JPH0723443Y2 - Partition wall structure - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to a partition wall structure suitable for application to high-rise buildings such as condominiums and office buildings.

<Prior art> The partition wall of the building not only partitions the space,
Various functions and performances are required. For example, fire resistance, soundproofing, moisture resistance, rigidity, ease of mounting shelves, etc.

In addition, in high-rise buildings, it is also required that the workability is easier than that of low-rise buildings on the order of several floors.
A dry method is desired for partition walls.

FIGS. 5 (A) to (D) are plan sectional views for explaining the outline of various structures of the partition wall conventionally provided.

First, FIG. 5 (a) shows the partition wall PW ₁ of the precast concrete system. This is to form a partition wall PW ₁ by forming concrete columns 1 at appropriate intervals with a formwork, setting a precast concrete panel (PC panel) 2 between them, and placing beams and slab concrete (not shown). It is a thing.

Further, FIG. 2B shows a partition wall PW ₂ made by a lightweight steel-framed underboard method. In this structure, steel studs 3 are erected at a required pitch between runners provided on a ceiling and a floor, and a base board 4 such as a gypsum board is attached to both surfaces between the studs 3 with screws 5 or the like.

Next, the same figure (c) shows the partition wall PW ₃ by the processed gypsum board base / board tension method. This is because between the runners provided on the ceiling and the floor, the processed gypsum board 6 in which both side ends are bent to form joint pieces 6a having a U-shaped cross section is arranged in parallel on both sides of the runner by joining the joint pieces 6a. The base wall is formed by forming the partition wall PW ₃ by attaching the upholstery board 7 to both outer surfaces of the base wall.

Next, the same figure (d) shows the partition wall by the molded panel method.
PW ₄ is shown. This is because between the runners provided on the ceiling and the floor, hollow panels 8 formed by extrusion molding or the like are installed side by side on both sides of the runner, and the joints of the hollow panels 8 are sealed by caulking 9. To be formed.

<Problems to be solved by the invention> By the way, precast concrete partition walls
In PW ₁ , the thickness of PC panel 2 is generally 150-180mm
Because of the above, there is a problem in terms of workability and cost due to weighting, and because the strength and rigidity of the partition are extremely high, it lacks followability when the building frame is deformed due to an earthquake or the like, and rather damages the building frame. It is easy to cause.

Further, in the partition wall PW ₂ of the lightweight steel-framed board-clad system, since the steel studs 3 are provided between the wall surfaces, there is a high heat conductivity in the wall, which causes a problem in fire resistance. And, in such a structure, there is a problem that the resonance effect is generated and the sound on one side is easily transmitted to the other side, and the soundproof effect particularly in a low frequency range of about 100 to 500 Hz is significantly reduced.

Next, since the processed gypsum board 6 has the stud function in the partition wall PW ₃ of the processed gypsum board substrate / board tension system, the strength, rigidity and toughness are small, and cracks are likely to occur depending on external force. There's a problem. In addition, since the molding process is required, labor is required accordingly, and there is a problem that the cost is increased for the configuration.

Further, in the partition wall PW ₄ of the molded panel system, it is necessary to treat the joint joint with the caulking 9, and in this case, the caulking 9 portion is likely to be cracked due to aging, etc., and further, the sound transmission It occurs, and there is a problem that the soundproof performance is deteriorated. Further, there is also a problem that a lot of labor is required because a finishing treatment such as pasting the surface of the hollow panel 8 is required.

The present invention is provided to solve the above conventional problems.

The purpose of the present invention is to achieve versatility where the partition wall does not affect the construction method of the building, etc. This is where you get an excellent partition wall.

