KR20120015847A - Exposed type collumn base - Google Patents

Abstract

PURPOSE: An exposed column base and a method of constructing a column base are provided to enable construction and the replacement of a column base to be easily made and minimize maintenance costs by preventing a post from becoming damaged when external force is applied. CONSTITUTION: An exposed column base(100) comprises a plurality of base members(101), and a coupling member(130). One side of the base member is fixed to the top of a concrete foundation(10) and the other side of the base member is fixed to the side of a post(20) to connect the concrete foundation to the post. The base member comprises a vertical coupling unit and a horizontal coupling unit. The vertical coupling unit is vertically extended to be able to make contact with the lower side of the post. The horizontal coupling unit is extended to the lower end of the vertical coupling unit along the top of the concrete foundation to become far from the post. The coupling member connects the base members.

Description

Exposed plinth and plinth construction method using same {Exposed type Collumn Base}

The present invention relates to an exposed plinth and a plinth construction method using the same, and more particularly, to an exposed plinth and a plinth construction method using the same, which can further increase the supporting strength for two-way constant strength and improve construction convenience. It is about.

In general, the plinth serves to transfer the load delivered to the column to the foundation of the reinforced concrete structure. In order to distribute the load evenly on the foundation, the plinth is attached to the lower part of the plinth and fixed to the foundation plate with fixing bolts. These plinths can be broadly divided into fixed plinths, semi-fixed plinths, and pin plinths.

The fixed plinth is a structure that is embedded in the reinforced concrete structure from the lower base of the steel column to a certain depth. The semi-fixed plinth is a structure that connects the base and plinth by welding by using a rib plate between the steel column and the base plate. , Pin pin is a type of pin and fix the pillar and the foundation concrete.

Among the various types of plinths as described above, the pin plinth may be broken from the anchor bolt or drawn from concrete, and may cause damage such as deformation of the base plate and crushing of the concrete. There is a problem that is not.

As described above, the plinth should transmit the load transmitted to the pillar to the foundation of the reinforced concrete structure. When the external force is generated due to the vibration or strong wind caused by the earthquake, the pillar is not damaged by the external force. This is very important for saving money and repair costs.

The present invention when the external force is applied to effectively perform the basic role of the plinth as described above, the stress is concentrated before the damage occurs to the column to be deformed before the column to protect the column, easy construction The purpose is to provide each part and a plinth construction method using the same.

The present invention for achieving the above object is a horizontal coupling portion fixed to the concrete base by an anchor bolt formed to protrude a predetermined length upwards on the concrete base in the exposed plinth supporting the column installed on the top of the concrete foundation And a plurality of base members provided at an end of the horizontal coupling part and including a vertical coupling part contacting and fixed to an outer circumferential surface of the pillar, and a coupling member interconnecting the plurality of base members.

The pillar is a square pillar, and two base members are installed to surround the pillar, and the vertical coupling portion is in contact with and fixed to two consecutive surfaces of the four sides of the pillar, and fixed to connect to the pillar, respectively. A first and second contact plate having a first fastening hole through which the bolt penetrates, wherein the horizontal coupling portion is extended from a lower end of the first and second contact plates in a direction away from the pillar; Including a plate, the third and fourth contact plate is connected to the support portion is formed with a second fastening hole to be coupled to the anchor bolt, respectively, and the support and the vertical coupling portion, but the support strength is relatively weaker than the support portion of the external force It is preferable to include a weak part that deformation occurs relatively earlier than the pillar, the vertical coupling portion or the support portion when applied.

The coupling member includes first and second coupling plates extending to be bent at right angles, wherein the first coupling plate is fastened to the first or second contact plate of one base member of the two base members. The second coupling plate is fastened to the first or second contact plate of the other base member, it is preferable that the third fastening hole corresponding to the first fastening hole is formed so that the fixing bolt can penetrate.

