KR20190068283A - Environmental Friendly Structure Using Prestress - Google Patents

Abstract

According to the present invention, an eco-friendly structure using prestress reinforces a non-structure since the non-structure inserted into or finished on a reinforced concrete structure is transmitted and falls even during a weak earthquake so that losses of lives can be generated. Specifically, the present invention installs an anchoring device capable of applying prestress to reinforced concrete pillar and beam portions, inserts a reinforcing bar and a PC steel wire to apply the prestress thereto to restrain the conventional non-structure, sprays porous concrete to form an anti-seismic wall after connecting and installing a welding net on the prestressed reinforcing bar or the PC steel wire, and assigns formativeness thereon, thereby being possible to improve seismic performance of a building and aesthetic impression of an exterior landscape.

Description

{Environmental Friendly Structure Using Prestress}

The present invention relates to an environmentally friendly structure incorporating a prestress and, more particularly, to improve durability of an existing building and to prevent conduction of a nonstructured body in the event of an earthquake, The present invention relates to an environmentally friendly structure incorporating a prestress to prevent human injury due to passage blockage and falls.

In accordance with Article 14 of the Earthquake Disaster Preparedness Act, seismic retrofitting of existing facilities in Korea is being promoted.

The current method is to stabilize facilities through reinforcement of main structural parts and to prevent collapse when earthquakes occur to prevent damage to people.

However, investigating the causes of casualties in the event of an earthquake reveals that secondary damage (60%) due to destruction of non - structural members is larger than direct damage (40%) due to building collapse.

Therefore, it can be said that substantial earthquake - proof reinforcement was achieved only when the seismic performance of the main structural members is enhanced and the non - structural members are reinforced at the same time.

In the case of existing school facilities with reinforced concrete structure, the partition walls between the classrooms and the classrooms in the short side direction are piled up with bricks. This is a shape embedded in a four - way concrete structure.

Especially, the part of the brick which is in contact with the upper concrete beam is laid without the adhesive mortar, or it is mostly empty space, which causes the collapse of the building in case of earthquake, which may cause the damage.

Therefore, it is urgent to develop the reinforcement method.

According to the performance level according to the earthquake damage, the safety performance level of the building is affected by the main structural part and the non-structural part, the flexural rigidity of the main structural part is damaged but the collapsing ability remains, Although the seismic retrofitting business currently being promoted is intended to prevent seismic retrofitting in order to prevent collapse, the non-structural part is recommended only for the seismic reinforcement range .

Also, the seismic retrofitting method developed at present is only the structural reinforcement method of the main structural part, and the seismic retrofitting method for the non-structural part is not developed.

In accordance with this plan, seismic retrofitting projects of existing schools, which are important facilities for national disaster preparedness measures, are being pursued under the earthquake disaster countermeasures law.

However, the present earthquake - resistant reinforcement is limited to reinforcement of main structural parts to prevent the collapse of buildings and seismic reinforcement of non - structural parts is not progressed.

Korean Patent Laid-Open Publication No. 10-2015-0116733

The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to reinforce a non-structural member fitted or finished in a reinforced concrete structure, A pre-stressed steel pipe is inserted into the column and beam to fix the existing unstructured structure. The pre-stressed reinforced steel or PC steel is welded to the steel pipe, The present invention also provides an environmentally friendly structure using a prestressing structure which is capable of enhancing seismic performance of a building and aesthetics of an external landscape by applying a spray to form an earthquake-proof wall and providing formability thereon.

In order to achieve the above object, there is provided an environmentally friendly structure incorporating a prestress of the present invention. The environmentally friendly structure includes a fixation port spaced vertically or horizontally from one side of a brick wall for partitioning an interior space of a concrete structure. A tension member disposed between the upper and lower fixation ports and the lower fixation port, or between the fixation port on one side and the fixation port on the other side, both ends of which are inserted to apply a prestress; A mesh-type welding net fixedly attached to the front surface of the tension member so as to cover the tension member; A concrete portion of a porous concrete material coated on the front surface of the welding net so as to cover the welding net; And a molding part having a sculptural shape on the front surface of the concrete part.

