KR102376382B1 - Base structure for connection of column and beam - Google Patents

Abstract

The present invention relates to a method of forming a precast concrete structure for increasing the productivity of construction work of Ramen structure, wall structure, and foundation work at a construction site, and more particularly, by processing a structural iron plate or a structural section steel to assemble a high-tensile bolt After processing at the factory as much as possible, and adding reinforcement according to the structural design drawings for the joint members or structural members, pour concrete or mortar to install the formwork and cure it to realize the required strength of the product to facilitate on-site installation. It relates to an independent connection structure for custom connection of various joining members and columns and beams forming a precast concrete structure.
A feature of the present invention is that it has an independent connection structure coupled to a pillar of a building, wherein the independent connection structure includes: a body-shaped connection structure body 21; a connection base plate 22 located on one or both sides of the connection structure body 21 and having a flat plate shape; and a column connection panel part 23 connected in the normal direction of the connection base plate 22 and formed with a plurality of column connection fastening holes 231 for fastening, wherein the column connection panel part 23 has a pillar Cross-fastened with the column panel part 41 of (40), both sides column connection panel part 23 by the column fastener 230 which is inserted and fastened into the both-side column connection and fastening hole 231 and the column fastening hole 411 And the pillar panel part 41 is characterized in that it is coupled.

Description

Independent basic structure for custom connection of columns and beams {BASE STRUCTURE FOR CONNECTION OF COLUMN AND BEAM}

The present invention relates to a method of forming a precast concrete structure for increasing the productivity of construction work of Ramen structure, wall structure, and foundation construction at a construction site, and more particularly, by processing a structural iron plate or structural section steel to assemble a high-tensile bolt After processing at the factory as much as possible, and adding reinforcement according to the structural design drawings for the joint members or structural members, pour concrete or mortar to install the formwork and cure it to realize the required strength of the product to facilitate on-site installation. It relates to an independent connection structure for custom connection of various joining members and columns and beams forming a precast concrete structure.

In general, buildings are constructed by leveling the floor of the construction site and installing the foundation structure, and then reinforcing rebar one by one on top of it, making a form, and putting concrete into the form and curing it. .

In this traditional building construction, when the lower floor is constructed, the concrete curing must be completed and hardened in a solid state, so that reinforcement, formwork, and concrete pouring are performed for the upper floor.

In particular, not only does it take a considerable amount of time to place a large number of reinforcing bars, but it also takes a considerable amount of time to form the formwork for each building structure.

In addition, it takes time to harden even after the concrete mortar is poured. According to the traditional method in the construction of a single building, time must be taken at every step, so that the entire building construction takes a long time.

On the other hand, for pillars and beams, it is difficult to check the safety of products and structures in advance because they go through the process of manufacturing and completion on site every time. Problems often arise. In other words, there is a problem in that it is difficult to check in advance whether the safety of buildings such as pillars or beams is in advance.

To compensate for this, a precast method for manufacturing separate columns or beams is often applied. However, even if columns or beams are manufactured in advance, during the work process of forming the entire structure, the columns and beams are simply made of concrete structures, and internally reinforced reinforcing bars protrude from both ends of the columns or beams. Even if columns or beams are manufactured in advance, there are insufficient points to examine safety.

In particular, since the reinforcing bars protruding from both ends of a column or beam are tied together only by welding or wire, even if the column or beam is pre-manufactured using the precast technique, it is difficult to achieve a stable connection between the connecting parts. It is difficult to guarantee the

Registered Utility Model No. 20-0393006 (Announced on August 17, 2005) Registered Patent No. 10-0583687 (Notice on May 26, 2006)

The present invention for solving the above problems improves the connection and bonding method of the existing precast concrete construction method at the site of constructing a construction structure, and relatively to the conventional construction methods such as formwork, rebar construction, concrete pouring construction, on-site maintenance cost, etc. An object of the present invention is to provide a construction method that reduces excessive construction costs.

Another object of the present invention is to increase construction productivity and secure the work safety of construction workers by standardizing (modular) columns, foundations, beams, walls, slabs, and stairs of construction structures.

Another object of the present invention is to fabricate a structural member from precast concrete using the foundation, structural columns, structural beams, and connecting joint members of the construction work using steel frames and steel plate sections, and assemble them with high-tensile bolts at the site, or at the site. The purpose is to simplify construction by welding.

The present invention for achieving the above object is provided with an independent connection structure coupled to a pillar of a building, the independent connection structure, the connection structure body 21 of the enclosure shape; a connection base plate 22 located on one or both sides of the connection structure body 21 and having a flat plate shape; and a column connection panel part 23 connected in the normal direction of the connection base plate 22 and formed with a plurality of column connection fastening holes 231 for fastening, wherein the column connection panel part 23 has a pillar Cross-fastened with the column panel part 41 of (40), both sides column connection panel part 23 by the column fastener 230 which is inserted and fastened into the both-side column connection and fastening hole 231 and the column fastening hole 411 and a beam connection part 24 to which the column panel part 41 is coupled, and protrudes in the lateral direction of the connection structure body 21 to form a predetermined length and width. It provides an independent connection structure for

In a preferred embodiment of the present invention, the column connection panel 23 is formed to insert a work tool for assembling the column fastener 230 inserted into the column connection fastening hole 231 for column connection work. It provides an independent connection structure for custom connection of columns and beams, characterized in that the daegong (連結作業用大空) 232 is formed.

In a preferred embodiment of the present invention, the connection structure body 21 is connected to the other side of the column connection panel part 23 with respect to the connection base plate 22, and a concrete mortar poured into an independent connection structure ( A plurality of reinforcing bars 212 forming the iron core of the mortar); and a connection body panel part 211 connected to the connection base plate 22 and having a cylindrical shape by including a plurality of reinforcing bars 212 therein, and the connection body panel part 211 is formed when the concrete mortar is injected. It provides an independent connection structure for the custom connection of columns and beams, characterized in that forming the mortar connection body flow path 213 through which the concrete mortar passes.

In a preferred embodiment of the present invention, the beam connection part 24 provided in the lateral direction of the connecting structure body 21 and the beam panel part 51 of the beam 50 are connected in the lateral direction of the independent connection structure ( 50) provides an independent connection structure for custom connection of columns and beams, characterized in that they are coupled.

