KR20050097400A - Establishment structure of fire pipe in apartment house and establishment method by using of it - Google Patents

Abstract

The present invention relates to a fire pipe installation structure of a multi-unit house and a fire pipe installation method using the structure,

In the entire fire pipe line, the fire pipe line which is installed on the ceiling of each household of the apartment house among the fire pipes of the whole slab layer 21 from the bottom of the immediately upper floor of the household, that is, from the lower side to the upper side, It is comprised in the bottom part C comprised from the heat insulation material layer 22, the lightweight foamed concrete layer 23, the backing plate layer 24, and the finishing mortar layer 25.

The present invention embeds a fire pipe (7) previously piped into the space between the ceiling (8) of each generation from the upper slab layer (1) in the interior of the floor (C) of each generation, so that the floor height is 10 cm. The construction cost is greatly reduced and the overall construction period is shortened.

     In addition, since the floor height is lowered and the building height is lowered, there is an effect of increasing the building floor area in some cases.

Description

ESTABLISHMENT STRUCTURE OF FIRE PIPE IN APARTMENT HOUSE AND ESTABLISHMENT METHOD BY USING OF IT}

The present invention relates to a fire pipe (spring sprinkler pipe) installation structure of the multi-family housing, and a fire pipe installation method using the structure, in particular, by laying the fire pipes inside the floor of each household (furniture) of the multi-family house floor height The present invention relates to a fire pipe installation structure of a multi-unit house configured to reduce the number of fire pipes and a fire pipe installation method using the structure.

Firefighting piping system is mandatory to install on the 16th floor or above in case of apartments, and when fire occurs, it is detected by heat sensor and sounds an alarm and automatically sprays fire extinguishing water at the place of fire. It is designed to extinguish the fire. It is branched to each household through the granular pipe and each branch pipe connected to the main pipe connected to the fire extinguishing tank. The sprinkler head is opened by the fire heat, and the fire extinguishing water is sprayed to the place where the fire is generated. It is possible to digest early.

The sprinkler head is normally sealed by a sealed part of the extinguishing water outlet formed of lead, and in the event of a fire, the sealing unit which automatically seals the extinguishing water outlet is detected while detecting the heat sensor provided in the sprinkler head. The fire extinguishing water outlet is opened, and a predetermined pressure is maintained in the fire extinguishing water contained in each of the copper pipes, the synthetic resin pipes, or the stainless steel pipes connected to each other. As the sprinkler head is opened, the water pressurized in the fire extinguishing pipe is discharged through the extinguishing water outlet of the sprinkler head and sprayed to extinguish the fire quickly.

As shown in FIG. 1, the fire pipe installation structure used in the related art is installed in the space 11 between the ceiling and the slab layers of the fire pipe line installed in each household of the apartment house among the entire fire pipe lines. A slab layer (1) from the lower side to the upper side; Of the bottom portion (A) consisting of a plastering portion (B) formed of a heat insulating material layer (2), a lightweight foamed concrete layer (3) having a high strength and a heat insulating effect, a backing plate layer (4), and a finishing mortar layer (5). A fire pipe 7 fixed to a bottom of the slab layer 1, which is a bottom surface, is fixedly installed by a predetermined fixing piece 13, and the fire pipe 7 is covered with a gypsum board so that the fire pipe 7 is not hidden from the outside. The ceiling 8 is provided so that the horizontal pipe 7a and the vertical pipe 7b are installed in the standing pipe so as to branch by household (furniture) from the standing pipe (not shown) of the fire pipe 7 of the apartment house. ) When the outlet of the sprinkler head 9 is opened while detecting the fire heat generated by the heat sensing part of the sprinkler head 9 at the end of the fire pipe 7 to which the extinguishing water is supplied. Through the fire pipe (7) of the household in which the fire occurred in the standing pipe It is configured to extinguish fire extinguishing water through the sprinkler head 9 installed to protrude indoors on the ceiling 8 in the generation of fire.

However, the interior space part of the lower floor generation which is the lower part from the lower slab layer 1 of the bottom part A of the upper floor generation of the apartment building to connect each sprinkler head 9 in each generation. Piping on the upper part of (6) and installing the ceiling (8) at intervals of about 10 cm or more to cover the fire pipe (7) at the lower side, the height of the floor rises by about 10 cm or more, the construction cost increases and the construction period is long. There was a problem that the building floor area is reduced.

