulating tape attachment step (S50) is a step of blocking the inflow of side noise by additionally attaching an insulating tape to the area where the high-density insulating material and the side of the ring frame come into contact.

The profile installation step (S60) is a step of fastening the profile to the stud bolts to compress and support the high-density insulation material on the interior surface of the pressure hull.

At this stage, the profile and stud bolts are fastened with washers and nuts, and at this time, the rubber pad can be attached by first inserting it between the profile side and the ring frame. As a result, the profile side is damaged due to the movement of the ring frame due to pressure hull deformation. Can block metal friction sounds.

In addition, at this stage, when fastening the profile and the stud bolt nut, insert the stud bolt into the first slot hole formed in the horizontal direction in the profile, and when the stud bolt is located in the center of the profile at the end of the first slot hole, lift the profile upward. It is possible to achieve maximum contact between the raised profile and the pressure hull surface. At this time, when the stud bolt is located at the bottom of the second slot hole formed in the vertical direction, a washer and a nut are fastened to the stud bolt to fix the position of the profile.

As described above, according to the configuration and operation of the present invention, when constructing a heavy high-density insulation material (e.g., mineral wool, etc.) due to requirements for fire protection areas within the ship or for other reasons, an insulation material is installed on the pressure hull surface to prevent the insulation material from falling off or sagging. It can be fixed.

According to the present invention, in consideration of the deformation of the pressure hull surface of the submarine due to deep-sea pressure when descending or surfacing below the water surface, when constructing high-density insulation material, the stud bolts between the sides of the member ring frame (i.e., ribs) other than the inner surface of the pressure hull are spaced at a certain distance. Can be installed by welding. Then, the insulation material can be fixed by pushing the insulation material between the stud bolts and pressing it to the pressure hull, then fastening the 'ㄷ' shaped profile for supporting the insulation material with the stud bolts.

In this way, according to the present invention, it becomes possible to install a high-density insulation material on the surface of the submarine pressure hull, and by physically fixing it tightly, it is possible to prevent the insulation material from falling off and sagging. Furthermore, a response plan can be prepared when it is necessary to set up a fire prevention zone.

As described above, the present invention has been described with reference to the illustrative drawings, but the present invention is not limited to the embodiments and drawings disclosed herein, and various modifications may be made by those skilled in the art within the scope of the technical idea of the present invention. It is obvious that transformation can occur. In addition, although the operational effects according to the configuration of the present invention were not explicitly described and explained in the above description of the embodiments of the present invention, it is natural that the predictable effects due to the configuration should also be recognized.

10: Pressure hull
20: Ring frame
100: Submarine pressure hull surface high-density insulation fixing device
110: adhesive
120: High-density insulation
130: Profile
131: first frame
132: second frame
133: Support to prevent bending
134: slot hole
1341: first slot hole
1342: second slot hole
140: stud bolt
150: nut
160: Washer
170: Rubber pad

Claims (9)

A submarine pressure hull surface high-density insulation fixing device that installs and secures high-density insulation on the interior surface of the submarine's pressure hull,
An adhesive applied to the interior surface of the pressure hull and attaching the high-density insulation material;
A profile for supporting and fixing the high-density insulating material attached to the interior surface of the pressure hull by pressing the high-density insulating material to the pressure hull; and
Stud bolts are welded and installed to protrude at a predetermined length from the sides of a plurality of ring frames connected to the pressure hull in a cross direction, and support the weight of the high-density insulating material and the profile;
Including,
The profile is,
a first frame that contacts and supports the high-density insulating material inserted into the space between the stud bolts; and
a second frame connected in a cross direction on both sides of the first frame and having a slot hole into which the stud bolt is inserted;
Submarine pressure hull surface high-density insulation fixing device comprising a.
According to paragraph 1,
The profile is,
Fastened to the sides of a plurality of ring frames connected to the pressure hull in the cross direction
Submarine pressure hull surface high-density insulation fixing device.
delete delete According to paragraph 1,
The slot hole is,
a first slot hole formed horizontally in the second frame so that the stud bolt is inserted into the inner center of the second frame; and
a second slot hole connected to the first slot hole and formed vertically in the second frame to lift the profile upward based on the stud bolt inserted through the first slot hole;
Submarine pressure hull surface high-density insulation fixing device comprising a.
According to clause 5,
a nut fastened to the stud bolt protruding from the second frame when the stud bolt is located at the bottom of the second slot hole; and
a washer that prevents the nut from loosening;
Submarine pressure hull surface high-density insulation fixing device comprising a.
According to paragraph 1,
A rubber pad provided at a contact area between the ring frame and the profile;
A submarine pressure hull surface high-density insulation fixing device further comprising a.
A method of fixing a high-density insulation material on the pressure hull surface of a submarine by installing and fixing a high-density insulation material on the interior surface of the pressure hull of a submarine,
A stud bolt installation step of welding and installing stud bolts on the sides of a plurality of ring frames connected to the pressure hull in a cross direction;
A high-density insulation material preparation step of preparing a high-density insulation material;
An adhesive application step of applying adhesive to one surface of the high-density insulation material;
A high-density insulating material adhesion step of inserting the high-density insulating material between the stud bolts so that the adhesive-coated side faces the pressure hull, thereby bringing the high-density insulating material into close contact with the interior surface of the pressure hull; and
A profile installation step of fastening the profile to the stud bolts to compress and support the high-density insulation material on the interior surface of the pressure hull;
Submarine pressure hull surface high-density insulation fixing method including.
According to clause 8,
Before the profile installation step,
Blocking the inflow of side noise by additionally attaching an insulating tape to an area where the high-density insulating material and the side of the ring frame are in contact;
A method of fixing a submarine pressure hull surface high-density insulation material further comprising a.

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