KR101118508B1 - Construction method and structure of anchored slabstone on concrete - Google Patents

Abstract

PURPOSE: An installation structure for a slab stone anchored on the surface of concrete and a construction method thereof are provided to reduce the construction costs of a pier, an arch rib, or a bridge deck by preventing a surface stone from cracking. CONSTITUTION: An installation structure for a slab stone anchored on the surface of concrete comprises multiple reinforcing bars, mortar spacers, slab stone fixtures, shock absorbing rubber plates(6), stone spacers, and slab stones(1). The reinforcing bars are vertically and horizontally arranged on the top of footing concrete. The mortar spacers are fixed to the outer sides of the reinforcing bars at predetermined intervals. The slab stone fixtures couple the slab stones to each other. The rubber plates are installed on the top, bottom, and side surfaces of the slab stones. The stone spacers are attached on one slab stone and integrally connect the adjacent slab stones. The slab stones are integrally connected to each other through stone spacers.

Description

Construction Method and Structure of Anchored Slabstone on Concrete

The present invention relates to a concrete surface fixing plate installation structure and a construction method thereof, and more specifically, using the stone slabs such as granite as a fixing plate and formwork, the concrete is poured, and after the concrete hardening, the fixing plate itself is an exterior stone plate In this way, it is possible to unify concrete and finishing works of bridges, square arch ribs, and bridge decks with four-sided exterior stone slabs, thereby reducing construction costs and reducing the fallout of exterior anchoring slabs. In addition, the fixing device by the rope sling and the turnbuckle and the buried anchor is invented so as to increase the workability in a structure in which the rebar is densely installed.

Generally, after concrete construction is completed for surface exterior of reinforced concrete structure, granite etc. are attached by wet or dry method.

1 is a view showing an example of a conventional dry anchor support method, after the concrete structure is hardened by installing a drilling anchor, fixing the anchor and stone slabs with connecting hardware or iron wire, filling the mortar between the stone slabs and concrete That's how.

However, this method has a cumbersome task of installing a perforated anchor, and there have been examples of stone slag falling out during use due to structural limitations of perfect construction.

Figure 2 is a method of finishing integral wall construction proposed to improve the above problems, a method of installing the prefabricated panel with the finishing member to the outer wall formwork, and fix it to the wall reinforcement or wall formwork and then pour the wall concrete to be.

This method has the effect of shortening the air and reducing the construction cost because the concrete placing and the exterior construction are unified, but this method is limited to the installation of one side exterior panel like the retaining wall and applied to the pillar member requiring the installation of the four side exterior panel. There are many limitations.

In particular, when the stone slabs and supporting iron plates are fixed with through bolts as shown in this method, and grooves are inserted between the bonded stones to assemble them, they are restrained from mutual displacement. There is a problem that cracks can easily occur in the finished stone flagstone.

 As a method for solving such a problem, Korean Patent No. 10-0962001 has been proposed "construction structure and construction method of the integral integral reinforced concrete wall".

The construction structure of such a monolithic reinforced concrete wall is

A construction structure of reinforced concrete walls finished with a finishing panel, comprising: an outer support frame; A closing panel fixedly installed at the inner side of the outer support frame by a fastener and provided with a plurality of finishing panels facing up, down, left and right; A wall reinforcing bar constructed to be located inside the finishing panel and having horizontal bars and vertical bars assembled; A plurality of long support rods fixed to the finishing panel and installed to be constrained to the wall reinforcement; An inner wall formwork constructed to be located inside the elongated support rod and constructed so as to be connected to the elongated support rod or to be self-supporting; And wall concrete placed between the finishing panel and the inner wall formwork, wherein the fastener fixing the finishing panel to the outer support frame is installed at a position where the finishing panels face each other to the inner side of the finishing panel. Hanging pieces which are installed so as to overlap each other at the same time close to the finishing panel; A fixing piece installed on an outer surface of the outer support frame as a position corresponding to the locking piece; And a connecting piece that connects and engages the engaging piece and the fixed piece while passing between the facing surfaces of the adjacent finishing panel facing each other.

