KR100787178B1 - Lightweight steel frame base plate and construction method - Google Patents

Abstract

The present invention in constructing the base plate of a light steel frame building, digging a bucket buried pit in the ground of the foundation is installed pillars, install a bucket in the bucket buried pit, the template and anchor bolt and anchor bolt inside the bucket After installing the basic reinforcing member having a, by placing concrete integrally to the inside and the bottom of the bucket so that the footing base and the bottom plate is formed at the same time, not only a method to simplify the process and shorten the air, but also a pillar Lightweight steel structure base plate and its construction method suggesting an economical construction method that can reduce the amount of concrete placing by varying the concrete thickness of the base plate to which the footing base part and the upper structure load are not directly transmitted. It is about.

Description

LIGHT WEIGHT STEEL FRAME FOUNDATION FLOORING MATERIAL AND METHOD FOR CONSTRUCTION}

1 is a cross-sectional view of a base and a bottom plate constructed by the prior art.

2a and 2b is a perspective view and an enlarged view showing a lightweight steel structure base plate according to an embodiment of the present invention.

3A to 3D are cross-sectional views illustrating a construction method of a lightweight steel structure base plate according to an embodiment of the present invention.

4 is a cross-sectional view showing a method of fastening the upper plate and the strap according to another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

200: lightweight steel structure base plate 210: ground

220: bucket buried pits 230: bucket

240: backfill material 250: anchor bolt

260 template 270 anchor plate

340: Insulation 370: Sash

400: wire mesh 420: formwork

The present invention relates to a lightweight steel frame base plate and a construction method thereof, and more particularly, to dig a bucket buried pit in the ground of the foundation is installed pillars, and to install the bucket inside the bucket buried pit, the inside of the bucket A base reinforcement member having a template and an anchor plate and an anchor bolt is installed, and the template and the bucket of the neighboring bucket are connected to each other by fixing with a bracket, and then the concrete is poured into the bucket and the bottom at the same time to cure the light steel frame. It relates to a structural base plate and a construction method thereof.

The construction method of the light steel structure building which is mainly used when constructing low-rise buildings or light buildings is as follows.

1) After fixing the anchor bolt to the bottom plate reinforcing steel or wire mesh, cast concrete of 30 to 40cm in thickness to form a mat base.

2) After fixing the base plate of the plinth (that is, the lower end of the crane) with the nut to the anchor bolt embedded in the mat base, form the wall and the roof structure.

Figure 1 shows the base and the bottom plate of the light steel frame structure constructed by the prior art.

Referring to Figure 1 describes the construction of the base and the bottom plate of the light steel frame conditioner according to the prior art in detail, 1) to clean up the ground 110 and the trench.

2) After installing the formwork 120 in the position where the base plate 100 is to be installed, install the bottom plate reinforcement or wire mesh 130 therein.

3) After fixing the anchor bolt 140 to the bottom plate reinforcement or wire mesh 130 in the position where the pillar is to be installed, the steel 150, the concrete 150 of thickness 30 to 40cm.

In this case, in order to prevent the displacement of the anchor bolt 140 due to the impact generated when the concrete 150 is placed, the upper end of the anchor bolt 140 is fixed with a template (not shown) of plywood.

4) When curing of the concrete is finished, the plywood template is removed, and the anchor bolt is fixed to the base plate 170 of the plinth 160 with a nut 180 to install a column, and a beam and a roof structure (not shown). Construction to finish) advances.

Construction of the base and the bottom plate of the light steel structure building according to the prior art has the following problems.

1) From the structural point of view, the concrete of the footing foundation where the column is installed needs a thickness of 30 to 40 cm, but the concrete of less than 15 cm is sufficient because the rest of the bottom plate is not directly subjected to the load of the building. However, in the conventional method, concrete is poured uniformly without distinguishing it, which causes waste of materials.

Forming a mat base of the same thickness as described above is for the purpose of convenience of construction, when the thickness of the footing base part and the other bottom plate in the conventional structure, the concrete pouring should be made twice, and as a result the process This is complicated, and the air also increases.

