KR20140094985A - Knockdown Architectural Panel - Google Patents

Abstract

The present invention relates to a prefabricated construction panel which can directly spray water or a fire extinguishing agent toward filler in a construction panel and wire electric wires for electricity or telephone using the upper and lower finishing caps of the construction panel functioning as the inner wall and the outer wall of a building structure. The prefabricated construction panel according to the present invention comprises a pair of base plates which is spaced a predetermined distance apart and is arranged in parallel; filler filled between the pair of base plates; a lower finishing cap which is combined with the lower sides of the pair of the base plates and closes a gap between the base plates; and an upper finishing cap which is combined with the upper sides of the pair of base plates, and comprises a reverse U-shaped cap main body connected with an external fluid supplying source for receiving a fluid for fire extinguishment, and a nozzle plate formed to be downwardly slanted toward the center part on both inner sides of the cap main body and comprising a plurality of downward penetrating spraying holes along the longitudinal direction at the center part.

Description

{Knockdown Architectural Panel}

The present invention relates to a prefabricated building panel, and more particularly to a prefabricated building panel which is used as inner and outer walls of a building to directly fire water or a fire extinguishing agent on the filler inside the building panel during a fire, , And electric, telephone, and the like.

In general, prefabricated building panels are used as inner and outer walls of buildings by adhering insulation between steel plates and steel plates. They are widely used in construction sites because they are cheap and convenient to construct. Glass wool, mineral wool (rock wool), styrofoam, urethane foam, etc., which have high thermal insulation performance, are used as the filler used between the steel plate and the steel plate. In particular, for the fireproof structure, glass wool, mineral wool And so on.

Since these prefabricated architectural panels are difficult to secure fire safety performance, they are filled with ceramic wool at the joints of the building panels, and the joints are connected by rivet construction. There is a problem of low applicability. In addition, products produced from flame retardant EPS and flame retardant urethane foam, which have good heat insulation performance and are easy to handle, are heavily burdened by high production costs and construction costs.

These prefabricated building panels, especially panels using flammable insulation materials such as styrofoam and some urethane foam, are constructed to prevent fire extinguishment of the fire extinguisher by being clogged by iron plates outside the prefabricated building panels even if they are sprinkled in existing fire extinguishing facilities and fire trucks. Therefore, it is not able to evolve until the buildings are burned down, causing many economic damages. In addition, a building made of a prefabricated building panel is exposed to the outside of the panel such as electricity, telephone, etc., thereby deteriorating aesthetics and causing a short circuit.

In order to solve such a problem, Korean Patent Laid-Open Publication No. 10-2011-0103502 (published on Sep. 21, 2011) discloses a protection panel for a wall, which is installed on an upper part of a panel-type panel for protecting the upper part of the panel When a fire is generated in the building by forming a flow path for supplying fire water along the longitudinal direction on the lid, water is supplied to the internal heat insulating material of the prefabricated panel constituting the wall through the fire water supply flow path, And which can prevent or delay the collapse of the wall.

However, in the conventional prefabricated building panel having such a refractory function, since the diaphragm having the injection hole is horizontally installed, the performance of spraying water in the event of fire is deteriorated and the water is not accumulated in the protective cover There is a problem.

It is an object of the present invention to improve the thermal insulation provided by the panel and to improve the performance of spraying water from the upper side of the panel toward the heat insulating material in case of fire, And to provide an improved prefabricated building panel.

It is another object of the present invention to provide a prefabricated building panel capable of efficiently performing wiring work by concealing various electric wires of a building inside a panel.

According to an aspect of the present invention, there is provided a plasma display panel comprising: a pair of base plates spaced apart from each other by a predetermined distance; A filler filled between the pair of base plates; A lower finishing cap coupled to a lower end of the pair of base plates to close between the base plates; U-shaped cap main body coupled to the upper end of the pair of base plates and connected to an external fluid supply source to supply fluid for extinguishing, and a cap body formed on both sides of both sides of the cap body, And an upper finishing cap including a nozzle plate having a plurality of injection holes formed to penetrate downward along a longitudinal direction of the upper finishing cap.

