JP2008133660A5 - - Google Patents

Description

Building

The present invention is, for example, about the good UNA buildings of multiple story of large-scale suburban shopping center of the parking lot at the top of the shop floor is provided.

  In a multi-storey building that is long enough to affect the structure due to the expansion and contraction of the building due to temperature changes, as shown in Fig. 5, an expansion joint (EXPJ) is provided on the slab on each floor of the building. It is common to divide the into multiple parts from top to bottom.

However, this case has the following problems.
(1) Since it is necessary to provide the pillar a and the beam b on both sides of the expansion joint part (gap), respectively, the pillar and the beam are provided in a double manner, resulting in high construction costs.
(2) Since the building is divided into multiple buildings, when installing seismic elements such as seismic walls and braces, the construction plan must be completed with seismic elements completed in each building. It is necessary to place seismic elements in balance so that they are not eccentric in each building, but it is difficult to install seismic elements in parallel to the expansion joints, and the plane parallel to the expansion joints is essentially a ramen structure. I have to make it.
(3) Since the building is divided from the top to the bottom by the expansion joint, the buildings on both sides of the expansion joint will swing individually during an earthquake, so that the buildings do not collide with each other. The distance between the expansion joints) needs to be widened to about 150 mm to 300 mm, depending on the height of the building. Therefore, the expansion joint hardware becomes large, the price of the expansion joint hardware increases, and there is a risk of leakage of water from the expansion joint hardware into the room.
(4) Since the building is divided from the top to the bottom by the expansion joint part, it is difficult to cross the water system facilities, and the floor plan is limited.
(5) Since a roof rising part e of about 600 mm is required for providing the rising d of the roof waterproofing layer c on both sides of the expansion joint part, when a roof parking lot is provided on the roof slab, the roof vehicle straddling the expansion joint part The road requires a mountain-shaped slope made of a steel plate f, and accordingly, a soundproofing measure is also required, both of which increase costs. In the figure, g is a rubber sheet rod, and h is an anchor for fixing the steel plate f to the one-side frame rising portion e.

  In addition, although the building which provided the expansion joint which accepts the expansion-contraction by a temperature change on a roof is known by patent documents 1, 2, etc., the building of patent document 1 expands the unit type building for one building. Since a plurality of buildings are connected via a joint, the building is divided into a plurality of buildings from the top to the bottom, and is the same as the conventional example of FIG. 5, and the building described in Patent Document 2 is made of sheet metal. Since the center of the roof plate is made into an expansion joint by bending it into a mountain shape, it cannot be applied to the roof of a building with a rooftop parking lot.

Japanese Patent Laid-Open No. 10-8568 JP 2002-339520 A

  The present invention has been made in view of the above-mentioned problems, and the object of the present invention is to allow expansion and contraction due to temperature change only to the upper slab including at least the roof slab among the plural slabs. By providing an expansion joint, the stress generated in the upper slab due to temperature changes due to solar radiation can be reduced.There is no expansion joint in the lower slab, so there is a high degree of freedom in plan planning. There is no need for double installation, and in the event of an earthquake, the building swings as a whole, so the interval between the expansion joints is narrow, and there is no need to form a mountain-shaped slope with a steel plate. The object is to provide a building that can be manufactured at low cost.

The technical means taken by the present invention in order to achieve the above object are as follows. That is, the invention according to claim 1, in buildings having storey double, of the slab a plurality of layers, provided expansion joints only slab of the upper layer portion containing at least a roof slab, located over both sides of the expansion joint One feature of this is that one end of the beam is movable in the width direction of the expansion joint so that the beam can follow the behavior of the slab due to temperature changes. In addition, as a building in the invention of Claim 1, S structure, SRC structure, and RC structure do not ask | require.

  Invention of Claim 2 is a building of Claim 1, Comprising: The concrete stop supported by the stop member is embed | buried at the opposite edge part of the slab concrete cast | placed by predetermined spacing. A waterproof layer is formed on the surface of the slab concrete, a waterproof material for waterproofing is filled between the stopper member and the slab concrete, and one end of the lid that closes the gap between the opposing concrete stoppers is used as one stopper member. The expansion joint is configured by fixing and placing the other end of the lid slidably with respect to the other stopper member.