<Means for Solving the Problems> In order to achieve the above object, the partition wall according to the present invention is
Two rows of runners, which are spaced apart at appropriate intervals, are installed so as to face the ceiling and floor, respectively, and the corrugated slate and the refractory board are face-to-face between the runners facing each other. And the corrugated slate side is arranged and supported so as to be opposed to each other, the space between the corrugated slate is filled with a sound absorbing material made of incombustible fiber,
On the outer surface of the fire-resistant board, a fire-resistant base board made of a material different from that of the fire-resistant board is stretched, and the surface of the base board is subjected to finishing treatment, and the fire-resistant board has a plurality of continuous fire-resistant boards in its surface direction. Corrugated to the corrugated slate, in its connecting portion, a corrugated slate locking piece having a curved surface portion corresponding to the convex curved surface portion of the corrugated slate, and a flat fireproof board locking piece abutting the fireproof board, A joiner having a connecting plate portion for connecting them, and forming a receiving groove with the corrugated slate locking piece and the fireproof board locking piece as wall portions on both sides of the connecting plate portion is provided in the receiving groove. Are attached in a state in which the side ends of the refractory board are locked to each other, the corrugated slate locking pieces of the joiner are in contact with the convex curved parts of the corrugated slate at their curved parts, and the connection of the refractory boards is performed. To the department Convex curved portion of the waveform slate is adhesively bonded to the refractory boards in position without.

<Operation> Due to the low heat conductivity and rigidity of the corrugated slate, it is possible to suppress the rise in the temperature inside the wall and to retain the strength and rigidity of the partition wall.

In addition, since the sound absorbing material is filled in the space opposite to the corrugated slate, the resonance action is unlikely to occur due to the rigidity of the corrugated slate and the combination of different types of fireproof boards and base boards, and the sound on one side is transmitted to the other side. Effectively prevent.

Further, since it can be constructed by stacking light-weight materials that do not require special molding processing as the partition component member, construction becomes easy.

Further, the fireproof board and the corrugated slate are attached to the joint portion of the refractory board by attaching a joiner, and the corrugated slate locking piece of the joiner is brought into contact with the convex curved surface portion of the corrugated slate, and does not face the joint portion of the refractory board. Since the convex curved part of the corrugated slate at the position was glued to the refractory board with an adhesive, at the time of construction, a joiner was attached to one of the receiving grooves on the side end of the refractory board, and further connected to this refractory board. The fireproof board can be connected and positioned by simply inserting the fireproof board into the other receiving groove of the joiner previously attached. Moreover, if the corrugated slate locking piece of this joiner is brought into contact with the convex curved surface portion of the corrugated slate, and in that state, a known fixing jig such as a retaining pin is used to fix the gap between them, it is possible to use an adhesive agent. It is possible to temporarily fix the adhesive at the bonding location until the adhesive solidifies. Since the fireproof board and the corrugated slate are integrated by the joiner and the adhesive in this way, the rigidity and strength of the entire wall are increased.

<Embodiment> A preferred embodiment of the present invention will be described below with reference to the drawings.

1 and 2 are a side sectional view and a plan sectional view of a partition wall according to the present invention. In addition, in FIG. 2, illustration of a joiner described later is omitted.

In the figure, C is the ceiling and F is the floor. The partition line between the ceiling C and the floor F has a channel-shaped runner.
Dry bit with 11 in two rows at intervals described later,
It is attached by a fixing member 12 such as a buffer pin. Reference numeral 13 is a corrugated slate, and 14 is a refractory board made of an appropriate material such as a gypsum board, a calcium silicate board, and a magnesium carbonate board.

The corrugated slate 13 and the refractory board 14 are those whose upper and lower ends are fitted in the runner 11 between the ceiling C and the floor F, respectively.
The corrugated slate 13 and the convex curved surface portion 13a are faced to each other, and the runners 11, 11 with the refractory board 14 as the outside.
It is integrally supported between them. Due to the support form of the corrugated slate 13 and the fireproof board 14, these are configured as a unit panel material.

Since the runners 11 are attached to the ceiling C and the floor F in two rows, respectively, the corrugated slate 13 and the refractory board 14 are also juxtaposed facing each other at an interval of the runners 11, and adjacent ends thereof are sequentially brought into contact with each other. As a result, a space is formed between the corrugated slates 13 facing each other, and the space is filled with the sound absorbing material 15 made of non-combustible fiber such as glass wool or rock wool. Reference numeral 16 is a base board made of a fire-resistant board made of a material different from that of the fire-resistant board 14, and is stretched on the outer surface of the fire-resistant board 14 by means such as bonding. The surface of the base board 16 is covered with cloth or the like (not shown) for interior finishing.

FIGS. 3 and 4 explain a more specific structure when the corrugated slate 13 and the refractory board 14 are supported by the runner 11 as an integrated structure.

