KR101722250B1 - Reinforcing Member for Connecting Part of Timber House - Google Patents

Abstract

In the stiffener of the wooden house of the present invention and the stiffener installed at one or more of the beam joints, the stiffener includes a first reinforcing member installed to surround the lower portion of the column and a second reinforcing member provided to surround the upper portion of the column ≪ / RTI > The first reinforcing member may include a first fixing portion formed to surround the periphery of the column at a lower portion of the joining portion and having a first insertion hole into which the column is inserted and to be connected to the periphery of the first fixing portion, And a first support portion formed to surround the bottom surface and the side surface of the beam to support the beam; The second reinforcing member may include a second fixing portion formed to surround a periphery of the column at an upper portion of the bonding portion and having a second insertion hole into which the column is inserted and a second fixing portion connected to the periphery of the second fixing portion, And a second support portion formed to surround the upper surface and the side surface of the beam and connected to the first support portion of the first reinforcement member to reinforce the support force; The first fixing part is formed with a projection corresponding to the groove formed in the column, the first supporting part is formed with a protrusion in a shape corresponding to the groove formed in the beam, and the second fixing part is provided with a projection A protrusion is formed in a shape corresponding to a groove formed in the second support portion, a protrusion is formed in a shape corresponding to a groove formed in the beam, a protrusion is formed on a side surface of the first support portion, And the other side of the second support portion is not formed and is in contact with the outside of one side surface of the second support portion, a protrusion is formed on one side surface of the second support portion, and the other side surface of the second support portion And is formed to abut on the outside; The first reinforcing member and the second reinforcing member are formed to correspond to each other. The width of the first supporting portion and the width of the second supporting portion are equal to each other. The width of the first supporting portion is larger than the width of the beam Wherein one side of the first support portion is in contact with the beam and the other side of the first support portion is spaced apart from the beam by the width of the material and one side of the second support portion is inserted into the gap, And the other side is in contact with one side of the first support portion and is in contact with the first support portion and the second support portion in a state in which the first support portion and the second support portion cross each other with respect to the beam, So as to be able to be inserted therein; The first fixing part and the first supporting part are respectively coupled from the lower part of the joining part in a separated state, and the second fixing part and the second supporting part are formed to be coupled from the upper part of the joining part in a separated state.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reinforcing member for a wooden house,

The present invention relates to a joint reinforcement material for a wooden house, and more particularly, to a joint reinforcement material for a wooden house which can secure stability by reinforcing the mechanical performance of a joint part of a wooden house and is convenient to construct.

The massive well-being epidemic that has had a major impact on our society is gradually expanding to Lifestyles of Health and Sustainability. As a result, the interest in eco-friendly buildings has recently increased, and construction permits for wooden houses are steadily increasing.

However, there are various problems in the domestic wooden house market which is gradually increasing. These include: lack of construction technology and experience, lack of design and design experience, lack of management and management capability, indiscreet trust in unproven foreign companies and construction workers, rise in housing prices due to the preference of large corporations, And the quality level is determined by the discretion of the carpenter due to the failure of the regulations.

On the other hand, in the domestic and foreign wooden housing market, a number of joint technologies related to new and contracted structures are proposed. The problem of structural deflection and torsion in the aged wooden house is exposed to the problem that the tensile strength of the joint is reduced and the resistance to bending moment becomes very small. In the case of Japan, a number of reinforcement methods such as joint hardware hinge have been proposed. However, in Korea, the technology for dealing with aged joints is insignificant and depends on foreign technology.

1 and 2 show a joining method of a joining part of a conventional wooden structure house. As shown in the figure, a joining neck 10b is joined to the joining point 10a. In FIG. 1, a joining type joining method is used. Concretely, the fitting groove 12 formed in the subject 10a and the fitting projection 14 of the coupling neck 10b are joined to each other.

In the case of FIG. 2, the joining method of the steel joining method is used. This is a method of joining the joining grooves 14 of the joining neck 10b to the steel joining material 12 provided in the joining point 10a have.

However, each of these joining methods has a problem in that the rigidity of the joining portion is insufficient and the structural stability is not sufficiently secured. Therefore, in consideration of natural environment factors in Korea and eco-friendly building materials of consumers, reinforcing materials and standardized reinforcing materials using new materials rather than steel joint materials and hinges are required.

In addition, the joining method of the joining portion of the conventional wooden structure housing is complicated in construction, the corrosion resistance, the water resistance, and the fire resistance are both lowered due to the material characteristics of the wood, and a reinforcement material is needed to solve this problem.

Korean Patent No. 10-0911718

SUMMARY OF THE INVENTION The present invention has been devised in order to solve the problems of the prior art described above, and it is an object of the present invention to provide a reinforcing member capable of reinforcing a joining portion of a wooden house to secure sufficient structural stability.

Also, it is intended to provide a reinforcing material using materials and bonding methods suitable for domestic reality.

And a stiffener which is easy to install.

It is also intended to provide a reinforcing material having improved corrosion resistance, water resistance, and fire resistance.

