KR102188085B1 - Structures of columns and beams having dual concordant cable - Google Patents

Abstract

The present invention relates to a structure of a column and a beam, and more specifically, a vertical member and a horizontal member are slidably coupled to each other by a connector, thereby increasing the ease of installation of the vertical member and the horizontal member, while being made of aggregated wood. By forming a prestressed tension member on the upper and lower portions of the horizontal member, respectively, by increasing the tension applied to the horizontal member, it relates to a structure of a double tension member introduction type column and beam that can improve the flexural strength.

Description

Structures of columns and beams having dual concordant cable}

The present invention relates to a structure of a column and a beam, and more specifically, a vertical member and a horizontal member are slidably coupled to each other by a connector, thereby increasing the ease of installation of the vertical member and the horizontal member, while being made of aggregated wood. By forming a prestressed tension member on the upper and lower portions of the horizontal member, respectively, by increasing the tension applied to the horizontal member, it relates to a structure of a double tension member introduction type column and beam that can improve the flexural strength.

Although it is common to construct various modern buildings with reinforced concrete, brick, and steel structures, wooden structures are still constructed according to the traditional method. In particular, structures using wood are in the spotlight due to the influence of well-being and sick house syndrome. .

In addition, in order to harmonize with nature and to be beautiful, wood is often used in the construction of bridges and huts in places such as tourist spots and parks.

In particular, the structural composite material has high dimensional stability and structural reliability by bonding small-sized wood to each other to form a large square material long, and it is manufactured by removing defects peculiar to wood such as knots, so the strength can be increased than that of ordinary wood. The length, thickness, and width can be adjusted according to the purpose of use, and it is widely used as structural pillars and beams as it has significantly less distortion and cracking than solid wood, and it is made to replace large hardwood, which is expensive and difficult to obtain.

Since the laminated timber used for such a structure is used as a structural material for buildings and bridges, it is in the shape of a square material rather than a plate shape, and the structured laminated timber is a structural member and can retain the unique aesthetic sense of solid wood as it is, so it is a pillar, arched ceiling, and beam. In many cases, when used for rafters, etc., it is exposed almost as it is to serve as a finishing material.

However, the structural laminated timber used in this way has the advantage of not only improving the strength compared to the solid wood, but also retaining the pattern of the log as it is, but it is weaker than the steel beam in the external vertical load applied vertically to the horizontal plane of the structural laminated timber. When a high load is applied to the (span) structure or the upper part, the volume of the aggregated timber for the structure is too large, so there is a problem that practicality and economic efficiency are very poor.

In order to solve these problems, the present inventors developed a structural jointed wood member incorporating a prestressed tension member, disclosed through Korean Patent No. 10-1708670, and FIG. 1 shows a conventional structural jointed wood member developed by the present inventors. It is a drawing showing.

Referring to FIG. 1, the conventional structural aggregated wood member is a horizontal member 20 between the vertical member and the vertical member, and by installing a prestress tension member 21 on the installed aggregated wood, it is possible to respond to the tensile force caused by the sagging of the aggregated wood. It has the advantage of increasing the durability of the laminated timber.

However, since the conventional gluing wood member must be provided with a column mounting bracket 22 to be connected to the vertical member, a tension member fixing acupressure plate 23, a through fixing pin 24, etc., the structure is complicated and the manufacturing efficiency of the product is low. There was a problem.

In addition, in the case of using a conventional gluing wood member, the fastening hole of the column mounting bracket 22 and the fastening hole of the tension member fixing acupressure plate 23 are adjusted to correspond to each other by lifting the horizontal member 20 acting on a high load. Next, since it must be fixed and installed using the through fixing pin 24, there is a limit in which the fastening workability of the vertical member and the horizontal member is poor.

In addition, in the case of using a conventional aggregate wood member, there is a problem in that the rotational load is transmitted to the vertical member from the tension member 21 to which the prestress is applied.

In particular, in the case of construction as a structure using a conventional structured timber member, since only one tension member 21 is introduced, there is a limit in providing sufficient tension in response to the tensile force caused by the sagging of the combined timber, and as a result, the flexural strength of the structure There was a problem that was limited.

