JP2821632B2 - Exterior plate mounting structure and exterior plate - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a structure for attaching an exterior panel made of a precast concrete plate or the like to a building frame and an exterior panel used for the same. On the back surface, the connecting member and the floor plate reinforcing rod in the posture along the out-of-plane direction in the floor plate portion facing the exterior plate body in the out-of-plane direction of the exterior plate main body, the force in the out-of-plane direction between them. The present invention relates to an armoring plate mounting structure connected to a state of transmitting an armature and an armoring plate used for the same.

[Conventional technology]

The exterior has a type in which an exterior panel is arranged between floors adjacent to each other vertically (hereinafter referred to as a floor-to-floor type), and, as shown in FIG. 2 and FIG. There is a type (hereinafter, referred to as a spandrel type) in which an exterior plate is arranged such that an intermediate portion of the exterior plate in the vertical width direction is positioned on the floor so as to form an opening for a continuous window or the like.

Since the floor-to-floor type exterior plate has a large vertical width, the right and left widths cannot be increased due to the lift, and supporting hardware is arranged at appropriate intervals. In other words, conventionally, the outer panel is attached to the skeleton so as to withstand the out-of-plane wind pressure of the external force acting on the outer panel. And two or three lower-side supporting hardwares are similarly secured at intervals in the left-right width direction, and these hardwares are fixed to the beams, thereby having a surface acting on the exterior plate. The external wind pressure was transmitted in the order of the hardware, the beams, and the floorboard in the stated order, so as to oppose the out-of-plane wind pressure. However, in the case of the above-mentioned spandrel-type exterior plate, since the upper and lower widths are not generally increased, the left and right widths are increased within a range capable of lifting in order not to increase the number of members. In this case, if this exterior plate is to be mounted on the floor, it is necessary to disperse and arrange a large number of supporting hardware in the width direction, since only one support point can be provided at the top and bottom. Then, the exterior plate is mainly attached to the beam.

[Problems to be solved by the invention]

However, in the above-mentioned prior art spandrel-type cladding panel, since the beam is transmitted to transmit the out-of-plane wind pressure from the cladding panel to the floor plate, the out-of-plane wind pressure is transmitted between the hardware and the beam. An extra structure is required, and the mounting structure for facing out-of-plane wind pressure is complicated. or,
Since the out-of-plane wind pressure is transmitted by a small number of hardware such as 4 to 6 pieces, the following problems have been encountered.

In other words, a small number of hardware receives the out-of-plane wind pressure, and the burden on each of the hardware is large, so that a large hardware is required. Since the required rigidity and strength are required, as the width of the outer plate becomes larger, the thickness of the outer plate becomes larger, which leads to an increase in weight and cost. In particular, when the exterior is a spandrel type, since the exterior plate protrudes above and below the supporting hardware and is supported in a cantilever manner by the hardware, the outboard wind pressure is applied to each metal like a floor-to-floor type exterior. Can be received almost evenly, and both the outer and upper outer plates of the supporting hardware receive the out-of-plane wind pressure.As a result, the supporting hardware becomes very large, and the cost increases. Invite you. In other words, a rotational moment about the support point may act on the supporting hardware.

It is an object of the present invention to suppress an increase in construction costs without increasing the size of supporting hardware by enabling mounting on a floor plate at multiple points even when a wide exterior panel is attached to a skeleton. An object of the present invention is to provide an outer panel mounting structure that is possible, particularly an effective outer panel mounting structure for a spandrel type outer structure, and an outer panel that is useful therefor.

[Means for solving the problem]

A first characteristic configuration of the exterior panel mounting structure according to the present invention is that, on the back surface of the exterior panel main body, the posture along the out-of-plane direction in the floor panel portion facing the exterior panel main body in the out-of-plane direction of the exterior panel main body. In the armor plate mounting structure in which the connecting member and the floor plate reinforcing rod are connected to transmit a force in an out-of-plane direction between them, the connecting member is formed by connecting a plurality of rods in a vertical and horizontal lattice. The present invention is characterized in that the connecting members are connected to the floor plate reinforcing rods while being formed of a mesh and distributed and fixed in the left-right width direction of the exterior panel main body.