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

In the stiffener of the wooden house according to the present invention, the stiffener may include a first reinforcing member installed to surround the lower portion of the column and a second reinforcing member provided to surround the upper portion of the column, ≪ / RTI > The first reinforcing member may include a first fixing portion formed with a first insertion hole into which the column is inserted and formed so as to surround a periphery of the column at a lower portion of the joining portion, And a first supporting portion formed to surround the bottom surface and the side surface of the beam to support the beam; The second reinforcing member may include a second fixing portion formed with a second insertion hole into which the column is inserted and formed so as to surround a periphery of the column at an upper portion of the bonding portion, And a second support portion formed to surround the upper surface and the side surface of the beam and connected to the first support portion of the first reinforcement member to reinforce the support force; The first reinforcing member and the second reinforcing member are formed so as to correspond to each other. The width of the first supporting portion coupled to the beam is formed to be equal to the width of the beam, so that the beam is accurately brought into close contact with the first supporting portion The width of the second support portion is formed to be twice as large as the thickness of the material forming the first support portion than the width of the first support portion so that the second support portion covers the first support portion from the outside To be tightly coupled; Wherein the first reinforcing member and the second reinforcing member are made of a composite material of a steel material and FRP; The first fixing part and the first supporting part are coupled from the lower part of the joining part in a state where the first fixing part and the first supporting part are integrally joined and the second fixing part and the second supporting part are formed to be coupled from the upper part of the joining part in a state of being integrally joined.

In the column of the wooden house according to the present invention and the stiffener installed in the at least one beam connecting portion, a plurality of the first supporting portion and the second supporting portion may be respectively provided.

In the column of the wooden house according to the present invention and the stiffener provided on the at least one of the beam connecting portions, the fixing portions and the supporting portions of the first reinforcing member and the second reinforcing member are formed by interposing a steel plate between the FRP outer plate and the FRP inner plate .

In the column of the wooden house according to the present invention and the reinforcing member provided on the at least one beam connecting portion, a plurality of fastening holes are formed in each of the first fixing portion and the second fixing portion, and the first supporting portion and the second supporting portion And the fastening member can be fastened between the column-beam and the fixing part and the supporting part through the fastening hole.

In the column of the wooden house of the present invention and the other reinforcement disposed at one or more of the beam connecting portions, the reinforcing member may include a first reinforcing member installed to surround the lower portion of the column and a second reinforcing member Member; The first reinforcing member may include a first fixing portion formed to surround the periphery of the column at a lower portion of the joining portion and having a first insertion hole into which the column is inserted and to be connected to the periphery of the first fixing portion, And a first support portion formed to surround the bottom surface and the side surface of the beam to support the beam; The second reinforcing member may include a second fixing portion formed to surround a periphery of the column at an upper portion of the bonding portion and having a second insertion hole into which the column is inserted and a second fixing portion connected to the periphery of the second fixing portion, And a second support portion formed to surround the upper surface and the side surface of the beam and connected to the first support portion of the first reinforcement member to reinforce the support force; The first reinforcing member and the second reinforcing member are formed to correspond to each other. The width of the first supporting portion and the width of the second supporting portion are equal to each other. The width of the first supporting portion is larger than the width of the beam Wherein one side of the first support portion is in contact with the beam and the other side of the first support portion is spaced apart from the beam by the width of the material and one side of the second support portion is inserted into the gap, And the other side is in contact with one side of the first support portion and is in contact with the first support portion and the second support portion in a state in which the first support portion and the second support portion cross each other with respect to the beam, So as to be able to be inserted; Wherein the first reinforcing member and the second reinforcing member are made of a composite material of a steel material and FRP; The first fixing part and the first supporting part are coupled from the lower part of the joining part in a state where the first fixing part and the first supporting part are integrally joined and the second fixing part and the second supporting part are formed to be coupled from the upper part of the joining part in a state of being integrally joined.

 In the column of the wooden house of the present invention and the other reinforcing member provided at one or more of the beam connecting portions, a plurality of the first supporting portion and the second supporting portion may be respectively provided.

In the column of the wooden house according to the present invention and other reinforcing members provided at one or more of the beam joining portions, the fixing portions and the supporting portions of the first reinforcing member and the second reinforcing member are made of a steel plate between the FRP outer plate and the FRP inner plate .

In the column of the wooden house of the present invention and other reinforcing materials provided on the one or more beam joint portions, a plurality of fastening holes are formed in each of the first fixing portion and the second fixing portion, and each of the first supporting portion and the second supporting portion And the fastening member can be fastened between the column-beam and the fixing part and the supporting part through the fastening hole.

The reinforcing member may include a first reinforcing member that is installed to surround the lower portion of the column and a second reinforcing member that is installed to surround the upper portion of the first reinforcing member, ≪ / RTI > The first reinforcing member may include a first fixing portion formed to surround the periphery of the column at a lower portion of the joining portion and having a first insertion hole into which the column is inserted and to be connected to the periphery of the first fixing portion, And a first support portion formed to surround the bottom surface and the side surface of the beam to support the beam; The second reinforcing member may include a second fixing portion formed to surround a periphery of the column at an upper portion of the bonding portion and having a second insertion hole into which the column is inserted and a second fixing portion connected to the periphery of the second fixing portion, And a second support portion formed to surround the upper surface and the side surface of the beam and connected to the first support portion of the first reinforcement member to reinforce the support force; The first fixing part is formed with a projection corresponding to the groove formed in the column, the first supporting part is formed with a protrusion in a shape corresponding to the groove formed in the beam, and the second fixing part is provided with a projection Wherein the second supporting portion is formed with a protrusion in a shape corresponding to a groove formed in the beam, and a surface of the second supporting portion, except a surface surrounding the side of the beam, A protrusion is formed only in a portion surrounding the upper surface of the substrate; Wherein a width of the first support portion coupled to the beam is formed to be equal to a width of the beam so that the beam can be accurately brought into close contact with the first support portion, The second support portion is formed to be larger than twice the thickness of the material forming the first support portion so that the second support portion can be tightly coupled while wrapping the first support portion from the outside; The first fixing part and the first supporting part are respectively coupled from the lower part of the joining part in a separated state, and the second fixing part and the second supporting part are formed to be coupled from the upper part of the joining part in a separated state.