Moreover, in the structure of the conventional column and beam, the column mounting bracket 22 and the tension member fixing acupressure plate 23 made of steel are exposed to the outside through the vertical direction, acting as a factor that hinders the aesthetics. There was a problem that it was directly exposed to the flame spreading from the top, causing deformation and leading to collapse of the structure.

The present invention was conceived to solve this problem, and the object of the present invention is to increase the tension applied to the horizontal member by providing a prestressed tension member in the upper and lower portions, and the upper tension member having a lower tension than the lower tension member, It is to provide a structure of columns and beams introduced with double tension members that can improve the flexural strength.

Another object of the present invention is that the tension member receiving socket for accommodating the prestressed tension member is inserted into the second bracket connected to the horizontal member, and is easily fastened by sliding in the vertical direction to the first bracket connected to the vertical member together with the second bracket. , It is to provide a structure of a double tension member-introduced column and beam that can improve the workability of fastening the vertical member and the horizontal member into which the prestressed tension member is introduced.

Another object of the present invention is that the tension member receiving socket to which the prestressed tension member is coupled is fastened to the first bracket and provided in a rotatable structure with a fixed position, so that a double tension member introduction type column capable of offsetting the rotational load transmitted from the tension member It is to provide a structure of and beam.

Another object of the present invention is that the bottom surface of the first bracket and the second bracket and the tension material receiving socket are not exposed to the outside, so the aesthetics are beautiful and the double tension material that can prevent secondary accidents such as collapse by preventing deformation from fire It is to provide a structure of introduction type columns and beams.

Objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

The present invention in order to achieve the above object is a vertical member; A horizontal member provided as an aggregated wooden member and installed between the adjacent vertical members; An upper tension member introduced into the upper position of the horizontal member; A lower tension member introduced into a lower position of the horizontal member; A first bracket having a plate shape, one side of which is fixedly installed on the vertical member, and the other side having a fastening groove formed at a predetermined depth from an upper end to a lower direction; In the shape of a plate, an upper through hole and a lower through hole are respectively formed at upper and lower positions, and one side is fixedly installed on a horizontal member, and the other side is slidably coupled to the fastening groove of the first bracket in a vertical direction. A second bracket provided with a fastening recess; And a cylindrical shape with open both ends that can be inserted into the upper through hole, and one side is provided to be slidably coupled to the fastening groove of the first bracket in the vertical direction, and the upper tension member is inserted inward through the other side. An upper tension member receiving socket in which a tension member receiving hole that can be fixed while being fixed is formed, and a cylindrical shape with open both ends that can be fitted into the lower through hole, and one side can be slidably coupled to the fastening groove of the first bracket. And a pair of tension member receiving sockets having a lower tension member receiving socket formed with a tension member receiving hole that can be fixed while the lower tension member is inserted through the other side, and the upper tension member receiving socket is A double tension member introduction type, characterized in that it is inserted into the upper through hole, and the lower tension member receiving socket is inserted into the lower through hole, and is slidably fastened to the fastening groove of the first bracket together with the second bracket. Provides the structure of columns and beams.

In a preferred embodiment, the upper tension member is provided in plural, the neighboring upper tension members are arranged at equal intervals in parallel with each other, the lower tension member is provided in plural, and the neighboring lower tension members are parallel to each other. They are arranged at equal intervals.

In a preferred embodiment, the upper tension member is provided with a lower tension force applied compared to the lower tension member.

In a preferred embodiment, the fastening groove of the first bracket is provided in a tapered shape in which a cross-sectional area gradually increases in one direction from the other side of the first bracket, and the lower surface forms an arc shape, and the second bracket The fastening recess is provided in a tapered shape with a gradual increase in cross-sectional area from one side of the second bracket to the other side, and one side of the tension material receiving socket is a tapered whose cross-sectional area gradually increases in one direction from the other side of the tension material receiving socket. It is prepared in a true shape.