In addition, the construction method of the one-piece reinforced concrete wall,

(a) installing an outer support frame outside the finish line of the reinforced concrete wall to be constructed; (b) a step of fixing the inner side surface of the outer support frame while fixing the up and down left and right buttling the finishing panel is fixed to the inner support rod fixed to the inner side; (c) reinforcing wall reinforcing bars in which horizontal and vertical bars are assembled into the finishing panel; (d) restraining the tight support rods fixed to the finishing panel to the wall reinforcing bars; (e) installing an inner wall formwork to the inside of the long support rod, and installing the unit to be self-supporting or freestanding to the long support rod; (f) placing wall concrete between the finishing panel and the inner wall formwork; And (g) removing the outer support frame and the inner wall formwork, wherein the step (b) is performed on the adjacent finishing panel facing each other in a portion where the finishing panel inner side finishing panel is opposed to each other. At the same time, the engaging piece and the fixing piece installed on the outer side of the outer support frame as a position corresponding to the engaging piece and the fixing piece installed so as to pass through the butting surface of the adjacent finishing panel adjacent to each other connecting the engaging piece and the fixing piece The closure panel is configured to be fixed to the inner side of the outer support frame by a fixture configured to include a connecting piece to be bound.

Such a method of constructing the integrated monolithic reinforced concrete wall, which is disclosed in Korean Patent Registration No. 10-0962001, installs a panel with a finishing member as an outer formwork, installs a support frame on the outside of the panel, and a plurality of tight lines inside the panel. It is a method to fix the supporting rod to the reinforcing bar or the opposing formwork.

This method also has the advantages of unification of concrete placement and exterior construction, but it is a technology that is limited to the installation of exterior panels on one side, and there are many limitations to apply to pillar members requiring the installation of four-side exterior panels. There is a problem that the support frame is required on the outside of the panel for the installation, the exposed connection hardware for fixing to the frame, in particular, when the reinforcing bar is densely installed, such as a column, there are many problems in the installation of the tight support rod.

The present invention has been made to solve such problems in the prior art, one-piece finishing work and concrete concrete construction in a structure having a fixing plate on four sides, such as circular pier or arch ribs are made horizontally, in particular on four sides Even when lifting or placing precast concrete with exterior stone installed, it is possible to prevent the occurrence of cracks in the surface stone during installation, thereby reducing the construction cost and anticipating the effect of suppressing the fallout of the fixing plate. It is an object of the present invention to provide a concrete surface fixing plate installation structure and its construction method which can greatly improve the workability even in a structure in which the rebar is densely installed by using a rope sling and a turnbuckle and a fixing device by a buried anchor.

One embodiment of the concrete surface fixing plate mounting structure of the present invention for achieving the above object, in the concrete surface fixing plate mounting structure to be provided with a fixing plate stone integrally on the pier surface of the bridge is constructed of concrete, A plurality of reinforcing bars arranged in the vertical and horizontal directions at predetermined intervals on the provided base concrete to satisfy the compressive stress due to the vertical force applied to the piers and the shear stress and bending stress due to the horizontal force; A plurality of mortar spacers having a binding line and fixed to the outer side of the reinforcing bars at fixed intervals to maintain a certain thickness of concrete filled between the reinforcing bars and the inner surface of the fixing plate for the side plate; Fixing plate fixing means for self-resisting side pressure when placing concrete by mutually binding the fixing plate for the side plate installed in the opposite position with the reinforcing bar and concrete; A plurality of shock absorbing rubber plates installed on the upper, lower, and both side mutual contact portions of the side plate fixing plates to prevent a part of the contact portions of the side plate fixing plates from being damaged by an impact applied from the outside; A plurality of stone spacers attached to only one side plate fixing plate through epoxy at the four corners of the side plate fixing plates having mutually contacted states to integrally connect adjacent side plate fixing plates; Corresponding to the shape of the piers, the flat section is formed to have an arc or straight rectangular plate shape, and the mortar spacers are continuously arranged in the up, down, left, and right directions from the outside of the rebar at intervals corresponding to the length. Arranged in the form of integrally connected to each other through the stone spacers attached to the corner portion is fixed in the form of wrapping the reinforcing bars through the fixing plate fixing means to perform the formwork function as well as curing when the concrete is filled into them Characterized in that composed of a plurality of side plate fixing plate is fixedly installed on the outside of the concrete.