  The invention described in claim 3 is the building described in claim 2, characterized in that the gap between the opposing concrete stops is filled with a sealing material and its backup material.

Invention of Claim 4 is a building in any one of Claims 1-3, Comprising: The beam for connection with low beam formation in the edge part of the steel beam which supports the slab located in the one side of an expansion joint A steel frame is provided to form a gap between the upper surface of the connecting beam steel frame and the lower surface of the slab, and the end of the connecting beam steel frame is expanded to a steel beam that supports the slab located on the opposite side of the expansion joint. It is characterized by being movably supported in the width direction of the joint.

The invention according to claim 5 is the building according to claim 4, characterized in that a drainer is connected to the lower end of the concrete stopper and a drainage gutter is installed below the drainer.

A sixth aspect of the present invention is the building according to any one of the first to fifth aspects, wherein a roof parking lot is provided on the roof slab.

  According to the first aspect of the present invention, the expansion joint that allows expansion and contraction due to temperature change is provided only on the upper slab including at least the roof slab among the plurality of slabs. The stress generated in the slab can be reduced, and in the slab in the lower layer, there is no expansion joint, so there is a high degree of freedom in plan planning, and there is no need to provide double columns and beams. Therefore, the space between the expansion joints can be narrowed, the hardware of the expansion joint can be downsized, and the cost can be reduced. Moreover, since there is no expansion joint in the slab of the lower layer part, there is no possibility of water leakage from the expansion joint hardware part into the room.

  According to the second aspect of the present invention, the concrete stopper supported by the stopper member is buried in the opposite ends of the slab concrete placed at a predetermined interval, and a waterproof layer is formed on the surface of the slab concrete. Then, a waterproof material for waterproofing is filled between the stopper member and the slab concrete, one end side of the lid that closes the gap between the opposing concrete stoppers is fixed to one stopper member, and the other end side of the lid is fixed Since the expansion joint is configured by being slidably mounted on the other stop member, the expansion of the roof for providing the roof waterproof layer is eliminated, and even when a roof parking is provided on the roof slab Since it is possible to pass over the lid of the joint part by car, it is not necessary to form a mountain-shaped slope with a steel plate, reducing the cost. It is a function.

  According to the third aspect of the present invention, not only the gap between the opposing concrete stoppers is closed by the lid, but also the gap between the opposing concrete stoppers is filled with the sealing material and its backup material. The water stop performance is improved.

  According to invention of Claim 4, the steel beam which supports the slab located in the one side of an expansion joint by the clearance gap formed between the upper surface of the beam steel frame for connection, and the lower surface of a slab concrete placement formwork, and an expansion Since not only the slab located on the opposite side of the joint is edged but also a horizontal space across the connecting beam steel is formed above the connecting beam steel, as in the invention according to claim 5. In addition, it is possible to connect a drainer to the lower end of the concrete stopper, and to install a horizontal gutter for drainage below the drainer, which can cause rainwater due to deterioration of the sealing material filled in the gap between the opposing concrete stoppers. Even if there is an intrusion, it can be guided to flow down to a vertical gutter provided at an appropriate location by a horizontal gutter.

  According to invention of Claim 6, in the building in any one of Claims 1-5, since a rooftop parking lot is provided in a roof slab, it is a suburban type | mold with the parking lot provided in the upper part of the store floor. A large building suitable as a large-scale shopping center can be realized.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows a long multi-storey shopping center which is an example of a building with a rooftop parking lot. This shopping center is a long building having a length L of, for example, 384 m, which includes a four-layer store A, a five-layer store B including a pit, and a two-layer store C. FIG. 2 is a roof plan view of the shopping center. The roof slabs 1 of the store A and the store B are set such that the X direction is 312 m and the Y direction is 84 m, for example, and a rooftop parking lot is provided. The top floors of store A and store B (the lower floor of roof slab 1, the fourth floor in store A and the fifth floor in store B) are open indoor parking lots with no exterior walls. Yes.

  Only the roof slab 1 is provided with an expansion joint (EXPJ) that allows expansion and contraction due to temperature changes every 100 m, but the lower slab is not directly exposed to sunlight, and air conditioning is achieved. Since there is almost no temperature change, no expansion joint is provided, and the lower part of the building is configured to swing together during an earthquake.

