KR200385795Y1 - Fire prevention core structure - Google Patents

Abstract

It is an object of the present invention to provide a fireproof core structure having physical properties such as fire resistance. The present invention arranges a core body formed by laminating a plurality of metal members having a predetermined length in a lattice shape to form square grooves between the plates having a predetermined width, and then heat-compresses them to the inner surfaces of the plates. The ability of fire protection against heat insulation and heat by providing through-holes that are integrated with the plates by the urethane foam attached and forming passages through which the urethane foam passes through the metal members of the core body at regular intervals. To elevate.

Description

Fire prevention core structure

The present invention relates to a fireproof core structure intended for use in building walls, partitions, desks, and the like, in particular, by installing a structure having a metal material in the cores installed inside the plates to have properties such as fire resistance. It relates to a fire protection core structure.

In general, the panel refers to a core (core) inserted between the plates of a predetermined width, and is used in a wall or partition of a prefabricated building because it is easy to manufacture and transport and simple to assemble. As a plate material, a plywood made of wood or a plastic plate made of resin is used. However, a steel plate is often used when it is used for construction, especially for burning. In particular, Styropol, glassol, mineralol, etc. are used as cores. Styropol is weak to fire, and there is a problem that fire spreads between boards in case of fire. Glass wool and mineral wool have to be aware of dust during panel production. There is. In general, the existing core structure has a disadvantage in that physical properties such as fire resistance are weak.

Accordingly, an object of the present invention is to provide a fire protection core structure having a metal core having resistance to heat, moisture, and the like, in order to solve the above defects.

Another object of the present invention is to provide a fireproof core structure having a metal core which is easy to store and transport.

In order to achieve the above object, the present invention is a fireproof core structure for use in building walls, partitions, desks, and the like, wherein a pair of plates having a predetermined width are foamed to foam the urethane foam to fix the plates therein. Panel body forming a space for receiving the; The urethane is disposed on the inner surface between the plate members, and the metal members having a plurality of predetermined lengths are mutually coupled in a lattice shape having a square groove so as to be deployed or folded through cutting grooves formed at regular intervals along the length thereof. A core body is fixed to the plate member through a foam is filled in the square groove and cured; And perforated at regular intervals on the metal members to provide a place for fixing the plate members and the metal members while the urethane foam penetrates the metal members, and the urethane foam flows and hardens along the square groove. Characterized in that it comprises a through-hole forming a passage to be.

In the above, the cutting jaws on the inner surface of the cutting grooves, one side of the metal member facing the locking jaw is further formed by the engaging pieces, the engaging pieces are caught on the locking jaws when the metal members are coupled to each other It is preferable not to separate.

In addition, the locking pieces are preferably formed by cutting a portion of the metal member to be inclined to the one surface.

In addition, it is preferable that an introduction portion having a guide inclined surface extending outwardly is formed in the cutting groove.

Meanwhile, the present invention provides a space for accommodating a urethane foam that is foamed to fix the plates inside by stacking a pair of plates having a predetermined width in a fireproof core structure used for building walls, partitions, desks, and the like. Panel body; It is disposed on the inner surface between the plate, and formed into a rectangular shape having a predetermined length with a thin plate-like metal material and arranged in parallel on the inner surface of the plate and at regular intervals along its length direction A core body made up of a plurality of metal members which are integrally fixed to the plates through the urethane foam which perforates pores around the pores and flows along the pores and the pores and cures; And fixing parts of the metal members alternately adjacent to each other, to form a honeycomb structure for accommodating the urethane foam when deployed.

In the above, it is preferable that the coupling portion is formed to be separated through the fitting pieces and the fitting protrusions respectively protruding on the opposite surface.

In addition, the coupling portion is preferably made through welding or adhesive bonding.

The above objects, advantages and other features will become apparent from the following description with reference to the accompanying drawings.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention in detail as follows.