Wherein the fixing hole has a hollow cylindrical shape with one side opened and the other side opened, a screw groove formed at one end of the inner side toward the other side, and a wedge hole tapered from the other end of the screw groove toward the other side; A wedge-shaped coupler provided in a tapered shape corresponding to the shape of the wedge hole and inserted into the wedge hole, the wedge type coupler being inserted and fixed with a tension member inserted into the other side of the coupler housing; A support ring having a diameter equal to the diameter of the coupler housing is formed on the outer circumferential surface so as to protrude radially outwardly and a screw thread is screwed on the other side of the support ring and screwed into the screw groove of the coupler housing, A threaded coupler bolt having a coupler nut fastened at one side thereof; An elastic member provided between the wedge type coupler and the other side of the coupler bolt to press the wedge type coupler toward the wedge hole of the coupler housing so that the tensile material is more tightly installed; And a hinge bolt fixedly inserted into the brick wall by being coupled to the tension member inserted between the coupler nut and one side of the support ring.

The hinge bolt may include a ring-shaped ring portion coupled to the coupler bolt portion at one side of the support ring so as to penetrate therethrough or to be inserted through the tension member inserted into the end portion of the coupler housing, and a ring-shaped ring portion extending in a direction perpendicular to one direction and the other direction from the ring portion, And an insertion portion in which a thread is formed and inserted into the brick wall.

In order to accomplish the above object, the present invention provides an environmentally friendly structure incorporating a prestressing structure, comprising: a vertical steel plate which can be supported in a predetermined space of a corner of a building and a building edge of the other side; A fixture installed through one vertical steel plate and the other vertical steel plate of the masonry building integrated with the corner of the building; A prestressing material arranged to insert a prestress at both ends thereof between a fixing port on one vertical steel plate and a fixing port on the other vertical steel plate; A mesh-type welding net fixedly attached to the front surface of the tension member so as to cover the tension member; A concrete portion of a porous concrete material coated on the front surface of the welding net so as to cover the welding net; And a molding part having a sculptural shape on the front surface of the concrete part.

Wherein the fixing hole has a hollow cylindrical shape with one side opened and the other side opened, a screw groove formed at one end of the inner side toward the other side, and a wedge hole tapered from the other end of the screw groove toward the other side; A wedge-shaped coupler provided in a tapered shape corresponding to the shape of the wedge hole and inserted into the wedge hole, the wedge type coupler being inserted and fixed with a tension member inserted into the other side of the coupler housing; A support ring having a diameter equal to the diameter of the coupler housing is formed on the outer circumferential surface so as to protrude radially outwardly and a screw thread is screwed on the other side of the support ring and screwed into the screw groove of the coupler housing, A threaded coupler bolt having a coupler nut fastened at one side thereof; An elastic member provided between the wedge type coupler and the other side of the coupler bolt to press the wedge type coupler toward the wedge hole of the coupler housing so that the tensile material is more tightly installed; And a hinge bolt coupled between one side of the support ring and the coupler nut and inserted through the one vertical steel plate and the other vertical steel plate of the mooring building.

The hinge bolt includes a cylindrical coupling part coupled to the coupling ring at one side of the support ring so as to penetrate therethrough, a threaded part formed at the outer peripheral surface of the mating building, And an insertion portion that is inserted through the insertion portion.

The molding part may be formed by applying paint.

The diameter of the thread on the other side of the coupler bolt may be larger than the thread on one side of the support ring.

According to the eco-friendly structure incorporating the prestress of the present invention as described above, the nonstructured material, which is fitted or finished in the reinforced concrete structure, can be easily fallen down even in the case of a weak earthquake, In detail, a reinforcing concrete column and a fixture for applying a prestress to the beam part are installed, a reinforcing bar or a PC steel wire is inserted, a prestress is applied to confine the existing non-structure, and a welding network is connected to a prestressed reinforcing bar or PC steel The porous concrete is sprayed to form an earthquake-proof wall, and the earthquake-resistant performance of the building and the aesthetics of the exterior landscape can be improved by imparting formability thereto.

1 to 8 are views for describing an environmentally friendly structure incorporating a prestress according to the first embodiment of the present invention,
9 to 11 are views for describing an environmentally friendly structure incorporating a prestress according to a second embodiment of the present invention,
12 is a view for explaining an environmentally friendly structure incorporating a prestress according to a third embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to facilitate a person skilled in the art to easily carry out the present invention.