The present invention has been made to solve the above problems, an object of the present invention is to reduce the height of the multi-family house by laying a fire pipe in the interior of the floor of the interior of each upper-generation household that is the upper portion of the lower-generation households The present invention provides a fire-fighting pipe installation structure of a multi-family house and a fire-fighting pipe installation method using the structure.

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The fire pipe installation structure and the fire pipe installation method using the structure of the multi-unit housing of the present invention, as shown in Figure 2 to 5, in the entire fire pipe line, The fire pipe line installed on the ceiling of each household unit has a slab layer 21, an insulation layer 22, a lightweight foam concrete layer 23, and a backing plate layer 24 at the bottom of the upper layer of the household, that is, from the lower side to the upper side. ) And the finishing mortar layer 25 is provided in the bottom portion (C).

The fire pipe line is connected to a fire fighting tank (not shown) and branched from a main pipe (not shown) to which a pump (not shown) is installed and a standing pipe (not shown) connected to the main pipe. A horizontal first horizontal branch pipe 27a installed in the corridor 30 so as to pipe to each household before the fire pipe 27 is introduced into each household; A first vertical branch pipe 27b in a vertical direction in which a lower end portion is connected to an upper portion of a plurality of predetermined portions of the first horizontal branch pipe 27a; A second horizontal branch pipe 27a 'in a horizontal direction in which one side portion is connected to an upper end portion of the first vertical branch pipe 27b; A third horizontal paper tube 27a ″ in a horizontal direction having one end connected to a predetermined portion of the second horizontal paper tube 27 a ′; As the upper end portion is connected to the third horizontal branch pipe (27a '') and is composed of a second vertical branch pipe (27b ') installed in the downward direction,

Slabs other than the upper and lower surfaces are disposed so that the first vertical branch pipes 27b, which are connected to the upper side of the plurality of predetermined portions of the first horizontal branch pipes 27a, are installed through the slab layer 21. A sleeve 31 embedded in the layer 21; The second horizontal paper pipe 27a 'connected in the horizontal direction to the first vertical paper pipe 27b and the third horizontal paper pipe 27a' 'connected in the horizontal direction to the second horizontal paper pipe 27a' are lightweight bubbles. A buried portion 32 of the second horizontal branch pipe 27a 'and the third horizontal branch pipe 27a' 'embedded in the concrete layer 23; A sleeve in which the remaining portions other than the upper and lower surfaces are buried in the slab layer 21 so that the second vertical branch pipes 27b 'connected downward from the third horizontal branch pipes 27a "31); The lower end of the sleeve 31 so that the sprinkler head 29 connected to the lower end of the second vertical branch pipe 27b 'protrudes downward from the interior space part 26 that is outside from the slab layer 21. It is configured to include a sprinkler head fixing portion (29a) is fixed to the upper part is inserted into the inner circumferential surface.

The present invention configured as described above is a fire pipe line installed in the ceiling of each household of the apartment house of the entire fire pipe line, the slab layer (21) from the bottom of the upper floor of each generation, that is, from the lower side; Fire-fighting pipes 27 in the bottom part C, which is composed of a plastering part D formed of a heat insulating material layer 22, a lightweight foam concrete layer 23, a backing layer 24, and a finishing mortar layer 25. By embedding it, it is not necessary to install such a thing as the conventional ceiling 8 in a household, and the height of a floor can be reduced before and after 10 cm.

The sleeve 31 is embedded in the slab layer 21 firmly so that the annular protrusion 31b is formed on the outer circumferential surface of the middle portion of the cylindrical body 31a so as not to be separated upwards or downwards.

The pipe diameter of the fire pipe 27 can be increased or decreased by hydrodynamic calculation if necessary, and when the space is insufficient, in addition to the circular pipe having a circular cross section that is commonly used, an elliptical pipe or a polygonal pipe can be used. The bottom portion C, which is the height from the conventional slab layer 1 to the finishing mortar layer 5 at the top, depending on which of the circular, elliptical, or polygonal pipes the fire pipe 27 is used to apply. The height of) can be increased or decreased, and also, the height of the bottom portion C can be increased or decreased according to the diameter of the circular tube, the elliptical tube, and the polygonal tube.