2) The anchor bolt fixed by the template of plywood is inevitably moved to some extent due to the shock or vibration that occurs during concrete placing. As a result, the positions of the bolt holes and the anchor bolts formed on the base plate of the upper circumference do not coincide, which involves cumbersome work of correcting the position of the anchor bolts or the positions of the bolt holes.

Accordingly, the present invention is to solve the above-mentioned disadvantages and problems of the prior art, 1) the thickness of the base portion on which the steel frame is installed and the thickness of the bottom plate not directly transmitted load of the upper structure according to the structural requirements By differently developing a method that can drastically reduce the amount of foundation concrete poured,

2) In placing the foundation concrete, by developing the concrete of the foundation and the concrete of the bottom plate at the same time to develop a method that can simplify the process and shorten the air,

3) By fixing the anchor bolt position securely, it prevents the displacement of the anchor bolt in the case of concrete pouring at the source, and can quickly fix the base plate of the column to the anchor bolt without subsequent correction work It is an object of the present invention to provide a lightweight steel structure base plate and a construction method thereof.

The object of the present invention is a ground provided with a plurality of bucket buried pit; Buckets embedded in the bucket embedding pit respectively; A base reinforcing member embedded in the bucket, each of which comprises a template, an anchor plate, and an anchor bolt; A strap connecting the template to a neighboring template; And filling the inside of the bucket and covering the sash, the concrete being cast with a predetermined thickness so that a predetermined area of the upper end portion of the anchor bolt is exposed.

The object of the present invention is to clean up the ground; Digging a bucket buried pit at each location in which the steel frames are to be installed in the ground; Installing a bucket in the bucket embedding pit and filling the backfill between the bucket embedding pit and the bucket; A template having an upper portion at a predetermined position in the bucket, and an anchor bolt having an anchor plate at a lower portion of the bucket; Fastening the template provided in the bucket with the template provided in the neighboring bucket with a bolt; Positioning the bucket inward and forming an outer formwork having a height higher than that of the bucket; And curing the concrete by pouring concrete into an external formwork including the inside of the bucket.

Details of the above object and technical configuration of the present invention and the effects thereof according to the present invention will be more clearly understood by the following detailed description. In the drawings, a layer, a length, a thickness, and the like may be exaggerated for the convenience of visual understanding. Like numbers refer to like elements throughout.

2a and 2b is a perspective view and an enlarged view showing a lightweight steel structure base plate according to an embodiment of the present invention. 2B is an enlarged view illustrating region A of FIG. 2A. At this time, in Figures 2a and 2b the foundation concrete is poured and cured, but it is omitted for illustration for illustration.

Referring to Figures 2a and 2b, the lightweight steel structure base plate 200 of the present invention is a bucket buried pit 220 dug a certain area (position to be formed steel frame) of the ground 210 to a certain depth The bucket 230 is embedded in the bucket embedding pit 220 to protrude to a predetermined height from the surface of the ground 210.

In this case, the bucket embedding pit 220 and the bucket 230 may have a horizontal cross section of a circular or square. 2A and 2B illustrate a bucket embedding pit 220 and a bucket 230 having a circular horizontal cross section.

At this time, the bucket 230 is open at the top, the body is preferably configured to have a smaller cross-section toward the bottom, which is to facilitate the introduction of concrete into the bucket during the concrete pouring process of the present invention to be.

In addition, the bucket 230 may use a container made of synthetic resin, metal, concrete, or pottery, and the like, and a plastic bucket or bucket that can be purchased at a low cost may reduce a separate bucket production cost.

At this time, the empty space between the bucket buried pit 220 and the bucket 230 is filled with backfill material 240 that is the soil when the bucket buried pit 220 is dug out.

In addition, a plurality of anchor bolts 250 are illustrated in the bucket 230 and four anchor bolts are provided in FIGS. 2A and 2B) and a template coupled to the plurality of anchor bolts 250. 260 and anchor plate 270 (in this case, only the template 260 is shown in Figures 2a and 2b, but as shown in Figures 3b to 3d anchor plate 270 is further inside the bucket) It is provided with a basic reinforcing member consisting of). In this case, an anchor plate 270 is positioned below the anchor bolt 250, and a template 260 is positioned above the anchor bolt 250.

