KR102421659B1 - How to assemble the structure of the building - Google Patents

Abstract

The present invention relates to a method for assembling a skeleton of a building, the configuration of which is vertically long and erected on a horizontal support bar formed on one or both sides of a locking member protruding forward by being coupled to the upper part of a plurality of supports positioned horizontally spaced apart A horizontal ring body mounting step (S10) of mounting a plurality of rectangular horizontal ring bodies constituting the framework of the building in the horizontal direction; of the horizontal ring body in a state of being laid down in the horizontal direction so as to penetrate the inside of the horizontal ring body, and at this time, the plurality of vertical reinforcing bars passing through the horizontal ring body are connected to the support and at least two perpendicular to the lower part of the engaging member A vertical reinforcing bar mounting step (S20) to be mounted on an upper portion of a vertical support bar positioned spaced apart from each other; A horizontal ring body arrangement step (S30) of arranging a plurality of the horizontal ring bodies at regular intervals so as to be fixed depending on the vertical reinforcing bars by placing them on the vertical reinforcing bars and disposing them evenly throughout the vertical reinforcing bars; And, the vertical support bar The vertical reinforcing bars mounted on the poles are placed in close contact with the inner circumferential surface of the horizontal ring body, and the arranged vertical reinforcing bars and a plurality of the horizontal ring bodies in close contact with the vertical reinforcing bars are banded with a thin wire to connect the vertical reinforcing bars and the horizontal ring body to each other However, an assembly step (S40) of arranging a plurality of the vertical reinforcing bars mounted on the vertical support rods evenly on the entire inner circumferential surface of the horizontal ring body to connect the vertical reinforcing bars and the horizontal ring body to complete assembling into the framework of the building (S40); And, the assembly A recovery step (S50) of separating and recovering the skeleton of the building assembled through the step (S40) from the vertical support bar;
By simply assembling vertical reinforcing bars and horizontal ring bodies that serve as the framework of the building from the outside, and supplying and using the framework of the assembled building to the construction site, the various By solving the problems, the time and manpower required for building the skeleton of the building can be greatly reduced, and the work of assembling the vertical reinforcing bars and the horizontal ring of the building skeleton can be performed very quickly and easily, so that the building skeleton can be built very efficiently. It has the effect of being able to assemble and manufacture in large quantities.
In addition, since a plurality of horizontal ring bodies can be conveniently arranged at regular intervals on the vertical reinforcing bars to be assembled into the framework of a building, there is an effect of stably securing excellent strength of the constructed structure.
In addition, due to the characteristics of being able to perform the assembling process of the building frame outside the construction site, it is possible to assemble the building frame indoors even when it is raining, so it is possible to secure a very stable supply of the building frame, so the amount of air required for construction can be significantly shortened.

Description

How to assemble the structure of the building

The present invention relates to a method for assembling a skeleton of a building, and more particularly, by simply assembling a vertical rebar and a horizontal ring body that serve as a skeleton of a building from the outside, and supplying and using the skeleton of the assembled building to a construction site, By solving various problems that occur in the process of assembling the skeleton of a building in the prior art at a construction site, it is possible to significantly reduce the time and manpower required for constructing the skeleton of the building, as well as to assemble the vertical reinforcing bar and the horizontal ring of the building skeleton. It relates to a method for assembling a structure of a structure that can be performed very quickly and easily and thus can be assembled and manufactured in large quantities very efficiently.

In general, buildings are constructed by placing reinforcing bars that function as pull-outs inside the structure to strengthen the strength of structures such as columns, walls, and beams. It is divided into a horizontal ring body of an approximately rectangular shape connected horizontally, and the vertical reinforcing bar and the vertical ring body are firmly connected to each other to serve as a skeleton of the structure.

However, as described above, the reinforcing bars that serve as the framework of the building are long and heavy, so it takes a lot of time and manpower to assemble them directly at the site. There was a problem in that it was very difficult and the work of constructing the skeleton of the building was very inefficient.