In a preferred embodiment of the present invention, the beam connection part 24 is a plurality of fasteners for inserting the beam fastener 240 together with the beam panel hole 511 formed in the beam panel part 51 of the beam 50. Authorized beam connection perforation (241); and a beam connection work large hole 242, which is a hole formed for inserting a work tool for assembling the auxiliary fastener 240 inserted into the beam connection hole 241, is formed. It provides an independent connection structure for

In a preferred embodiment of the present invention, the beam connection part 24 is coupled to the side of the connection structure body 21 to form a housing shape with an open top, and the beam 50 is coupled to the part of the beam 50 . Insert long hole 243 forming a long through-hole in the vertical direction so that one side is inserted, and insert long hole 243 forming a step below the insertion long hole 243; and a side porous beam coupling configuration in which the beam 50 is coupled in a direction and an upper part is opened, and a plurality of beam connection holes 241 for fastening are formed on both sides thereof; It provides an independent connection structure for custom connection of columns and beams, characterized in that it consists of any one of the coupling configurations.

In a preferred embodiment of the present invention, the independent connection structure comprises: a mortar injection pipe 261 for injecting concrete mortar into the body-shaped connection structure body 21; and an exhaust pipe 262 for discharging air in the connection structure body 21 when the concrete mortar is injected into the mortar injection pipe 261. It provides an independent connection structure for custom connection of columns and beams. do.

In a preferred embodiment of the present invention, the independent connection structure 20; a pillar 40 coupled to at least one of the upper side and the lower side of the independent connection structure 20; and a building frame structure including a beam 50 coupled in the lateral direction of the independent connection structure 20, either upward or downward with respect to the connection structure body 21 which is the body of the independent connection structure 20 A housing-shaped column connection panel part 23 formed on one or more is provided, and a housing-shaped column panel part 41 is provided at the end of the column 40, and the column connection and fastening hole of the column connection panel part 23 is provided ( 231) and a building frame structure including an independent connection structure for custom connection of columns and beams, characterized in that they are coupled by a column fastener 230 inserted into the column fastener hole 411 of the column panel part 41. to provide.

In a preferred embodiment of the present invention, the beam 50, a rectangular beam body 52 forming a length longer in the longitudinal direction than the width; a prosthetic core 521 forming an iron core inside the prosthesis body 51; a beam base plate 531 fixed to an end of the prosthetic core 521 and forming a plate body; a beam connection box 533 connected to the edge of the beam base plate 531, surrounding the prosthetic core 521, and formed with a beam mortar injection hole 532 to inject concrete mortar into the interior; and a beam-shaped beam panel part 51 connected to the outward surface of the beam base plate 531 and coupled to the beam connection part 24 of the independent connection structure 20. Provide building frame structures including independent connecting structures for connection.

The present invention configured as described above relates to 'precast connection member manufacturing using steel frame section and method for assembling steel frame joint precast assembly', and each member of the foundation, column, beam, slab, and staircase among the construction structures at the construction site is used as a structural section or Structural steel plates are standardized (modular) to facilitate high-strength bolts, on-site welding, and custom construction, which can increase work efficiency, manage labor safety, reduce temporary material costs, and shorten construction costs. Compared to the construction structure formed by the complicated process of assembling and pouring concrete, the effect of significantly reducing the construction cost can be obtained. It also means that mass production is easy through product standardization (Modular).

That is, another effect of the present invention is to increase construction productivity and secure work safety of construction workers by standardizing (modular) the columns, foundations, beams, walls, slabs, and stairs of the construction structure.

In addition, another effect of the present invention is that the structural members are manufactured from precast concrete using the foundation, structural columns, structural beams, and connecting joining members of the construction work using steel frames and steel plate sections, and assembled with high-tensile bolts at the site, or at the site. Simple construction is accomplished by welding.