In the column of the wooden house of the present invention and another reinforcing member provided at one or more of the beam joints, the first reinforcing member and the second reinforcing member may be made of a composite material of steel and FRP.

In the column of the wooden house according to the present invention and another reinforcing member provided at one or more of the beam joining portions, the fixing portions and the supporting portions of the first reinforcing member and the second reinforcing member are provided between the FRP outer plate and the FRP inner plate, As shown in FIG.

In the column of the wooden house of the present invention and another stiffener provided at one or more of the beam connecting portions, the first fixing portion and the second fixing portion, and each of the first supporting portion and the second supporting portion are provided with a plurality of fastening holes And the fastening member can be fastened between the column-beam and the fixing portion and the supporting portion through the fastening hole.

The reinforcing member may include a first reinforcing member installed to surround the lower portion of the column and a second reinforcing member provided to surround the upper portion of the first reinforcing member, ≪ / RTI > The first reinforcing member may include a first fixing portion formed to surround the periphery of the column at a lower portion of the joining portion and having a first insertion hole into which the column is inserted and to be connected to the periphery of the first fixing portion, And a first support portion formed to surround the bottom surface and the side surface of the beam to support the beam; The second reinforcing member may include a second fixing portion formed to surround a periphery of the column at an upper portion of the bonding portion and having a second insertion hole into which the column is inserted and a second fixing portion connected to the periphery of the second fixing portion, And a second support portion formed to surround the upper surface and the side surface of the beam and connected to the first support portion of the first reinforcement member to reinforce the support force; The first fixing part is formed with a projection corresponding to the groove formed in the column, the first supporting part is formed with a protrusion in a shape corresponding to the groove formed in the beam, and the second fixing part is provided with a projection A protrusion is formed in a shape corresponding to a groove formed in the second support portion, a protrusion is formed in a shape corresponding to a groove formed in the beam, a protrusion is formed on a side surface of the first support portion, And the other side of the second support portion is not formed and is in contact with the outside of one side surface of the second support portion, a protrusion is formed on one side surface of the second support portion, and the other side surface of the second support portion And is formed to abut on the outside; The first reinforcing member and the second reinforcing member are formed to correspond to each other. The width of the first supporting portion and the width of the second supporting portion are equal to each other. The width of the first supporting portion is larger than the width of the beam Wherein one side of the first support portion is in contact with the beam and the other side of the first support portion is spaced apart from the beam by the width of the material and one side of the second support portion is inserted into the gap, And the other side is in contact with one side of the first support portion and is in contact with the first support portion and the second support portion in a state in which the first support portion and the second support portion cross each other with respect to the beam, So as to be able to be inserted therein; The first fixing part and the first supporting part are respectively coupled from the lower part of the joining part in a separated state, and the second fixing part and the second supporting part are formed to be coupled from the upper part of the joining part in a separated state.

 In the column of the wooden house of the present invention and the additional reinforcing member provided at one or more of the beam joints, the first reinforcing member and the second reinforcing member may be made of a composite material of steel and FRP.

In the column of the wooden house according to the present invention and the additional stiffener provided at one or more of the beam joining portions, the fixing portions and the supporting portions of the first reinforcing member and the second reinforcing member are provided between the FRP outer plate and the FRP inner plate, As shown in FIG.

In the column of the wooden house of the present invention and the additional stiffener provided at the one or more beam connection portions, the first and second fixing portions, and the first and second supporting portions are provided with a plurality of fastening holes And the fastening member can be fastened between the column-beam and the fixing portion and the supporting portion through the fastening hole.

In order to solve the above-described problems, the joining portion stiffener of a wooden house of the present invention has the following effects.

First, reinforcing effect is greatly increased compared with the conventional one, so that the structural stability of a house can be sufficiently secured.

Second, since the material and the bonding method suitable for domestic reality are used, it is possible to provide a reinforcing material more suitable for a traditional wooden house.

Third, it is possible to shorten the construction period because it is easy to install the reinforcement material, and it is possible to install the reinforcement material easily even if it is not a skilled worker due to low work difficulty.

Fourth, there is an advantage that a standardized reinforcement can be provided.

Fifth, it has corrosion resistance not to be corroded or dissolved in acids, alkalis, salts, solvents, etc., has heat resistance that is not softened or deformed even at high temperature and does not break even at low temperature, It is possible to provide a joint reinforcement material of a wooden house which does not easily corrode even when it is touched and has water resistance.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description of the claims.