In addition, the operation of arranging a plurality of horizontal ring bodies and setting the positions on the vertical reinforcing bars formed vertically is a horizontal ring body formed on the vertical reinforcing bars in a way that strikes with a material such as a hammer or wood that can perform a blow. It is carried out by elevating or lowering, and this method of arranging the horizontal ring body in this way often requires too much time and manpower and the horizontal ring body is not evenly arranged (at regular intervals), so the structural safety of the structure ( strength) was reduced.

In addition, the construction site had a disadvantage in that the work of constructing the skeleton of the building could not proceed smoothly due to the nature of the work being stopped for the safety of workers in the rain.

The present invention has been proposed to solve the various problems as described above, the purpose of which is to simply assemble a vertical reinforcing bar and a horizontal ring body that serve as a skeleton of a building from the outside, and supply the skeleton of the assembled building to a construction site By using it, it is possible to significantly reduce the time and manpower required to construct the skeleton of a building by solving various problems that occur in the process of assembling the skeleton of a building in the prior art at a construction site, An object of the present invention is to provide a method for assembling a structure of a structure that can assemble a ring body very quickly and easily, so that the structure of the structure can be mass-assembled and manufactured very efficiently.

In addition, it is to provide a method for assembling a structure of a structure that can stably secure excellent strength of a structure to be built by simply arranging a plurality of horizontal ring bodies at regular intervals on a vertical reinforcing bar and manufacturing it as a frame of a structure.

In addition, due to the characteristics of being able to perform the assembly process of the building frame outside the construction site, it is possible to assemble the building frame indoors even when it rains, so that a very stable supply of the building frame can be secured. It is to provide a method of assembling the skeleton of a building that can significantly shorten the

The method for assembling a framework of a building according to the present invention for achieving the above object is formed on one side or both sides of a locking member that is vertically long and erected and is coupled to the upper part of a plurality of supports positioned horizontally spaced apart from each other to protrude forward A horizontal ring body mounting step (S10) of mounting a plurality of rectangular horizontal ring bodies constituting the framework of the building on the horizontal support bar in the horizontal direction; A plurality of mounted horizontal ring bodies are passed into the horizontal ring body in a state of being laid down in the horizontal direction to penetrate the inside, in this case, the plurality of vertical reinforcing bars passing through the horizontal ring body are connected to the support and are placed on the lower portion of the engaging member. A vertical reinforcing bar mounting step (S20) of allowing the above to be mounted on the upper part of the vertical support bar positioned vertically spaced apart; A horizontal ring body arrangement step (S30) of placing a plurality of horizontal ring bodies at regular intervals and evenly disposing them throughout the vertical rebar; The vertical reinforcing bar mounted on the vertical support rod is placed in close contact with the inner circumferential surface of the horizontal ring body, and the arranged vertical reinforcing bars and a plurality of the horizontal ring bodies in close contact with the vertical reinforcing bars are bent with a thin wire to form the vertical reinforcing bars and the horizontal ring body An assembling step (S40) of connecting the vertical reinforcing bars mounted on the vertical support rods to the entire inner circumferential surface of the horizontal ring body to connect the vertical reinforcing bars and the horizontal ring body to complete assembling into the framework of the building (S40); , a recovery step (S50) of separating and recovering the skeleton of the building assembled through the assembling step (S40) from the vertical support rod;
Before performing the horizontal ring body mounting step (S10),
A first setting step (S60) of setting the position and number of the vertical support rods formed on the support in consideration of the size of the building skeleton;
In the first setting step (S60), a fixing bolt extending from the end of the vertical support bar is passed through a plurality of setting holes vertically spaced apart from the support to any one of the setting holes selected from among the vertical support rods. After freely setting the position, it is characterized in that the fixing nut is fastened to the fixing bolt to firmly bind and fix the set vertical support rod, wherein at least two or more vertical support rods are installed on the support.

delete

delete

delete

delete

delete

delete

As described above, according to the method of assembling the framework of a building according to the present invention, the vertical reinforcing bar and the horizontal ring body that serve as the framework of the building are easily assembled from the outside, and the framework of the assembled building is supplied and used at the construction site, By solving various problems that occur in the process of assembling the skeleton of a building in the prior art at a construction site, it is possible to significantly reduce the time and manpower required for constructing the skeleton of the building, as well as to assemble the vertical reinforcing bar and the horizontal ring of the building skeleton. As the work can be performed very quickly and easily, it has the effect of assembling and manufacturing a large amount of building skeletons very efficiently.