A second characteristic configuration of the exterior panel mounting structure according to the present invention is the above-described first characteristic configuration, wherein the connecting tool is disposed at or near the center of the exterior panel main body in the up-down width direction to form the floorboard reinforcing rod. It is connected to the body.

A first characteristic configuration of the cladding panel according to the present invention is that, of the cladding panel main body made of precast concrete, in the installed state, the floor panel portion facing the cladding panel main body in the out-of-plane direction thereof has a posture along the out-of-plane direction. In addition, at each of the locations arranged in the width direction of the exterior panel main body, a rod-shaped connecting tool bent and formed in an L-shape is provided. One of the bar-shaped portions located at one end side from the bent portion is the back surface of the exterior panel main body. And protruding from the floor plate reinforcing rod-shaped body, and the other rod-shaped portion is positioned along the in-plane direction of the exterior panel main body and is embedded and fixed in a posture serving as an anchor for fixing to the exterior panel main body. In this case, the connecting member is formed of a mesh formed by connecting a plurality of rod-like bodies arranged in a longitudinally and horizontally lattice-like manner at respective locations dispersedly arranged in the left-right width direction of the exterior plate.

A second characteristic configuration of the armor plate according to the present invention is that, in the armor plate of the first characteristic structure, the connector is disposed at or near the center of the armor plate main body in the vertical width direction. .

(Operation)

According to the first characteristic configuration of the above-mentioned exterior panel mounting structure, the connecting tool fixed to the exterior panel main body can be connected in a state of transmitting an out-of-plane force to the floor panel reinforcing bar. In other words, an external force in an out-of-plane direction such as an out-of-plane wind pressure is transmitted from the exterior panel to the floor panel without connecting the connecting member to the beam. Further, when the exterior plate is made of concrete, if the mesh is embedded in the exterior plate while the connector is fixed to the exterior plate, the connector also functions as a reinforcing bar for reinforcing the exterior plate. When the exterior plate is made of a metal plate, it can be fixed by welding or screwing, and when it is a stone plate, it can be fixed by being fixed to an embedded anchor. If the connecting parts are formed by bending and drawing out the out-of-plane direction, the external force in the out-of-plane direction received by each connecting part can be reduced and made uniform, and the external force in the out-of-plane direction can be reduced to the floorboard. The rigidity and strength required for the main body of the exterior plate to transmit to the portion need not be particularly increased, even if the width of the main body of the exterior plate becomes large. In addition, if the floor reinforcing bar is a mesh, the rod-like body in the direction along the surface of the exterior plate in the connector functions as an anchor to the floor, and at the same time, between this and the floor reinforcing bar in the same direction. Thus, a connection that can transmit power effectively can be made.

Also according to the second characteristic configuration of the exterior mounting structure, particularly in a spandrel type exterior, a large difference is not generated in the out-of-plane force due to the wind pressure applied to the exterior plate above and below the connector, and the area around the support point for the connector is reduced. Since the rotational moment can be reduced, the connector receives most of the out-of-plane wind pressure, but can stably support the exterior plate without increasing the size of the connector.

According to the first characteristic configuration of the above-mentioned exterior panel, since the connection tool embedded and fixed in the exterior panel main body made of precast concrete is bent in an L shape, the force in the out-of-plane direction is transmitted to the reinforcing steel bar of the floor panel. It is easy to be able to connect in a state where the connection is made, and an external force in an out-of-plane direction such as an out-of-plane wind pressure is transmitted from the exterior plate to the floor plate without connecting the connection tool to the beam.
In addition, since an inexpensive welding wire mesh, which is frequently used as a building material, can be used in the same manner as a reinforcing bar, even if the number of rod-like bodies as a connection tool is large, it is not expensive. That is,
By embedding the bent mesh at the time of manufacturing the exterior panel main body, the connector can be manufactured in a state of being fixed to the exterior panel, so that the productivity is good and the cost of the exterior panel is reduced. Further, the mesh as a connection tool also functions as a reinforcing bar for reinforcing the exterior plate. In addition, since the floor reinforcement is a mesh, the rods in the direction along the surface of the exterior plate function as anchors to the floor in the connector, and at the same time, this is between the reinforcement in the floor reinforcement and the reinforcement in the same direction. Power can be transmitted effectively.