Another embodiment of the concrete surface fixing plate mounting structure of the present invention for achieving the above object is produced in the vertical direction from the ground so that the fixing plate is integrally provided on the surface of the arch rib or top plate of the bridge is made of concrete in the field In the concrete surface fixing plate mounting structure installed in the horizontal direction, the compressive stress due to the vertical force applied to the arch ribs or the upper plate itself by the reinforcement in the vertical and horizontal directions at predetermined intervals inside the arch ribs or the upper plate structure of the bridge. A plurality of reinforcing bars to satisfy the shear stress and the bending stress due to the horizontal force; The concrete is provided between the reinforcing bar and the lower, left and right plate fixing plate with fixed line and fixed at regular intervals on both sides and the lower surface of the reinforcing bar when manufacturing the arch rib or the upper plate on the ground. A plurality of mortar spacers to maintain the; Fixing plate seat fixing means for self-resisting side pressure when placing concrete by mutually binding the fixing plates for the left and right plates installed at opposite positions with rebar and concrete interposed therebetween; A plurality of shock-absorbing rubber plates installed at the mutual contact portions of the fixing plates for the upper, lower, left and right plates to prevent a part of the contact portions of the fixing plates for the upper, lower, left and right plates from being damaged by an external impact. ; It is attached to only one fixing plate through epoxy at the back of each corner of upper, lower, left and right plate fixing plates having a state of contact with each other and connects adjacent fixing plates for upper, lower, left and right plates together. A plurality of stone spacers; The mortar spacers are continuously disposed to surround the outer side of the reinforcing bar at intervals corresponding to the length, and have a shape in which the mortar spacers are integrally connected to each other through stone spacers attached to the corners of the contact parts, and the fixing plates for the left and right plates are For fixing a plurality of upper, lower, left and right plates that are fixedly installed so as not to open to the outside through the fixing plate seat fixing means to perform the formwork function when the concrete is filled into them, as well as integrally fixed to the outside of the cured concrete. It is characterized by consisting of a fixing plate.

At this time, the fixing plate stone fixing means commonly used in the two embodiments, a plurality of annular buried anchors that are fixed at a predetermined interval on each inner surface of the fixing plate to hang the hook of one side of the rope sling; A plurality of rope slings having a flexible shape to facilitate installation between reinforcing bars and having a ring at both ends and installed between the annular buried anchor and the turnbuckle; The other end of the two rope slings, one end of which is hooked to the annular buried anchors fixed to the anchoring plates of the opposite positions, are installed to have both ends hooked to each other. Characterized in that it comprises a plurality of turnbuckles to be fixed to maintain the fixed interval between the fixing plate in the opposite position.

In addition, a plurality of shear reinforcing bar at a predetermined interval between the reinforcing bars in the horizontal direction of the reinforcement applied to the arch ribs or the upper plate of the bridge is characterized in that the additional installation.

In addition, the upper and lower plates of the fixing plate of the upper and lower plates applied to the arch ribs or the upper plate of the two embodiments is characterized in that the installation of several annular buried anchors at predetermined intervals to prevent falling from the concrete.

One embodiment according to the construction method of the concrete surface fixing flagstone of the present invention for achieving the above object, in the construction method of the concrete surface fixing plate to be installed so that the fixing plate is integrally provided on the pier surface of the bridge is made of concrete In the step of laying the reinforcement to a predetermined height on the ground and placing / curing the concrete to form a foundation concrete that is the foundation of the piers; Installing mortar spacers at predetermined intervals on the outside of the reinforcing bars; Arrange the side plate fixing plates to the outside of the mortar spacers to surround the entire reinforcing bar, as well as the shock absorbing rubber plate in each of the side plate fixing plate stones joining portion and passing the fixing plate fixing means between the bars to face each other Fixing the side plate fixing plates in position to each other, and attaching and installing stone spacers at edge portions of the respective side plate fixing plates; Placing concrete into the space formed by the combination of the side plate fixing plate stones and performing the vibration compaction and the top surface to cure and to fix the side plate fixing plate stones integrally fixed to the outside of the concrete;

At this time, the step of installing / curing the concrete from the step of installing the mortar spacer at a predetermined interval on the outside of the reinforcing bar is characterized in that it is repeatedly performed by a predetermined section until the pier of the desired height is completed.