  FIG. 3 shows an example of a specific configuration of the expansion joint (EXPJ). 2a and 2b are slab concretes placed on the deck plates 3a and 3b, and stainless steel stoppers are provided at opposite ends with a gap S of a predetermined interval (for example, 30 mm), respectively. (In the example shown, an angle material of 9 × 75 × 75 × 6,000 is used, but a channel material may be used.) Stainless steel concrete stoppers and drainers 5a and 5b supported by 4a and 4b are provided at the lower end. Is embedded in a state of slightly projecting from the lower surfaces of the deck plates 3a and 3b. Reference numerals 6a and 6b denote anchor reinforcing bars welded to the stopper members (angle members) 4a and 4b. Reference numeral 7 denotes a stud dowel welded to the deck plates 3a and 3b. The concrete stoppers and drainers 5a and 5b are composed of a concrete stopper embedded in the thickness of the slab and a drainer connected to the lower end of the stopper and protruding from the bottom surface of the deck plates 3a and 3b.

  The gap between the concrete stoppers and drainers 5a and 5b facing each other is filled with an indeterminate sealing material 8 and a backup material 9 thereof, but these may be omitted. On the surface of the slab concrete 2a, 2b, a waterproof coating layer 11 is formed by a urethane-based ultra-fast-curing waterproofing membrane 10, and between the stop members 4a, 4b and the slab concrete 2a, 2b, the slab concrete is formed. Grooves are formed on the 2a and 2b sides, and the waterproof material 10 is filled therein.

  Reference numeral 12 denotes a stainless steel lid that closes the gap between the opposing concrete stoppers and drainers 5a, 5b. One end of the lid 12 is fixed to one stopper member 4b with a stainless bolt 13 and the lid The other end side of 12 is slidably mounted on the other stop member 4a. Reference numeral 14 denotes a female screw member fixed to the stopper member 4b by welding or the like. A stainless plate 15 as a sliding material is fixed to the upper surface of the stopper member 4a by welding or the like, but may be omitted.

  One end of the beam located on both sides of the expansion joint is configured to be movable in the width direction of the expansion joint, and is configured so that the beam can follow the behavior of the slab due to temperature change.

  Specifically, a connection beam steel frame 16a having a low beam is provided at the end of a steel beam 16 that supports a slab (deck plate 3a) located on one side of the expansion joint, and an upper flange of the connection beam steel frame 16a is provided. By forming a gap 17 between the lower surfaces of the slabs (deck plates 3a, 3b), the steel beam 16 and the slab (deck plate 3b) located on the opposite side of the expansion joint are cut off (separated) for connection. The end of the beam steel frame 16a and the steel beam 18 supporting the slab (deck plate 3b) located on the opposite side of the expansion joint are connected via a loose hole 19 and a bolt / nut 20 that are long in the width direction of the expansion joint. It is. 21 is a drainage gutter installed below the concrete stoppers and drainers 5a, 5b using the gap 17, and even if rainwater may enter due to deterioration of the sealing material 8, etc. It is configured to guide the flow down from the lower ends of the drainers 5a and 5b to a vertical shaft outside the figure.

  According to the above configuration, since the expansion joint that allows expansion and contraction due to temperature change is provided only in the upper slab including at least the roof slab 1 among the slabs of the plurality of layers, the slab of the upper layer due to the temperature change due to solar radiation. However, since there is no expansion joint in the slab in the lower layer, there is a high degree of freedom in plan planning, there is no need to provide double columns and beams, and in the event of an earthquake, the building Since the expansion joint swings as a single unit, it is sufficient that the distance S between the expansion joints is as small as about 30 mm, and the expansion joint hardware such as the lid 12 can be downsized. As a result, the cost can be greatly reduced. Moreover, since there is no expansion joint in the slab of the lower layer part, there is no possibility of water leakage from the expansion joint hardware part into the room.

  In particular, in the above embodiment, the lower floor of the rooftop parking lot is also an indoor parking lot with open sides, and even if some rainwater enters from the expansion joint of the roof slab 1, there is no problem. Since the water is stopped with the irregular sealing material 8 filled in the gap between the opposing concrete stoppers and drainers 5a and 5b and the backup material 9, the rising part of the frame is not required to provide the rise of the roof waterproof layer. become. Therefore, it is necessary to form a mountain-shaped slope by a steel plate by adopting a simple structure as shown in the figure as an expansion joint so that the vehicle can pass over the lid 12 of the expansion joint. In this respect, the cost can be reduced.