According to the second characteristic configuration of the exterior plate, particularly in a spandrel type exterior, a difference in out-of-plane force due to wind pressure applied to the exterior plate above and below the connector can be reduced, and a rotational moment about a support point for the connector can be reduced. Therefore, it is not necessary to increase the size of the connection tool.

Therefore, when embedding a connector when manufacturing a precast concrete exterior panel main body, it is possible to dispose the mesh at the embedding position of the connector all at once, thereby further improving productivity. In addition, as the mesh, an inexpensive welding wire mesh, which is often used as a building material like the rebar, can be used, so that even if a large number of connectors are used, the cost can be reduced.

〔The invention's effect〕

As a result, the present invention adopts a simple structure for transmitting the external force in the out-of-plane direction to the floor panel, while reliably transmitting the external force in the out-of-plane direction acting on the exterior panel to the floor panel, thereby making the exterior panel out-of-plane. Thus, it was possible to provide an outer plate mounting structure which can be reliably supported against external force in the direction, and which is particularly useful for a spandrel type outer cover, and an outer plate therefor. In addition, the connecting plate is inexpensive, has high productivity, and can be produced at low cost in the factory as a whole.

〔Example〕

 Examples of the present invention will be described below.

As shown in FIGS. 2 and 3, an opening (1) for a horizontal window
The outer panel (2) is attached to the building frame in such a manner that the outer panel (2) is connected in the left-right width direction with an interval in the vertical direction so as to form a spandrel type exterior.

As shown in FIG. 1, the armor plate (2) is provided with an armor plate (hereinafter referred to as a PC plate) (2A) made of precast concrete, in which stainless steel fibers are mixed as reinforcing fibers. On the surface of this PC board (2A),
Exterior tiles (2a) have been driven in.

At the substantially central portion of the PC plate (2A) in the vertical width direction thereof, there is provided a connector () for transmitting out-of-plane wind pressure acting on the exterior plate (2) to the concrete floor plate (3). 4)
A bolt (5) for adjusting the installation position of the exterior plate (2) in the inward / outward direction (out-of-plane direction); and a load receiver for supporting the weight of the exterior plate (2) on the upper surface of the beam (6). Tools (7)
Are fixed so as to protrude outward from the back surface.
Near the lower end of the PC board (2A), a second connector (8) whose main function is to transmit out-of-plane wind pressure acting on the exterior board (2) to the beam (6) is provided from the back side. It is fixed so as to protrude outward.

The connecting member (4) is a rod-like member bent and formed in an L-shape, and the juxtaposition interval (3A) of the floor plate reinforcing rods (3A) in the out-of-plane direction among the floor plates (3). The same number as the floor plate reinforcing rods (3A) is arranged at intervals (L ₂ ) equal to L ₁ ) in the width direction. One of the bar portions located at one end side of the bent portion protrudes outward from the back surface of the PC board (2A) outwardly to become a connection portion (4A) with the floor plate reinforcing bar (3A), and The other bar-shaped portion is embedded and fixed in the PC board (2A) in such a position that it is positioned along the in-plane vertical direction and serves as an anchor (4B) for fixing to the PC board (2A).

In addition, the connecting device (4) includes a plurality of rods (9A), (9A).
The mesh (9) in which B) is connected in the form of a vertical and horizontal lattice is formed of one of the vertical and horizontal rods (9A). That is, the connection tool (4) is connected and fixed by the other bar-shaped body (9B) vertically and horizontally. The floor plate reinforcing rod (3A) is one of the vertical and horizontal rods (10) of the mesh (10) having the same structure as described above.
A). The mesh (9),
(10) is a welding wire mesh. By the way, the rods (9A), (9
B), (10A), and (10B) have specific diameters and pitches of, for example, 6 mm in diameter and 100 mm in pitch.

The two load receivers (7) are arranged at an interval in the left-right width direction, and the beam (6) is attached to one end of a main body (7A) having an upper flange (7a) and a wave (7b). ) Adjustable support bolt (7B) placed on top of head with top and bottom posture
A nut member (7C) for screw-fitting is fixed, and a bar-shaped anchor (7D) in a vertical position is fixed to the other end of the main body (7A). The main body (7A) is embedded and fixed in the PC board (2A) in a state where one end side of the main body (7A) projects outward from the rear surface in the out-of-plane direction.