In addition, the pillar is a square pillar, the base member is provided with two to surround the pillar, the base member is a first contact plate material in contact with one surface of the pillar, and the first contact plate from both ends of the first The contact plate member is formed to be in contact with the other side surface and continuous to one side of the column contacting, but less than half of the length of the first contact plate member to form a 'c' as a whole, the first fastening holes through which the fixing bolt is formed And a reinforcing part having a second fastening hole formed so as to extend in a direction away from the pillar at a lower end of the vertical coupling part and the vertical coupling part, and the reinforcing part and the vertical coupling A stress concentrating part connecting the lower part of the part and a third fastening hole provided on an upper surface of the reinforcing part and penetrated by the anchor bolt are provided. Horizontal coupling comprising a reinforcing material for reinforcing a supporting force of the reinforcing portion may be provided with parts.

The stress concentration portion is preferably formed with a groove extending in the width direction and drawn in a predetermined depth inward so that stress can be concentrated when an external force is applied.

The pillar is a circular column, the base member is provided with two to surround the pillar, the vertical coupling portion extends along the arc direction to contact the outer peripheral surface of the one side of the pillar, the fixing bolt is installed to be connected to the pillar A first fastening hole is formed therethrough, and the horizontal coupling portion is formed to extend in a direction away from the column from the lower end of the vertical coupling portion, wherein the horizontal coupling portion supports the anchor bolt and the support portion and the vertical portion The coupling portion may be relatively weaker than the support portion, and may include a weakening portion relatively deformed when the external force is applied to the pillar, the vertical coupling portion or the support portion.

According to the present invention, the construction method of the plinth using the exposed plinth part includes a base member installation step of contacting a vertical coupling part at the bottom of the outer circumferential surface of the column and installing the horizontal coupling part so as to be seated on the concrete foundation, and installing to surround the outer circumferential surface of the pillar. And a coupling member coupling step of coupling the coupling member to interconnect the base members, wherein the base member installation step is such that the anchor bolts installed on the concrete base penetrate the second coupling holes formed in the horizontal coupling portion. An anchor bolt fastening process and a nut nut resultant for fastening the fastening nut on the upper side of the anchor bolt passing through the horizontal coupling portion, wherein the horizontal coupling portion is the support portion is formed with a first fastening hole to which the anchor bolt is fastened; Interconnecting the support and the vertical coupling, and when an external force is applied, the support, the pillar and Direct relatively deformed first generation than in the engagement to include a weakened to prevent the pillar is deformed and damaged.

The coupling member fastening step includes a coupling member mounting process for mounting the coupling member to surround the vertical coupling member such that one side is in contact with the vertical coupling portion of one base member and the other side is in contact with the vertical coupling portion of the other base member; It is preferable to include a fixing bolt installation process for installing a fixing bolt fixed to the pillar through the third fastening hole formed in the coupling member and the first fastening hole formed in the vertical coupling portion.

The exposed plinth and the plinth construction method using the same according to the present invention can be easily installed and replaced with the plinth, and can minimize the cost of repair work by preventing the column from being damaged when an external force is applied. There is an advantage.

1 is a perspective view showing a first embodiment of an exposed plinth according to the present invention;
Figure 2 is an exploded perspective view of the exposed plinth of Figure 1,
3 is a cross-sectional view of the exposed plinth of FIG.
Figure 4 is a perspective view showing a second embodiment of the exposed pillar portion installed in the hexagonal column,
5 is a perspective view showing a third embodiment of the exposed plinth;
6 is a partial excerpt perspective view showing a stress concentration portion of the base member of FIG.
7 is a perspective view showing a fourth embodiment of the exposed plinth provided in the war pillar.

Hereinafter, with reference to the accompanying drawings will be described in more detail the exposed plinth and the plinth construction method using the same.

1 to 3 show a first embodiment of the exposed plinth 100 according to the present invention, the exposed plinth 100 of this embodiment is connected to the concrete foundation 10 and the pillar 20 respectively. It comprises two base members 101 and two coupling members 130 interconnecting the two base members 101.