In addition, since a plurality of horizontal ring bodies can be easily arranged at regular intervals on the vertical reinforcing bars to be assembled into the framework of the building, there is an effect of stably securing the excellent strength of the constructed structure.

In addition, due to the characteristics of being able to perform the assembly process of the building frame outside the construction site, it is possible to assemble the building frame indoors even when it rains, so that a very stable supply of the building frame can be secured. can be significantly shortened.

1 is a block diagram of a method for assembling a skeleton of a building according to an embodiment of the present invention;
FIG. 2 is a view for explaining a method of assembling a skeleton of the building shown in FIG. 1; FIG.

A method of assembling a skeleton of a building according to a preferred embodiment of the present invention will be described in detail based on the accompanying drawings. Detailed descriptions of well-known functions and configurations determined to unnecessarily obscure the gist of the present invention will be omitted.

1 and 2 show a method for assembling a skeleton of a building according to an embodiment of the present invention. The drawings for explaining the method of assembling the skeleton of the built-in building are shown respectively.

As shown in the drawing, the method 100 for assembling a skeleton of a building according to an embodiment of the present invention includes a horizontal ring body mounting step (S10), a vertical reinforcing bar mounting step (S20), a horizontal ring body arrangement step (S30) and , an assembly step (S40) and a recovery step (S50).

As shown in FIGS. 1 and 2B, the horizontal ring body mounting step (S10) is coupled to the upper portions of a plurality of supports 10 that are vertically long and vertically spaced apart from each other and protrude forward locking members 30 ) is a process of mounting a plurality of horizontal ring bodies (2) of a rectangular shape constituting the skeleton of a building on a horizontal support bar (31) formed on one side or both sides in the horizontal direction.

Here, the plurality of horizontal ring bodies 2 mounted on the horizontal support rods 31 of the locking member 30 are substantially horizontal ring bodies 2 to be used to construct the framework of the building, and the horizontal ring bodies 2 to be used as the building framework. ), it is preferable to calculate the number and distribute it to the engaging members 30 formed on each of the supports 10 .

Typically, the skeleton of a building is erected and erected vertically at the construction site. In this case, a plurality of horizontal ring bodies 2 disposed on the vertical reinforcing bars 1 are free-falling by gravity to form the horizontal ring body 2 Due to the very inconvenient nature of positioning and binding, in the framework assembly method 100 of the present invention, the horizontal ring body 2 and the vertical reinforcing bars 1 are manufactured in a horizontally laid state to solve the above inconvenience and assemble Ensure the convenience of work.

As shown in FIGS. 1 and 2C , the vertical reinforcing bar mounting step (S20) is performed by placing a plurality of long rod-shaped vertical reinforcing bars 1 constituting the framework of the building on the engaging member 30, and the plurality of horizontal reinforcing bars It passes into the horizontal ring body 2 in a state laid down in the horizontal direction so as to penetrate the inside of the ring body 2, at this time, the plurality of vertical reinforcing bars 1 passing through the horizontal ring body 2 are on the support 10. It is a process of arranging the vertical reinforcing bar 1 so as to be mounted on the upper part of the vertical support bar 20 that is connected to the lower portion of the engaging member 30 and positioned vertically spaced apart from each other.

In this way, the vertical reinforcing bars 1 disposed as the vertical support bars 20 are calculated in advance as a configuration for constructing the skeleton of a building, such as the horizontal ring body 2, and placed as the vertical support bars 20. Of course .

In addition, since the vertical reinforcing bar 1 penetrates the horizontal ring body 2 and is disposed in advance on the vertical support rod 20, the operator is mounted on the vertical support rod 20 in the assembling step (S40) to be installed later. Since the vertical reinforcing bar (1) can be easily drawn out and used, it is possible to induce the assembly of the vertical reinforcing bar (1) and the vertical ring body (2) to be performed very conveniently and quickly.