  FIG. 4 shows another embodiment of the present invention. This embodiment is characterized in that the end portion of the connecting beam steel frame 16a is supported by a bracket 18a provided on the steel beam 18 so as to be movable in the width direction of the expansion joint. The upper surface of the bracket 18a and the lower flange of the connecting beam steel frame 16a are metal touched. However, a stainless steel plate, a low-friction resin plate, or the like may be interposed therebetween. Reference numeral 18b denotes a rib plate provided on the side opposite to the bracket 18a. Other configurations and operations are the same as those of the embodiment shown in FIG.

  Although not shown, when the end of the connecting beam steel frame 16a is supported by the steel beam 18 so as to be movable in the width direction of the expansion joint, a suspension bolt is attached to a bracket connected to the upper flange of the steel beam 18. Thus, the end portion of the connecting beam steel frame 16a may be suspended and supported. In this case, the pair of brackets are arranged in such a manner that the end portions of the connecting beam steel frames 16 a are sandwiched from both sides to prevent the end portions of the connecting beam steel frames 16 a from swinging in the longitudinal direction of the steel beam 18. Is desirable.

  In each of the above-described embodiments, as shown in FIG. 2, the present invention is described by taking a long building as an example in only one direction (X direction) of two directions (X and Y directions) perpendicular to each other. As described above, in a building that is long in two directions X and Y, the expansion joint (EXPJ) can be provided in both directions X and Y. However, in this case, it is necessary to allow the slab partitioned by the expansion joint to expand and contract in the X and Y directions and the combined direction thereof. A suspension support system will be adopted.

  As mentioned above, although embodiment of this invention was described, this invention is not limited to such embodiment at all, For example, the expansion joint mentioned above is respectively attached to the floor slab of the roof slab 1 and the indoor parking lot of the lower floor. Needless to say, the present invention can be carried out in various modes within the scope of the present invention.

It is a schematic longitudinal cross-sectional view of the building with a rooftop parking lot which shows one Embodiment of this invention. It is a schematic plan view of the said building with a rooftop parking lot. It is a block diagram of an expansion joint. It is a block diagram of the expansion joint which shows other embodiment. It is a block diagram of the conventional general expansion joint.

EXPJ expansion joint 1 roof slab 2a, 2b slab concrete 3a, 3b deck plate 4a, 4b stopper 5a, 5b concrete stopper and drainer 8 amorphous seal material 9 backup material 10 paint film waterproofing material 11 paint film waterproofing layer 12 lid 16 Steel beam 16a Steel beam for connection 17 Clearance 18 Steel beam

Claims (6)

In buildings of the double number storey, of the slab a plurality of layers, provided expansion joints only slab of the upper layer portion containing at least a roof slab, the width direction of the one end expansion joints of beams positioned over both sides of the expansion joint The building is characterized in that the beam can follow the behavior of the slab due to temperature changes.   It is a building of Claim 1, Comprising: The concrete stop supported by the stop member is embed | buried at the opposing edge part of the slab concrete cast | placed by predetermined spacing, and a waterproof layer is provided on the surface of slab concrete. Forming and filling a waterproofing material for waterproofing between the stopper member and slab concrete, fixing one end side of the lid that closes the gap between the opposing concrete stoppers to one stopper member, and the other end side of the lid body The said expansion joint is comprised by mounting slidably with respect to the other stop member, The building characterized by the above-mentioned.   3. The building according to claim 2, wherein a sealing material and a back-up material are filled in a gap between opposing concrete stops.   A building according to any one of claims 1 to 3, wherein a connecting beam steel frame having a low beam is provided at an end of a steel beam supporting a slab located on one side of an expansion joint, and the connecting beam steel frame A gap is formed between the upper surface of the slab and the lower surface of the slab, and the end of the connecting beam steel frame is supported by the steel beam supporting the slab located on the opposite side of the expansion joint so that it can move in the width direction of the expansion joint A building characterized by being allowed to.   5. The building according to claim 4, wherein a drainer is continuously provided at the lower end of the concrete stopper, and a horizontal gutter for drainage is installed below the drainer.   The building according to any one of claims 1 to 5, wherein a roof parking lot is provided on the roof slab.