1 is a perspective view showing a joining method of a fitting type used in a joining portion of a conventional wooden structure house;
2 is a perspective view showing a joining method of a steel material joining method used in a joining portion of a conventional wooden structure house;
3 is a perspective view showing a state of a first reinforcing member in a first embodiment of the present invention;
4 is a perspective view showing a state in which a first reinforcing member is inserted into a joining portion of a column and a beam in the first embodiment of the present invention;
5 is a perspective view showing a state in which a first reinforcing member is inserted into a joint portion between a column and a beam in the first embodiment of the present invention;
6 is a perspective view showing a state in which a second reinforcing member is inserted into a joining portion of a column and a beam in the first embodiment of the present invention;
FIG. 7 is a perspective view showing a state in which the first reinforcing member and the second reinforcing member are inserted into the joining portion of the column and the beam, according to the first embodiment of the present invention; FIG.
8 is a cross-sectional view illustrating a width of a first support portion and a second support portion in a first embodiment of the present invention.
9 is a cross-sectional view illustrating a width of a first support portion and a second support portion in a second embodiment of the present invention.
10 is an exploded perspective view showing that a first reinforcing member and a second reinforcing member are provided in the first embodiment of the present invention;
11 is an exploded perspective view showing that a first reinforcing member and a second reinforcing member are installed in a second embodiment of the present invention;
12 is a perspective view showing a state of a first reinforcing member in a third embodiment of the present invention;
13 is a perspective view showing a state in which a first reinforcing member is inserted into a joining portion of a column and a beam, according to a third embodiment of the present invention;
FIG. 14 is a perspective view showing a state in which a first reinforcing member is inserted into a joining portion of a column and a beam, according to a third embodiment of the present invention; FIG.
FIG. 15 is a perspective view showing a state in which a second reinforcing member is inserted into a joining portion of a column and a beam, according to a third embodiment of the present invention; FIG.
16 is a perspective view showing a state in which a first reinforcing member and a second reinforcing member are inserted into a joining portion of a column and a beam, according to a third embodiment of the present invention;
FIG. 17 is a view for explaining a coupling type between the first reinforcing member and the second reinforcing member when the widths of the first reinforcing member and the second reinforcing member are equal to each other in the third embodiment of the present invention;
18 is a view showing a mode in which a first reinforcing member of a first embodiment of the present invention is manufactured by a method in which an iron plate (steel material) is inserted between FRPs.
19 is a view showing a mode in which a first reinforcing member of a third embodiment of the present invention is manufactured by inserting an iron plate (steel material) between FRPs.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In describing the present embodiment, the same or similar names and the same or similar reference numerals are used for the same components, and further description thereof will be omitted.

Generally, the roof load of a traditional wooden structure is transmitted to the column by the tori, and the load transmitted by the air is transmitted to the column. Since the main structural member of the traditional tree structure is the upper part of the column, the cross section of the part is influenced by the column size regardless of how large the cross section the beam is. In the existing traditional wooden structure, the breakage shape of the beam shows that most of the sections are damaged in the lost part.

Therefore, in order to evaluate the performance of the tie due to the upper load, we conducted the reinforced shear tests with the non-reinforced shear tests with different thickness of the tie and the factors such as the spacing, shape, Respectively.

First, the strength and initial shear stiffness of the tiller increases with thickening of the tiller, but when the tiller thickness is increased, the tiller part of the column weakens and affects the structural safety.

Second, the shear stress of the tie does not show a proportional relationship with the thickness of the tie, and the specimen placed at the center of two steel pieces shows the greatest stress. In order to increase the shear stress, it is effective to reinforce the central portion of the ledge.

Therefore, the following stiffeners were devised based on the conclusions thus obtained. Hereinafter, this will be described in detail.

3 is a perspective view showing a state of the first reinforcing member 100 in the reinforcing member according to the first embodiment of the present invention. 4 is a perspective view of a stiffener according to a first embodiment of the present invention in which a first reinforcing member 100 is inserted into a joint between a column 20a and a beam 20b, Is a perspective view showing a state in which the reinforcing member 100 is inserted into the joining portion of the column 20a and the beam 20b.

3 to 5, the reinforcing member according to the first embodiment of the present invention is a reinforcing member provided at the joining portion of at least one beam 20b and the column 20a of the wooden house, 100). The first reinforcing member 100 includes a first fixing part 110 and a first supporting part 120.

The first fixing part 110 is formed with a first insertion hole P into which the column 20a is inserted and is formed so as to surround the periphery of the column 20a at the lower part of the connection part.

The first supporting part 120 is formed to be connected to the first fixing part 110 and surrounds the lower surface and the side surface of the beam 20b to support the beam 20b Element.

In the present embodiment, the joining portion has a shape in which a plurality of beams 20b are joined to one column 20a, so that a plurality of the first supporting portions 120 are also formed around the first fixing portions 110 It has a connected form.

At this time, the first supporting portions 120 may be connected to each other. I.e., the portions surrounding the sides of the beams 20b, may be connected to each other, thereby increasing the strength.

At least one fastening hole (H) may be formed in the first fixing part (110) and the first supporting part (120). The fastening holes H are formed in such a manner that the first reinforcing member 100 can be fastened using a fastening member or the like in a state where the first reinforcing member 100 is installed on the joint portion.

A plurality of the fastening holes may be formed and distributed over the surfaces of the first fixing part 110 and the first supporting part 120. The first fixing part 110 and the first supporting part 120 and the column and the beam are connected to each other by a fastening member through the plurality of fastening holes to improve the rigidity of the joining part of the column 20a and the beam 20b have. Since the plurality of fastening holes are distributed on the surfaces of the first fixing part 110 and the first supporting part 120, the first fixing part 110 and the first supporting part 120 And the pillar 20a and the beam 20b are uniformly distributed so that the first fixing part 110 and the first supporting part 120 are separated from the pillar 20a and the beam 20b .

Meanwhile, various materials may be used as the material of the first reinforcing member 100. In this embodiment, FRP (Fiber Reinforced Plastics) and steel may be used together.

Such FRP has corrosion resistance not to be corroded or dissolved in acids, alkalis, salts, solvents, etc., and has heat resistance that is not softened or deformed even at high temperature and does not break even at low temperature, The specific gravity is about 1/5 of that of iron of 1.4 to 1.9, and the tensile strength is light and durable because 1/3 of iron is exerted. In addition, if mold work is possible, it can be molded in any form so that it can be made into various joints, and it is easy to mix with other materials because of its strong adhesiveness and it is easy to repair and repair in case of breakage.