1 is a perspective view showing an embodiment of a structure in which a plurality of columns and beams are combined as an independent connection structure to form two layers in a building frame structure according to the present invention.
2 is a perspective view showing an embodiment of a structure in which a plurality of columns and beams are combined as independent connection structures to form a single layer in the building frame structure according to the present invention.
3 is a perspective view showing an embodiment of a structure in which a plurality of columns and beams are combined as an independent connection structure to form five layers in the building frame structure according to the present invention.
4 is a perspective view of an independent connection structure that is an important component of a building frame structure according to the present invention.
5 is an exploded perspective view of a state in which a column and an independent connection structure for a building frame structure according to the present invention are separated.
6 is a perspective view of an independent connection structure provided with a beam connection part of a lateral porous beam coupling configuration, in which the beam connection part for connecting the beams of the building frame structure according to the present invention forms an upper and outwardly open enclosure shape; (a) is an embodiment in which the 'C'-shaped beam connection part is provided in only one direction, (b) is an embodiment in which the beam connection part is provided in two directions forming a right angle direction, and (c) is an embodiment in which the beam connection part is provided in three directions An embodiment in which a connection part is provided is shown.
7 is an independent connection structure provided with a beam connection part of an insert length beam coupling configuration that forms a housing shape of a structure in which a beam connection part for connecting a beam of a building frame structure according to the present invention is opened and one side of the beam is coupled outward; As a perspective view of, (a) of Figure 7 is an embodiment in which the large hole for the column connection work of the column connection panel part in the vertical direction of the independent connection structure forms a circle, (b) is the column connection panel part in the vertical direction of the independent connection structure This is an embodiment in which the large hole for the column connection work forms a square, and (c) shows an embodiment in which a rod-shaped connecting member for coupling with the column in the vertical direction of the independent connecting structure is provided.
8 is a beam of a side plate coupling configuration in which the beam connection part for connecting the beams of the building frame structure according to the present invention is open at the top, outward, and below, and the beam jamming jaw protruding inwardly in the lower part is formed in the enclosure shape; A perspective view of an independent connection structure provided with a connection part, (a) of FIG. 8 is an embodiment in which the large hole for the column connection operation of the pillar connection panel part in the vertical direction of the independent connection structure forms a circle, (b) is the independent connection structure It is an embodiment in which the large hole for the column connection operation of the column connection panel part in the vertical direction forms a square, and (c) shows an embodiment in which a rod-shaped connecting member for coupling with the column in the vertical direction of the independent connection structure is provided.
9 is a perspective view of the column connection panel part of the independent connection structure connected to the upper and lower columns in the building frame structure according to the present invention. This is an embodiment forming a shape, and (b) shows an embodiment in which the large hole for the column connection operation formed in the column connection panel part forms a circular shape.
10 is a perspective view of a foundation independent connection structure installed in the ground of a building frame structure according to the present invention, and FIG. The connection structure body inserted into the is an embodiment in which a rectangular through hole is formed, (b) is an embodiment in which a plurality of bar structures connected to the upper column are formed, and the connection structure body inserted into the ground forms a rectangular box, (c) ) shows an embodiment in which the ground column connection panel part and the connecting structure body form a square enclosure and form a square through hole.
11 is an injection pipe for injecting concrete mortar into the independent connection structure of a building frame structure according to the present invention, and (a) of FIG. 11 shows an example in which the injection pipe is provided facing upward, ( b) shows an example in which the injection tube is directed in the lateral direction.
12 is a perspective view of a column connected up and down by an independent connecting structure in a building frame structure according to the present invention. It shows an embodiment in which a large hole is formed, (b) shows an embodiment in which the column panel part for connecting up and down is extended with a rod and forms a box, and an embodiment is formed in which the column fastening work hole is formed in a rectangular shape, (c) shows an embodiment in which the column panel part for connecting up and down forms a housing but forms a column fastening work hole, which is a square-shaped through hole, (d) shows a plurality of columns coupled to the column connection panel part of a single enclosure Examples are shown.
13 is a perspective view of a beam coupled to an independent connection structure in a building frame structure according to the present invention, and FIG. 13 (a) shows an embodiment in which plate-shaped connection members are provided on both sides of a plurality of thin beams. , (b) shows an embodiment in which a box-shaped connecting member that is open downwards and outward is provided on both sides of a single beam of thick thickness, and (c) is a plate-shaped connecting member is provided on both sides of a single beam of thick thickness. It shows an embodiment, (d) shows an embodiment in which multiple plates of a long length downward from both sides of a single beam of thick thickness, and a support membrane extending from the beam to the top, (e) is a single beam with a thick thickness It shows an embodiment in which the connecting member in the form of an enclosure opened outwardly on both sides of the beam is provided.
14 is a perspective view of a coupling portion of a beam coupled to an independent connection structure in a building frame structure according to the present invention, and FIG. An embodiment is shown, (b) shows an embodiment in which the beam panel part coupled with the independent connection structure forms a housing shape that is open downward and outward, (c) is the beam panel part coupled with the independent connection structure outward and up and down It shows an embodiment forming an open housing shape with
15 is a state in which a beam is coupled to an independent connection structure in a building frame structure according to the present invention, in which the connecting portion of the beam is coupled by forming a plurality of plates with a long length downward and a support membrane extending from the beam upward. it will be seen
16 is a view of a state in which a beam is coupled to an independent connection structure in a building frame structure according to the present invention, in which the connecting portion of the beam is formed of a plurality of plates with a long length downward and a support membrane extending from the beam upward. , an example of the state in which the connection part of the independent connecting structure and the beam is cut out is shown.
17 is a coupling exemplary view showing a state in which a plurality of reinforcing fastening beams are connected between beams on both sides in a building frame structure according to the present invention.
18 is a perspective view of a frame of a wall installed between a column and a beam in a building frame structure according to the present invention.
19 is an exemplary view for a wall installed between a column and a beam in the building frame structure according to the present invention, and is an exemplary view of an embodiment in which the wall frames are connected by connecting a plurality of walls.
20 is an exemplary view of a structure for erecting a wall installed between a column and a beam on the ground in a building frame structure according to the present invention.
21 is an exemplary view showing an example of embedding a wall ground fixture for fixing and installing a wall installed between a column and a beam to the ground in a building frame structure according to the present invention.
22 is an exemplary view in which a plurality of walls installed between columns and beams are connected in a building frame structure according to the present invention.
23 is an exemplary view illustrating coupling with a corner connecting member for connecting in a 'L' shape to one side of a wall installed between a column and a beam in the building frame structure according to the present invention.
24 is an exemplary view for coupling with a connecting member for connecting in a 'T' shape to one side of a wall installed between a column and a beam in the building frame structure according to the present invention.
25 is an exemplary view of a wall provided with an injection pipe for injecting concrete mortar into the interior of the wall installed between the column and the beam in the building frame structure according to the present invention.

Hereinafter, it will be described in detail with reference to the accompanying drawings.

That is, the independent connection structure 20 for the custom connection of the pillars 40 and the beams 50 according to the present invention, and the building frame installed including the pillars 40, the beams 50 and the independent connection structures 20 The structure 10 is for a building structure including an independent connection structure 20 coupled to a plurality of building members such as pillars 40, beams 50, and the like of the building, as in the accompanying FIGS.

That is, the building is connected by a plurality of pillars 40 to form a single storey or multi-story, and beams 50 are connected horizontally between the plurality of columns 40 to form a space inside the building. As such, in the building, the overall structure of the building is stabilized, such as by supporting the overall weight and preventing shaking by the skeletal structures such as the pillars 40 and the beams 50.

In addition, by blocking the space between the walls 60, the interior space of the building is divided, so that the user can use it conveniently.

In particular, the present invention is a precast concrete structure and a joint part connecting member for columns 40, beams 50, walls 60, and independent connection structures 20 for connecting them using structural steel plates or structural sections. Since it is manufactured and provided first, the overall construction period is shortened and the structure of the building is provided more stably.

Therefore, the connection between each member is to be constructed by grouting cement, concrete, mortar, etc. after tightening the high-strength bolts. It is to manufacture precast concrete structural columns, structural beams, independent connection structures, and standardized precast concrete walls using steel and section steel. .

And, for these members, the steel plate is processed or structural steel is first processed, and the precast concrete member for embedding the steel frame is manufactured and cured in advance. Accordingly, it is to provide a building as a precast concrete structure jointed with steel by grouting with cement, concrete, mortar, etc.

To this end, the present invention manufactures an iron plate or a structural section steel for later assembly using a connecting member and a high-tensile bolt, and assembles the members to meet the required standards, including columns, connecting and connecting members (independent connecting structures), walls, structural beams, The independent foundation (foundation independent connection structure) is pre-manufactured, the foundation part is buried in the ground, and concrete (or mortar) is poured to cure the concrete (or mortar) to the required strength. Connecting and joining members, walls, structural beams, and independent foundations are produced at a manufacturing plant, etc., and transported to the construction site for assembly and bonding at the site. to complete the structure.