As shown in FIG. 1, the eco-friendly structure incorporating a prestress according to the first embodiment of the present invention includes a brick masonry wall 10, which is a main structural part including a reinforced concrete column and a beam portion, And the fixture 100 is fixed to one side and the other side of the fixture 100 so as to be spaced left and right.

Therefore, a plurality of fixing ports 100 may be provided in the horizontal direction, and a plurality of the fixing ports 100 may be provided in the vertical direction.

Then, one end and the other end of the tension member 200 made of a reinforcing bar or a PC steel wire are inserted between the upper fixing port 100 and the lower fixing port 100, which are vertically spaced apart from each other, so that a prestress is applied.

Likewise, one end and the other end of the tension member 200 made of a reinforcing bar or a PC steel wire are inserted between the fixing port 100 and the fixing port 100, respectively, which are spaced apart from each other.

As shown in FIG. 2, the fixation port 100 includes a coupler housing 110 into which a tension member 200 is inserted and fixed, a coupler bolt 120 screwed to the coupler housing 110, And a hinge bolt 150 coupled to the bolt 120 and inserted and fixed to the brick wall 10. The coupler nut 140 is coupled to the bolt 120,

3, the hinge bolt 150 includes a ring-shaped ring portion 155 formed with a through hole, and an insertion portion 151 extending to one side from the ring portion 155 and having threads formed on the outer circumferential surface thereof.

4, the coupler housing 110 has a hollow cylindrical shape with one side opened and the other side opened. A screw groove is formed from one end of the inner side toward the other side, and a taper is formed from the other end of the screw groove to the other side. A wedge-shaped hole is formed.

The wedge type coupler 113 is inserted into the wedge hole so that the wedge type coupler 113 is provided in a tapered shape corresponding to the shape of the wedge hole and the tensioned member 200 inserted into the other side of the coupler housing 110 Is inserted and fixed.

The coupler bolt 120 is formed on the outer circumferential surface of the coupler housing 110 such that the support ring 130 having a diameter equal to the diameter of the coupler housing 110 is radially outwardly protruded. A screw thread is screwed into the thread groove of the coupling ring 110 and a thread is formed on one side of the support ring 130 to fasten the coupler nut 140.

The diameter of the coupler bolt 120 on the other side of the support ring 130 is larger than that of one side of the support ring 130.

An elastic member 115 is provided between the wedge type coupler 113 and the other side of the coupler bolt 120 and the wedge type coupler 113 is inserted into the wedge hole 110 of the coupler housing 110 due to the elastic force of the elastic member 115. [ So that the tension member 200 inserted therein is more tightly installed.

2 and 5, the hinge bolt 150 has a ring portion 155 (see FIG. 2) so that a portion of the coupler bolt 120 is passed between one side of the support ring 130 and the coupler nut 140, And the insertion portion 151 is extended from the ring portion 155 in the direction perpendicular to the one side and the other side and inserted into the brick wall 10 to be fixed.

6 or 7, the hinge bolt 150 is located at the other end of the coupler housing 110, and the hinge bolt 150 is inserted into the ring portion 155 to penetrate the tension member 200 inserted into the end of the coupler housing 110, And the insertion portion 151 is extended from the ring portion 155 in the direction perpendicular to the one side and the other side and inserted into the brick wall 10 to be fixed.

8, a net-like welding net 310 is attached to the front surface of the tension member 200 so as to cover the tension member 200 and the welding net 310 is attached to the front side of the welding net 310, The porous concrete is coated to form a concrete portion 330 to form an earthquake-resistant wall.

Next, a molding part 350 including a molding such as a piece of various designs may be formed on the entire surface of the concrete part 330 formed of the earthquake-proof wall to enhance the durability, seismic performance and external appearance of the building simultaneously.

The molding part 350 may be formed by applying paint instead of a sculptured molding.

As shown in FIG. 9, the eco-friendly structure incorporating the prestress according to the second embodiment of the present invention is a masonry building in which a reinforcing rod 510 is installed in a certain space of a building corner on one side and a building corner on the other side, A vertical steel plate 550 capable of supporting the reinforcing steel placing part 510 is placed outside the placing part 510 and the concrete 570 is placed so as to cover the reinforcing steel placing part 510 inside the vertical steel plate 550 And integrates it with the corner of the building.