1 and 2d, in the horizontal ring body arrangement step (S30), all of the horizontal ring body 2 is separated and recovered from the horizontal support rod 31 of the locking member 30, and the support 10 of the Positioned on the vertical reinforcing bar (1) mounted on the vertical support bar (20) positioned at the uppermost position to be fixed depending on the vertical reinforcing bar (1), by disposing a plurality of the horizontal ring bodies (2) at regular intervals It is a process of evenly disposing the vertical reinforcing bar (1) as a whole.

Here, since the vertical reinforcing bar 1 is in a state laid down horizontally depending on the vertical support bar 20, the horizontal ring body 2 is stably positioned and fixed depending on the vertical reinforcing bar 1, so that a plurality of the horizontal ring bodies (2) can be conveniently arranged at uniform intervals on the vertical reinforcing bar (1).

At this time, since the horizontal ring body 2 out of the locking member 30 is bound (reliant) on the vertical reinforcing bar 1 placed in the uppermost vertical support bar 20, it is not dropped and is stably fixed in position. .

As described above, since a plurality of the horizontal ring bodies 2 can be arranged at regular intervals on the vertical reinforcing bar 1, excellent strength of the entire structure constructed through the manufactured skeleton can be stably secured.

As shown in Figures 1 and 2e, the assembling step (S40) is arranged in close contact with the vertical reinforcing bar (1) mounted on the vertical support bar (20) on the inner circumferential surface of the horizontal ring body (2), the arrangement The vertical reinforcing bar 1 and the plurality of horizontal ring bodies 2 in close contact with the vertical reinforcing bars 1 are banded with a thin wire to connect the vertical reinforcing bars 1 and the horizontal ring body 2 to each other, but the vertical support bar A plurality of the vertical reinforcing bars (1) mounted on (20) are evenly arranged on the entire inner circumferential surface of the horizontal ring body (2), and the vertical reinforcing bars (1) and the horizontal ring body (2) are connected to complete assembly as a skeleton of a building It is fair.

Here, in the vertical reinforcing bar mounting step (S20), in the characteristic that a plurality of vertical reinforcing bars 1 are disposed on the vertical support bar 20, the operator constructs the vertical reinforcing bar (1) from the vertical support bar 20 to build the framework of the building ) can be obtained and used immediately, so the work of assembling and constructing the structure of the building can be performed very quickly and conveniently, so that excellent assembly productivity of the structure of the building can be secured.

Furthermore, since the vertical reinforcing bars 1 can be evenly arranged and assembled on the inner circumferential surface of the horizontal ring body 2 at regular intervals, it is of course possible to stably secure the excellent strength of the entire structure constructed with the manufactured skeleton.

1 and 2F, the recovery step (S50) is a process of separating and recovering the skeleton of the building completed assembling through the assembling step (S40) from the vertical support rod (20).

Here, the skeleton of the building assembled as described above is recovered and stored separately, or moved to a construction site and used as a skeleton of the building. The skeleton assembled through the skeleton assembly method 100 of the present invention is horizontal Due to the nature of being manufactured in a lying state, it is of course used as a skeleton of a building erected vertically at a construction site.

On the other hand, before performing the horizontal ring body mounting step (S10) as shown in Figures 1 and 2a,

A first setting step (S60) of setting the position and number of the vertical support rods 20 formed on the support 10 in consideration of the size of the building frame (S60);

The first setting step (S60) is at the end of the vertical support bar 20 with any one of the setting holes 11 selected from among a plurality of setting holes 11 arranged vertically spaced apart from the support 10. After penetrating the extended fixing bolt 52 to freely set the position of the vertical support rod, fasten the fixing nut 54 to the fixing bolt 52 to firmly bind and fix the vertical support rod 20 whose position is set. However, at least two or more vertical support rods 20 are installed on the support.

That is, by performing the process of setting the number and position of the vertical support rods 20 to be connected to the support 10 in consideration of the size and width of the skeleton and the height of the worker before performing the assembly of the building skeleton, the building guides the skeleton assembly work to proceed very efficiently.

In the framework assembly method 100 of the present invention, it is assumed that the pillar framework of a rather narrow building is assembled as an embodiment, and the two vertical support rods 20 are connected to the support 10 and used, but such Of course, it is not limited to the number of uses.