Another embodiment according to the construction method of the concrete surface fixing plate stone of the present invention for achieving the above object, by manufacturing in the vertical direction from the ground so that the fixing plate is integrally provided on the arch rib or top plate surface of the bridge is made of concrete A construction method of concrete surface fixing plate to be installed in the horizontal direction in the field, comprising the steps of: arranging the ground flat to form a stop foundation; Installing a plurality of basic squares in the longitudinal and transverse directions at predetermined intervals on the top surface of the stationary foundation; Filling the spaces between the base pieces with sand; Installing a lower plate fixing plate with a plurality of annular buried anchors on an upper surface of the basic lumber, and installing a plurality of mortar spacers on the upper surface of the lower fixing plate; Reinforcing the reinforcing bars including the shear bars at a predetermined height corresponding to the height of the arch ribs or the upper plate of the bridge to be built on the mortar spacers; Fixing a plurality of mortar spacers at predetermined intervals on both sides of the reinforcing bar; Lay out a plurality of left and right plate fixing plates on the outer side of the mortar spacers and passing the fixing plate fixing means between the reinforcing bars to fix the left and right plate fixing plates arranged in opposite positions, respectively, each of the fixing plate contact surface Disposing a rubber plate for shock absorption, and attaching and installing a stone spacer inside the corners of the fixing plates that cross each other; Placing concrete into a space formed by a combination of fixing plates for lower and left and right plates; Simultaneous vibration compaction and leveling of the concrete, and the upper plate fixing plate with a plurality of annular buried anchors are installed and cured in the upper opening, and the fixing plate for the upper, lower, left and right plate is integrated to the outside of the concrete. Characterized in that consisting of;

As described above, according to the concrete surface fixing plate installation structure and construction method thereof, the finishing work and the concrete concrete work in the structure having the exterior stone on four sides, such as the circular bridge or the horizontally formed arch rib or the bridge deck. Although unified and pre-installed precast concrete with four-side anchoring slabs, it is possible to prevent the occurrence of cracks in the surface-fixing slag during installation, as well as reducing construction costs and suppressing the fallout of the anchoring slab. In addition, by using the anchoring means for fixing the anchor plate by the rope sling, the turnbuckle and the buried anchor, it is possible to greatly improve the workability even in the structure where the reinforcing bar is densely installed. Since there is no hardware, it can solve the problem of rust. It is a very useful invention, such as no need for mortar filling and the like.

1 and 2 is a cross-sectional view showing the construction structure of the reinforced concrete wall finished with a conventional finishing panel.
Figure 3 is a cross-sectional view of the pier according to an embodiment of the concrete surface fixing plate mounting structure of the present invention.
Figure 4 is a rear perspective view of the fixing plate for the side plate installed in the piers in the present invention.
Figure 5 is a cross-sectional view of the arch rib or top plate according to another embodiment of the concrete surface fixing plate mounting structure of the present invention.
Figure 6 is a partial side cross-sectional view of the arch rib or top plate according to another embodiment of the concrete surface fixing plate stone installation structure of the present invention.
Figure 7 (a) (b) is a cross-sectional view illustrating an installation state of the mortar spacer used in the concrete surface fixing plate mounting structure of the present invention.
Figure 8 (a)-(e) is a cross-sectional view showing a construction process of the piers according to an embodiment of the construction method of the concrete surface fixing plate of the present invention.
Figure 9 (a)-(f) is a cross-sectional view showing the construction process of the arch rib or top plate according to another embodiment of the construction method of the concrete surface fixing plate stone of the present invention.
Figure 10 (a)-(c) is an illustration of the application of the piers and arch ribs and the top plate produced by the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is a flat cross-sectional view of the pier according to an embodiment of the concrete surface fixing plate mounting structure of the present invention, Figure 4 is a rear perspective view of the side plate fixing plate installed in the pier in the present invention, Figure 5 is a concrete of the present invention 6 is a cross-sectional view of an arch rib or a top plate according to another embodiment of the surface fixing plate mounting structure, and FIG. 6 is a partial side cross-sectional view of an arch rib or a top plate according to another embodiment of the concrete surface fixing plate mounting structure according to the present invention. (A) (b) is a cross-sectional view illustrating an example of an installation state of the mortar spacer used in the concrete surface fixing plate mounting structure of the present invention.