The plurality of anchor bolts 250 are provided. The anchor bolts 250 pass through fastening holes provided in the bottom plate 260 and the lower anchor plate 270, and the upper template 260. ) Is fixed by a plurality of template fastening nuts 280 to form a stable cube as a whole.

At this time, the anchor bolt 250 is preferably used having a diameter of 13 to 16mm. The anchor bolt 250 is a screw groove 290 is made in the upper end can be fixed to the template 260 with a plurality of template fastening nuts 280, as will be described later in Figure 3d Base plate 300 of the plinth to the anchor bolt 250 to be fixed to the base plate fastening nut 310.

In addition, it is preferable that the end of the lower end of the anchor bolt 250 is bent in the hook form 320, the hook form 320 is embedded in the filler 330, such as gravel or sand, when the concrete is poured It prevents the position change of the anchor bolt 250, and after the concrete is hardened, the anchor bolt 250 is firmly fixed to the concrete.

Insulating material 340 may be provided on the bottom plate 350, the range of which is defined by the buckets 230. At this time, the bottom plate 350 points to the area of the base plate is not subjected to the load of the steel frame. In contrast, the area of the base bottom plate in which the buckets 230 are embedded is defined as the base part 360. Therefore, the area in which the bucket 230 is embedded in the base bottom plate is the base part 360, and other areas except the base part 360 may be referred to as the bottom plate 350.

The edges of the template 260 installed in the buckets 230 may be provided with a strap 370 coupled to a template of a neighboring bucket. As shown in FIG. 2B, the edge and the strap of the template 260 may be provided. 370 may be fastened using the bolt fastening bolt and nut 380 or fastened by welding (particularly, spot welding) 390 as shown in FIG. 4.

At this time, it is preferable that the clasp 370 uses an iron plate having a thickness of 1.6 mm and a width of 30 mm.

In addition, the bottom plate may be provided with a reinforcing steel member 400 such as a wire mesh or reinforcing to increase the strength and to prevent cracking of the concrete.

In this case, since the strap 370 may be deformed due to the stratification occurring during the installation of the reinforcing steel member 400, it is preferable to install the reinforcing steel member 400 after the reinforcing steel member 400 is installed thereon.

3A to 3D are cross-sectional views illustrating a construction method of a lightweight steel structure base plate according to an embodiment of the present invention. 3A to 3D are cross-sectional views taken along the line BB ′ of FIG. 2B.

Referring to FIG. 3A, first, the ground 210 is summarized. Then, the ground of the location where the steel pillars are to be installed in the ground 210 to a predetermined depth to form a plurality of bucket buried pits 220.

At this time, the bucket buried pit 220 may be formed in a structure in which the horizontal cross-sectional area narrows down from the surface of the ground 210, the horizontal cross-section may be formed in a circular or square shape.

In addition, the bucket buried pit 220 is preferably dug to a depth of at least 30cm or more, it is possible to dig deeper or thinner in consideration of the size, shape and weight of the building to be formed on the ground (210). Similarly, the diameter of the bucket 230 may also vary depending on building size, shape, and load.

Subsequently, the bucket 230 is embedded in the plurality of bucket embedding pits 220.

At this time, the location of the bucket 230 to match the center of the center of the plinth 500 is installed on the top, the empty space between the bucket 230 and the bucket buried pits 220 is backfilling material ( 240 is filled in so that the position of the bucket 230 is fixed.

At this time, the backfill material 240 may use the soil from the excavation of the bucket buried pit 220.

Subsequently, referring to FIG. 3B, first, a plurality of anchor bolts 250 having a plurality of iron plates, such as a template 260 positioned above and an anchor plate 270 positioned below, are prepared.

At this time, the anchor bolts 250 are bent in the end portion of the hook portion 320.

In addition, the template 260 and the anchor plate 270 is manufactured using a thin iron plate within a thickness of 1.2mm, the fastening hole for installing in the anchor bolt 250 and a pour hole installed in the center to facilitate concrete pouring 410.

The reason why the template 260 and the anchor plate 270 is made of a thin iron plate having a thickness of 1.2 mm is possible by mass production, and the main role of the template 260 and the anchor plate 270 is to cast concrete. And fixing the position of the anchor bolt 250 during the curing period is because the structure is not significant. Of course, the template 260 and the anchor plate 270 can expect the side effect of fixing the anchor bolt 250 more concretely.

