KR200465187Y1 - Built-in type fort panel and built-in type unit fort module made of ＦＲＰ and the unified fort - Google Patents

Abstract

The present invention not only protects the internal lives from various bullets, but also discloses an assembled distal panel, an assembled distal panel, and an integrated distress panel implemented by FRP that can be transported, installed, and dismantled. The assembled type serious panel implemented by the FRP is implemented by the FRP, is formed of a material of the FRP, each includes at least one fastening portion and includes a plurality of panels forming a serious when assembled, the front panel, the serious front panel A serious floor panel fastened to the lower part of the front panel, two serious side panels fastened to the left and right sides of the front panel, three serious path bottom panels, five serious path walls fastened to each other and fastened to the true floor bottom panel. A panel, and the two serious side panels, the two bottom path panels, one of the three serious bottom floor panels, and one of the two serious front wall panels. .

Description

Built-in type fort panel and built-in type unit fort module made of FRP and the unified fort

The present invention relates to a military serious position, in particular, by connecting a plurality of unit type module and module unit module and the unit type module module formed by fastening the assembled type panel, which can be built prefabricated using the RPP. It is about the integrated position formed.

The positions used to defend a certain area from the enemy should be set up where needed. Once installed, it is almost impossible to move them to another location. In addition to the shortcomings of the considerable expense and installation time for installing the place in all the necessary places according to the changing situation, the additional cost of having to leave or destroy it when not in use can not be ignored. .

Recently, the ROK Armed Forces are sent abroad on behalf of the United Nations and stationed in a certain place, and they spend a lot of money to build their positions with cement or concrete. If the location of the station is changed, the former location will not be relocated and will eventually be treated as an irrecoverable expense.

The technical problem to be solved by the present invention is to provide an assembled serious panel implemented by FRP that can not only protect the internal life from various bullets, but also can be transported, installed and dismantled.

Another technical problem to be solved by the present invention is to provide an assembled type serious panel implemented using the assembled type serious panel.

Another technical problem to be solved by the present invention is to provide an integrated diaphragm implemented by connecting a plurality of the assembled unit diaphragm module.

In order to achieve the above technical problem, the assembled-type serious panel implemented by the FRP implemented by the FRP according to the embodiment of the present invention is formed of a material of the FRP, each of which includes at least one fastening part and forms a serious position when assembled. It includes a plurality of panels, a front panel, a bottom panel fastened to the bottom of the front panel, two side panels to be fastened to the left and right sides of the front panel, three earth path bottom panels, fastening each other And two of the five serious passage wall panels which are fastened to the two bottom passage panels, one of the two side panels, the two bottom side panels, one of the three bottom passage panels, and two of the five side passage wall panels. And a serious rear panel which is engaged with the two serious passage wall panels.

The assembled unit diagnosing module according to an embodiment of the present invention for achieving the other technical problem is implemented as an assembled diaphragm module implemented by the FRP according to claim 1, wherein the front panel, the front surface of the serious The base consists of two bottom side panels fastened to the bottom of the panel and the two side panels connected to the left and right sides of the front panel and the three passage path bottom panels fastened to each other, and the three paths bottom panel It includes a five-path passage wall panel to be fastened and a two-way passage wall panel to be installed on one side of the serious passage wall surface and the position of the serious rear panel to be engaged with one of the bottom panel.

In accordance with an embodiment of the present invention for achieving the above another technical problem, integrated diaphragm is connected to a plurality of unit unit module implemented by the FRP described in claim 8.

Since the built-in diaphragm panel, assembled unit diaphragm module and integrated diaphragm implemented by FRP are implemented by FRP, it is light in weight, so it is easy to transport, install and dismantle, while its strength can protect internal life from various bullets. There is an advantage.

1 is an exploded view of an assembled type serious panel implemented by FRP according to the present invention.
FIG. 2 is a view illustrating an assembled unit diaphragm module formed using the assembled diaphragm panel implemented by the FRP shown in FIG. 1.
3 is a three-side view of the front panel of the displacement.
Figure 4 is a three-sided view of the bottom panel.
5 is a three-sided view of the serious side panel.
Figure 6 is a three-sided view of the rear panel back.
Figure 7 is a three-sided view of the serious passage bottom panel.
8 is a three-sided view of the serious passage wall panel.
9 illustrates a fastening method of the panel.