Therefore, the height of floor can be increased or decreased according to the height of the bottom portion (C).

The degree of reduction of the height of the fire pipe 27 of the present invention is buried in the bottom portion C and the height of the bottom portion C increases or decreases according to the type or diameter of the fire fighting pipe 27.

The first horizontal branch pipe (27a) may be installed in the entrance or the front room in addition to the corridor (30), the fire pipe 27 is made of copper pipe, synthetic resin pipe or stainless steel pipe, the material of the fire pipe 27 Connectors such as pipe diameter and tee 33 are not uniformly applied and can be changed by the designer.

It will be described how to install the fire pipes using the fire pipe installation structure.

Method for installing a fire pipe using the fire pipe installation structure of the present invention, as shown in Figure 2 to 4,

A slab mold assembly step of assembling the slab mold by a conventional assembly method;

A sleeve installation step of fixing and fixing the sleeves 31 to a plurality of predetermined portions in the assembled slab frame;

A slab layer construction step of placing and curing concrete in the slab mold to construct the slab layer 21;

The heat insulating material layer 22 having through holes 22a formed at predetermined portions so that the first vertical paper pipes 27b and the second vertical paper pipes 27b 'penetrate the upper surface of the constructed slab layer 21, respectively. Forming an insulating material layer covering the insulating material;

A plurality of first horizontal branch pipes 27a connected to the standing pipes so that the fire pipes 27 branch into the respective households; first vertical branch pipes 27b penetrating through hollow portions of the sleeves 31; 2 A horizontal paper pipe 27a ', a third horizontal paper pipe 27a' 'and a second vertical paper pipe 27b' penetrated through the sleeve 31 are connected to each other by a tee 33 or an elbow 34. A fire pipe installation step;

A sprinkler head coupling step of coupling the sprinkler head 29 to the lower end of the second vertical branch pipe 27 b ′ of the fire pipe 27;

Fire fighting pipe 27 of the present invention by the construction step of the lightweight foam concrete portion 23 to pour by curing light-bubble concrete so that the upper end of the fire pipe (27) buried in the bottom portion (C) The embedding into the bottom part C of each generation is completed.

More specifically, first, the slab layer 21 so that the first vertical branch pipe (27b) and the second vertical branch pipe (27b ') connected to the first horizontal branch pipe (27a) of the fire pipe 27 is installed through each. After the sleeves 31 are fixedly installed (eg, nailed to the bottom of the mold) in a plurality of predetermined portions in the slab mold which are constructed by a general construction method in order to form the through holes in the slab layer 21, the slab layer 21 Placing concrete for construction to cure.

Next, a heat insulating material layer having through holes 22a formed at predetermined portions so that the first vertical branch pipes 27b and the second vertical branch pipes 27b 'penetrate the upper surface of the cured slab layer 21, respectively. Lay the insulation of 22).

Then, each end of each household is connected to a fire fighting tank (not shown) through a granular pipe (not shown) connected to a main pipe (not shown) having one end connected to a pump (not shown). The space 36 between the ceiling 28 of the corridor 30 in the building and the slab layer 21 above the plurality of first horizontal branch pipes 27a connected to the granular pipe so that the fire extinguishing water is branched into the room. Install in

Then, the first vertical branch pipe 27b is penetrated through the hollow portion of each sleeve 31 installed in the slab layer 21 of the corridor 30 and the through hole 22a of the heat insulating material layer 22, respectively. A lower end portion of the first vertical branch pipe 27b is connected to the first horizontal branch pipe 27a, and an upper end portion of the first vertical branch pipe 27b is connected with one side portion of the second horizontal branch pipe 27a '. The hollow portion of the sleeve 31 and the heat insulating material layer are connected to one side of the third horizontal paper pipe 27a '' to a predetermined portion of the horizontal paper pipe 27a ', and the other end of the third horizontal paper pipe 27a' '. The upper end portion of the second vertical branch pipe 27b 'penetrated through the through hole 22a of 22 is coupled to the upper end portion of the sprinkler head 29 at the lower end portion of the second vertical branch pipe 27b'.