1 is a view showing a state in which a fire core structure according to the present invention is used for building walls, Figure 2 is a view showing a state in which the fire core structure according to the present invention is used for partitions and desks, Figure 3 is the present invention 4 is an enlarged cross-sectional view taken along line II-II of FIG. 3, FIG. 5 is an enlarged view of portion B of FIG. 4, and FIG. 6 is a portion of the core body. An exploded perspective view showing the state before the bay is removed and fitted.

As shown, the fire protection core structure 10 of the first embodiment according to the present invention can be seen that the core for use in the building wall (W), partition (P), desk (D). The fire protection core structure 10 according to the first embodiment of the present invention is installed between a pair of first plates 12a and 12b having a predetermined width so that the first plates 12a and 12b are deformed. The first core bodies 30a and 30b are provided to impart reinforcement to prevent them from becoming. Since the first core bodies 30a and 30b have the same configuration, only the core bodies indicated by reference numeral 30a in FIG. 3 will be described below. It is preferable to use a steel sheet as the first plate materials 12a and 12b, but it is not limited thereto.

The first core bodies 30a are formed by fitting the metal members 32a and 34a. The first metal members 32a and 34a are a plurality of iron pieces of a predetermined thickness having a length and a width corresponding to the horizontal and vertical sizes of the first plate members 12a and 12b. The first core body 30a forming a plurality of first square grooves 36a is formed by fitting into a grid. In addition, the first metal members 32a and 34a constituting the first core body 30a are perforated with first holes 38a at predetermined intervals.

The first core bodies 30a and 30b having such a configuration are positioned above the first urethane foams 40a and 40b precoated to a predetermined thickness on the inner surfaces of the first plate members 12a and 12b, respectively. Is placed. Subsequently, foaming of the first urethane foams 40a and 40b is performed by thermally compressing the first plates 12a and 12b so that the first core bodies 30a and 30b are brought into contact with each other. The first core bodies 30a and 30b are integrally fixedly attached to the first plate members 12a and 12b by a hardening operation, thereby manufacturing the fire protection core structure 10.

In this manufacturing process, the first square groove (36a) of the first core bodies (30a, 30b) used as a reinforcement of the fire protection core structure 10 of the first embodiment according to the present invention is the inside The first through holes 38a provided in the first metal members 32a and 34a make contact with the outside, and as shown by the arrows of FIGS. 4 and 5, Free entry and exit

As such, the inside of the first square grooves 36a of the first core bodies 30a and 30b is made to be in the same state as in the air rather than in the vacuum state by outside air passing through the first through holes 38a. When the thermal compression is performed, the first core bodies 30a and 30b are activated by activating the foaming of the first urethane foams 40a and 40b, which are positioned inside the first square groove 36a. This is to make it more firmly attached to (12a, 12b) so that it is not easily detached by an impact or moisture.

In addition, the first through holes 38a formed in the first core bodies 30a and 30b are foamed of the first urethane foams 40a and 40b that were applied to the first plate members 12a and 12b. The first urethane foam 40a, 40b provides the function of the passage through which the flow. For this reason, the first urethane foams 40a and 40b are cured in a state located inside the first through holes 38a of the first core bodies 30a and 30b, and the first plates 12a, Attaching the first core bodies 30a and 30b to the first plate members 12a and 12b by acting as a connecting ring for holding the first core bodies 30a and 30b from 12b). Strengthen the strength even more.

As shown in Fig. 6, each of the first metal members 32a and 34a forming the first core body 30a has a length of the first metal members 32a and 34a. The core body 30a for forming the first square groove 36a (see FIG. 3) is formed by fitting the lattice through the first cutting groove 35a formed at a predetermined interval along the direction. Let's do it. The first core body 30a may be separated and assembled between the first metal members 32a and 34a by the first cutting groove 35a, and the first metal members 32a and 34a may be separated from each other. Even when the first core body 30a is formed by assembling the first core body 30a, when the force is applied to the first core body 30a, the first core body 30 is flown by the first cutting groove 35a. It is possible to achieve a contracted state in which 30a) is folded.