By using such FRP together with the steel material in the joining stiffener of the wooden house, it is possible to complement the disadvantages of both materials and to take advantage of each other by using the reinforced concrete and the concrete together. Specifically, wood and steel have relatively low resistance to water, heat, and heat. Therefore, in order to compensate for such a property, a material such as glass fiber having good water resistance can be mixed to compensate for material weakness of wood and steel , It is possible to improve the strength performance as a whole owing to the excellent tensile strength of the glass fiber.

Illustratively, in the present invention, FRP can be produced by reinforcing unsaturated polyester with glass fibers processed to a diameter of 0.1 mm or less.

Further, as described in Figs. 18 to 19, it is preferable that the reinforcing member of the present invention be manufactured by inserting a steel sheet between the sheaths of FRP members. In this case, since the reinforcing member is formed of FRP on both the inner side surface and the outer side surface, the reinforcing member can effectively resist water, chemicals, or heat applied from the outside of the reinforcing member or the column, The strength of the cross section of the entire cross section of the reinforcing member can be improved. In summary, when the reinforcing member of the present invention is manufactured by inserting a steel plate between the inner and outer FRP members as described above, the steel sheet having excellent strength and tensile strength is interposed between the FRPs to improve the water resistance, fire resistance and heat resistance, The strength can be improved.

The process of installing the first reinforcing member 100 may be as follows.

First, as shown in FIG. 4, the first reinforcing member 100 is positioned below the column 20a. Then, the column 20a is inserted into the first insertion hole P of the first reinforcing member 100, and the first reinforcing member 100 is pushed and moved to the joining portion. Accordingly, as shown in FIG. 5, the first support part 120 is in close contact with the beams 20b, and the first fixing part 110 is positioned under the joint part. In such a state, the fastening member is provided using the fastening hole H so that the first reinforcement member 100 is stably fixed, and the joint portion can be stably supported.

The joining portion of the column 20a and the beam 20b may be supported using only the first reinforcing member 100. In the following description, the second reinforcing member 200 is used together to increase the strength of the joining portion, A description will be given of a method of securing the accuracy of centering and improving the workability in inserting the column and the beam into the reinforcing members (the first reinforcing member and the second reinforcing member).

6 is a perspective view of a stiffener according to a first embodiment of the present invention in which a second reinforcing member 200 is inserted into a joining portion of the column 20a and the beam 20b. 11 is a perspective view showing a state in which the second reinforcing member 200 is inserted into the joint portion between the column 20a and the beam 20b in the reinforcing member according to the first embodiment.

6 and 7, the second reinforcing member 200 may further be provided in a state where the first reinforcing member 100 is provided on the joint portion.

The second reinforcing member 200 is formed with a second insertion hole P into which the column 20a is inserted and a second fixing portion 235 formed so as to surround the periphery of the column 20a at an upper portion of the joining portion The first supporting part 120 of the first reinforcing member 100 is formed to be connected to the second fixing part 210 so as to surround the upper surface and the side surface of the beam 20b. And a second support portion 220 connected to the second support portion 220 to reinforce the supporting force.

That is, the second reinforcing member 200 is formed in a shape similar to the first reinforcing member 100 as a whole, and has a form of being installed from the upper portion of the joint portion. Further, details such as the number of the second supporting portions 220, fastening holes, and the like can be formed in the same manner as in the case of the first reinforcing member 100 described above, and a detailed description thereof will be omitted.

In the present invention, it is preferable that the first reinforcing member 100 and the second reinforcing member 200 are used together at the column-to-beam joint. Hereinafter, the first reinforcing member 100 and the second reinforcing member 200 ) Are connected to each other with the column-to-beam joint being interposed therebetween.

8 is a cross-sectional view illustrating a width of a first support portion 120 and a second support portion 220 in a stiffener according to a first embodiment of the present invention. As shown in FIG. 8, The second support portion 220 of the reinforcing member 200 may be formed to have a width different from that of the first support portion 120. That is, the width d0 of the second support portion 220 is greater than the width d2 of the first support portion 120 so that the second support portion 220 covers the first support portion 120 . The width d2 of the first support portion 120 is equal to the width of the beam 20b.

The reason why the width of the second support part 220 is greater than the width of the first support part 120 is that the first reinforcement member 100 is installed before the second reinforcement member 200 and the first support part 120 The second support portion 220 is installed to cover the first support portion 120 from the upper portion in a state of being in close contact with the beam 20b. However, if the second reinforcing member 200 is installed before the first reinforcing member 100, the width of the second supporting portion 220 may be smaller than the width of the first supporting portion 120.

10 shows a state in which the first reinforcing member 100 and the second reinforcing member 200 having different supporting widths at the joining portions of the pillars 20a and 20b are joined to the column- It is a maritime attempt to show that

In the present invention, the first reinforcing member is connected from the lower part of the column-to-be connected portion, and the second reinforcing member is connected from the upper portion of the column-to-be connected portion.

The difference between the width d0 of the second support part 220 and the width d2 of the first support part 120 is twice the thickness of the material forming the first support part 120, Can be accurately brought into close contact with the outside of the first support portion 120. [

In summary, in the present invention, the first reinforcing member 100 of the lower part and the second reinforcing member 200 of the upper part are respectively provided, and the first supporting part of the first reinforcing member installed first on the column- 20b and the width of the second supporting portion to be later installed is made larger than the width of the material of the first supporting portion by the width of the material of the first supporting portion 20b to separate the first reinforcing member into the column- The first supporting portion of the first reinforcing member which is connected in the form of wrapping the column-to-beam joint can be again wrapped around the second supporting portion of the second reinforcing member, Can be increased.