In a preferred embodiment, a plurality of bolt holes for vertical members are formed in the first bracket, and an imaginary line connecting a central axis of the bolt holes for vertical members formed in a vertical direction forms a waveform.

In a preferred embodiment, a plurality of bolt holes for horizontal members are formed in the second bracket, and an imaginary line connecting the central axis of the bolt holes for horizontal members formed in a vertical direction forms a waveform.

In a preferred embodiment, the bolt holes are formed by being inclined at a predetermined angle so that the fastening area of the fastening bolt to be fastened is increased.

In a preferred embodiment, the fastening groove of the first bracket includes an upper groove and a lower groove, the cross-sectional area of the upper groove is provided in a tapered shape gradually decreasing from the top to the bottom, and the second The fastening recess of the bracket is provided in a shape corresponding to the fastening groove.

In a preferred embodiment, the tension member receiving sockets further comprise a pair of tension member binding means each accommodated inside, and the tension member binding means has a cylindrical shape with both ends open and a cross-sectional area gradually from one end toward the other end It is provided in a decreasing tapered shape, and binds a tension member that is fitted inward through the other side of the tension member receiving socket.

In a preferred embodiment, when the second bracket is fastened with the first bracket, a cover portion integrally extending from an upper portion of the second bracket is provided to cover an upper surface of the first bracket, and an upper portion of the cover portion And an upper coupling bolt which penetrates through the cover part and is fastened to the upper surface of the first bracket.

In a preferred embodiment, the tension member receiving sockets are respectively fitted into the fastening grooves of the first bracket so as to be rotatable while maintaining a fixed position.

In a preferred embodiment, when the lower tension member receiving socket is fastened to the fastening groove of the first bracket, a tolerance of a predetermined region is formed between the lower tension member receiving socket and the lower surface of the fastening groove.

The present invention has the following excellent effects.

First, according to the structure of the double tension member-introduced column and beam of the present invention, the prestress tension member is provided in the upper and lower portions, and the upper tension member has a lower tension than the lower tension member, thereby increasing the tension applied to the horizontal member, thereby increasing the bending strength. There is an effect that can improve.

In addition, according to the structure of the double tension member introduction type column and beam of the present invention, the tension member receiving socket for receiving the prestress tension member is fitted to the second bracket connected to the horizontal member, and the first connected to the vertical member together with the second bracket. It has the advantage of improving the fastening workability of the vertical member and the horizontal member into which the prestressed tension member is introduced by being easily fastened by sliding it in the vertical direction to the bracket.

In addition, according to the structure of the double tension member introduction type column and beam of the present invention, the tension member receiving socket to which the prestress tension member is coupled is fastened to the first bracket and provided in a rotatable structure with a fixed position, so that the rotational load transmitted from the tension member There is an effect that can offset the.

In addition, according to the structure of the double tension material introduction type column and beam of the present invention, the first bracket, the bottom surface of the second bracket, and the tension material accommodation socket are provided in a built-in structure that is not exposed to the outside, so that the aesthetics are beautiful and deformation from fire is avoided. It has the advantage of preventing secondary accidents such as collapse.

1 is a view for explaining a conventional structural jointed wood member.
Figure 2 is a perspective view showing the structure of a double tension member introduction type column and beam according to an embodiment of the present invention.
3 is a cross-sectional view showing a structure of a double tension member-introduced column and beam according to an embodiment of the present invention.
Figure 4 is an exploded perspective view for explaining the connector of the structure of the double tension material introduction type column and beam according to an embodiment of the present invention.
5 is a cross-sectional view of a structure of a double tension member-introduced column and beam according to an embodiment of the present invention, and is a cross-sectional view in the AA direction of FIG. 2.
6 is a perspective view showing a structure of a double tension member introduction type column and beam according to another embodiment of the present invention.
7 is a view for explaining the fastening mechanism of the structure of the double tension member introduction type column and beam according to an embodiment of the present invention.
8 is a cross-sectional view of a structure of a double tension member-introduced column and beam according to an embodiment of the present invention, and is a cross-sectional view in the BB direction of FIG. 2.