With such a configuration according to the present invention, a plurality of columns 40 and beams 50, etc. are connected as in FIGS. 1 to 3 with respect to the building frame structure 10, which is a basic skeleton for building a building. And, it is shown that these pillars 40 and beams 50 are connected to each other by an independent connection structure (20).

That is, to provide an independent connection structure 20 that combines the pillars 40 and beams 50 in the building frame structure 10 in the building according to the present invention, and the Let's take a look at the detailed configuration first.

Accordingly, the independent connection structure 20 includes a connection structure body 21 in the shape of an enclosure as a basic body.

And as shown in FIGS. 4 and 6 to 11 , the inside and the outside of the connecting structure body 21 of the enclosure shape are prepared by forming a concrete structure in advance with a concrete mortar, and the independent connection structure 20 provided with precast concrete. make up the body.

And the upper and lower surfaces of the connection structure body 21, and one or more side surfaces, various ancillary configurations may be further provided.

That is, the connection base plate 22 is located on one side or both sides of the connection structure body 21 and a flat plate type connection base plate 22 is provided. The connection base plate 22 is coupled to both sides of the connection structure body 21 so that the body as a whole forms a concave shape, and maintains the shape while the concrete mortar to be injected is formed.

And it is connected in the normal direction of the connection base plate 22, it will include a column connection panel portion 23 in which a plurality of column connection fastening holes 231 for fastening are formed.

Accordingly, the column connection panel portion 23 is cross-fastened with the column panel portion 41 of the column 40 . And the column connection panel part 23, the column panel part 41 on both sides of the column connection fastening hole 231 and the column fastening hole 411, both sides by the column fastening hole 230 inserted and fastened ( 23) and the column panel 41 are coupled.

That is, as in FIGS. 4 to 10, the column connection panel part 23 provided at the top and bottom of the independent connection structure 20 is composed of a plurality of thin plate-shaped panels to form an enclosure shape, and such a column connection panel part ( 23) is formed with a plurality of holes, the column connection fastening hole (231).

Accordingly, FIG. 4 is a perspective view of an independent connection structure 20, which is an important component of the building frame structure 10 according to the present invention, and FIG. 5 is a pillar 40 and an independent structure for the building frame structure 10 according to the present invention. It shows an exploded perspective view of a state in which the connection structure 20 and the like are separated.

And Fig. 9 is a perspective view of the column connection panel part 23 of the independent connection structure 20 connected to the upper and lower columns 40 in the building frame structure 10 according to the present invention, in Fig. 9 (a) is an embodiment in which the large hole 232 for the column connection operation formed in the column connection panel part 23 has a rectangular shape, and (b) is an embodiment in which the large hole 232 for the column connection operation formed in the column connection panel part 23 has a circular shape. An example to be achieved is shown.

In addition, FIG. 12 is a perspective view of a column 40 connected up and down by an independent connection structure 20 in the building frame structure 10 according to the present invention, and FIG. 12 (a) is a column for connecting up and down It shows an embodiment in which the panel part 41 forms an enclosure and a circular column fastening work hole 412 is formed, (b) shows that the column panel part 41 for connecting up and down is extended with a rod, and the enclosure is closed. It shows an embodiment in which the column fastening work large hole 412, which is a rectangular hole, is formed, (c) is a column panel part 41 for connecting up and down to form an enclosure, but the column fastening work is a square hole through hole It shows an embodiment in which the large hole 412 is formed, and (d) shows an embodiment in which a plurality of columns are coupled to the column connection panel part 41 of a single housing.

In addition, the housing-shaped column panel part 41 provided at the end of each column 40 coupled to the housing-shaped column connection panel part 23 is also made of a plurality of thin plate-shaped panels to form a housing shape, and the column panel part 41 ) is also formed with a plurality of holes, the column fastening pores (411).

Accordingly, the column connection panel part 23 and the column panel part 41 are different in size from each other, and the other is inserted into one of them, so that the column connection and fastening holes 231 and the column fastening holes 411 on both sides are inserted. ) and the like are aligned with each other, the column fastener 230 is inserted and fastened. Since a plurality of these column connection fastening holes 231 and column fastening holes 411 are provided and coupled with a large number of column fastening holes 230, in the end, each column 40 and the independent connection structure 20 ) maintains the state of being combined with each other, and the overall safety of the building is superior.

On the other hand, each of these pillars 40 and the independent connection structure 20 are prepared in advance in a state of being manufactured in a separate manufacturing plant in advance by a precast concrete manufacturing technique with each other, and are prepared in advance by a precast concrete manufacturing technique at the site of a building facility. By supplying the manufactured pillars 40 and independent connection structures 20 and assembling each other to easily form the building frame structure 10, not only can the construction period of the entire building be shortened, but also the stability of the installed building is improved to have the advantage of

In addition, in order to facilitate the process of coupling the pillar 40 and the independent connection structure 20 , the pillar connection panel part 23 is a pillar fastener 230 inserted into the pillar connection and fastening hole 231 . ), a hole formed for inserting a work tool for assembling the column, a large hole (232) for connecting the column is to be formed.

In addition, similarly to the large hole 232 for the column connection work, by forming the column fastening operation large hole 412 in the column 40, the column connection panel part 23 and the column panel part 41 are inserted in the coupled state. The large hole 232 for the column connection operation and the large hole 412 for the column fastening operation are also located at the same position, and thus the operator can easily fasten the column fastener 230 by putting a work tool (not shown).

Accordingly, in the examples of FIGS. 4 and 6 , a circular large hole 232 for connecting a column is formed, and FIGS. As such, the size or shape of the large hole 232 for the column connection work, and the column fastening work large hole 412, etc. may be determined and implemented according to the implementation situation of the building.

And the connection structure body 21 is to be connected to the other side of the column connection panel part 23 with respect to the connection base plate 22 as in the example of the accompanying drawings.

In addition, including a plurality of reinforcing bars 212 constituting the iron core of the concrete mortar to be poured into the independent connection structure to form a solid structure as a concrete structure.