Figure 7 is an exploded perspective view showing a fire protection core structure of a second embodiment according to the present invention, Figure 8 is an enlarged cross-sectional view taken along the line III-III of Figure 7, Figure 9 is a partial enlarged view showing a portion C of Figure 8 FIG. 10 is an exploded perspective view showing a state before removing only part of the core body by fitting, FIG. 11 is a partially enlarged view showing a portion D of FIG. 10, and FIG.

As shown, the fire protection core structure 100 of the second embodiment of the present invention is the same as the structure of the fire protection core structure 10 of the first embodiment of the present invention, a pair of second having a predetermined width A panel body forming a space for accommodating the second urethane foams 140a and 140b foamed to stack the plates 112a and 112b to fix the second plates 112a and 112b therein; Second cutting grooves 135a disposed on the inner surface of the space between the two plate members 112a and 112b and formed with a plurality of second metal members 132a and 134a having a predetermined length along a length thereof. The second urethane foam (140a, 140b) is filled in the second square groove (136a) and hardened by mutually coupling in a lattice shape having a second square groove (136a) to be deployed or folded through) The second core body (130a, 130b) is integrally fixed to the second plate (112a, 112b) and the second metal member (132a, 134a) for a certain time The second plate members 112a and 112b and the second metal members 132a and the second urethane foams 140a and 140b penetrate at intervals and penetrate the second metal members 132a and 134a. The second urethane foam (140a, 140b) is made of a second through hole (138a) to form a passage for the flow and hardening along the second square groove (136a) while providing a place for fixing the 134a) .

Fire protection core structure 100 of the second embodiment according to the present invention is subjected to the same manufacturing process described in the fire protection core structure 10 of the first embodiment according to the present invention to the second core body (130a, 130b) It is produced through, and thus has the same function and effect as the function and effect derived from the fire protection core structure 10 of the first embodiment according to the present invention, the detailed description of which is the fire protection of the first embodiment according to the present invention. It will replace with the description of the core structure 10 for dragons.

In such a structure, the fire protection core structure 100 according to the present invention forms the locking jaws 151a and 151b and the locking pieces 152 in the second metal members 132a and 134a, respectively, and fits them. The second metal members 132a and 134b which are fitted are prevented from being separated.

The locking jaws 151a and 151b protrude from the inner surface of the second cutting groove 135a, and the locking pieces 152 are the second metal members facing the second cutting groove 135a. The second metal member 132a is formed to protrude on one surface 132a and 134a so that the second metal members 132a and 134a are fitted to each other when the second metal members 132a and 134a are fitted through the second cutting groove 135a. , 134a) is prevented from being separated.

The locking piece 152 is simply inclined to one side by cutting a portion of the second metal members 132a and 134a to simplify the manufacture of the second metal members 132a and 134b. Preferably formed.

In addition, the locking jaws 151 may be formed to protrude in a pair for assembling the second metal members 132a and 134a. For this reason, when the locking jaws 151a and 151b are formed of only one locking jaw 151a, for example, the operator measures the position of the one locking jaw 151a and the second metal members 132a, Since the 134a must be assembled, it is preferable that the locking jaws 151a and 151b protrude in a pair to face each other.

In addition, the cutting groove (135a) to facilitate the assembly of the second metal members (132a, 134a) by forming an introduction portion 160 having a guide inclined surface 161 extending outward to guide each other well. have.

Figure 13 is an exploded perspective view showing a fire protection core structure of a third embodiment according to the present invention, Figure 14 is an enlarged cross-sectional view taken along the line IV-IV of Figure 13, Figure 15 is a state before bonding to separate only some of the core body 16 is a partially enlarged cross-sectional view showing a fitted state in FIG. 15, FIG. 17 is a perspective view showing a developed state in FIG. 16, and FIG. 18 is a perspective view showing a folded state in FIG.