9 and 11, the first supporting portion 120 and the second supporting portion 220 may be formed to have the same width. 9 is a cross-sectional view illustrating a width of a first support portion 320 and a second support portion 420 in a second embodiment of the present invention.

9, the width d3 of the first support portion 320 and the width d4 of the second support portion 420 are the same in the second embodiment of the present invention. The width d3 of the first support portion 320 and the width d4 of the second support portion 420 are both wider than the width d1 of the beam 20b by the thickness d5 of the material.

That is, in such a case, the first support portion 320 and the second support portion 420 may be coupled to each other in a slightly offset state so as to be installed in an intersecting state. Since the width d3 of the first support portion 320 and the width d4 of the second support portion 420 are both greater than the width d1 of the beam 20b by the thickness d5 of the material, Can be accurately inserted between the first supporting portion 320 and the second supporting portion 420.

11, one side of the first supporting part 120 is in contact with the beam 20b while the other side of the first supporting part 120 is in contact with the side of the beam 20b in a state where the first supporting part 120 is connected to the beam 20b. The gap g is formed. One side of the second support part 220 is inserted into the gap g and the other side of the second support part 220 is in contact with one side of the first support part 120.

Also, since the first support portion and the second support portion are both thicker than the beam width by the material thickness of the support portion, the first support portion and the second support portion are arranged to be shifted with respect to the center of the beam, The first support portion, the beam, and the second support portion are accurately and tightly coupled with each other, so that the coupling is accurate and simple, and the coupling force due to the close coupling can be improved. Particularly, when the beam 20b is in contact with the first support portion 120 and the opposite surface is in contact with the second support portion 220, one surface of the beam between the first support portion 120 and the second support portion 220 is in contact The engagement between the first support portion 120 and the second support portion 220 is exerted between the first support portion 120 and the second support portion 220 so that the first support portion 120 and the second support portion 220 are engaged with each other, So that the resistance to heat can be improved.

As described above, in the present invention, the reinforcing members (the second reinforcing member) and the lower reinforcing member (first reinforcing member) are also coupled to each other from the upper and lower portions of the column- Since the centering and the like at the time of coupling are simple and accurate, the beam can be inserted accurately into the reinforcing member, so that the accuracy and simplicity of the coupling can be improved, and at the same time,

Embodiments in which the fixing portions 110 and 210 of the reinforcing members 100 and 200 and the supporting portions 120 and 220 of the reinforcing members 100 and 200 of the present invention are connected to each other are described below. That is, the first reinforcing member 100 in a state where the first fixing portion 110 and the first supporting portion 120 are connected to each other and the first reinforcing member 100 in which the second fixing portion 210 and the second supporting portion 220 are connected to each other 2 embodiment in which the reinforcing member 200 is coupled to the column-to-beam joint.

In the following, a third embodiment in which the fixing portion and the supporting portion are separately connected to the column-to-be connected portion and is composed of the first reinforcing member at the lower portion and the second reinforcing member at the upper portion after the connection, This will be described with reference to FIG. However, the description of the parts overlapping with the first embodiment and the second embodiment will be omitted, and the differences between the first embodiment and the second embodiment will be mainly described.

12 shows a first reinforcing member 600 according to a third embodiment of the present invention and FIG. 13 shows a joint between pillars 1020a and 1020b to which the first reinforcing member 600 is coupled will be. The third embodiment is characterized in that grooves 520a and 520b are formed at the portions of the first reinforcing member 600 and the first supporting portion 620 of the first reinforcing member 600 which contact the first and second supporting portions 620 and 620 in the columns 1020a and 1020b, Respectively.

The protrusion 611 having a shape corresponding to the groove 520a of the column 1020a is formed in the first fixing part 610 of the first reinforcing member 600 and the protrusion 611 is formed in the first supporting part 620, The grooves 520a and the protrusions 611 are snap-engaged and the grooves 520b and the protrusions 621 are snap-engaged with each other.

12, the first fixing part 610 and the first supporting part 620 are shown connected to each other. When the first fixing part 610 and the first supporting part 620 are connected to the connection part of the pillars 1020a-1020b of FIG. 13, The first supporting portions 620 should be connected to the joints of the columns 1020a and 1020b in a state where they are separated from each other.

The grooves 520a and the protrusions 611 are formed to correspond to each other and the grooves 520b and the protrusions 621 are formed to correspond to each other.

FIG. 14 shows that the first reinforcing member 600 is coupled to the lower portion of the column 1020a to the beam 1020b, and FIG. 15 shows that the second reinforcing member 700 is coupled to the upper portion will be.

The second reinforcing member 700 also has a protrusion 711 corresponding to the groove 520a formed in the second fixing portion 710 and a protrusion 711 corresponding to the groove 520b is formed in the second supporting portion 720, The second fixing portion 710 may be coupled to the column 1020a and the second supporting portion 720 may be coupled to the groove 1020b.

The protrusions 611 are formed on all four sides of the first fixing part 610.

Hereinafter, it is assumed that the first fixing member 600 is coupled to the lower portion of the column-to-plate joint before the second fixing member 700 as described above.

When the width of the second support portion 720 is larger than the width of the first support portion 620 by two times the width of the material and the width of the first support portion 620 is equal to the width of the beam 1020b, The protrusions 621 are formed on all sides of the first support portion 620. The protrusions 621 are formed on the upper surface of the second support portion 720 that abuts against the column 1020a and protrusions 721 are formed on the side surfaces of the first support portion 620, Is not formed.