In addition, it is connected to the connection base plate 22 and includes a connection body panel part 211 having a cylindrical shape by including a plurality of reinforcing bars 212 therein.

The connection body panel part 211 forms a mortar connection body flow path 213 through which the concrete mortar passes when the concrete mortar is injected, as in the example of FIG. Various types of through holes can be achieved.

Accordingly, in the building, a plurality of columns 40 and beams 50 and a plurality of independent connecting structures 20 connecting them are combined to form the overall building frame structure 10, and by fastening and assembling each member, the building frame structure ( In the state of 10), the independent connection structure 20, the column 40, and the beam 50, etc. are placed in the concrete mortar so that the respective connection panel parts and fasteners are not exposed to the outside and are included in the concrete. will achieve Accordingly, the concrete mortar is injected and poured into the inner space of the enclosure shape such as the connecting structure body 21 of the independent connecting structure 20 and the column connecting panel part 23 .

For this purpose, as in the example of FIG. 11 , the independent connection structure 20 includes a mortar injection pipe 261 for injecting concrete mortar into the connection structure body 21 in the shape of an enclosure. As a result, concrete mortar can be poured into the invisible interior space, thereby forming a solid building structure.

In addition, it includes an exhaust pipe 262 for discharging air in the connection structure body 21 when the concrete mortar is injected into the mortar injection pipe 261 . That is, if the air in the inner space of the independent connection structure 20 is not completely exhausted while the concrete mortar is injected into the mortar injection pipe 261 , there is a risk of a problem in the durability of the building. Therefore, when the concrete mortar is injected, the air inside is released to provide a building with improved stability and strength.

Accordingly, FIG. 11 is provided with a mortar injection pipe 261 and an exhaust pipe 262 for injecting concrete mortar into the independent connection structure 20 of the building frame structure 10 according to the present invention. ) shows an example in which the mortar injection pipe 261 and the exhaust pipe 262 are directed upward, and (b) is an example in which the mortar injection pipe 261 and the exhaust pipe 262, etc. are facing in the lateral direction. will show

And as a kind of such an independent connection structure 20, the connection structure body 21, which is a body, is installed in the ground so that it is fixed to the ground, and the foundation independent connection structure 30 that allows the column 40 to be coupled to the upper part. will be prepared That is, as in the example of FIG. 10, the connecting structure body 21 is installed in the ground, and a plurality of reinforcing bars buried in the ground foundation pass through and are molded together with concrete, and the reinforcement fastening through-holes 31 through which these reinforcing bars are coupled are provided.

And the upper part of the connecting structure body 21 is provided with a column connecting panel 23 for fastening with another column 40 . Thus, the pillar 40 is coupled to the upper part of the independent foundation connection structure 30 to form the foundation pillar of the building.

Accordingly, FIG. 10 is a perspective view of a foundation independent connection structure 30 installed on the ground of the building frame structure 10 according to the present invention, and FIG. 10 (a) is a column connection panel part connected to the upper column 40 (23) forms a rectangular enclosure shape with an open top and the connection structure body 21 inserted into the ground is an embodiment in which a rectangular through hole is formed, (b) is an embodiment in which a plurality of bar structures connected to the upper column are formed, and in the ground The inserted connection structure body 21 is an embodiment in which a rectangular enclosure is formed, and (c) is a case in which the ground column connection panel part 23 and the connection structure body 21, etc. form a rectangular enclosure and form a rectangular through hole. Examples are shown.

Next, the independent connection structure 20 is provided with a beam connection part 24 protruding in the lateral direction of the connection structure body 21 to form a predetermined length and width.

Thus, the beam connection part 24 provided in the lateral direction of the connection structure body 21 and the beam panel part 51 of the beam 50 are connected, and the beam 50 is coupled in the lateral direction of the independent connection structure.

The beam connection part 24 is for fastening for insertion of the beam fastener 240 together with the beam panel hole 511 formed in the beam panel part 51 of the beam 50 as in the examples of FIGS. 6 to 8 and the like. It is provided with a plurality of authorized auxiliary connection perforations (241).

And a large hole for the beam connection work, which is a hole formed for inserting a work tool for assembling the auxiliary fastener 240 to be inserted into the beam connection hole 241, may be formed. Thus, the operator can easily and stably and easily fasten the independent connection structure 20 and the beam 50, etc., by inserting the auxiliary fastener 240 through the large hole for the beam connection work.

And the beam 50 coupled to the beam connection part 24 of the independent connection structure 20 is provided with a beam panel part 51 coupled to the beam connection part 24, and the beam panel part 51 is shown in FIG. 13 . , as in FIG. 14 , it forms a thin plate body in which the porous beam panel porous 511 is formed, and forms an enclosure or is made of thin panels on both sides.

And, if necessary, as shown in FIGS. 14 (a), (b), etc., the beam panel work large hole 512, which is a through hole formed for work, is formed in the upper part of the beam panel part 51.

A fastening configuration of the independent connection structure 20 and the beam 50 prepared in this way will be described.

That is, in the independent connection structure 20, the auxiliary connection part 24 is coupled to the side of the connection structure body 21 by forming a housing shape with an open top. That is, as in FIGS. 4 to 10 , in the vertical direction of the independent connection structure 20 , the pillar connection panel part 23 for coupling with the pillar 40 is provided, and in the lateral direction for coupling with the beam 50 A beam connecting portion 24 is provided.

And, as an example of the beam connection part 24, an insertion long hole 243 forming a long through hole in the vertical direction is formed in the part where the beam 50 is coupled as in the example of FIG. 7 so that one side of the beam 50 is inserted. (243) It is to be provided with a combination of inserts that form a stepped downward step.

That is, referring to the example of FIG. 7 , as an embodiment of the beam connection part 24 for connecting the beam 50 of the building frame structure 10 according to the present invention, the upper part is opened and one side of the beam is coupled outward. A perspective view of the independent connection structure 20 provided with the beam connection part 24 of the insert-janggongbo coupling configuration constituting the housing shape of the structure is shown.

7 (a) is for an embodiment in which the large hole 231 for column connection work of the column connection panel part 23 in the vertical direction of the independent connection structure 20 forms a circle, (b) is an independent connection structure (20) is for an embodiment in which the large hole 231 for the column connection operation of the column connection panel part 23 in the vertical direction forms a square, (c) is the column 40 in the vertical direction of the independent connection structure 20 It shows an embodiment in which a rod-shaped connecting member is provided for coupling with.