The three second connection tools (8) are arranged at an interval in the left-right width direction and are used for angles. Then, with one piece abutting against the back of the PC board (2A), the nut (11) and bolt (12) embedded in the PC board (2A)
And it is fixed to the PC board (2A).

Then, the exterior plate (2) connects the connecting device (4) to the floor plate reinforcing rod (3A) so as to transmit an out-of-plane force therebetween, and connects the load receiving device (7) to the beam (6). ) Is mounted and supported on the upper surface, and the second connector (8) is fixed to the lower surface of the beam (6), thereby being attached to the frame. The connecting means between the connecting tool (4) and the floor board reinforcing rod (3A) may be an end of the mesh (9) constituting the connecting tool (4) and the floor board reinforcing rod (3A).
And the end of the mesh (10) that forms the rod-shaped body (9) along the left-right width direction of both meshes (9) and (10).
A) A means for placing concrete (3B) on the floorboard (3) in such a state that at least two or more of (A) and (B) overlap the meshes (10) and (9) on the other side. . In other words, the transmission of the external force in the out-of-plane direction from the connecting device (4) to the floor plate reinforcing rod (3A) is performed via the rods (9A) and (10B) and the concrete (3B) along the width direction. It is.

The means for fixing the second connector (8) to the lower surface of the beam (6) is a means for fixing the bolt (13) and the nut (14) fixed to the beam (6). The bolt (12) insertion hole (8a) for fixing the second connector (8) to the PC board (2A) is positioned vertically with respect to the PC board (2A) of the second connector (8). The bolt (13) for fixing to the beam (6) is formed in an elongated hole along the vertical direction in which the bolt (13) can be adjusted. Is formed in a long hole along the out-of-plane direction in which the out-of-plane direction can be adjusted.

(15) A stud dowel connecting the concrete (3B) of the floorboard (3) and the beam (6),
Is a deck plate serving as a formwork for placing concrete on the floorboard (3).

(Another embodiment)

 Another embodiment of the present invention will be described below.

[1] In the above embodiment, the meshes (9) and (10) are connected by overlapping, but the meshes (9) and (10) may be connected by welding or coupling.

[2] In the above embodiment, the connecting member (4) and the floor plate reinforcing rod (3A) are composed of meshes (9) and (10).
As shown in FIGS. 6 and 7, each of them may be an independent rod. In this case, a reinforcing bar can be used as the connector (4) and the floor plate reinforcing rod (3A).
When a reinforcing bar is used, as a means for connecting the connecting member (4) and the floor plate reinforcing rod (3A), a welding means as shown in FIG. 6 or a mechanical joint (17) as shown in FIG. ), Besides the means of connection
Means may be used in which a portion having a length equal to or longer than the set length is overlapped from the end and both are joined by concrete (3B). Specific numerical examples of the diameter and the arrangement interval of the reinforcing bar in the case of a reinforcing bar include a diameter of 10 mm, an arrangement interval of 200 mm, a diameter of 13 mm, and an arrangement interval of 300 mm.

[3] In the above embodiment, the mode in which the center part in the vertical width direction of the exterior plate (2) is attached is shown.
It can also be applied to the case where both ends in the vertical direction and intermediate portions in the vertical width direction are attached.

[4] In the above embodiment, the PC plate mainly comprising the exterior plate (2A) was shown to be reinforced with stainless steel fiber. However, the PC plate was reinforced with steel fiber, glass fiber, and carbon fiber. As shown in FIG. 6 and FIGS. 6 and 7, it may be reinforced with a reinforcing bar (18) or may be unreinforced. In addition, high-strength concrete may be used as the concrete.

[5] In the above embodiment, the PC board was shown as the exterior panel main body (2A), but the exterior panel main body (2A) may be made of iron or aluminum, or made of stone. .