That is, when the corrugated slate 13 and the refractory board 14 are integrally supported by the runner 11, it becomes more advantageous in rigidity, strength, etc. if the both are substantially integrated.

Therefore, in this embodiment, as shown in FIGS. 4 (a) to 4 (c), the adhesive 17 is applied to the face-to-face portion of the convex curved surface portion 13a of the corrugated slate 13 to be face-to-face with the refractory board 14. To join. Then, until the adhesive 17 is solidified and a predetermined degree of bonding is obtained, it is necessary to temporarily hold the adhesive 17 by an appropriate means. Therefore, in this embodiment, FIG.
The joiner for temporary fixing shown in (c) is shown in FIG.
As shown in (c), it is used at the joint between the corrugated slate 13 and the refractory board 14.

In FIG. 3A, the joiner 20 has a substantially E-shaped cross section and has a corrugated slate locking piece 21 having an arcuate cross section, a flat fireproof board locking piece 22, and a connecting plate portion connecting these. The refractory board receiving groove 23 is formed between the locking pieces 21 and 22. In order to practically manufacture the joiner 20, the metal plate may be formed into a groove shape so that the back surfaces of the groove bottoms are joined to each other to obtain a substantially E-shaped cross section as shown in the drawing. The corrugated slate locking piece 21 abuts on and locks the corrugated slate 13, and is therefore formed with a curvature corresponding to the convex curved surface portion 13a of the corrugated slate 13. A pin insertion hole 21a for inserting, for example, a rivet screw for pinning the corrugated slate 13 is formed at an appropriate position of the corrugated slate locking piece 21. And the fireproof board locking piece 22
Is formed in a V-shaped cross section.

The joiner 20 having the above-mentioned shape and configuration is used as shown in FIG.

That is, the corrugated slate locking pieces 21 of the plurality of joiners 20 are brought into contact with the convex curved surface portions 13a of the corrugated slate 13 located at the positions where the abutting end portions 14a of the adjacent refractory boards 14 are in contact with each other, and the pin insertion holes 21a are formed. Use the required locking pin R to pin. Next, after the adhesive 17 is applied to the other convex curved surface portions 13b, 13c ... Excluding the portion where the joiner 20 is provided in the corrugated slate 13, the refractory board 14 is sequentially joined. At the time of this joining, the end portion 14a of the refractory board 14 is fitted into the refractory board receiving groove 23 of the joiner 20, and the refractory board locking piece 22 of the joiner 20 is formed in a V-shaped cross section. Therefore, it is necessary to form the end portion 14a of the refractory board 14 on an inclined surface substantially corresponding to the inclination angle of the refractory board locking piece 22. This inclined surface may be formed by cutting in a so-called chamfering manner.

After joining the refractory board 14 according to the above, butted ends
When the putty 24 is filled in the V-shaped groove space formed between 14a, the joining operation is completed.

In this example, the joiner 20 fireproof board locking piece
The locking width of 22 is such that it does not protrude from the surface of the fireproof board 14 when locked. As a result, it is possible to easily perform the work of stretching the base board 16 stretched on the outer surface of the fireproof board 14.

Next, the joiner 30 shown in FIG. 3B has the same structure as that of the joiner 20 except for the shape of the fireproof board locking piece 32.

In this joiner 30, the fireproof board engaging piece 32 is formed substantially at right angles to the fireproof board receiving groove 33, and the procedure for joining the corrugated slate 13 and the fireproof board 14 is substantially the same as the above example.

In this case, as shown in FIG. 4 (b), the end portion 14a of the fireproof board 14 can be fitted as it is without being inclined as in the above example. Then, the fireproof board locking piece 32 is exposed on the surface of the fireproof board 14, but the thickness of the joiner 30 is practically 1 mm or less, and the base board 16 is stretched as it is. However, the tension strength is not so large that it is affected from the whole. If necessary, this can be dealt with by slightly scraping the locking portion of the base board 16.

The joiner 40 shown in FIG. 3 (C) cuts and raises a part of a substantially square metal plate, and forms the cut-and-raised piece into an arc shape to form a corrugated slate locking piece 41, and a base portion. This is a flat fireproof board locking piece 42. The space formed by the corrugated slate locking piece 41 and the fireproof board locking piece 42 is a fireproof board receiving groove 43 in a side view.