As for terms used in the present invention, general terms that are currently widely used are selected, but in certain cases, some terms are arbitrarily selected by the applicant. In this case, the meanings described or used in the detailed description of the invention are considered rather than the names of simple terms. Therefore, its meaning should be grasped.

Hereinafter, the technical configuration of the present invention will be described in detail with reference to exemplary embodiments shown in the accompanying drawings.

However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. The same reference numerals denote the same elements throughout the specification.

Figure 2 is a perspective view showing the structure of the double tension member introduction type column and beam according to the present invention, Figure 3 is a cross-sectional view showing the structure of the double tension member introduction type column and beam according to the present invention.

2 and 3, the structure of the double tension member-introduced column and beam according to an embodiment of the present invention includes a vertical member, an upper prestress tension member, and a horizontal member into which the lower prestress tension member is introduced in the vertical direction by a connector. As a structure of a column and a beam to be slidably fastened, a vertical member 110, a horizontal member 120, an upper tension member 130, a lower tension member 140, a first bracket 150, a second bracket 160, and a pair It is made, including the tension material receiving socket (170, 180).

The vertical member 110 may be formed of a combined wood member, solid wood, cement, iron material, H-beam, or the like.

The horizontal member 120 is installed between the adjacent vertical members 110, and is provided as an aggregate wood member.

Here, the aggregate wood member used as the horizontal member 120 is provided by stacking a plurality of short members.

In addition, the horizontal member 120 has a tension member insertion hole through which a prestress tension member can be inserted in the longitudinal direction between adjacent short members, and the tension member insertion hole is formed at the upper and lower portions of the horizontal member 120, respectively. .

The upper tension member 130 is introduced with a tension force applied to the tension member insertion hole formed on the upper portion of the horizontal member 120.

The lower tension member 140 is introduced while a tension force is applied to the tension member insertion hole formed under the horizontal member 120.

Accordingly, the laminated wood installed between adjacent vertical members is stretched at the lower end in the width direction to cause sagging, and the laminated wood used as the horizontal member 120 in the present invention includes the prestressed tension members 130 and 140 at the inner upper and lower sides. ) Is fixedly installed with the tension applied, so that the lower end in the width direction of the laminated wood is prevented from being stretched and sagging, thereby improving the durability of the laminated wood.

Figure 4 is an exploded perspective view for explaining the connector (first bracket, second bracket, a pair of tension member receiving sockets) of the structure of the double tension material introduction type column and beam according to the present invention, hereinafter with reference to FIG. 4, It will be described in detail for the connector of the structure of the double tension material introduction type column and beam according to the present invention.

The first bracket 150 is a fastening means installed on the vertical member 110 and is provided in a plate shape, one side 151 is fixedly installed on the vertical member 110, and the other side 152 is The fastening groove 150a is formed from the upper end to the lower direction to a predetermined depth, and has an arc-shaped lower end.

Here, the first bracket 150 may be made of iron or aluminum alloy, and any material capable of stably supporting the connected horizontal member 120 is not limited thereto.

In addition, as shown in FIG. 5, the fastening groove 150a may be provided in a tapered shape in which a cross-sectional area gradually increases in one direction from the other side of the first bracket 150.

In other words, the first bracket 150 is provided in a shape in which both inner sides forming the fastening groove 150a are inclined at a predetermined angle, and the area of the groove is gradually increased from the other side toward one side. .

In addition, a plurality of vertical member bolt holes 153 for fastening to the vertical member 110 may be formed in the first bracket 150.

At this time, it is preferable that the virtual line L1 connecting the central axis of the vertical member bolt holes 153 formed in the vertical direction is provided to form a waveform.

The reason is to prevent cracking and splitting along the neck direction of the vertical member 110 to which the bolt is fastened.

In addition, it is preferable that the vertical member bolt holes 153 are formed by being inclined at a predetermined angle so that the fastening area of the bolt to be fastened is increased.