Accordingly, an embodiment of the concrete surface fixing plate mounting structure of the present invention,

In the concrete surface fixing plate mounting structure in which the side plate fixing plate (1) is provided integrally on the surface of the bridge (P) of the bridge made of concrete,

A plurality of reinforcing bars are disposed in the vertical and horizontal directions at a predetermined distance from the upper surface of the foundation concrete provided on the ground to satisfy the compressive stress due to the vertical force applied to the piers P and the shear stress and bending stress due to the horizontal force (3) )and;

A plurality of lines having a binding line 4a and fixed to the outer side of the reinforcing bars 3 at fixed intervals to maintain a certain thickness of concrete filled between the reinforcing bar 3 and the inner surface of the side plate fixing plate 1 Mortar spacers 4;

Fixing plate fixing means (5) for binding the side plate fixing plate (1) which is installed at opposite positions with the reinforcing bar (3) and the concrete (8) therebetween to self-resist the side pressure when placing concrete;

A plurality of shock absorbing rubber plates installed on the upper, lower, and both side mutual contact portions of the side plate fixing plates 1 to prevent a part of the contact portions of the side plate fixing plates 1 from being damaged by an impact applied from the outside ( 6);

A plurality of stones that are attached to only one side plate fixing plate through the epoxy at the back of the four corners of the side plate fixing plate (1) having a state in contact with each other to integrally connect adjacent side plate fixing plate (1) A spacer 7;

The cross section is made to have an arc shape or a straight rectangular plate shape corresponding to the outer shape of the piers, so that the mortar spacers 4 are spaced in the up, down, left, and right directions from the outside of the reinforcing bar 3 at intervals corresponding to their lengths. It is arranged in a continuous form and then arranged in a form connected to each other integrally through the stone spacers (7) attached to each corner portion is installed in a fixed form to wrap the reinforcing bars (3) through the fixing plate stone fixing means (5) When the concrete (8) is filled into the interior of the mold as well as a plurality of side plate fixing plate (1) that is integrally fixed to the outside of the cured concrete (8); characterized in that consisting of.

In addition, another embodiment of the concrete surface fixing plate stone installation structure of the present invention,

In the concrete surface fixing plate installation structure to be installed in the vertical direction from the ground and installed in the horizontal direction on the site so that the fixing plate is integrally provided on the surface of the arch rib (A) or the top plate (M) of the bridge made of concrete,

By compressive stress and horizontal force due to the vertical force applied to the arch ribs (A) or the upper plate (M) by being reinforced in the vertical and horizontal directions at predetermined intervals inside the arch rib (A) or the upper plate (M) structure of the bridge A plurality of reinforcing bars 3 for satisfying the shear stress and the bending stress;

It is provided with a binding line 4a and fixedly installed at predetermined intervals at both sides and lower surfaces of the outer side of the reinforcing bars 3 when the arch ribs A or the upper plate M are manufactured on the ground. A plurality of mortar spacers 4 for allowing the concrete to be filled between the inner surfaces of the fixing plates 2b, 2c, and 2d for the right plate to maintain a constant thickness;

Fixing for self-resistance of side pressure when placing concrete (8) by binding the left and right plate fixing plates (2c) (2d) installed at opposite positions with the reinforcing bar (3) and the concrete (8) in between. Flagstone fixing means (5);

The contact portions of the fixing plates for the upper, lower, left, and right plates are installed at the mutual contact portions of the upper, lower, left, and right plate fixing plates 2a, 2b, 2c, and 2d respectively. A plurality of shock absorbing rubber plates 6 for preventing damage;

The upper, lower, left, and right plate fixing plates (2a), (2b), (2c), and (2d) that are in contact with each other are attached to only one fixing plate through epoxy at the back of each corner of the upper and lower sides. A plurality of stone spacers 7 integrally connecting the fixing plates 2a, 2b, 2c, and 2d for the left and right plates;

The mortar spacers 4 are continuously arranged to surround the outer side of the reinforcing bars 3 at intervals corresponding to the lengths, and are integrally connected to each other through stone spacers 7 attached to corner portions of the contact portions. However, the left and right plate fixing plate (2c) (2d) is fixed so as not to be spread out through the fixing plate fixing means (5) performs a formwork function when the concrete (8) is filled into them It is characterized by consisting of a plurality of upper, lower, left, right plate fixing plate seats (2a) (2b) (2c) (2d) fixedly installed on the outside of the cured concrete (8).