As shown, the fire protection core structure 200 according to the third embodiment of the present invention superimposes a pair of the third plate members 212a and 212b having a predetermined width to form the third plate members 212a and 212b therein. Panel body forming a space for accommodating the third urethane (240a, 240b) to be foamed to secure the) and is disposed on the inner surface of the space between the third plate (212a, 212b), a thin metal material A rectangular shape having a predetermined length is disposed in parallel with the inner surfaces of the third plates 212a and 212b and is spaced around the large holes 238a and the large holes 238a at regular intervals along the length direction thereof. Perforations 238b to be integrated with the third plates 212a and 212b through the third urethane foams 240a and 240b that flow and cure along the pores 238a and the pores 238b. Third core bodies 230a and 230b including a plurality of fixed third metal members 232a and 234a and the third metal members ( 232a and 234a are alternately fixed to only a part of neighboring mutual positions, so as to form a coupling part 235a for forming a honeycomb structure to receive the third urethane foams 240a and 240b when deployed.

Fire protection core structure 200 of the third embodiment according to the present invention is subjected to the same manufacturing process described in the fire protection core structure 10 of the first embodiment of the present invention to the third core body (230a, 230b) It is produced through, and thus has the same function and effect as the function and effect derived from the fire protection core structure 10 of the first embodiment according to the present invention, the detailed description of which is the fire protection of the first embodiment according to the present invention. It will replace with the description of the core structure 10 for dragons.

In such a structure, the coupling part 235a may be formed through a fitting method for separate assembly, a welding method through spot welding, or an adhesive method through an adhesive.

As shown in the drawing, the coupling part 235a having a fitting method for separation assembly corresponds to the fitting pieces 250a corresponding to the opposing surfaces F1 and F2 of the third metal members 232a and 234a. And fitting protrusions 250b are formed, respectively. That is, the coupling part 235a having a fitting method has opposing surfaces F1 and F2 of the neighboring third metal members 232a and 234a when the third metal members 232a and 234a are arranged in parallel. The fitting protrusion 250a and the fitting protrusion 50b separately fitted to the fitting piece 250a are respectively formed on the fitting piece 250a so that the fitting protrusion 250b is inserted into the fitting piece 250a. The third core body 230a having a honeycomb structure for accommodating the third urethane foams 240a and 240b is formed. The fitting piece 250a and the fitting protrusion 250b may be alternately formed on one of the opposing surfaces F1 and F2.

The fitting piece 250a is formed by cutting and lifting a portion of the third metal members 232a and 234a and then bending it in a "-" shape to the inside, and the fitting protrusion 250b is the fitting piece. A portion of the third metal members 232a and 234a corresponding to the portion 250a is cut off, and a portion between the cut portions is raised to protrude.

As shown in FIG. 17, the coupling part 235a has the honeycomb structure by distributing the third metal members 232a and 234b around the coupling part 235a. It is possible to form the sieve 230a, and as shown in FIG. 18, the third metal members 232a and 234b are folded to their lengths to effectively reduce the volume, so that the third core body 230a is accommodated. And facilitate transportation and the like.

On the other hand, the shape of the through hole, the large hole and the small hole forming the passage of the urethane foam in the first, second and third embodiments according to the present invention may be in any form as long as the strength of the metal members forming the core body is not impaired. It is noted that modifications can be made.

As described above, according to the present invention, the reinforcement used for the plate is composed of high-strength metal members, and the metal members are formed with a through hole for activating the foaming of the urethane foam to firmly fix the core body to the plates. By making it possible to maintain the original state at all times without the departure or deformation of the core body from moisture or external impact, it has the effect of extending the life of the panel, and has the effect of increasing the ability of thermal insulation and fire protection against heat. In addition, there is an effect of facilitating the storage and transportation of the core body composed of the metal members by combining the metal members that are reinforcing materials used for the plate or folded to each other.