The second bracket 160 is a fastening means installed on the horizontal member 120, and is provided in a plate shape corresponding to the first bracket 150, and one side 161 is attached to the horizontal member 120. It is fixedly installed, and fastening recesses 160a are provided on the other side 162, and upper through holes 160h1 and lower through holes 160h2 are formed at upper and lower positions, respectively.

Here, the fastening recess (160a) is a shape fitting recess that can be slidably coupled to the fastening groove (150a) in the vertical direction, corresponding to the fastening groove (150a) so as to be slidably coupled to the fastening groove (150a). It is provided in shape.

That is, as shown in Figure 5, when the fastening groove (150a) is provided in a tapered shape in which the cross-sectional area gradually increases in one direction from the other side of the first bracket 150, the fastening recess (160a) is It is provided in a tapered shape in which the cross-sectional area gradually increases from one side of the second bracket 160 to the other side.

Accordingly, the first bracket 150 and the second bracket 160 are fastened to each other by increasing a fastening cross-sectional area, thereby increasing the fastening force.

In addition, the second bracket 160 may be made of iron or aluminum alloy, and any material that is fastened to the first bracket 150 to stably support the horizontal member 120 is limited thereto. Is not.

In addition, a plurality of horizontal member bolt holes 163 for fastening to the horizontal member 120 may be formed in the second bracket 160.

At this time, it is preferable that the virtual line L2 connecting the central axis of the horizontal member bolt holes 163 formed in the vertical direction is provided to form a waveform.

The reason is to prevent cracking and splitting along the neck direction of the horizontal member 120 to which the bolt is fastened.

In addition, it is preferable that the horizontal member bolt holes 163 are formed by being inclined at a predetermined angle so that the fastening area of the bolt to be fastened is increased.

In addition, the fastening groove portion 150a of the first bracket 150 may be divided into an upper groove portion 150aa and a lower groove portion 150ab, wherein the cross-sectional area of the upper groove portion 150aa is from top to bottom. It is provided in a tapered shape gradually decreasing, and the fastening recessed portion 160a of the second bracket 160 may be formed in a shape corresponding to the fastening groove 150a.

This is because the lower cross-sectional area of the fastening recessed portion 160a slidably coupled through the upper end of the fastening groove 150a is provided to be smaller than the upper cross-sectional area of the fastening groove 150a, so that the second bracket ( 160) serves to increase the ease of fastening.

The pair of tension member receiving sockets (170, 180) are fastening means fastened to the first bracket 150 while receiving the tension members (130, 140) for applying prestress to the horizontal member (120) fixedly inside As a result, it comprises an upper tension member receiving socket 170 and a lower tension member receiving socket 180.

The upper tension member receiving socket 170 is provided in a cylindrical shape with open both ends that can be fitted into the upper through-hole 160h1 of the second bracket 160, and one side 171 of the first bracket It is provided to be slidably coupled to the fastening groove 150a in the vertical direction, and the upper tension member 130 is inserted inward through the tension member receiving hole 172a of the other side 172 to be fixed while being tensioned.

In addition, one side 171 of the upper tension member receiving socket 170 may be provided in a tapered shape in which a cross-sectional area gradually increases in one direction from the other side of the upper tension member receiving socket 170.

That is, one side 171 of the upper tension member receiving socket 170 is provided in a shape corresponding to the fastening groove 150a so as to be slidably coupled to the fastening groove 150a.

In addition, a stepped portion 173 is formed on the outer circumferential surface of the upper tension member receiving socket 170 so as to be caught in the upper through hole 160h1 of the second bracket 160, You can prevent it from being deviated.

The lower tension member receiving socket 180 has a cylindrical shape with open both ends that can be fitted into the lower through hole 160h2, and one side 181 slides vertically in the fastening groove 150a of the first bracket. It is provided to be coupled, the tension member receiving hole (182a) is formed through the other side through which the lower tension member 140 can be fixed while being fitted inward.

Here, since the lower tension member receiving socket 180 has substantially the same configuration as the upper tension member receiving socket 170, a redundant description of the shape of one side 181 and the configuration of the stepped portion 183 will be omitted.