At this time, the fixing plate stone fixing means 5 commonly used in the two embodiments,

A plurality of annular buried anchors 5a fixedly installed at predetermined intervals on each of the fixing slabs so that one ring of the rope sling 5b is hooked;

A plurality of rope slings (5b) having a flexible shape to facilitate installation between reinforcing bars (3) and having a ring at both ends and installed between the annular buried anchor (5a) and the turnbuckle (5c);

Both ends of the two rope slings (5b), one end of which is hooked to the annular buried anchor (5a) is fixed to the anchoring plate in the opposite position to each other is installed to have a form in which both ends are hooked respectively It characterized in that it comprises a plurality of turnbuckles (5c) to elastically pull the slings (5b) to be fixed while maintaining a fixed interval between the fixing flagstone in the position facing each other.

In addition, among the two embodiments of the reinforcement (3) applied to the arch rib (A) or the upper plate (M) of the bridge between the reinforcing bars in the horizontal direction further installed a plurality of shear reinforcement (3a) at a predetermined interval It is characterized by.

In addition, the inner surface of the fixing plate (2a) (2b) for the upper and lower plates applied to the arch rib (A) or the upper plate (M) of the bridge in the above two embodiments in order to prevent the fall from the concrete (8) It is characterized in that the anchor 5a is further installed at a predetermined interval.

On the other hand, Figure 8 (a)-(e) is a flat cross-sectional view showing the construction process of the piers according to an embodiment of the construction method of the concrete surface fixing plate of the present invention, Figures 9 (a)-(f) Fig. 10 is a cross sectional view showing a construction process of an arch rib or a top plate according to another embodiment of the construction method of the concrete surface fixing plate stone, Figure 10 (a)-(c) is the piers and arch ribs and the top plate manufactured by the present invention Is an example of application.

According to this, an embodiment of the construction method of concrete surface fixing flagstone according to the present invention,

In the construction method of the concrete surface fixing plate to be installed so that the fixing plate is integrally provided on the surface of the bridge (P) of the bridge made of concrete,

Reinforcing the reinforcing bar 3 to a predetermined height on the ground and placing / curing concrete to form a foundation concrete 8a serving as a foundation of the piers;

Installing mortar spacers 4 at predetermined intervals outside the reinforcing bar 3;

The side plate fixing plate (1) to the outer side of the mortar spacer (4) as well as to surround the entire reinforcement (3), as well as each side plate fixing plate (1) of the joint portion of the shock absorbing rubber plate (6) And fixing the side plate fixing plate stones (1) in the opposite position to each other by passing the fixing plate fixing means (5) between the reinforcing bars (3), the stone at the corner of each side plate fixing plate stones (1) Attaching and installing the spacer 7;

Placing concrete into the space formed by the combination of the side plate fixing plate (1), and after the vibration compaction and top surface curing to cure the side plate fixing plate (1) to be fixedly installed to the outside of the concrete (8) Steps; characterized in that consisting of.

At this time, the step of installing / curing the concrete (8) from the step of installing the mortar spacer 4 at a predetermined interval on the outside of the reinforcing bar (3) is repeated by a predetermined section until the pier of the desired height is completed It is characterized by.

In addition, another embodiment of the construction method of concrete surface fixing flagstone according to the present invention,

In the construction method of concrete surface anchoring slab manufactured in the vertical direction from the ground and installed in a horizontal direction on the site so that the anchoring slab is integrally provided on the surface of the arch rib (A) or the upper plate (M) of the bridge made of concrete,

Leveling the ground flat to form a stop foundation 9;

Installing a plurality of basic squares (10) in the longitudinal and transverse directions at predetermined intervals on the top surface of the stop foundation (9);

Filling the spaces between the base timbers 10 with sand 11;

Installing a lower plate fixing plate (2b) having a plurality of annular buried anchors (5a) on the upper surface of the base timber 10 and a plurality of mortar spacers (4) on the upper surface of the lower fixing plate (2b) Of course, the step of attaching and installing the stone spacers 7 at both corners;

Reinforcing the reinforcing bar 3 including the shear bar 3a at a predetermined height corresponding to the height of the arch rib A or the upper plate M of the bridge to be built on the mortar spacers 4;