According to the present invention, water is sprayed from the upper finishing cap in case of fire, so that it can be absorbed or dropped into the filler inside the prefabricated building panel to block and extinguish flames and heat. The economic loss can be minimized, the thickness and density of the filler can be reduced, and the cost can be reduced. In particular, since the nozzle plate of the upper finishing cap has a downward inclined structure at a certain angle toward the center, the fluid is naturally guided toward the central spray hole, thereby improving water spraying performance.

In addition, the construction cost can be reduced by easily accommodating various electric wires and communication cables inside the space defined by the spacer plate of the lower finishing cap.

1 is a front view of a prefabricated building panel according to an embodiment of the present invention.
Fig. 2 is a longitudinal sectional view of the prefabricated building panel of Fig. 1, seen from the side. Fig.
Fig. 3 is a sectional view showing a main portion of the prefabricated building panel of Fig. 1; Fig.
Figure 4 is a front view of a portion of the prefabricated building panel of Figure 1;
5 is a longitudinal sectional view of a prefabricated building panel according to another embodiment of the present invention.
6 is a vertical cross-sectional view of a prefabricated building panel according to another embodiment of the present invention.
FIG. 7 is a longitudinal sectional view of a main part of a prefabricated building panel according to another embodiment of the present invention.
8 is a longitudinal sectional view showing the main part of a modification of the prefabricated building panel shown in FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a prefabricated building panel according to the present invention will be described in detail with reference to the accompanying drawings.

1 to 4, a prefabricated building panel according to an embodiment of the present invention includes a pair of base plates 10 spaced apart from each other by a predetermined distance, A lower finishing cap 40 for closing the gap between the base plate 10 and the lower end of the pair of base plates 10 and a lower finishing cap 40 for closing the gap between the pair of base plates 10, An upper finishing cap 30 for closing between the base plates 10 while being coupled to the upper ends of the base plates 10; And a cap (50).

The base plates 10 are made of a rectangular plate, and can be made of metal such as steel or synthetic resin having excellent fire resistance.

The filler (20) is attached between the two base plates (10) to perform the function of a heat insulator providing warmth. The filler 20 may be glass wool, mineral wool, styrofoam, flame retardant styrofoam, urethane or the like.

The lower closure cap 40 may be made of a metal material or a non-combustible or flame-retardant synthetic resin material. The lower finishing cap 40 has a U-shaped lower cap main body 41 and a lower surface of the lower cap main body 41. The lower finishing cap 40 is disposed inside the lower cap main body 41 at a predetermined distance from the lower surface of the lower cap main body 41, And a spacer plate 42 for forming a space in which the spacer plate 42 is accommodated. As described above, a space is formed inside the lower finishing cap 40 by the spacer plate 42, and the electric wire C such as electricity or telephone is received in the space, so that the electric wire C is concealed inside the building panel, Can be easily obtained. An opening 43 is formed in one side surface of the lower cap main body 41 of the lower finishing cap 40 to insert or withdraw the electric wire C. [

The lower finishing cap 40 is fixedly coupled to the base plate 10 by fastening means such as screws on both sides thereof.

Like the lower finishing cap 40, the upper finishing cap 30 is preferably made of a metal material, or a nonflammable or flame-retardant synthetic resin material. The upper finishing cap 30 is configured to inject a fluid such as water or a fire extinguishing agent on the upper side of the filler 20 in the event of a fire. In this embodiment, the upper finishing cap 30 is connected to an external fluid supply source U 'shaped cap body 31 connected to the cap body 31 and supplied with a fluid for extinguishment. The cap body 31 is formed at the inner side of both sides of the cap body 31 with a downward inclination toward the center, And a nozzle plate 32 having spray holes 33 arranged at regular intervals.

Both end portions of the nozzle plate 32 are bent at right angles and fixed to both sides of the cap body 31 by fastening means such as bolt or welding. The nozzle plate 32 is separated from the upper surface of the cap body 31 by a predetermined distance to form a space 35 in which fluid such as water flows inside the cap body 31. The nozzle plate 32 is inclined downward at a certain angle toward the center so that the fluid supplied to the space 35 formed between the cap body 31 and the nozzle plate 32 can naturally flow to the center portion So that it can be smoothly discharged to the outside through the injection hole 33.

The nozzle plate 32 is inclined downward so that the nozzle plate 32 presses the filler 20 when the upper finishing cap 30 is coupled to the upper end of the base plate 10, do.

The upper finishing cap 30 is also fixedly coupled to the base plate 10 by fastening means, such as screws, on both side surfaces, like the lower finishing cap 40.