In this embodiment, the pillar 20 is a square pillar, the anchor bolt 30 for installing the base member 101 on the concrete foundation 10 is constructed so that a predetermined length protrudes upward from the upper surface of the concrete foundation 10. It is.

The base member 101 is one side is fixed to the upper surface of the concrete foundation 10, the other side is fixed to the side of the pillar 20 is to interconnect the concrete foundation 10 and the pillar 20. Two base members 101 are installed as described above, and both base members 101 have the same shape.

The base member 101 is a vertical coupling portion 110 extending in the vertical direction to be in contact with the lower side of the pillar 20, and the pillar along the upper surface of the concrete foundation 10 at the bottom of the vertical coupling portion 110 It has a horizontal coupling portion 120 extending in a direction away from the (20).

The vertical coupling part 110 is formed to surround two consecutive side surfaces of the pillar 20. The first contact plate 111 and the first contact plate 111 are in contact with the lower surface of the pillar 20. And a second contact plate 112 that is bent at right angles from the end. In this way, the first and second contact plates 111 and 112 are in contact with both continuous surfaces of the pillar 20, and the first and second contact plates 111 and 112 are fixed to the fixing bolts 114. Two first fastening holes 113 are formed, respectively.

The horizontal coupling part 120 has third and fourth contact plates 121 and 122 formed to extend in a direction away from the pillars 20 from the lower ends of the first and second contact plates 111 and 112, respectively. The third and fourth contact plates 121 and 122 respectively have a lower surface contacting the upper surface of the concrete foundation 10, and a second fastening hole 125 penetrating the upper and lower surfaces is formed so that the anchor bolt 30 can penetrate. It has a supporting portion 123 and a weakening portion 124 having a relatively weaker strength than the supporting portion 123. That is, the weak part 124 is formed to connect the support part 123 to which the anchor bolt 30 is fastened and the vertical coupling part 110, and the weak part 124 is relatively thinner than the support part 123. Is formed, when an external force of a predetermined size or more is applied, relatively low strength than the pillar 20, the vertical coupling portion 110 or the support portion 123 is to be the first deformation occurs.

Since the base member 101 includes a vertical coupling portion 110 coupled to the pillar 20 and a horizontal coupling portion 120 coupled to the concrete foundation 10, the pillar 20 is formed by the base member 101. ) Is connected to the concrete base, and when an external force of a predetermined size or more is applied, first, a deformation occurs in the weak part 124, thereby preventing the pillar 20 from being damaged or deformed.

In this embodiment, since the pillar 20 is formed in the shape of a square pillar having four sides, the first and second base members 101 have vertical coupling portions 110 that may contact the two surfaces, respectively. 4, when the pillar 20 is a hexagonal pillar, the first and second base members 101 may be formed to contact three surfaces of the six surfaces of the pillar 20, respectively. In addition, the base member 101 may be variously formed according to the shape of the pillar 20. In the present embodiment, two base members 101 are installed to surround the pillar 20, but may be divided into three or more according to the shape of the pillar 20 to surround the pillar 20.

The coupling member 130 is for interconnecting the vertical coupling portions 110 provided on the two base members 101, and includes first and second coupling plates 131 and 132 extending at right angles.

When the coupling member 130 is installed so that the two base members 101 connect the concrete base 10 and the pillar 20, the coupling member 130 may be connected to the two adjacent coupling units 110. The base member 101 is interconnected and fixed by being mounted on the outer surface. At this time, the coupling member 130 is separated by the coupling member 130 by the first and second coupling plates 131 and 132 are coupled to each of the two base members 101 one by one. By increasing the coupling strength to the column 20 by interconnecting.

Since the first and second coupling plates 131 and 132 are provided with a third fastening hole 133 corresponding to the first fastening hole 113, the fixing bolt 114 has a first fastening hole 113 and a third fastening hole. It is coupled to the pillar 20 through 133.

The second embodiment of the exposed pillar portion 200 shown in Figure 4 is an embodiment installed in the hexagonal pillar. Exposed plinth 200 of this embodiment also includes a base member 210 and the coupling member 220, compared with the first embodiment, the base member 210 and the coupling member 220 is a hexagonal column Although the shape is slightly modified to be coupled to the outer peripheral surface of the basic coupling form and function is the same as in the first embodiment.