The fixing port 100 is fixedly installed through the one vertical steel plate 550 and the fixing hole 100 is fixedly installed through the other vertical steel plate 550.

Therefore, a plurality of fixation holes 100 may be provided on one side in the vertical direction, and a plurality of the fixation holes 100 may be provided on the other side in the vertical direction.

Then, one end and the other end of the tension member 200 made of a reinforcing bar or a PC steel wire are inserted between the fixing port 100 and the fixing port 100, which are spaced apart from each other.

9 and 11, the fixation port 100 includes a coupler housing 110 in which a tension member 200 is inserted and fixed, a coupler bolt (not shown) screwed to the coupler housing 110 A coupler nut 140 screwed to the coupler bolt 120 and a hinge bolt 590 coupled to the bolt 120 and inserted and fixed through the vertical steel plate 550.

As shown in Fig. 10, the hinge bolt 590 has a cylindrical coupling portion 595 penetrating one side and the other side, and a hinge portion 595 integrally formed on the outer peripheral surface of the coupling portion 595 and extending in one direction, And includes an inserted portion 591 formed therein.

The coupler housing 110, the wedge-shaped coupler 113, the coupler bolt 120, the support ring 130, the coupler nut 140 and the elastic member 115 according to the second embodiment of the present invention are the same as the first embodiment The detailed description is omitted.

11, the hinge bolt 590 has a coupling part 595 such that the coupler bolt 120 is partially passed between the one side of the support ring 130 and the coupler nut 140 in one direction and the other direction And an insertion portion 591 is extended from the outer circumferential surface of the fastening portion 595 in one direction so as to be inserted and fixed through the vertical steel plate of the masonry building.

As in the first embodiment, a net-like welding net 310 is additionally fixed to the front surface of the tensile material 200 so as to cover the tensile material 200 and the welding net 310 ) To form a concrete portion 330 to form an earthquake-resistant wall.

Next, a molding part 350 including a molding such as a piece of various designs may be formed on the entire surface of the concrete part 330 formed of the earthquake-proof wall to enhance the durability, seismic performance and external appearance of the building simultaneously.

The molding part 350 may be formed by applying paint instead of a sculptured molding.

As shown in FIG. 12, the eco-friendly structure incorporating the prestress according to the third embodiment of the present invention has a fixture in vertical and horizontal directions on a retaining wall, a stone column, a fence, And a prestress is applied.

Then, as in the first embodiment, a net-like welding net is fixedly attached to the front surface of the tensile material so as to cover the front surface of the net, and the porous netted concrete is coated on the entire surface of the welding net to form a concrete portion, .

Then, a molding part including a molding such as a piece of various designs is formed on the entire surface of the concrete part formed by the earthquake-proof wall, so that the durability, seismic performance and external appearance of the building can be improved at the same time.

The molding part may be formed by coating a paint instead of a sculptured molding.

As described above, according to the present invention, a non-structural member fitted or finished in a reinforced concrete structure can be easily fallen down even in a weak earthquake, , A pre-stressed reinforcement or PC wire was inserted to apply a prestress to constrain the existing non-structure, a weld network was connected to a prestressed reinforcing bar or PC steel, and a porous concrete was applied by spraying. The wall is formed and the formability is given to the wall, thereby improving the seismic performance of the building and the aesthetics of the external landscape.

In this way, the conventional method of drilling a hole in an existing structure (column and beam) at an interval of 20 to 30 cm and inserting a reinforcing bar into the reinforcing bar to form a skeleton, and then pouring the concrete into the existing structure, It is possible to drastically reduce the number of holes in the existing structure by introducing the tension member according to the present invention and to design the drawing force of the perforated portion based on the proven technique so that the structure can be stably restrained Not only can you improve the quality of the construction work and construction period.

Therefore, the present invention can improve the urban aesthetic appearance by forming the non-structural part outside the building as a strong durable shear wall and at the same time giving formability.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of illustration, It will be readily apparent that various substitutions, modifications, and alterations can be made herein.