Therefore, when necessary for structural reinforcement of the template 260 and the anchor plate 270 may be used by overlapping several iron plates.

 In this case, a screw groove 290 may be formed at an upper end of the anchor bolt 250 so that the anchor bolt 250 penetrating the fastening hole of the template 260 may be firmly fixed to the template 260. The anchor bolt 250 is fixed to the template 260 with a template fastening nut 280. If necessary, the contact surface between the anchor bolt 250 and the template 260 may be fixed by spot welding in place of the screw groove 290 and the template fastening nut 280.

Then, after the anchor bolt 250, the template 260 and the anchor plate 270 is installed in the bucket 230, the filling material such as sand or gravel at a predetermined height so that the position of the anchor bolt 250 does not move. 330 may be filled, preferably, at least up to the bottom surface of the anchor plate 270, as shown in FIG. 3B.

Next, referring to FIG. 3C, a heat insulating material 340 may be installed in an area of the bottom plate 350 of the base bottom plate. The heat insulator 340 after the building is completed after the heat of the building exits to the lower ground 210, or serves to prevent the cold air from the ground 210 to enter the interior of the building to improve the thermal insulation efficiency of the building. Can be installed to increase.

Subsequently, a reinforcing steel member 400 (wire mesh or reinforcing bar) may be installed on the upper portion of the insulation 340 to increase the strength of the bottom plate concrete. In this case, the reinforcing steel member 400 may be fixed to the anchor bolt 250 by an iron wire, or may be fixed by welding.

In addition, after the wire mesh or reinforcing steel member 400 of the reinforcing bar is installed, the strap 370 for fixing the position of the anchor bolt 250 more securely may be installed.

Therefore, the anchor bolt 250 is first fixed by the filler 330, and then fixed by the wire mesh or the reinforcing steel member 400 of the reinforcement with a steel wire is fixed secondly and finally by the strap 370 The position is more reliably fixed, resulting in a stable form that does not allow fine displacement.

In this case, the strap 370 may be fastened using the bolt fastening bolt and the nut 380 as shown in FIG. 3C, and the upper surface and the strap of the template 260 as shown in FIG. 4. The side of 370 may be fastened by spot welding 390.

In the same manner as shown in FIG. 2A, neighboring templates 260 may be connected to the strips 370.

Subsequently, referring to FIG. 3D, the anchor is positioned outside the bucket 230 and is at least higher than the top height of the bucket 230 and the template 260 and lower than the top of the anchor bolt 250. The upper end of the bolt 250 forms an outer formwork 420 of a height that can be exposed.

Subsequently, the concrete 600 is poured into the bucket 230 and the outer formwork 420 and cured to form a foundation base plate, thereby completing the lightweight steel structure foundation base plate of the present invention.

In this case, the casting thickness of the concrete 600 is a thickness in which the reinforcing steel part 400, the template 260, and the strap 370 of the bottom plate are embedded in the concrete 600, and the heat insulating material 340. It is desirable to form a thickness of about 15 cm from the top.

As a result, the concrete foundation floor plate is formed to have different thicknesses of the bottom plate 350 and the foundation region 360. That is, the foundation concrete of the base portion 360 directly receiving the load from the upper structure is formed thicker than 40cm, while the thickness of the bottom plate 350 not directly receiving the load is about 15cm.

Therefore, the use of concrete may be reduced by 40 to 50% or more compared to the existing concrete base plate structure using a mat base.

Although the present invention has been shown and described with reference to preferred embodiments as described above, it is not limited to the above-described embodiments and those skilled in the art without departing from the spirit of the present invention. Various changes and modifications will be possible.

Accordingly, the lightweight steel frame foundation base plate of the present invention is to improve the problems of the conventional method of constructing the same thickness without distinguishing the base portion and the base plate, divided into the base portion and the base plate according to the structural role. It is designed to be constructed according to the structural type optimized for each request.