5 and 6 illustrate a third embodiment of the exposed plinth 300 according to the present invention.

Referring to the drawings, the exposed pillar portion 300 of the present embodiment is a vertical coupling 310 surrounding the column 20, and the horizontal coupling extending from the vertical coupling portion 310 along the upper surface of the concrete foundation 10 A base member 301 including a part 320, a reinforcing material 325 installed on an upper surface of the horizontal coupling part 320, and two coupling members 330 interconnecting the two base members 301. Include.

The vertical coupling portion 310 is formed in a 'c' shape so as to contact the outer surface of the pillar 20, the first contact plate member 311 corresponding to the width of the outer peripheral surface of the pillar 20, and the first coupling And second contact plate members 312 extending in a state bent at right angles from both ends of the member 330, wherein the second contact plate members 312 are formed to have a length corresponding to half of the width of the column 20. Two base members 301 are designed to completely wrap the outer circumferential surface of the pillar 20.

Two first fastening holes 313 are formed in the first contact plate 311, and one first fastening hole 313 is formed in each of the second contact plate materials 312.

The horizontal coupling portion 320 extends a predetermined length along the upper surface of the concrete foundation 10 from the vertical coupling portion 310, the two horizontal coupling portion 320 is spaced at right angles from one vertical coupling portion 310 It is extended. And the end of the horizontal coupling portion 320 is provided with a second fastening hole 321 for the installation of the anchor bolt 30.

The reinforcing material 325 is installed at the end of the horizontal coupling portion 320, the third fastening hole 326 corresponding to the second fastening hole 321 is formed, the anchor bolt 30 is the second fastening It extends upward through the hole 321 and the third fastening hole 326, the nut is fastened to the anchor bolt 30 to press the upper surface of the reinforcing material 325, the reinforcing material 325 is horizontally coupled portion 320 It is installed in the upper end surface of the.

The reinforcing material 325 has a length extending from the end of the horizontal coupling portion 320 is relatively shorter than the total length of the horizontal coupling portion (320). Therefore, when the reinforcing material 325 is coupled to the upper surface of the horizontal coupling portion 320, the reinforcing material 325 is coupled on the horizontal coupling portion 320, the reinforcement portion 322 and the reinforcing material 325 is not coupled to increase the support strength The non-reinforcement portion 322, that is, the stress concentration portion 323 is formed, the stress concentration portion 323 is damaged and deformed by the column 20 by causing deformation before the column 20 when an external force of a predetermined size is applied. To prevent.

The stress concentration portion 323 also has grooves 324 extending in the width direction on the upper and lower surfaces thereof, respectively, and are drawn inwardly, and the grooves 324 support the strength of the stress concentration portions 323. It can be expected to be vulnerable and to effect stress concentration when an external force is applied.

The coupling member 330 is installed at the point where the second contact plate 312 is connected when the two base members 301 are installed on the pillar 20. That is, one side of the coupling member 330 is coupled to the second contact plate member 312 of the base member 301 on one side, and the other side is mounted to be coupled to the second contact plate member 312 of the other base member 301 and the coupling member. 330 couples the two base members 301 with each other.

Fourth fastening holes 331 corresponding to the first fastening holes 313 are formed in the coupling member 330, so that the fixing bolts are formed of the fourth fastening holes 331 and the second contact plate member of the coupling member 330. It is fastened to the pillar 20 through the first fastening hole 313 of (312).

7 and 8 illustrate a fourth embodiment of the exposed plinth 400 according to the present invention.

The pillar 410 of the present embodiment has an H beam shape as shown, and the exposed plinth 400 may be constructed even in this specific type of steel.

Exposed plinth 400 of the present embodiment further includes a reinforcing part 440 installed at a lower end of the pillar 410.