1 is a view showing a state in which a fire core structure according to the present invention is used for building walls;

2 is a view showing a state in which a fire core core structure according to the present invention is used for partitions and desks;

Figure 3 is an exploded perspective view of the core structure for fire protection of the first embodiment according to the present invention,

4 is an enlarged cross-sectional view taken along the line II-II of FIG. 3;

5 is an enlarged view of a portion B of the display of FIG. 4;

Fig. 6 is an exploded perspective view showing a state before removing only part of the core body by fitting;

Figure 7 is an exploded perspective view showing a fire protection core structure of a second embodiment according to the present invention;

8 is an enlarged cross-sectional view taken along line III-III of FIG. 7;

9 is a partially enlarged view showing a portion C of FIG. 8;

10 is an exploded perspective view showing a state before the removal of only a part of the core body by fitting;

FIG. 11 is a partially enlarged view showing a portion D of FIG. 10; FIG.

12 is a partially enlarged view showing a fitted state in FIG. 10;

Figure 13 is an exploded perspective view showing a fire protection core structure of a third embodiment according to the present invention;

14 is an enlarged cross-sectional view taken along the line IV-IV of FIG. 13;

Fig. 15 is an exploded perspective view showing a state before bonding by removing only a part of the core body;

16 is a partially enlarged cross-sectional view showing a fitted state in FIG. 15;

17 is a perspective view showing a developed state in FIG. 16, and

18 is a perspective view showing a folded state in FIG.

<Description of the symbols for the main parts of the drawings>

10,100,200: Fire protection core structure of the present invention 12,112,212: Steel sheet

30,130,230: Core body 32,34,132,134,232,234: Metal member

35,135: cutting groove 36,136: square groove

38,138: Through 40,140,240: Urethane foam

151: Jam Jaw 152: Jam

160: introduction portion 161: guide slope

235: coupling portion 238a: antiaircraft

238b: pore 250a: fitting

250b: snapping

Claims (7)

In the fire core structure for use in building walls, partitions, desks, etc., A panel body forming a space for accommodating a pair of plate materials having a predetermined width to accommodate urethane foam that is foamed to fix the plate materials therein; The urethane is disposed on the inner surface between the plate members, and the metal members having a plurality of predetermined lengths are mutually coupled in a lattice shape having a square groove so as to be deployed or folded through cutting grooves formed at regular intervals along the length thereof. A core body is fixed to the plate member through a foam is filled in the square groove and cured; And Perforated at regular intervals in the metal member to provide a place for fixing the plate and the metal member in the state where the urethane foam penetrates the metal member, and the urethane foam flows and hardens along the square groove. Fire core core structure comprising a through hole forming a passage for. The method of claim 1, wherein the engaging projections are formed on the inner surface of the cutting grooves, and the engaging pieces are formed on one surface of the metal members facing the engaging projections. Fire-retardant core structure characterized in that it is caught and not separated from each other. The fire protection core structure according to claim 2, wherein the engaging pieces are formed by cutting a portion of the metal members and inclining the one side of the metal members. The fire protection core structure according to any one of claims 1 to 3, wherein an introduction portion having a guide inclined surface extending outward is further formed in the cutting groove. In the fire core structure for use in building walls, partitions, desks, etc., A panel body forming a space for accommodating a pair of plate materials having a predetermined width to accommodate urethane foam that is foamed to fix the plate materials therein; It is disposed on the inner surface between the plate, and formed into a rectangular shape having a predetermined length with a thin plate-like metal material and arranged in parallel on the inner surface of the plate and at regular intervals along its length direction A core body made up of a plurality of metal members which are integrally fixed to the plates through the urethane foam which perforates pores around the pores and flows along the pores and the pores and cures; And Fire-resistant core structure characterized in that it comprises a coupling portion for forming a honeycomb structure for accommodating the urethane foam at the time of development by alternately fixing a part of the neighboring mutually. The fire protection core structure according to claim 5, wherein the coupling part is formed to be separated through the fitting pieces and the fitting protrusions which protrude on the opposite surfaces, respectively. The fire protection core structure according to claim 5, wherein the coupling part is formed by welding or bonding with an adhesive.