[6] In the above embodiment, the number of the connecting members (4) is the same as the number of the floor plate reinforcing rods (3A), but the number of the connecting members (4) is as shown in FIGS. 1 / number of rods (3A)
It may be 3 or almost 1/3 or more. And the connecting device (4)
As an example of the arrangement of the connecting members (4) in the case where the number of the connecting members is about 1/3, as shown in FIG.
Can be cited with the connector (4) arranged at an interval three times the juxtaposed interval (L ₁ ). As shown in FIG. 9, an example of the arrangement of the connecting members (4) when the number of the connecting members (4) is reduced to about half is twice the juxtaposed interval (L ₁ ) of the floor plate reinforcing rods (3A). May be arranged at intervals. As an example of the arrangement of the connecting members (4) when the number of the connecting members (4) is set to about 2/3, as shown in FIG. 10, the juxtaposed interval (L ₁ ) of the floor plate reinforcing rods (3A) is used. ) As one set, and a plurality of sets are arranged at an interval twice as long as the juxtaposed interval (L ₁ ). In addition, the number of connecting devices (4) is 3 /
As an example of the arrangement of the connector (4) when it is about 4,
1 As shown in Fig. 1, the juxtaposition interval (L
_{As one set of} the three connecting members (4) arranged at a distance from each other, a plurality of sets may be arranged at an interval twice as long as the juxtaposed interval (L ₁ ). Note that the present invention is not limited to the above-described arrangement example. In short, it is only necessary that the connecting tools (4) are dispersedly arranged in the left-right width direction.

[7] In the claims, reference numerals are provided for convenience of comparison with the drawings, but the present invention is not limited to the structure shown in the attached drawings.

[Brief description of the drawings]

1 to 5 show an embodiment of the present invention. FIG. 1 is an enlarged cutaway side view of a main part, FIG. 2 is a front view, FIG. 3 is a longitudinal side view, and FIG. FIG. 5 is a rear view of the armor plate, and FIGS. 6 to 11 show another embodiment of the present invention.
6 and 7 are plan views of essential parts, and FIGS. 8 to 11 are schematic plan views showing examples of the arrangement of the connecting members. (2A): Mainly exterior panel, (4): Connector, (3A)
Floor board reinforcing rod, (4A) ... connecting part, (4B) ... anchor, (9A), (10B) ... rod, (9) ... mesh.

──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Kunio Fukuyama 4-1-1, Honcho, Chuo-ku, Osaka-shi, Osaka Inside Takenaka Corporation Osaka Main Store (56) References JP-A-1-137030 (JP, A ) Japanese Utility Model Application Showa 61-52008 (JP, U) Japanese Utility Model Application Showa 59-188201 (JP, U) (58) Field surveyed (Int. Cl. ⁶ , DB name) E04B 2/94

Claims (4)

(57) [Claims] 1. A connection of a posture along the out-of-plane direction on a back surface of the exterior panel main body (2A) in a floor plate portion facing the exterior panel main body (2A) in an out-of-plane direction of the exterior panel main body (2A). And a floor plate reinforcing rod-like body (3A) connected to transmit a force in an out-of-plane direction therebetween, comprising: a plurality of the connecting members (4); The rods (9A) and (9B) are composed of a mesh (9) connected in a vertical and horizontal lattice.
An outer panel mounting structure in which the connecting members (4) and the floor panel reinforcing rods (3A) are connected to each other by dispersing and fixing the outer panel main body (2A) in the left-right width direction. 2. The connector (4) is connected to the outer plate main body (2).
2. The exterior panel mounting structure according to claim 1, wherein the exterior panel mounting structure is arranged at or near the center in the vertical width direction of A) and connected to the floor panel reinforcing rod-shaped body. 3. The precast concrete exterior panel main body (2A), in an installed state, in a posture along the out-of-plane direction on a floor panel portion facing the exterior panel main body (3A) in an out-of-plane direction thereof, and An L-shaped bent connecting member (4) is provided at each of the portions of the exterior panel main body (2A) that are dispersedly arranged in the left-right width direction. It protrudes from the back surface of the panel main body (2A) to become a connection portion (4A) with the floor plate reinforcing rod (3A), and the other rod portion is located along the in-plane direction of the exterior panel main body (2A). An exterior plate embedded and fixed in a posture to be an anchor (4B) for fixing to the exterior plate main body (2A), wherein the connecting tool (4) is moved in the left-right width direction of the exterior plate main body (2A). A plurality of rods (9
A) An outer panel made of a mesh (9) in which (9) is connected in a vertical and horizontal lattice. 4. The connector (4) is provided with the outer plate main body (2).
The exterior plate according to claim 3, which is disposed at or near the center in the vertical width direction of (A).