The procedure for joining the corrugated slate 13 and the refractory board 14 by the joiner 40 is the same as that shown in FIG.

In any of the above embodiments, the joiners 20, 30, 40 mechanically join the corrugated slate 13 and the refractory board 14. Therefore, it is possible to stably hold the adhesive 17 until it is solidified. Further, after the construction of the wall is completed, the wall rigidity is further increased by the joiners 20, 30, 40 and the adhesive 17. In the case of this joining structure, the penetrating portion of the retaining pin R of the corrugated slate 13 is likely to receive a local load, but a small seat plate may be interposed if necessary.

<Effect of the Invention> As described in detail above, according to the present invention, the three layers of the corrugated slate, the refractory board, and the base board are set as one set, and a sound absorbing material is interposed in the middle to face each other. Since it is a partition wall, the wall strength can be maintained by the rigidity of the corrugated slate, and the sound transmission effect due to resonance can be suppressed and the fire resistance can be improved by combining sound absorbing materials made of noncombustible fibers and different types of fireproof boards. Can be improved.

Further, each of the partition wall constituent materials is lightweight and can be used with good workability without requiring special processing for assembling.

Further, since the joiners and the adhesive are used to fix the refractory boards, and the refractory boards and the corrugated slate are fixed, it is possible to easily perform the positioning when connecting the refractory boards by using the joiner during the construction. In addition, the wave slate locking piece of this joiner and the convex curved surface of the wave slate can be brought into contact with each other, and then the gap between them can be stopped by using a known stop jig such as a stop pin. For example, it is possible to easily perform temporary fixing until the adhesive solidifies at the adhesion point with the adhesive,
Therefore, it is possible to improve the workability, speed up the work, and reduce the work cost. Further, since the fireproof board and the corrugated slate are integrated by the joiner and the adhesive in this way, the rigidity and strength of the entire wall can be enhanced, and therefore the structure of the entire building using this partition wall can be improved. Can be strengthened.

As described above, according to the present invention, since the various functions and performances required of the partition wall can be sufficiently obtained, and the partition wall can be generally used for buildings such as various construction methods, the partition wall with excellent practicality can be obtained. Can be provided as a wall.

[Brief description of drawings]

FIG. 1 is a side sectional view showing a structure of a partition wall according to the present invention, FIG. 2 is a plan sectional view of FIG. 1, and FIGS. 3 (a) to (c) show corrugated slate and refractory board. FIG. 4 is a perspective view showing each embodiment of the joiner for temporary fixing, and FIGS. 4 (a) to 4 (c) are explanatory views showing a joining state of the corrugated slate and the refractory board using the joiners of FIG. (A) to (D) are plan sectional views showing structures of various conventional partition walls. 11… runner, 13… corrugated slate, 14… fireproof board, 15… sound absorbing material, 16… base board, 21,31,41… corrugated slate locking piece, 2
2,32,42… Fireproof board locking piece, 23,33,43… Fireproof board receiving groove, C… Ceiling, F… Floor, PW… Partition wall.

Claims (1)

[Scope of utility model registration request] 1. Two rows of runners, which are spaced apart at appropriate intervals, are mounted so as to face a ceiling and a floor, respectively, and a corrugated slate and a refractory board are provided between the runners facing each other. The corrugated slate side is arranged and supported so that the corrugated slate sides are opposed to each other in a matched state, a sound absorbing material made of incombustible fiber is filled in the facing space between the corrugated slate, and the refractory board is provided on the outer surface of the refractory board. A fire-resistant base board of different material is stretched, and the surface of the base board is finished, and the fire-resistant boards are continuously faced to the corrugated slate and are connected to the connecting portion. A corrugated slate locking piece having a curved surface portion corresponding to the convex curved surface portion of the corrugated slate, a flat plate-shaped fireproof board locking piece that abuts the fireproof board, and a connection for connecting these A joiner having a plate portion, and receiving grooves having wall portions of the corrugated slate locking piece and the fireproof board locking piece are formed on both sides of the connecting plate portion. A position where the side end of the corrugated plate is attached with the corrugated slate locking piece of the joiner abutting the convex curved part of the corrugated slate at its curved surface and not facing the connecting part of the refractory board. The structure of the partition wall, wherein the convex curved surface portion of the corrugated slate is adhered to the refractory board with an adhesive.