In order to fully appreciate the advantages of the present invention, its operational advantages, and the objects attained by the practice of the present invention, reference should be made to the accompanying drawings, which are provided for explaining exemplary embodiments of the present invention, and the contents of the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like reference symbols in the drawings denote like elements.

1 is an exploded view of an assembled type serious panel implemented by FRP according to the present invention.

FIG. 2 is a view illustrating an assembled unit diaphragm module formed using the assembled diaphragm panel implemented by the FRP shown in FIG. 1.

1 and 2, the assembled type serious panel 100 implemented by FRP according to the present invention, one of the front panel of the front panel (F1), the bottom of the front panel (F1) fastening bottom panel ( F2), two serious side panels F3 and F4 fastened to the left and right sides of the true front panel F1, and three earthquake passage bottom panels P1 to P3 serving as a passage between the two positions, Five earthquake passage wall panels (P4-P8), two earthquake side panels (F3, F4), a ground bottom panel (P2), and one that form the walls of the passage and are fastened to the earthquake passage floor panels (P1-P3). An earthquake passage bottom panel P2 and two earthquake passage wall panels P7 and P8 are included.

When the panels shown in FIG. 1 are assembled according to the above description, the assembled unit diagnosing module shown in FIG. 2 is implemented. When connecting a plurality of assembled unit diaphragm module shown in Figure 2 it may be made as if the integrated position is formed in the middle between the wall and the wall.

In the assembled unit serious module implemented by the assembled type serious module implemented by the FRP of claim 1,

Assembled unit diaphragm module can be divided into a serious position 110 and the seriousness passage (120).

The serious position 110 includes two front side panels F3 fastened to the bottom of the front panel F1, the bottom of the front panel F1, and the left and right sides of the front panel F1. F4). The earthquake passage 120 includes three earthquake passage bottom panels P1 to P3 fastened to each other, five earthquake passage wall panels P4 to P8 fastened to each other and fastened to three earthquake passage bottom panels P1 to P3. It consists of the two serious path wall panels (P7, P8) to be installed on one side of the serious path wall (P4 ~ P8) and one of the serious bottom panel (P2).

In the present invention, each panel is implemented by FRP. FRP (Fiber Reinforced Plastic) is glass fiber reinforced plastic, which combines aromatic nylon fiber such as glass fiber, carbon fiber, kevlar, and thermosetting resin such as unsaturated polyester and epoxy resin. to be. It has the advantage of being stronger than iron, lighter than aluminum, and easy to process without rust.

The thickness of each panel may be determined according to the use of the position according to the present invention, and each panel has an empty space (not shown), and each panel has a refill slot for filling a certain material in the panel ( 901, Fig. 9) is also formed.

In addition, each panel has a fastening part so that they can be easily coupled, the fastening part means a protrusion 101 and a groove 102. The protrusion 101, the groove 102, and the surface on which the protrusion 101 and the groove 102 are formed are formed with fastening holes 130 into which the fastening means 901 (FIG. 9) can be inserted.

Hereinafter, the specification of each panel will be described.

3 is a three-side view of the front panel of the displacement.

Referring to FIG. 2, the front view shown at the lower left of FIG. 3, the rear view shown at the upper side of the front view, the side view shown at the left side of the front view, and FIG. 2, the outer surface 301 of the front panel F1 has a constant curvature. The inner surface 302 is flat, and the grenade discharge hole 303 is formed at the bottom. Although not shown in detail in FIG. 3, it is preferable that the thickness of the front surface 301 of the front panel F1 is thicker than the thickness of the rear surface 302.

Figure 4 is a three-sided view of the bottom panel.

Referring to FIG. 2, the front view shown in the lower left of FIG. 4, the rear view shown in the upper side of the front view, the side view shown in the left side of the front view, and FIG. It is lower than the height (H2), the grenade discharge passage 401 penetrating through the grenade discharge hole 303 installed in the lower portion of the front panel (F1) shown in Figure 3, the grenade discharge passage It can be seen that 401 is in the form of a hollow center. This structure serves to double the protection of the internal life by allowing the grenade to be rolled out to the outside by the inclined form of the bottom panel (F2) when the explosives such as grenades from the outside.

5 is a three-sided view of the serious side panel.

Referring to FIG. 5, the front view shown in the lower left of FIG. 5, the rear view shown above the front view, the side view shown to the left of the front view, and FIG. It protects the internal personnel.

Figure 6 is a three-sided view of the rear panel back.