The spray holes 33 of the nozzle plate 32 are formed to penetrate downward and the inner peripheral portion of the spray hole 33 is formed into a cone shape as the diameter decreases toward the lower side. When the spray holes 33 of the nozzle plate 32 are cone shaped as described above, the fluid can be injected while being concentrated at the center of the spray hole 33.

When the prefabricated building panel thus constructed senses heat in the event of fire, the valve of the external fluid supply source connected to the upper finishing cap 30 is opened and the fluid is discharged into the space 35 of the upper finishing cap 30 And the supplied fluid flows along the space 35 and is injected into the filler 20 through the lower spray hole 33 to extinguish and cool.

5 shows a prefabricated building panel according to another embodiment of the present invention. The prefabricated building panel of this embodiment has a pair of auxiliary fillers (not shown) on both sides of the space 35 defined by the upper finishing cap 30 and the nozzle plate 32, The space between the auxiliary filling materials 21 forms a flow path for the fluid to be supplied to the inside of the upper finishing cap 30 and the lower cap main body 41 is filled with the fluid, And the auxiliary filler 22 is filled in both sides of the space between the spacer plate 42 and the spacer plate 42.

When the auxiliary fillers 21 and 22 are filled in the upper finishing cap 30 and the lower finishing cap 40 as described above, there is an advantage that the heat insulating effect by the filler can be increased. The auxiliary filling material 21 of the upper finishing cap 30 functions to increase the water pressure by reducing the inner space 35 of the upper finishing cap 30. The spraying holes 33 of the nozzle plate 32 Lt; RTI ID = 0.0 > water < / RTI >

In this embodiment, the auxiliary filler 21 is spaced apart from the opposite sides of the space 35 of the upper finishing cap 30 by a certain distance. Alternatively, the auxiliary filler 21 may have a porosity It may be filled in the entire space 35 of the upper finishing cap 30.

Meanwhile, in the above-described embodiments, the upper finishing cap 30 and the lower finishing cap 40 are each formed as a single body from one end to the other end of the building panel (see FIG. 1).

6, the upper finishing cap 30 is divided into a plurality of portions having a predetermined length, and each of the divided upper finishing cap 30 parts has an upper end cap 30 may be connected to each other by a coupling tube 60 which is inserted into one end of the first and second portions. The stopper 61 is formed at the middle portion of the connection pipe 60 so as to protrude outwardly from the end of the upper finishing cap 30 while determining the engagement position.

The connection pipe 60 has a cross-sectional shape corresponding to the inner space 35 of the upper finishing cap 30 so that both ends thereof are inserted almost tightly through the end portions of the upper finishing caps 30. After the connection pipe 60 is inserted into the upper finishing cap 30, the connecting pipe 60 and the upper finishing cap 30 are fastened together using fastening means such as screws or welding so that the connecting pipe 60 is not separated from the upper finishing cap 30. [ It is preferable to fix the finishing cap 30 to each other.

The connection pipe (60a) located at the end of the building panel of the connection pipe (60) is connected to an external fluid supply source to receive the fluid.

The connection pipe 60 serves to interconnect parts of the plurality of upper finishing caps 30 formed on one building panel, but the upper finishing cap 30 of one building panel and the upper finishing The cap 30 may also be interconnected.

In the above-described embodiments, a spray hole 33 is formed at the center of the nozzle plate 32, and the nozzle plate 32 is formed so as to be inclined downward at a predetermined angle from both end portions toward the central spray hole 33. 7, auxiliary spray holes 36 are formed in both end portions of the nozzle plate 32 so as to penetrate the spray holes 33 at the center of the nozzle plate 32 and auxiliary And the portion between the spray holes 36 may be formed in a shape that is formed to be inclined to both sides in an approximately '?' Shape. The fluid introduced into the upper finishing cap 30 flows into the auxiliary spray holes 36 on both sides together with the central spray hole 33, It is possible to uniformly supply the fluid to the entire filler 20. Particularly, in the case of a fire, the joint surfaces of the base plate 10 and the filler 20 can be separated by heat. In this case, the fluid is also supplied between the separated base plate 10 and the filler 20, .