In addition, the second bracket 160 is integrally extended from the upper portion of the second bracket 160, so that when the second bracket 160 is fastened to the first bracket 150, the first bracket A cover part 164 provided to cover the upper surface of 150 may be provided, and the upper surface of the first bracket 150 through the cover part 164 from the top of the cover part 164 An upper coupling bolt that is fastened to may be provided.

In this case, a plurality of bolt fastening holes h through which the upper coupling bolts may be fastened may be formed at positions corresponding to each other on the upper surface of the cover part 164 and the first bracket 150.

In addition, a tolerance (a1) of a predetermined area may be formed between the upper surface of the first bracket 150 and the lower surface of the cover part 164, which means that the load of the second bracket 160 is lowered. By being applied, the first bracket 150 and the second bracket 160 are brought into close contact with each other in a lateral direction, thereby maximizing the fastening force.

6 is a perspective view showing a structure of a double tension member introduction type column and beam according to another embodiment of the present invention.

Referring to FIG. 6, the structure of the double tension member introduction type column and beam according to the present invention may be provided in a form in which a plurality of the upper tension member 130 and the lower tension member 140 are provided, respectively.

Here, the neighboring upper tension members 130 are arranged at equal intervals apart from each other in a parallel shape, and the neighboring lower tension members 140 are arranged at equal intervals apart from each other in a parallel shape.

In this case, the tension member receiving socket is provided in a number corresponding to the tension members 130 and 140 at positions corresponding to the upper tension members 130 and the lower tension members 140, respectively.

In addition, it is preferable that the upper tension member 130 is given a lower tension than the lower tension member 140.

This is because double tension members spaced apart from each other in the vertical direction are introduced into the horizontal member 120 to further increase the tension applied to the lower tension member 140, resulting in an advantage of improving the bending strength of the structure. To carry.

7 is a view for explaining the fastening mechanism of the structure of the double tension member introduction type column and beam according to the present invention.

Referring to FIG. 7, in the structure of the double tension member introduction type column and beam according to the present invention, the upper tension member receiving socket 170 and the lower tension member receiving socket 180 have an upper through hole of the second bracket 160 ( 160h1) and the lower through hole (160h2) by sliding in the vertical direction to the fastening groove (150a) of the first bracket (150) together with the second bracket (160), respectively, the vertical member and the double prestressed tension member It is possible to easily perform the fastening construction of the introduced horizontal member.

In addition, as shown in FIG. 8, the tension member receiving sockets 170 and 180 are fitted in the fastening groove 150a of the first bracket 150 so as to be rotatably provided with a fixed position.

This is because the tension member receiving sockets 170 and 180 to which the prestressed tension member is coupled are fastened to the first bracket 150 to be provided in a rotatable structure with a fixed position, thereby reducing the rotational load transmitted from the tension member to which the tension is applied. It has an advantage that can be offset.

In addition, the structure of the double tension member introduction type column and beam according to the present invention is the upper tension member binding means 174 and the lower tension member binding which are respectively accommodated in the inner side of the upper tension member receiving socket 170 and the lower tension member receiving socket 180 It may be made by further including means 184.

The upper tension member binding means 174 is a means for binding the upper tension member 130 while being tensioned therein, and is provided in a cylindrical shape with both ends open, and has a shape in which the cross-sectional area gradually decreases from one side toward the other side. Can be provided.

At this time, the inner circumferential surface of the upper tension member receiving socket 170 has a shape corresponding to the upper tension member binding means 174, is provided to gradually decrease from one side to the other side, and the upper tension member binding means 174 is the upper While being inserted from one side of the tension member receiving socket 170 to the other side, it is not separated through the other side.

In addition, the upper tension member binding means 174 may be provided integrally with the upper tension member receiving socket 170, and may be provided in a configuration separated from the upper tension member receiving socket 170.

In addition, the upper tension member binding means 174 may be formed by including a plurality of body portions (174a) and a fastening ring (174b).