That is, by digging only the ground of the foundation where the steel pillars are installed to form a bucket buried pits, and embedding the bucket for the formwork, and then pouring the concrete of the foundation and the bottom plate at the same time to simplify the process to reduce air,

By optimizing the thickness of the deck where the load of the superstructure is not directly transmitted, it is possible to drastically reduce the amount of concrete while satisfying structural requirements.

By installing an anchor bolt having a template and an anchor plate inside the bucket and connecting the upper template with a neighboring template with a strap to secure the position of the anchor bolt, thereby preventing displacement of the anchor bolt in the concrete pouring process. There is an advantage that the installation of the steel column can be made quickly and accurately.

In addition, by recycling the plastic container, etc. in the bucket of the base portion there is an advantage that can save the formwork cost and at the same time enable environmental protection.

Claims (15)

A ground having a plurality of bucket embedding pits; Buckets embedded in the bucket embedding pit respectively; A base reinforcing member embedded in the bucket, each of which comprises a template, an anchor plate, and an anchor bolt; A strap connecting the template to a neighboring template; And Lightweight steel structure foundation floor plate comprising a; filling the inside of the bucket and covering the sash, the concrete poured to a certain thickness so that a predetermined area of the upper end of the anchor bolt is exposed. The method of claim 1, The width of the horizontal cross-sectional area of the bucket buried pit is wider than the horizontal cross-sectional area of the bucket buried, Lightweight steel structure base plate between the bucket buried pit and the bucket is filled with backfill material. The method of claim 2, The backfill material is a lightweight steel structure base plate, characterized in that the soil produced when digging the bucket buried pit. The method of claim 1, The template is provided on the top of the anchor bolt, the lighter anchor plate is a lightweight steel structure base plate, characterized in that provided in the lower portion of the anchor bolt. The method of claim 4, wherein The template and the anchor plate, respectively, the lightweight steel structure base plate, characterized in that it has fastening holes through which the anchor bolt passes through the same position. The method of claim 4, wherein The anchor bolt is a lightweight steel structure base plate, characterized in that the end is bent in the shape of a hook. The method of claim 4, wherein The template and anchor plate is a lightweight steel structure base plate, characterized in that consisting of a plurality of thin plates. The method of claim 4, wherein The template and the connection of the strap is lightweight steel structure base plate, characterized in that made by spot welding the upper surface of the template and the side of the strap. The method of claim 4, wherein The template and the connection of the strap is lightweight steel structure base plate, characterized in that the overlap of the edge of the template and the strap made of bolts and nuts. The method of claim 1, Lightweight steel structure base plate further comprises a reinforcing steel member made of reinforcing bars or wire mesh to simultaneously anchor the anchor bolt embedded in the anchor bolt and the neighboring bucket. The method of claim 1, Lightweight steel structure base plate, characterized in that the filling material is filled to a certain height of the bucket. The method of claim 11, The filler is lightweight steel structure base plate, characterized in that the mixture of sand and gravel. Cleaning the ground; Digging a bucket buried pit at each location in which the steel frames are to be installed in the ground; Installing a bucket in the bucket embedding pit and filling the backfill between the bucket embedding pit and the bucket; A template having an upper portion at a predetermined position in the bucket, and an anchor bolt having an anchor plate at a lower portion of the bucket; Fastening the template provided in the bucket with the template provided in the neighboring bucket with a band; Positioning the bucket inward and forming an outer formwork having a height higher than that of the bucket; And And casting the concrete in an external formwork including the inside of the bucket to cure the light steel structure base plate construction method. The method of claim 13, In the bucket inside the predetermined position of the upper part is provided with a template, the lower predetermined position is provided with an anchor bolt having an anchor plate: Preparing an anchor bolt whose end portion is bent into a hook shape; Preparing a template and an anchor plate having a plurality of fastening holes in a predetermined region; Fixing the anchor plate at a lower portion of the anchor bolt through a fixing hole of the anchor plate and the template so that the anchor plate is provided at an upper portion thereof; And And filling the filling material with at least the height of the lower surface of the anchor plate while placing the anchor bolt to which the template and anchor plate are fastened in the bucket. The method of claim 13, Before fastening the template provided in the bucket and the template provided in the neighboring bucket with a bolt, Light steel frame structure base plate construction method further comprising the step of fastening the reinforcement or wire mesh to the anchor bolt.

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