Referring to FIG. 2, the front view shown in the lower left of FIG. 6, the rear view shown in the upper side of the front view, the side view shown in the left of the front view, and FIG. 2, the two serious side panels F3 and F4 and the bottom panel F2. It can be seen that the fastening path bottom panel P2 and the two fastening path wall panels P7 and P8 are fastened. In the lower part of the front view, a space in which a person can enter and leave the position is formed.

Figure 7 is a three-sided view of the jinji passage bottom panel.

Referring to FIG. 2, the front view shown in the lower left of FIG. 7, the rear view shown in the upper part of the front view, the side view shown in the side of the front view, and FIG. do.

8 is a three-sided view of the serious passage wall panel.

Referring to FIG. 8, the front view shown in the lower left of FIG. 8, the rear view shown in the upper part of the front view, the side view shown in the side of the front view, and FIG. 2, the serious passage wall panels P4 to P8 form the passage wall of the place of interest. do.

9 illustrates a fastening method of the panel.

Referring to Fig. 9, the fastening of the front panel F1 and the serious side panel F4 is formed by inserting the projections of the front panel F4 into the grooves of the front panel F1, respectively. The insertion is completed by inserting the fastening means 910 into the fastening hole 130.

At the upper end of the front panel F1, a refill inlet 901 may be formed to fill a predetermined material therein.

For convenience of explanation, the fastening process is for the fastening process of the front panel (F1) and the serious side panel (F4), and the refill inlet 901 is installed on the upper end of the front panel (F1) Since this description can be applied to all other panels, the description of the panels is replaced with the above description.

Although the technical idea of the present invention has been described above with reference to the accompanying drawings, it is to be understood that the present invention is by way of example only and is not intended to be limiting of the present invention. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the scope of the present invention.

101: protrusion 102: groove
110: seriousness (the seriousness panel set)
120: earthquake path (pannel set for the earthquake path)
130: fastening hole

Claims (9)

In the assembled serious panel, which is formed of a material of FRP, each of which includes at least one fastening portion and comprises a plurality of panels forming a position when assembled, the FRP,
Displacement front panel;
A bottom panel fastened to the bottom of the front panel;
Two serious side panels fastened to the left and right sides of the front panel;
3 displacement path bottom panels;
Five earthquake passage wall panels fastened to each other and fastened to the earthquake passage bottom panel; And
And a serious rear panel which is engaged with the two serious sidewall panels of the two serious side panels, the two bottom floor panels, one of the three serious floor panels and the two of the five serious wall panels. Assemble type panel with FRP. The method of claim 1,
The fastening portion is a protrusion and a groove,
The protruding portion, the groove and the surface formed with the protruding portion and the groove, the assembly-type serious panel implemented by FRP, characterized in that the fastening hole into which the fastening means can be inserted, respectively. The method of claim 2,
The outer surface of the front panel has a constant curvature, the inner surface of the front panel is flat (flat), the lower part of the front panel is assembled type implemented by FRP characterized in that it comprises a grenade discharge hole. Serious Panel. According to claim 3, wherein the bottom panel,
The height of the front of the bottom panel is lower than the height of the rear of the bottom panel, the grenade discharge passage through the grenade discharge hole protrudes in the front center of the bottom panel, the grenade discharge passage Assembling-type serious panel implemented in FRP, characterized in that the fine form. 5. The method of claim 4,
An assembled serious panel implemented by FRP, wherein the inside of each panel is empty. The method of claim 5,
The assembled front panel implemented by FRP, characterized in that the thickness of the front surface of the front panel is thicker than the thickness of the back of the front panel. The method of claim 5,
The at least one panel of the assembled serious panel implemented by FRP, characterized in that it further comprises a refilling inlet for filling a certain material in the empty interior.
According to claim 1, wherein the assembled unit of the diagnostic module is implemented with a built-in serious panel implemented by FRP,
A position comprising the front panel, a bottom panel fastened to the bottom of the front panel and two front panel fastened to the left and right sides of the front panel; And
3 earthquake passage floor panels fastened to each other, 5 earthquake passage wall panels fastened to each other and fastened to the 3 earthquake passage floor panels, 2 earthquake passage wall panels and one earthquake bottom to be installed on one side of the earthquake passage wall surface A serious passage consisting of a serious rear panel fastened to the panel;
Assembly type unit diagnosing module comprising a.
An integrated diaphragm comprising a plurality of assembled unit diaphragm modules implemented by the FRP of claim 8.

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