Then, the upper portion of the sprinkler head 29 is screwed or welded to the spiral groove portion 27b '' formed on the inner circumferential surface of the lower end portion of the second vertical paper pipe 27b '.

Then, the lightweight foam concrete layer 23 is laid by curing and curing light foamed concrete on the upper surface of the heat insulating material layer 22, the fire fighting pipe 27 of the present invention is the bottom portion (C) of each generation of the apartment house The process of embedding in is completed.

As another embodiment of the method for installing a fire pipe using the fire pipe structure of the present invention, when assembling the slab mold, the slab layer penetrating sleeve 31 is not provided in advance in a predetermined portion and the slab concrete is not poured. The first vertical paper pipe 27b and the second vertical paper pipe 27b 'are respectively inserted into the through holes formed by drilling the through holes in a predetermined portion of the slab layer 21 which is already constructed, and installed therethrough. As a method,

A slab mold assembly step of assembling the slab mold by a conventional assembly method;

A slab layer construction step of placing and curing concrete in the slab mold to construct the slab layer 21;

Forming through-holes by a drill in a plurality of predetermined portions of the constructed slab layer (21);

Insulation material that covers the upper surface of the constructed slab layer 21 by covering the heat insulating material of the heat insulating material layer 22 formed in the predetermined portion of the through hole to pass through the first vertical paper pipe 27b and the second vertical paper pipe 27b '. A layer covering step;

A plurality of first horizontal branch pipes 27a connected to the standing pipes so that the fire pipes 27 branch into the respective households, first vertical branch pipes 27b, and second horizontal branch pipes 27a 'penetrated through the respective through holes. And a fire pipe installation step of connecting the third horizontal branch pipes 27a '' and the second vertical branch pipes 27b 'passed through the through holes to each other by the tee 33 or the elbow 34;

A sprinkler head coupling step of coupling the sprinkler head 29 to the lower end of the second vertical branch pipe 27 b ′ of the fire pipe 27;

Fire-fighting pipes 27 of the present invention by the construction step of the light-bubble foam concrete layer 23 to cure by pouring light-bubble concrete so that the upper end of the installed fire pipe (27) is buried ( C) The burial into the building is completed.

After the installation of the fire pipe 27 is completed, a hydraulic test is performed. In the figure, reference numeral 35 is a wall.

Connection of predetermined portions of the first horizontal branch pipes 27a and lower ends of the respective first vertical branch pipes 27b, upper ends of the respective first vertical branch pipes 27b, and the second horizontal branch pipes 27a '. Connection to each predetermined portion of the connection, connection of each predetermined portion of each of the second horizontal support pipes 27a 'and one end of each of the third horizontal support pipes 27a', and each of the third horizontal support pipes 27a ' The other end of ') and the upper end of each of the second vertical branch pipes 27b' are connected by tee 33 or elbow 34, respectively.

The first horizontal branch pipe 27a, the second horizontal branch pipe 27a ', the third horizontal branch pipe 27a' ', the first vertical branch pipe 27b and the second vertical branch pipe 27b' Of course, it depends on the structure of each apartment.

When the copper pipe is used as the fire pipe 27, the tee 33 or the elbow 34 may be screwed or the copper pipe bent, or when the synthetic pipe is used as the fire pipe 27, the tee 33 Screwed by the elbow 34, and welded by the tee 33 or the elbow 34 even when using a stainless steel pipe.

Since the water supply pipe and the hot water supply pipe can be buried in the slab, the fire pipe 27 according to the present invention has no relation in embedding the lightweight foam concrete 23. When buried, bypass the fire pipes 27 of the present invention so as to bypass the fire pipes 27 can be installed.

As described above, the present invention embeds a fire pipe 7, which was conventionally piped into a space between the ceiling 8 of each generation from the upper slab layer 1, inside the bottom portion C of each generation. As the floor height is lowered before and after 10cm, construction cost is greatly reduced and overall construction period is shortened.

In addition, since the floor height is lowered and the building height is lowered, there is an effect of increasing the building floor area in some cases.