And as shown in Figs. 15 and 16, which show a state connected to the beam 50 by such an insertion length publication coupling configuration, the beam panel part 51 in the beam 50 has a long connection part of the beam 50 downward. A beam 50 having a plurality of plates in length and a supporting membrane extending from the beam to the top is coupled to the independent connection structure 20 . 15, 16, etc., the shape of the insertion long hole 243 in the beam connection part 24 of the independent connection structure 20, and a plurality of plates in the beam panel part 51 of the beam 50, etc. ) to form a precast concrete structure by forming males and females and inserting them together. A method of reinforcing the jointed joint portion with carbon fiber or amamid fiber, etc. and impregnating it with epoxy may be applied to the part having the concave-convex bonding.

That is, in the embodiment of the insert long ball coupling configuration, a plurality of plates of the beam are fitted into the insert long hole 243 of the beam connection part 24, and the portion protruding to the upper part of the insert long hole 243 extends from the upper part of the beam 50 It comes in contact with the bottom of the supporting membrane, and eventually the beam connection part 24 forms a structure to support the load of the beam 50 .

15 is for a state in which the beam 50 is coupled to the independent connection structure 20 in the building frame structure 10 according to the present invention. , shows a coupled state by forming a support membrane extending from the beam to the top.

And Figure 16 is for a state in which the beam 50 is coupled to the independent connection structure 20 in the building frame structure 10 according to the present invention, and the connecting portion of the beam 50 is a plurality of plates with a long length downward and , shows an example of a state in which the connection portion of the independent connection structure 20 and the beam 50 is cut out in a coupled state by forming a supporting membrane extending from the beam to the upper portion.

Next, as in the example of FIG. 6, with respect to the beam connection part 24 of the independent connection structure 20, the beam 50 is coupled in the direction and the upper part is opened, and a plurality of beam connection holes 241 for fastening are formed on both sides. This constitutes an embodiment of the lateral porous beam coupling configuration that is formed.

That is, as shown in FIG. 6, the beam connection part 24 for connecting the beam 50 of the building frame structure 10 according to the present invention forms an enclosure shape open to the top and outward. 24) is a perspective view of the independent connection structure 20 provided with is shown.

6 (a) is an embodiment in which the 'C'-shaped beam connection part 24 is provided in only one direction of the independent connection structure 20, (b) shows that the beam connection part 24 is an independent connection structure (20) shows an embodiment in which the beam connection part is provided in two directions forming a right angle direction, and (c) shows an embodiment in which the beam connection part 24 is provided in three directions in the independent connection structure (20).

And with respect to the coupling of the beam connection part 24 and the beam 50 of this side porous beam coupling configuration, as in FIG. As in 40), as a whole, the beam 50, the column 40, and the independent connection structure 20 are combined, and concrete mortar is poured for each connection part, thereby forming the entire building frame structure 10.

Next, as for the beam connection part 24 for coupling with the beam 50 of another embodiment, FIG. 8 is a beam connection part 24 for connecting the beam 50 of the building frame structure 10 according to the present invention. For the independent connection structure 20 provided with the beam connection part 24 of the side plate coupling configuration forming the housing shape of the structure in which the top, outward and bottom are open and the beam locking jaw 244 protruding inwardly is formed in the lower part. A perspective view is shown.

Accordingly, (a) of FIG. 8 shows an embodiment in which the large hole 232 for column connection work of the column connection panel part 23 in the vertical direction of the independent connection structure 20 forms a circle, and (b) is an independent connection structure (20) shows an embodiment in which the large hole 232 for the column connection operation of the column connection panel part 23 in the vertical direction forms a square, (c) is to combine with the column in the vertical direction of the independent connection structure 20 It shows an embodiment in which a rod-shaped connecting member for

In this way, the beam connection part 24 of the side plate coupling configuration provided as shown in FIG. 8 is caught below the beam panel part 51 of the beam 50 on the beam locking jaw 244 protruding inwardly below, and the beam fastener 240. to form a solidly assembled state by Thereafter, a solid structure is formed by pouring concrete mortar for the portion where the beam 50 and the independent connection structure 20 are connected.

The independent connection structure 20 according to the present invention prepared as described above combines a plurality of columns 40 or beams 50 and the like.

That is, it includes a pillar 40 coupled to at least one of the upper side and the lower side of the independent connection structure 20 .

And, including the beam 50 coupled to the lateral direction of the independent connection structure 20, the building frame structure 10 of the building is formed.

Accordingly, with respect to the connection structure body 21, which is the body of the independent connection structure 20, a housing-shaped column connection panel part 23 formed on at least one of an upper side and a lower side is provided, and the housing-shaped end of the column 40 is provided. of the pillar panel 41 is provided. Thus, it is coupled by the column fastening hole 230 inserted into the column connection fastening hole 231 of the column connection panel part 23 and the column fastening hole 411 of the column panel part 41 .

Even in this beam 50, as in the column 40 or the independent connection structure 20, it is pre-manufactured as a precast concrete member pre-fabricated by joining the steel frame and pouring the concrete mortar to the body at a separate manufacturing location. will achieve

And the pillars 40, beams 50, and the independent connection structure 20 manufactured in this way are finally assembled at a building facility site, and the entire building frame structure 10 is formed by pouring the concrete mortar of the connection part.

Accordingly, the beam 50, the column 40, and the independent connection structure 20 are provided in a state in which a plurality of reinforcing bars are reinforced in the body portion, and a plurality of metal plates form a solid internal structure by welding or bolts, etc. A solid body is formed by pouring concrete into the body in a state in which a plurality of reinforcing bars are fixed to a metal plate or the like by welding or the like. In this state, it has a pre-fabricated state with pre-fabricated precast concrete columns, beams, and independent connecting structures.

In particular, in the case of members forming a long length, such as the beam 50 or the column 40, the length may be different depending on the shape, shape, and overall size of the building, so the beam 50, the column 40, etc. are independent connection structures. In the state in which only the edge portion coupled with (20) is manufactured in advance, reinforcement of reinforcing bars for the rest of the body or pouring concrete may be performed as a post-work in accordance with shipment.