The pillar 410 has an upper plate 411 and a lower plate 412 extending parallel to one end and the other end, and a connection plate 413 connecting the upper and lower plates 411 and 412. The reinforcement part 440 extends in parallel with the upper and lower plates 411 and 412 on side surfaces of the connection plate 413 and is spaced apart from each other by the first reinforcement plate 441 and the ends of the first reinforcement plate 441. And a second reinforcing plate 442 extending in parallel with the connection plate 413.

The first and second reinforcing plates 441 and 442 are fixed to the pillars through the first and second fixing pins 451 and 452 for fixing the base member 420 and the coupling member 430 to the pillars, and upper and lower plates 411 and 412. The first fixing pin 451 penetrates through the coupling member 430, the vertical coupling portion 421, and the upper plate 411, and then faces the lower plate 412 and the vertical coupling portion 421 and the coupling member. Passing through (430) is made by the nut (453). The first and second reinforcing plates 441 extend between the upper and lower plates 411 and 412.

The second fixing pin 452 extends in a direction orthogonal to the first fixing pin 451, and the second fixing pin 452 passing through the coupling member 430 and the vertical coupling part 421 is the second reinforcement. It passes even through the coupling member 430 and the vertical coupling portion 421 on the opposite side through the plate 442 and the connecting plate 413 and is fixed by the nut 453.

In the base member 420 and the coupling member 430 of the present embodiment, four fixing pin fastening holes are formed in each coupling surface, and grooves 423 for stress concentration are formed in the horizontal coupling portion 422. Except for this, the remaining configuration corresponds to the configuration of the base member 101 and the coupling member 130 of the first embodiment.

Exposed pillars of the first to the third embodiments described above are installed in a prisms such as a square pillar or a hexagonal pillar, and can be applied to various prisms.

9, the exposed plinth 500 may be applied to a cylinder, and the exposed plinth 500 of the present embodiment may include a base member 510 and a coupling member 520.

The exposed plinths 100, 200, 300, 400, and 500 according to the present invention described above are first deformed or deformed before the pillars 20 are deformed when the pillars 20 are deformed by an external force such as an earthquake or typhoon. By supporting the pillar 20 so that breakage occurs, an increase in maintenance cost due to deformation or breakage of the pillar 20 is prevented and replacement is easy when deformation occurs.

10; Concrete foundation
20; Pillar
30; Anchor bolt
100; Exposed Plinth
101; Base member
110; Vertical coupling unit 120; Horizontal coupling
130; [0034]
200; Exposed Plinth
210; A base portion 220; [0034]
300; Exposed Plinth
301; Base member
310; Vertical coupling unit 320; Horizontal coupling
330; [0034]
400; Exposed Plinth
410; Pillar 420; Base member
430; Coupling member 440; Reinforcement

Claims (9)