When the widths of the first and second support portions 620 and 720 are equal to each other and only the width of the material of the beam 1020b is larger than the width of the material of the beam 1020b, A protrusion 721 inserted into another groove 520b of the beam 1020b is formed at one side of the second support portion 720. The protrusion 721 is inserted into the groove 520b of the beam 1020b, The other side surface of the first supporting portion 620 and the other side surface of the second supporting portion 720 are not formed with protrusions and are fitted to the outer surfaces of the first supporting portion 620 and the second supporting portion 720, . One side of the first support portion 620 is in contact with the beam 1020b and the other side of the first support portion 620 is spaced apart from the beam 1020b by the width of the material, And the other side of the second support part 720 is in contact with one side of the first support part 620 so that the first support part 620 and the second support part 720 are connected to the first support part 620, So that the beam can be inserted between the first support part 620 and the second support part 720 so as to be closely contacted with each other.

17, in addition to the first reinforcing member 600, the beam 1020b and the second reinforcing member 700 being alternately shifted from each other, the first reinforcing member 600, the first reinforcing member 600, The projecting portion 621 of the second support portion 720 and the projecting portion 721 of the second support portion 720 are also provided at positions where they are alternately crossed with each other, whereby the force of engagement of the engagement portion is further increased.

The reinforcing method using the reinforcing material according to the third embodiment of the present invention as described above, that is, another reinforcing method for reinforcing the columns and the one or more beam joints of a wooden house, is characterized in that a first insertion hole A first fixing part formed to surround the periphery of the column at a lower portion of the joining part, and a second fixing part formed to surround the lower surface and the side surface of the beam, Fabricating a first reinforcement member including a support; A second fixing part formed to surround a periphery of the column at an upper part of the joining part and a second fixing part formed at a second insertion hole into which the column is inserted and surrounding the upper and side surfaces of the beam, And a second support member connected to the first support portion of the first reinforcement member and reinforcing the support force, the method comprising: fabricating the second reinforcement member; Installing the first reinforcing member so as to surround the bottom of the column; And installing the second reinforcing member so as to surround the upper portion of the column after the first reinforcing member is installed; Wherein the first fixing portion is formed with a projection corresponding to the groove formed in the column and the first supporting portion is formed with a protrusion in a shape corresponding to the groove formed in the beam, Wherein the second supporting portion is formed with a protrusion in a shape corresponding to the groove formed in the beam, and a surface of the second supporting portion other than the surface surrounding the side of the beam is formed, A protrusion is formed only in a portion surrounding the upper surface of the substrate; Wherein a width of the first supporting portion coupled to the beam is formed to be equal to a width of the beam so that the beam can be accurately brought into close contact with the first supporting portion, The second support portion is formed to be larger than twice the thickness of the material forming the first support portion so that the second support portion can be tightly coupled while wrapping the first support portion from the outside; The first fixing part and the first supporting part may be separately assembled from the lower part of the joining part and the second fixing part and the second supporting part may be separately assembled from the upper part of the joining part have.

Alternatively, a reinforcing method using a reinforcing material according to a third embodiment of the present invention, that is, a pillar of a wooden house of the present invention and a further reinforcement method for reinforcing one or more beam joints, A first fixing part formed to surround a periphery of the column at a lower part of the joining part and a hole formed around the first fixing part and the first fixing part to surround the bottom and the side of the joining part, The method comprising: fabricating a first reinforcing member including a first supporting portion for supporting the first supporting member; A second fixing part formed to surround a periphery of the column at an upper part of the joining part and a second fixing part formed at a second insertion hole into which the column is inserted and surrounding the upper and side surfaces of the beam, And a second support member connected to the first support portion of the first reinforcement member and reinforcing the support force, the method comprising: fabricating the second reinforcement member; Installing the first reinforcing member so as to surround the bottom of the column; And installing the second reinforcing member so as to surround the upper portion of the column after the first reinforcing member is installed; Wherein the first fixing portion is formed with a projection corresponding to the groove formed in the column and the first supporting portion is formed with a protrusion in a shape corresponding to the groove formed in the beam, A protrusion is formed in a shape corresponding to a groove formed in the first support portion and a protrusion is formed in the second support portion in a shape corresponding to a groove formed in the beam, a protrusion is formed on a side surface of the first support portion, And the other side surface of the second supporting portion is formed with a protrusion on one side of the second supporting portion so as to abut on the outside of one side of the second supporting portion without forming the protruding portion, To form an abutment on the outside of the frame; Wherein the first reinforcing member and the second reinforcing member are formed to correspond to each other and the width of the first supporting portion and the width of the second supporting portion are formed to be equal to each other, Wherein one side of the first support portion is in contact with the beam and the other side of the first support portion is spaced from the beam by the width of the material and one side of the second support portion is inserted into the gap, And the other side is in contact with one side of the first support portion and is in contact with the first support portion and the second support portion in a state in which the first support portion and the second support portion cross each other with respect to the beam, So as to be able to be inserted; The first fixing part and the first supporting part are coupled to each other from the lower part of the joining part in a separated state, and the second fixing part and the second supporting part are coupled from the upper part of the joining part separately.

As described above, the stiffener according to the present invention has a practical value because the structural performance for bending and shearing can be transferred to the semi-rigid joint, and when the semi-rigidity performance is taken into account, And 4% higher performance than that of the conventional system. From this, it can be applied to structural analysis model of semi-rigid structure.

It will be apparent to those skilled in the art that the present invention can be embodied in other specific forms without departing from the spirit or scope of the invention as defined in the appended claims. It is obvious to them. Therefore, the above-described embodiments are to be considered as illustrative rather than restrictive, and the present invention is not limited to the above description, but may be modified within the scope of the appended claims and equivalents thereof. In addition, each of the features of the various embodiments described above may be embodied in a mutually combined form in order to achieve the object of the present invention.