A space between the upper end of the upper finishing cap 30 and the nozzle plate 32 may be set in an empty state but a space between the upper end of the upper finishing cap 30 and the nozzle plate 32, The auxiliary filler 23 may be filled. Even if the auxiliary filling material 23 is filled in the space between the upper end of the upper finishing cap 30 and the nozzle plate 32, since the auxiliary filling material 23 is made of a porous material capable of absorbing the fluid well, The fluid absorbed into the filler 23 can be dropped downward and the fluid can be supplied to the inside of the lower filler 20 through the central injection hole 33 and the auxiliary injection holes 36 on both sides.

According to the present invention as described above, various wires and communication cables can be easily accommodated inside the space formed by the spacer plate 42 of the lower finishing cap 40, thereby reducing the construction cost.

In addition, when water is sprayed from the upper finishing cap 30 in the event of a fire, it can be absorbed or dropped into the filler 20 inside the prefabricated building panel to block and extinguish flames and heat. The economic loss can be minimized, the thickness and density of the filler can be reduced, and the cost can be reduced. Particularly, since the nozzle plate 32 of the upper finishing cap 30 has a structure inclined downward at a predetermined angle toward the center, the fluid (water) is naturally guided toward the central spray hole 33 during fire, . ≪ / RTI >

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the present invention as defined by the appended claims. And it is to be understood that such modified embodiments belong to the scope of protection of the present invention defined by the appended claims.

10: base plate 20: filler
21, 22, 23: auxiliary filler 30: upper finishing cap
31: cap body 32: nozzle plate
33: Sprinter 35: Space
36: auxiliary spray hole 40: lower finishing cap
41: lower cap body 42: spacer plate
43: opening 50: side closure cap
60: Connector 61: Stopper

Claims (12)

A pair of base plates 10 spaced apart from each other by a predetermined distance;
A filler (20) filled between the pair of base plates (10);
A lower finishing cap 40 coupled to a lower end of the pair of base plates 10 to close between the base plates 10;
U '-shaped cap main body 31 coupled to an upper end of the pair of base plates 10 and connected to an external fluid supply source to supply fluid for extinguishing, And an upper finishing cap (30) having a nozzle plate (32) formed to be sloped downward toward the central portion and having a plurality of spray holes (33) penetrating downward along a longitudinal direction at a central portion thereof. Prefabricated building panels. The prefabricated building panel according to claim 1, further comprising an auxiliary filler (21) installed inside a space (35) formed by the upper finishing cap (30) and the nozzle plate (32). The method as claimed in claim 2, wherein the auxiliary filler (21) is filled with a space at a predetermined distance from both sides of the space (35) Thereby forming a flowing flow path. 2. The prefabricated building panel according to claim 1, wherein the injection hole (33) of the upper finishing cap (30) has a cone shape as the inner periphery is reduced in diameter toward the lower side. The prefabricated building panel according to claim 1, wherein the nozzle plate (32) is bent at right angles at opposite ends thereof and fixed to both sides of the cap body (31) by fastening means. 2. The apparatus of claim 1, wherein the upper finishing cap (30) is divided into a plurality of portions having a predetermined length, wherein each of the upper finishing cap parts (30) Are connected to each other by a connection pipe (60) which is inserted while being inserted into the inside of the building. 7. The assembly building panel (1) according to claim 6, wherein a stopper (61) for determining an engagement position is formed at an intermediate portion of the connection pipe (60) so as to be in contact with one end of the upper finishing cap . The lower closure cap according to claim 1, wherein the lower closure cap comprises a U-shaped lower cap body 41 and a lower surface of the lower cap body 41 spaced apart from a lower surface of the lower cap body 41 by a predetermined distance And a spacer plate (42) which is installed so as to form a space in which electric wires are received. The prefabricated building panel according to claim 8, wherein auxiliary filler (22) is filled in both sides of the space between the lower cap body (41) and the spacer plate (42). The prefabricated building panel according to claim 1, wherein a plurality of auxiliary injection holes (36) are formed at both side ends of the nozzle plate (32). 11. The prefabricated building panel according to claim 10, wherein the nozzle plate (32) is formed in a shape between a central injection hole (33) and an auxiliary injection hole (36) on both sides in a 'shape. The prefabricated building panel according to claim 10 or 11, wherein an auxiliary filler (21) is installed inside a space (35) formed by the upper finishing cap (30) and the nozzle plate (32).

Images