For this purpose, with respect to the beam 50 or the pillar 40, only the connection parts at both ends that are coupled to the independent connection structure 20 may be manufactured first.

Among them, a connection structure for the beam 50 will be described with reference to FIG. 14 .

That is, as in the example of FIG. 14 , the beam 50 is provided at both ends of the beam panel 51 for coupling with the independent connection structure 20 .

Accordingly, the beam 50 is a body, and includes a rectangular beam body 52 having a length longer in the longitudinal direction than the width.

And a prosthetic core 521 forming an iron core inside the prosthetic body 52 is provided.

Accordingly, the prosthetic core 521 and the prosthetic core 521 are provided at both ends of the prosthetic body 52 .

And a beam base plate 531 which is fixed to the end of the prosthetic core 521 and forms a plate body is provided.

Accordingly, a beam connecting portion 533 is provided, which is connected to the edge of the beam base plate 531, surrounds the prosthetic core 521, and has a beam mortar injection hole 532 to inject concrete mortar into the interior. .

And it is connected to the outward surface of the beam base plate 531 and includes a housing-shaped beam panel part 51 coupled to the beam connection part 24 of the independent connection structure 20 .

14, which shows an example of such a beam 50, is a perspective view of the coupling portion of the beam 50 coupled to the independent connection structure 20 in the building frame structure 10 according to the present invention, as shown in FIG. A) shows an embodiment in which the beam panel part 41 coupled to the independent connection structure 20 forms an outwardly open enclosure shape, and (b) shows the beam panel part 41 coupled with the independent connection structure 20 ( 41) shows an embodiment in which the housing shape is opened downward and outward, and (c) is an embodiment in which the beam panel part 41 coupled to the independent connection structure 20 forms a housing shape open outward and upward and downward. will show

Various embodiments of the beam 50 in the present invention prepared in this way will be looked at in FIG. 13 .

That is, FIG. 13 is a perspective view of a beam coupled to the independent connection structure 20 in the building frame structure 10 according to the present invention, and FIG. 13 (a) is a plate-shaped connecting member on both sides of a plurality of thin beams. Shows an embodiment in which is provided, (b) shows an embodiment in which a connection member in the form of a box that is open downward and outward on both sides of a single beam of thick thickness is provided. And Figure 13 (c) shows an embodiment in which a plate-shaped connecting member is provided on both sides of a single beam of thick thickness, (d) is a plurality of plates of a long length downward from both sides of a single beam of thick thickness, It shows an embodiment in which a supporting membrane extended from the beam upward is shown, and (e) shows an embodiment in which a housing-type connecting member opened outwardly on both sides of a single beam of thick thickness is provided.

In addition, FIG. 17 is a coupling exemplary view showing a state in which a plurality of reinforcement fastening beams 55 are connected between both side beams 50 in the building frame structure 10 according to the present invention. That is, when the space connected by the beams 50 is formed too large, or when the load distribution of the part where the reinforcement coupling beam 55 is located is required due to the structure of the building, a plurality of reinforcement coupling beams 55 are the main beams. It can be implemented to be coupled to (50), thereby improving the structural safety of the overall building.

The independent connection structure 20 for the custom connection of the pillar 40 and the beam 50 according to the present invention prepared as described above, and the pillar 40, the beam 50 together with the independent connection structure 20 The example in which the etc. are combined to form one whole building frame structure 10 has been described.

Accordingly, looking at the embodiment of the building frame structure 10 , FIG. 1 shows a plurality of pillars 40 and beams 50 in the building frame structure 10 according to the present invention as an independent connection structure 20 . It is a perspective view showing an embodiment of the structure forming two layers.

And FIG. 2 is a perspective view showing an embodiment of a structure in which a plurality of columns 40 and beams 50 are combined as an independent connection structure 20 to form a single layer in the building frame structure 10 according to the present invention.

3 is a perspective view showing an embodiment of a structure in which a plurality of columns 40 and beams 50, etc. are combined as an independent connection structure 20 to form five layers in the building frame structure 10 according to the present invention. .

These pillars 40, beams 50 and independent connection structures 20, etc. are pre-fabricated and prepared as precast concrete members, and then assembled using each connection member at a building facility location to form one whole building frame structure. (10) is achieved.

As a result, most of the frames, such as columns and beams, are manufactured in advance according to the pre-designed bar, and only a simple assembly process is performed at the construction site, thereby making the overall construction easier and shortening the construction period.

Next, as a precast concrete structure as described above, the pillars 40, the beams 50, and the independent connection structures 20 for connecting them are assembled with each other to form the building frame structure 10, and also the precast concrete After the wall 60 is manufactured in advance as a structure, it may be provided to be assembled and constructed at a construction site.

The wall 60 will be described with reference to FIGS. 18 to 25 and the like.

As in the example of the above-described column 40, beam 50, and independent connection structure 20, the wall 60 is also reinforced with a number of reinforcing bars therein, and the beam 50, column 40, independent connection structure, etc. (20) and a connecting member of the wall to be fixed to the ground is provided, and after the connecting member of the wall and reinforcing bars, etc. are fixed by welding, etc., a concrete structure is formed by precasting and prepared in advance do.

Accordingly, FIG. 18 is a perspective view of the frame of the wall 60 installed between the pillars 40 and the beams 50 in the building frame structure 10 according to the present invention, and FIG. 19 is a building frame according to the present invention. As for the wall 60 installed between the pillars 40 and the beams 50 in the structure 10, an exemplary view of an embodiment in which the wall frames 61 are connected by connecting a plurality of walls 60 am.

That is, in the wall 60, the fastening member coupled to the wall ground fixture 71 for fixing to the ground forms a state fixed to the wall frame 61, and the entire wall 60 is formed by pouring concrete into the interior with a formwork. will do

And FIG. 20 is an exemplary view of a structure for erecting the wall 60 installed between the pillars 40 and the beams 50 on the ground in the building frame structure 10 according to the present invention, and FIG. 21 shows an example of embedding the wall ground fixture 71 for fixing and installing the wall 60 installed between the pillars 40 and the beams 50 to the ground in the building frame structure 10 according to the present invention It is also an example. This wall-ground fixture 71 will be able to easily be installed in accordance with a fixed position on the ground by using a separate fixture spacing adjusting member 72 .