100: fixture 110: coupler housing
120: coupler bolt 130: support ring
140: Coupler nut 150: Hinge bolt
200: Tension material

Claims (8)

A fixing port spaced vertically or horizontally from one side of the brick wall for partitioning the inner space of the concrete structure;
A tension member disposed between the upper and lower fixation ports and the lower fixation port, or between the fixation port on one side and the fixation port on the other side, both ends of which are inserted to apply a prestress;
A mesh-type welding net fixedly attached to the front surface of the tension member so as to cover the tension member;
A concrete portion of a porous concrete material coated on the front surface of the welding net so as to cover the welding net; And
A molding part having a sculptural shape on the front surface of the concrete part;
And an eco-friendly structure incorporating the prestress. The fixing member according to claim 1, wherein the fixing port is formed in a hollow cylindrical shape having one side and the other side opened, a screw groove is formed from one end of the inner side toward the other side, and a wedge hole A coupler housing formed therein; A wedge-shaped coupler provided in a tapered shape corresponding to the shape of the wedge hole and inserted into the wedge hole, the wedge type coupler being inserted and fixed with a tension member inserted into the other side of the coupler housing; A support ring having a diameter equal to the diameter of the coupler housing is formed on the outer circumferential surface so as to protrude radially outwardly and a screw thread is screwed on the other side of the support ring and screwed into the screw groove of the coupler housing, A threaded coupler bolt having a coupler nut fastened at one side thereof; An elastic member provided between the wedge type coupler and the other side of the coupler bolt to press the wedge type coupler toward the wedge hole of the coupler housing so that the tensile material is more tightly installed; And a hinge bolt coupled to one side of the support ring and the coupler nut or the end of the coupler housing, the hinge bolt being inserted into and fixed to the brick masonry wall. The hinge bolt according to claim 2, wherein the hinge bolt includes a ring-shaped ring portion coupled to the coupler bolt portion on one side of the support ring so as to penetrate therethrough or the tension member inserted into the end portion of the coupler housing to pass therethrough, And an inserting portion formed on the outer circumferential surface and threaded into the brick masonry wall. A vertical steel plate which can be supported in a certain space of a corner of a building of one side and a building edge of the other side is installed and a vertical steel plate of one side and a vertical steel plate of another side of a masonry building integrated with a corner of a building Installed anchorage;
A prestressing material arranged to insert a prestress at both ends thereof between a fixing port on one vertical steel plate and a fixing port on the other vertical steel plate;
A mesh-type welding net fixedly attached to the front surface of the tension member so as to cover the tension member;
A concrete portion of a porous concrete material coated on the front surface of the welding net so as to cover the welding net; And
A molding part having a sculptural shape on the front surface of the concrete part;
And an eco-friendly structure incorporating the prestress. The fixing member according to claim 4, wherein the fixing port is a hollow cylindrical shape having one side and the other side opened, a screw groove is formed from one end of the inner side toward the other side, and a wedge hole A coupler housing formed therein; A wedge-shaped coupler provided in a tapered shape corresponding to the shape of the wedge hole and inserted into the wedge hole, the wedge type coupler being inserted and fixed with a tension member inserted into the other side of the coupler housing; A support ring having a diameter equal to the diameter of the coupler housing is formed on the outer circumferential surface so as to protrude radially outwardly and a screw thread is screwed on the other side of the support ring and screwed into the screw groove of the coupler housing, A threaded coupler bolt having a coupler nut fastened at one side thereof; An elastic member provided between the wedge type coupler and the other side of the coupler bolt to press the wedge type coupler toward the wedge hole of the coupler housing so that the tensile material is more tightly installed; And a hinge bolt coupled between one side of the support ring and the coupler nut to penetrate and fix the one vertical steel plate and the other vertical steel plate of the masonry building. [7] The hinge bolt of claim 5, wherein the hinge bolt includes: a cylindrical coupling portion coupled to the coupling ring at one side of the support ring so as to penetrate therethrough; and a screw thread formed on the outer peripheral surface of the coupling portion, And an insert portion inserted through the steel plate and the other vertical steel plate. The eco-friendly structure incorporating the prestress. The eco-friendly structure according to claim 1 or 4, wherein the molding part is formed by applying paint. The eco-friendly structure according to claim 2 or claim 5, wherein the coupler bolt has a larger diameter threaded on the other side than a thread on one side of the support ring.

Images