On the other hand, before performing the horizontal ring body mounting step (S10) as shown in Figures 1 and 2a,

In consideration of the size of the horizontal ring body 2 constituting the building framework, the locking member 30 formed on the upper portion of the support 10 is transferred in the front-rear direction to set the position of the locking member 30 2 setting step (S70);

The second setting step (S70) is formed on the upper portion of the support 10, and while binding the locking member 30, relying on the guide guide 71 to guide the slide so as to be transported in the front-rear direction, the locking member 30. is moved in the forward and backward directions so that the position can be set freely.

In general, the width of structures such as walls and column beams of buildings may be formed in various ways, and the width of the horizontal ring body 2 is also formed variously in correspondence with the width of such structures, if the horizontal ring body 2 having a rather large width ) is mounted on the locking member 30 and one end of the horizontal ring body 2 is positioned at the rear of the support 10, in the process of arranging the vertical reinforcing bar 1 as the vertical support bar 20, the support ( 10) may interfere with smooth operation.

Therefore, the position of the locking member 30 on which the horizontal ring body 2 is mounted is appropriately positioned in such a way that it is transported in the front-rear direction through the guide guide 71 in consideration of the width of the horizontal ring body 2 . It is preferable to work.

Here, the first setting step (S60) and the second setting step (S70) are performed together before assembling the building frame.

The method for assembling the framework of a building according to the present invention 100 made of the above process simply assembles the vertical reinforcing bar 1 and the horizontal ring body 2 that serve as the framework of the building from the outside, By supplying and using at the construction site, it is possible to significantly reduce the time and manpower required for constructing the skeleton of a building by solving various problems that occur in the process of assembling the skeleton of a building in the prior art at a construction site. Since the work of assembling the vertical reinforcing bar 1 and the horizontal ring body 2 can be performed very quickly and easily, there is an effect that the building skeleton can be assembled and manufactured in large quantities very efficiently.

In addition, a plurality of the horizontal ring bodies 2 can be simply arranged at regular intervals on the vertical reinforcing bar 1 to be assembled as a skeleton of a building, thereby stably securing excellent strength of the constructed structure.

In addition, due to the characteristics of being able to perform the assembly process of the building frame outside the construction site, it is possible to assemble the building frame indoors even when it rains, so that a very stable supply of the building frame can be secured. can be significantly shortened.

The skeleton of the building pillar is assembled as follows through the method 100 for assembling the skeleton of a building according to an embodiment of the present invention having the above configuration.

First, as shown in Fig. 2a, after installing and fixing the vertical support rods 20 in a position and number suitable for the support 10 in consideration of the size, width, and height of the worker, etc. of the building pillar, the horizontal forming the frame of the pillar In consideration of the width of the ring body (2), a suitable position is set by transferring the locking member (30) in the front-rear direction through the guide guide (71).

Here, the two vertical support rods 20 are connected to the support 10 and used, but the number is not limited to this number. (S60), (S70)

Then, as shown in FIGS. 2b and 2c, a plurality of horizontal ring bodies 2 are hung on the horizontal support rod 31 of the locking member 30 and placed inside the horizontal ring body 2 A plurality of vertical reinforcing bars (1) to be placed inside the horizontal ring body (2) are placed inside, and the vertical reinforcing bars (1) are placed and fixed to the vertical support bar (20).

Here, for the convenience of assembling the pillar frame, the vertical reinforcing bar 1 and the horizontal ring body 2 are assembled in a horizontally laid state, of course. (S10), (S20)

Then, as shown in FIG. 2D, a plurality of horizontal ring bodies 2 mounted on the locking member 30 are separated and recovered and arranged at regular intervals on the vertical commuter 1, but the horizontal ring body disposed at this time ( 2) is prevented from falling by relying on the vertical reinforcing bar (1). (S30)

Then, as shown in FIG. 2E, the vertical reinforcing bar 1 and the horizontal ring body 2 are bent through a thin wire to connect the vertical reinforcing bar 1 and the horizontal ring body 2 to each other, at this time the operator By using a plurality of vertical reinforcing bars 1 placed on the vertical support bar 20, the vertical reinforcing bars 1 can be continuously arranged and bound at suitable positions of the horizontal ring body 2, so that the skeleton can be quickly assembled. (S40)

When the assembly of the pillar skeleton is completed by connecting the plurality of vertical reinforcing bars 1 and the horizontal ring body 2 to each other as described above, as shown in FIG. It is used as the skeleton of the column. (S50)

Here, since the production is completed, the pillar pulley is in a horizontally laid state, so it is of course used in connection with the skeleton of another pillar by standing vertically at the construction site.