In addition, connecting members for connecting a plurality of walls to each other are provided in both sides or vertical directions of the wall 60 to form a structure connected to the wall frame 61 .

And Figure 22 is an exemplary view in which a plurality of walls 60 installed between the pillars 40 and the beams 50 in the building frame structure 10 according to the present invention are connected. In FIG. 22, it is shown that the wall 60 is connected by a '+'-shaped wall connecting member.

23 is a corner connecting member ( It is an exemplary view for coupling with 'a'-shaped corner wall connecting member), and FIG. 24 is a wall 60 installed between the pillars 40 and the beams 50 in the building frame structure 10 according to the present invention. It is an exemplary view for coupling with a connecting member ('T' magnetic wall connecting member) for connecting to one side of the 'T' shape.

In addition, FIG. 25 is a wall injection pipe 62 for injecting concrete mortar into the inside of the wall 60 installed between the pillars 40 and the beams 50 in the building frame structure 10 according to the present invention. It is an exemplary view of the provided wall (60).

And as shown in Fig. 25, the wall 60 can be installed in a structure in which a plurality of layers are stacked, and the walls 60 stacked in number have a rigidly assembled state by a wall fastening part provided at a portion to be coupled to each other. .

Although the embodiment of the present invention has been described in detail above, since one embodiment has been described so that a person of ordinary skill in the art can easily practice the present invention, by the description of the embodiment, The technical spirit of the present invention should not be construed as being limited.

10: building frame structure 20: independent connection structure
21: connection structure body 23: column connection panel part
24: beam connection part 30: independent foundation connection structure
40: column 50: beam
60: wall

Claims (9)

Provided with an independent connection structure that is combined with the pillars of the building,
The independent connection structure,
Connection structure body 21 in the shape of an enclosure;
a connection base plate 22 located on one or both sides of the connection structure body 21 and having a flat plate shape; and
It is connected in the normal direction of the connection base plate 22 and includes a column connection panel part 23 in which a plurality of column connection fastening holes 231 for fastening are formed,
The pillar connection panel part 23 has a pillar fastening hole 230 that is cross-fastened with the pillar panel part 41 of the pillar 40 and inserted into the both side pillar connection and fastening holes 231 and the pillar fastening holes 411 to be fastened. The both sides of the column connecting panel part 23 and the column panel part 41 are coupled by
It further includes a beam connection part 24 protruding in the lateral direction of the connection structure body 21 to form a predetermined length and width,
The independent connection structure,
Mortar injection pipe 261 for injecting concrete mortar into the body-shaped connection structure body 21; and
An independent connection structure for custom connection of columns and beams, characterized in that it includes an exhaust pipe 262 for discharging air in the connection structure body 21 when the concrete mortar is injected into the mortar injection pipe 261.
The method of claim 1,
The pillar connection panel unit 23 is,
A column, characterized in that a large hole (232) for the column connection work formed to insert a work tool for assembling the column fastener (230) inserted into the column connection fastening hole (231) is formed; and Independent connection structure for custom connection of beams.
The method of claim 1,
The connection structure body 21,
It is connected to the other side of the column connection panel part 23 with respect to the connection base plate 22,
A plurality of reinforcing bars 212 forming the iron core of the concrete mortar (mortar) poured into the independent connection structure; and
It is connected to the connection base plate 22 and includes a connection body panel part 211 having a cylindrical shape by including a plurality of reinforcing bars 212 therein,
The connection body panel part 211 is an independent connection structure for custom connection of columns and beams, characterized in that forming a mortar connection body flow path 213 through which the concrete mortar passes when the concrete mortar is injected.
The method of claim 1,
The beam connection part 24 provided in the lateral direction of the connection structure body 21 and the beam panel part 51 of the beam 50 are connected, and the beam 50 is coupled in the lateral direction of the independent connection structure. Independent connection structure for custom connection of columns and beams.
5. The method of claim 4,
The beam connection part 24 is,
A plurality of official beam connection holes 241 for fastening for insertion of the beam fastener 240 together with the beam panel hole 511 formed in the beam panel part 51 of the beam 50; and
An independent connection structure for custom connection of columns and beams, characterized in that a large hole for beam connection work is formed for inserting a work tool for assembling the auxiliary fastener 240 inserted into the beam connection hole 241.
5. The method of claim 4,
The beam connection part 24 is,
The upper part forms an open housing shape and is coupled to the side of the connecting structure body 21,
Insert long hole 243 forming a long through-hole in the vertical direction so that one side of the beam 50 is inserted in the portion to which the beam 50 is coupled is formed, and the insertion long hole 243 is formed to form a step below the insertion long hole 243; and
A side porous beam coupling configuration in which the beam 50 is coupled in a direction and an upper part is opened, and a plurality of beam connection holes 241 for fastening are formed on both sides thereof;
Independent connection structure for custom connection of columns and beams, characterized in that it consists of any one of the coupling configurations.
delete The independent connection structure 20 of any one of claims 1 to 6;
a pillar 40 coupled to at least one of the upper side and the lower side of the independent connection structure 20; and
A building frame structure including a beam 50 coupled to the lateral direction of the independent connection structure 20 is provided,
With respect to the connecting structure body 21, which is the body of the independent connection structure 20, a housing-shaped column connection panel part 23 formed on at least one of an upward and downward direction is provided, and at the end of the column 40, the housing-shaped connection panel part 23 is provided. The column panel part 41 is provided, and the column connection hole 231 of the column connection panel part 23 and the column fastening hole 230 inserted into the column fastening hole 411 of the column panel part 41 by A building frame structure including an independent connection structure for custom connection of columns and beams, characterized in that they are coupled.
9. The method of claim 8,
The beam 50 is
a rectangular complement body 52 having a length longer than the width in the longitudinal direction;
a prosthetic core 521 forming an iron core within the prosthetic body 52;
a beam base plate 531 fixed to an end of the prosthetic core 521 and forming a plate body;
a beam connection box 533 connected to the edge of the beam base plate 531, surrounding the prosthetic core 521, and formed with a beam mortar injection hole 532 to inject concrete mortar into the interior; and
Custom connection of pillars and beams, characterized in that it includes a housing-shaped beam panel part 51 connected to the outward surface of the beam base plate 531 and coupled to the beam connection part 24 of the independent connection structure 20 Building frame structures including independent connecting structures for

Images