In the exposed plinth supporting the column installed on the upper part of the concrete foundation,
A plurality of bases including a horizontal coupling part fixed to the concrete foundation by an anchor bolt formed to protrude a predetermined length upward on the concrete foundation, and a vertical coupling part provided at an end of the horizontal coupling part and contacting and fixed to an outer circumferential surface of the column; Absence;
And an engaging member connecting the plurality of base members to each other. The method of claim 1,
The pillar is a square pillar,
The base member is installed two to surround the pillar,
The vertical coupling part has first and second contact plates which are in contact with and fixed to two consecutive surfaces of the four surfaces of the pillar, each of which has a first fastening hole through which a fixing bolt for connecting with the pillar passes.
The horizontal coupling portion includes third and fourth contact plates extending in a direction away from the pillars from the lower ends of the first and second contact plates,
Each of the third and fourth contact plates may have a support having a second fastening hole formed therein so as to be fastened with the anchor bolt, and connect the support with the vertical coupling portion, and have a relatively weaker support strength than the support, so that the pillar may be applied when an external force is applied. Exposed plinth portion, characterized in that it comprises a weak portion that deformation occurs relatively earlier than the vertical coupling portion or the support portion. The method of claim 2,
The coupling member has first and second coupling plates extending to be bent at a right angle,
The first coupling plate is fastened to the first or second contact plate of one base member of the two base members, the second coupling plate is fastened to the first or second contact plate of the other base member, respectively An exposed pillar having a third fastening hole corresponding to the first fastening hole so that the fixing bolt can pass therethrough. The method of claim 1,
The pillar is a square pillar,
The base member is installed two to surround the pillar,
The base member is in contact with the first contact plate member in contact with one surface of the pillar and the other side surface which is continuous with one surface of the column contacted by the first contact plate member from both ends of the first contact plate member, It is formed to be less than half of the length of the 'c' shape as a whole, the vertical coupling portion is formed with the first fastening holes through which the fixing bolt,
It is formed to extend in the direction away from the pillar at the lower end of the vertical coupling portion, the reinforcement portion is formed with a second fastening hole is formed so that the anchor bolt is fitted, the stress concentration connecting the reinforcement portion and the lower portion of the vertical coupling portion And a horizontal coupling part provided on an upper surface of the reinforcement part and having a third coupling hole through which the anchor bolt penetrates, and a reinforcing material for reinforcing the support force of the reinforcement part. The method of claim 4, wherein
The stress concentration part is exposed exposed plinth portion characterized in that the groove is extended in the width direction so that the stress is concentrated when the external force is applied and the groove is introduced into the predetermined depth. The method of claim 1,
The column is a circular column,
The base member is installed two to surround the pillar,
The vertical coupling portion extends along an arc direction to contact one outer circumferential surface of the pillar, and a first fastening hole is formed through which a fixing bolt installed to be connected to the pillar passes.
The horizontal coupling portion is formed so as to extend in a direction away from the column from the lower end of the vertical coupling portion, the horizontal coupling portion is connected to the anchor bolt and the support portion and the vertical coupling portion, the support strength relative to the support portion The weakly exposed shell portion, characterized in that it comprises a fragile portion that deformation occurs relatively earlier than the pillar, vertical coupling portion or support portion when the external force is applied. The method of claim 1,
The pillar includes an upper and lower plates spaced apart from each other and extending side by side, and a connecting plate extending along a direction crossing the upper and lower plates so as to connect the upper and lower plates.
And a reinforcement part including a first reinforcement plate protruding from the connection plate to be parallel to the upper and lower plates, and a second reinforcement plate installed at an end portion of the first reinforcement plate to extend in parallel with the connection plate.
The vertical coupling portion of the base member, characterized in that the exposed pillars formed to be coupled to the outer peripheral surface of the upper and lower plates and the second reinforcing plate. A base member installation step of vertical contact portion contacting a lower end of the outer circumferential surface of the column and installed so that the horizontal coupling portion is seated on the concrete foundation;
And a coupling member coupling step of coupling the coupling member to interconnect the base member installed to surround the outer circumferential surface of the pillar.
The base member installation step is an anchor bolt fastening process for inserting the anchor bolt which is constructed on the concrete foundation to pass through the second fastening hole formed in the horizontal coupling portion, and a fastening nut on the upper side of the anchor bolt passing through the horizontal coupling portion Includes nut nut resultant to tighten,
The horizontal coupling part supports a support part in which a first fastening hole is formed to which the anchor bolt is fastened, and the support part and the vertical coupling part are interconnected, and when an external force is applied, the horizontal coupling part is relatively larger than the support part, the pillar, and the vertical coupling part. Deformation occurs first, the construction method of the plinth using an exposed plinth, characterized in that it comprises a fragile to prevent the pillar is deformed and broken. The method of claim 8,
The coupling member fastening step includes a coupling member mounting process for mounting the coupling member to surround the vertical coupling member such that one side is in contact with the vertical coupling portion of one side base member and the other side is in contact with the vertical coupling portion of the other base member;
Exposed plinth portion, characterized in that the fixing bolt installation process for installing a fixing bolt fixed to the pillar through the third fastening hole formed in the coupling member and the first fastening hole formed in the vertical coupling portion Plinth construction method using.

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