20a, 1020a: Column
20b and 1020b:
100, 300, 600: first reinforcing member
110, 310, and 610:
120, 320, 620:
200, 400, 700: a second reinforcing member
210, 410, 710:
220, 420, 720:
520a: the groove of the pole
520b: groove of beam
611: protrusion of the first fixing part
621: protrusion of the first supporting part
711: protrusion of the second fixing part
721: protrusion of the second support portion
d1: width of beam
d0, d2, d3, d4: width of the support
d5: Width of material of support
g: the distance between the first supporting part and the second supporting part

Claims (16)

delete delete delete delete delete delete delete delete A stiffener for a column of a wooden house and at least one beam joint,
Wherein the reinforcing member includes a first reinforcing member that is installed to surround the lower portion of the column and a second reinforcing member that is installed to surround the upper portion of the column,
The first reinforcing member may include: a first fixing portion formed with a first insertion hole into which the column is inserted and formed so as to surround a periphery of the column at a lower portion of the joining portion; And a first support portion that is connected to the first fixing portion and surrounds the bottom surface and the side surface of the beam to support the beam,
The second reinforcing member includes a second fixing part formed with a second insertion hole into which the column is inserted and surrounding the periphery of the column at an upper part of the joining part; And a second supporting part connected to the second fixing part so as to surround the upper surface and the side surface of the beam and connected to the first supporting part of the first reinforcing member to reinforce the supporting force,
The first fixing part is formed with a projection corresponding to the groove formed in the column, the first supporting part is formed with a protrusion in a shape corresponding to the groove formed in the beam, and the second fixing part is provided with a projection Wherein the second supporting portion is formed with a protrusion in a shape corresponding to a groove formed in the beam, and a surface of the second supporting portion, except a surface surrounding the side of the beam, A protruding portion is formed only in a portion surrounding the upper surface of the protrusion,
Wherein a width of the first support portion coupled to the beam is formed to be equal to a width of the beam so that the beam can be accurately brought into close contact with the first support portion, The second support portion is formed to be larger than twice the thickness of the material forming the first support portion so that the second support portion can be tightly coupled while wrapping the first support portion from the outside,
The first fixing part and the first supporting part are respectively coupled from the lower part of the joining part in a separated state and the second fixing part and the second supporting part are formed to be coupled from the upper part of the joining part in a state of being separated from each other. Reinforcement material. 10. The method of claim 9,
Wherein the first reinforcing member and the second reinforcing member are made of a composite material of steel and FRP. 11. The method of claim 10,
And the stiffener and the support portion of the first reinforcing member and the second reinforcing member are formed by interposing a steel plate between the FRP outer plate and the FRP inner plate. 10. The method of claim 9,
A plurality of fastening holes are formed in each of the first fixing portion and the second fixing portion, and the fastening members are fastened between the column-beam and the fixing portion and the supporting portion through the fastening holes. Wherein the reinforcing member is made of a metal. A stiffener for a column of a wooden house and at least one beam joint,
Wherein the reinforcing member includes a first reinforcing member that is installed to surround the lower portion of the column and a second reinforcing member that is installed to surround the upper portion of the column,
The first reinforcing member may include: a first fixing portion formed with a first insertion hole into which the column is inserted and formed so as to surround a periphery of the column at a lower portion of the joining portion; And a first support portion that is connected to the first fixing portion and surrounds the bottom surface and the side surface of the beam to support the beam,
The second reinforcing member includes a second fixing part formed with a second insertion hole into which the column is inserted and surrounding the periphery of the column at an upper part of the joining part; And a second supporting part connected to the second fixing part so as to surround the upper surface and the side surface of the beam and connected to the first supporting part of the first reinforcing member to reinforce the supporting force,
The first fixing part is formed with a projection corresponding to the groove formed in the column, the first supporting part is formed with a protrusion in a shape corresponding to the groove formed in the beam, and the second fixing part is provided with a projection A protrusion is formed in a shape corresponding to a groove formed in the second support portion, a protrusion is formed in a shape corresponding to a groove formed in the beam, a protrusion is formed on a side surface of the first support portion, And the other side of the second support portion is not formed and is in contact with the outside of one side surface of the second support portion, a protrusion is formed on one side surface of the second support portion, and the other side surface of the second support portion And is formed so as to abut on the outside,
The first reinforcing member and the second reinforcing member are formed to correspond to each other. The width of the first supporting portion and the width of the second supporting portion are equal to each other. The width of the first supporting portion is larger than the width of the beam Wherein one side of the first support portion is in contact with the beam and the other side of the first support portion is spaced apart from the beam by the width of the material and one side of the second support portion is inserted into the gap, And the other side is in contact with one side of the first support portion and is in contact with the first support portion and the second support portion in a state in which the first support portion and the second support portion cross each other with respect to the beam, So that it can be inserted into the main body,
Wherein the first fixing part and the first supporting part are respectively coupled from the lower part of the joining part in a separated state and the second fixing part and the second supporting part are formed to be coupled from the upper part of the joining part in a separated state, Reinforcement material. 14. The method of claim 13,
Wherein the first reinforcing member and the second reinforcing member are made of a composite material of steel and FRP. 15. The method of claim 14,
And the stiffener and the support portion of the first reinforcing member and the second reinforcing member are formed by interposing a steel plate between the FRP outer plate and the FRP inner plate. 14. The method of claim 13,
A plurality of fastening holes are formed in each of the first fixing portion and the second fixing portion, and the fastening members are fastened between the column-beam and the fixing portion and the supporting portion through the fastening holes. Wherein the reinforcing member is made of a metal.

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