Here, the body parts (174a) are provided to form an arc shape in cross section, and unit grooves (174ab) are respectively formed on the other outer surface, the body parts (174a) are combined to form a cylindrical shape with one both ends open. , The unit grooves 174ab communicate with each other to form a ring-shaped ring-shaped groove, and the fastening ring 174b made of an elastic material is fitted into the ring-shaped groove.

Accordingly, the upper tension member binding means 174 is provided so that the body portions 174a are spaced apart from each other so that a predetermined diameter can be expanded, and the upper tension member 130 having a diameter larger than the diameter of the body portions 174a inside Becomes acceptable.

That is, a tension member 130 having a predetermined diameter larger than the diameter of the upper tension member binding means 174 is inserted into the upper tension member binding means 174, and the upper tension member binding means 174 is open, and the upper tension member receiving socket It is inserted into (170), the upper tension member binding means 174 by the inner circumferential surface of the upper tension member receiving socket 170 is tightened in the inward direction, the tension member is bound.

In addition, threads are formed on the inner circumferential surfaces of the body parts 174a, so that the binding force with the upper tension member 130 may be increased.

The lower tension member binding means 184 is a means for binding the lower tension member 140 while being tensioned, and has substantially the same configuration as the upper tension member binding means 174, so a redundant description thereof will be omitted. .

In addition, when the lower tension member receiving socket 180 is fastened, the fastening groove 150a of the first bracket 150 is provided between the lower tension member receiving socket 180 and the lower surface of the fastening groove 150a. It may be provided so that the tolerance of the region is formed.

This allows the load transmitted from the lower tension member receiving socket 180 to be applied in a downward direction, so that the first bracket 150, the second bracket 160 and the tension member receiving sockets 170 and 180 are in close contact with each other in the lateral direction. This is to maximize the fastening force.

In addition, a groove in which the first bracket 150 and the second bracket 160 can be accommodated is formed on the bonding surface of the vertical member 110, and the first bracket 150 is fixedly installed in the groove. , The second bracket 160 connected to the horizontal member is slidably fastened in the vertical direction, so that the first bracket 150 and the second bracket 160 made of iron or aluminum alloy are not provided without providing a separate cover member. Since the bottom surface and the tension material receiving sockets 170 and 180 are provided in a built-in structure that is not exposed to the outside, the aesthetics are beautiful and deformation from a fire can be prevented, thereby preventing secondary accidents such as collapse.

However, the structure of the double tension material-introduced column and beam according to the present invention is not limited to a built-in structure, and is constructed without forming a separate groove on the vertical member, so that separate cover members are attached to the exposed surfaces of the component parts. It can be provided in the form.

As described above, the structure of the double tension member-introduced column and beam according to the present invention is provided with an upper tension member and a lower tension member, so that the tension applied to the lower tension member can be increased, and as a result, the flexural strength of the structure can be improved. It has an advantage.

Furthermore, the vertical member and the horizontal member can be easily fastened by sliding in the vertical direction, and the tension member receiving sockets to which the prestressed tension member are coupled are fastened to the first bracket, so that the position is fixed and rotatable. It is possible to offset the transmitted rotational load and has the advantage of preventing secondary accidents such as collapse by providing a built-in structure in which components are not exposed to the outside.

As described above, the present invention has been illustrated and described with a preferred embodiment, but is not limited to the above-described embodiment, and within the scope of the spirit of the present invention, those of ordinary skill in the art Various changes and modifications will be possible.

110: vertical member 120: horizontal member
130: upper tension member 140: lower tension member
150: first bracket 151: one side
152: other side 153: bolt hole
150a: fastening groove
160: second bracket 161: one side
162: other side 160h1: upper through hole
160h1: lower through hole 164: cover
160a: fastening part
170: upper tension member receiving socket
180: lower tension member receiving socket

Claims (12)