Although the present invention has been described with reference to the embodiments shown in the accompanying drawings, which are illustrative and not limited to the above-described embodiments, those of ordinary skill in the art will realize that various modifications and equivalent embodiments are possible therefrom. point can be understood. In addition, it is a matter of course that modifications by those skilled in the art are possible within the scope that does not impair the spirit of the present invention. Accordingly, the scope of claiming the rights in the present invention will not be defined within the scope of the detailed description, but will be limited by the claims and its technical spirit to be described later.

1. Vertical reinforcing bar 2. Horizontal ring body
10. Support 11. Setting hole
20. Vertical support bar 30. Locking member
31. Horizontal support bar 52. Fixing bolt
54. Fixing nut 71. Guide guide
S10. Horizontal ring body mounting step S20. Vertical rebar mounting stage
S30. Horizontal ring body arrangement step S40. assembly stage
S50. Recovery step S60. 1st setting step
S70. 2nd setting step
100. How to assemble the skeleton of a building

Claims (3)

A framework of a building is constructed on the horizontal support rods 31 formed on one or both sides of the engaging members 30 that are respectively coupled to the upper portions of the plurality of supports 10 that are vertically and long erected and positioned horizontally spaced apart from each other. A horizontal ring body mounting step (S10) of mounting a plurality of horizontal ring bodies (2) of a rectangular shape in the horizontal direction;
The horizontal ring body (2) in a state in which a plurality of long bar-shaped vertical reinforcing bars (1) constituting the framework of the building are laid horizontally to penetrate the inside of the plurality of horizontal ring bodies (2) mounted on the locking member (30) Passed through, at this time, the plurality of vertical reinforcing bars 1 passing through the horizontal ring body 2 are connected to the support 10, and two or more are vertically spaced apart from the lower portion of the engaging member 30. Vertical reinforcing bar mounting step (S20) to be mounted on the upper portion of the vertical support bar (20);
All of the horizontal ring body 2 is separated and recovered from the horizontal support rod 31 of the locking member 30 and the vertical reinforcing bar 1 mounted on the vertical support rod 20 positioned at the top of the support 10 . a horizontal ring body arrangement step of arranging a plurality of the horizontal ring bodies 2 at regular intervals to evenly distribute the vertical reinforcing bars 1 throughout the vertical reinforcing bars 1 so as to be fixed depending on the vertical reinforcing bar (1);
The vertical reinforcing bar 1 mounted on the vertical support bar 20 is closely disposed on the inner circumferential surface of the horizontal ring body 2, and a plurality of the vertical reinforcing bars 1 and the vertical reinforcing bars 1 are placed in close contact with each other. The horizontal ring body 2 is banded with a thin wire to connect the vertical reinforcing bars 1 and the horizontal ring body 2 to each other, but the plurality of vertical reinforcing bars 1 mounted on the vertical support bar 20 are connected to the horizontal ring body (2) an assembly step (S40) of evenly disposing on the entire inner circumferential surface to connect the vertical reinforcing bar (1) and the horizontal ring body (2) to complete the assembly into the framework of the building; and
A recovery step (S50) of separating and recovering the skeleton of the building assembled through the assembling step (S40) from the vertical support rod 20;
Before performing the horizontal ring body mounting step (S10),
A first setting step (S60) of setting the position and number of the vertical support rods 20 formed on the support 10 in consideration of the size of the building frame (S60);
The first setting step (S60) is at the end of the vertical support bar 20 with any one of the setting holes 11 selected from among a plurality of setting holes 11 that are vertically spaced apart from the support 10. After penetrating the extended fixing bolt 52 to freely set the position of the vertical support rod, fasten the fixing nut 54 to the fixing bolt 52 to firmly bind and fix the vertical support rod 20 whose position is set. However, at least two or more vertical support rods 20 are installed on the support. delete delete

Images