1 is a longitudinal sectional view of a conventional fire pipe installation structure,

Figure 2 is a longitudinal sectional view of the fire pipe installation structure of the present invention,

3 is a schematic schematic diagram of some of the present invention;

4 is a perspective view of a sleeve of the present invention,

5 is an exemplary view of a fire pipe line.

* Explanation of symbols for main parts of the drawings

21: slab layer 22: insulation layer

23: lightweight foam concrete layer 27: fire pipe

29: sprinkler head 29a: sprinkler head fixing portion

31: sleeve 32: buried part

C: Bottom D: Plaster

Claims (7)

In the entire fire pipe line, the fire pipe line installed in the ceiling of each household of the apartment house among the fire pipe lines of the entire slab layer, insulation layer, lightweight foam concrete layer, support plate Fire pipe installation structure of a multi-family house, characterized in that installed in the floor consisting of a floor, mortar floor. According to claim 1, The fire pipe line is installed in each household of the multi-family house so that the first vertical branch pipes installed in the upper direction connected to the upper side of the plurality of predetermined portions of the first horizontal ground pipe to be installed through the slab layer. A sleeve in which the remaining portions except the lower part are embedded in the slab layer; The second horizontal paper pipe and the third horizontal paper pipe, in which the second horizontal paper pipe connected in the horizontal direction to the first vertical paper pipe and the third horizontal paper pipe connected in the horizontal direction to the second horizontal paper pipe are embedded in the light-bubble concrete part. Buried part of; A sleeve in which a portion other than the lower part is embedded in the slab layer so that the second vertical paper pipe connected downward from the third horizontal paper pipe is installed therethrough; Fire sprinkler of the apartment house, characterized in that the sprinkler head is connected to the lower end of the second vertical pipe is installed to include a sprinkler head fixed to be installed so as to protrude in the lower direction of the interior space portion outside from the slab layer Installation structure. The fire pipe installation structure of claim 1, wherein the fire pipe is an elliptical pipe. The fire pipe installation structure of claim 1, wherein the fire pipe is a polygonal pipe. The fire pipe installation structure of claim 1, wherein the sleeve comprises a circular body and an annular protrusion formed on an outer circumferential surface of the middle portion of the body. A sleeve installation step of respectively fixing the sleeve to a plurality of predetermined portions in the assembled slab mold; A slab construction step of placing and curing concrete in the slab mold to construct the slab; An insulating material layer covering step of covering the upper surface of the constructed slab with an insulating material having a through hole through which each sleeve passes; A plurality of first horizontal paper pipes connected to the standing pipe, branched vertical pipes, second horizontal paper pipes, third horizontal paper pipes and second vertical paper pipes penetrated through the sleeves so that fire pipes branch into each household. A fire pipe installation step of connecting the two to each other by elbonati; A sprinkler head coupling step of coupling a sprinkler head to a lower end of a second vertical branch pipe of the fire pipe; Fire-fighting pipe installation structure, characterized in that the fire pipes are installed in the bottom of each generation of the apartment house by the construction step of the light-bubble concrete concrete to pour by curing light-bubble concrete so that the upper end of the installed fire pipe is buried Fire pipe installation method using. A slab layer construction step of placing and curing concrete in the assembled slab mold to construct the slab layer; Forming through holes in a plurality of predetermined portions of the slab layer by a drill; An insulating material layer covering step of covering an insulating material of an insulating material layer formed on a predetermined portion of a through hole to pass through the first vertical paper pipe and the second vertical paper pipe to the upper surface of the constructed slab; A plurality of first horizontal branch pipes connected to the standing pipes, first vertical branch pipes passing through the through holes, second horizontal branch pipes, third horizontal branch pipes, and through-holes through the fire pipes to branch into the household; A fire pipe installation step of connecting two vertical branch pipes 27b 'to each other by a tee elbow; A sprinkler head coupling step of coupling a sprinkler head to a lower end of a second vertical branch pipe of the fire pipe; Firefighting pipe installation structure of the apartment house, characterized in that the firefighting pipe is installed in the bottom of each generation of the apartment building by the light-bubble concrete concrete construction step to pour by curing light-bubble concrete so that the upper end of the fire pipe is installed Fire pipe installation method using.