Vertical member;
A horizontal member provided as an aggregate wood member and installed between the adjacent vertical members;
An upper tension member introduced into the upper position of the horizontal member;
A lower tension member introduced into a lower position of the horizontal member;
A first bracket having a plate shape, one side of which is fixedly installed on the vertical member, and the other side having a fastening groove formed at a predetermined depth from an upper end to a lower direction;
In the shape of a plate, an upper through hole and a lower through hole are respectively formed at upper and lower positions, and one side is fixedly installed on a horizontal member, and the other side is slidably coupled to the fastening groove of the first bracket in a vertical direction. A second bracket provided with a fastening recess; And
It has a cylindrical shape with open both ends that can be inserted into the upper through hole, and one side is provided to be slidably coupled to the fastening groove of the first bracket in the vertical direction, and the upper tension member is inserted inward through the other side. An upper tension member receiving socket in which a tension member receiving hole that can be fixed is formed and a cylindrical shape with open both ends that can be fitted into the lower through hole, and one side is slidably coupled to the fastening groove of the first bracket in a vertical direction. It is provided, and a pair of tension member receiving sockets including a lower tension member receiving socket formed with a tension member receiving hole that can be fixed while the lower tension member is inserted inwardly through the other side; includes,
The upper tension member receiving socket is inserted into the upper through hole, and the lower tension member receiving socket is slidably coupled to the fastening groove of the first bracket together with the second bracket while being inserted into the lower through hole. Structure of columns and beams with double tension material introduction.
The method of claim 1,
The upper tension member is provided in plural, and the neighboring upper tension members are arranged at equal intervals in parallel with each other,
The lower tension member is provided in plural, and the neighboring lower tension members are arranged at equal intervals in parallel with each other.
The method of claim 2,
The upper tension member is compared with the lower tension member, the structure of the double tension member introduction type column and beam, characterized in that the applied tension is given lower.
The method of claim 1,
The fastening groove of the first bracket is provided in a tapered shape in which a cross-sectional area gradually increases in one direction from the other side of the first bracket, and the lower surface forms an arc shape,
The fastening recess of the second bracket is provided in a tapered shape in which a cross-sectional area gradually increases from one side of the second bracket to the other side,
One side of the tension member receiving socket is a structure of a double tension member introduction type column and beam, characterized in that provided in a tapered shape in which a cross-sectional area gradually increases in one direction from the other side of the tension member receiving socket.
The method of claim 4,
The first bracket is provided with a plurality of bolt holes for vertical members, and a virtual line connecting the central axis of the bolt holes for vertical members formed in the vertical direction forms a wave shape. .
The method of claim 5,
The second bracket is provided with a plurality of bolt holes for horizontal members, and a virtual line connecting the central axis of the bolt holes for horizontal members formed in the vertical direction forms a wave shape. .
The method of claim 6,
The bolt holes are formed by being inclined at a predetermined angle so that the fastening area of the fastening bolt to be fastened is increased.
The method of claim 4,
The fastening groove of the first bracket includes an upper groove and a lower groove, and the cross-sectional area of the upper groove is provided in a tapered shape gradually decreasing from top to bottom,
The structure of the double tension member introduction type column and beam, characterized in that the fastening part of the second bracket is provided in a shape corresponding to the fastening groove part.
The method of claim 4,
The tension member receiving socket is made further comprising a pair of tension member binding means each accommodated inside,
The tension member binding means is provided in a tapered shape in which a cross-sectional area gradually decreases from one end to the other in a cylindrical shape with both ends open, and binds a tension member that is fitted inward through the other side of the tension member receiving socket. Structure of columns and beams with double tension members.
The method of claim 4,
When the second bracket is fastened with the first bracket, a cover portion integrally extended from an upper portion of the second bracket is provided to cover an upper surface of the first bracket,
The structure of the double tension member introduction type column and beam further comprising a; upper coupling bolt which is fastened to the upper surface of the first bracket through the cover from the upper part of the cover part.
The method of claim 1,
The tension material receiving sockets
The structure of a double tension member introduction type column and beam, characterized in that each inserted into the fastening groove of the first bracket is provided to be rotated while the position is fixed.
The method of claim 1,
The fastening groove of the first bracket
When the lower tension member receiving socket is fastened, a structure of a double tension member introduction type column and beam, characterized in that a tolerance of a predetermined area is formed between the lower tension member receiving socket and the lower surface of the fastening groove.

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