Fixing a plurality of mortar spacers (4) at fixed intervals on both sides of the reinforcing bar (3);

A plurality of left and right plate fixing plates (2c) (2d) are laminated on the outside of the mortar spacers 4 and the fixing plate stone fixing means (5) is passed between the reinforcing bars (3) to be disposed at positions facing each other. Fixing the fixing plate stones (2c) (2d) for the right plate, but each of the fixing plate stone contact surface is arranged with a shock-absorbing rubber plate (6), and the stone spacers (7) attached to the inside of the corner of each fixing plate stones that cross each other Installing;

Placing concrete (8) into the space formed by the combination of the lower, left and right plate fixing plates (2b) (2c) (2d);

Simultaneous vibration compaction and leveling of the concrete and at the same time, the upper plate fixing plate (2a) with a plurality of annular buried anchors (5a) in the upper opening is installed and cured to the outside of the concrete (8), Characterized in that the left, right plate fixing plate (2a) (2b) (2c) (2d) to be fixed to be installed integrally.

Referring to the effect of the present invention made of such a configuration and steps as follows.

First, in one embodiment of the concrete surface fixing plate mounting structure of the present invention, as shown in Figures 3 and 4, the side plate fixing plate (1) is integral to the bridge (P) surface of the bridge is made of concrete It relates to a concrete surface fixing plate mounting structure to be provided, the main technical components of the plurality of reinforcing bars (3) and a plurality of mortar spacers (4), fixing plate fixing means (5), a plurality of rubber plates for shock absorption ( 6) and a plurality of stone spacers 7 and a plurality of side plate fixing plates 1.

At this time, the plurality of reinforcing bars (3) are arranged in the vertical and horizontal direction at a predetermined interval from the upper surface of the base concrete provided on the ground by the compressive stress due to the vertical force applied to the piers (P) itself and the shear stress and bending by the horizontal force The function is to ensure that the stress is satisfied.

In addition, the plurality of mortar spacers 4 are provided with a binding line 4a for fixing themselves to the reinforcing bar 3 directly or to the outside as shown in FIG. It is fixed to the outside of the predetermined intervals to be installed to perform a function to maintain a certain thickness of the concrete filled between the inner surface of the reinforcing bar (3) and the side plate fixing plate (1).

In addition, the anchoring plate fixing means (5) has a form consisting of a plurality of annular buried anchor (5a), a plurality of rope slings (5b) and a plurality of turnbuckles (5c) and the reinforcing bar (3) and concrete (8) By interlocking the side plate fixing plate (1) installed in the position opposite to each other in between to perform the function of self-resistance to the side pressure when placing concrete.

In this case, the plurality of annular buried anchors 5a are fixedly installed at predetermined intervals in each fixing plate stone to perform a function of hooking one side of the rope sling 5b, and the plurality of rope slings 5b. ) Has a flexible form to facilitate installation between the reinforcing bars (3) as well as having a ring at both ends and is elastically installed between the annular buried anchor (5a) and the turnbuckle (5c).

In addition, the plurality of turnbuckles (5c) is both ends of the other end of the hook of the other end of the two rope slings (5b) in which one end is hooked to the annular buried anchor (5a) fixed to the anchoring plate of the position opposite to each other It is installed to have a true shape so as to elastically pull the rope slings (5b) in the tightening operation to perform the function to be fixed at a fixed interval at a fixed interval in the position facing each other.

In addition, the plurality of shock-absorbing rubber plates 6 are installed on the upper, lower, and both side mutual contact portions of the side plate fixing plates 1, respectively, as shown in FIG. To prevent a portion of the contact portion of the breakage.

In addition, the plurality of stone spacers 7 are attached to only one side plate fixing plate through the epoxy at the back of the four corners of the side plate fixing plate 1 having the state of contact with each other, the side plate fixing plate stone ( It performs the function of connecting 1) integrally.

In addition, the plurality of side plate fixing plate (1) is manufactured so that the flat cross-section is in the form of an arc-shaped or linear rectangular plate body corresponding to the outer shape of the pier, the mortar spacers (4) at intervals corresponding to the length of the reinforcing bar (3) Through the fixing plate stone fixing means (5) after being disposed in the form of being connected to each other integrally through the stone spacers (7) which are continuously disposed in the up, down, left, right direction from the outside of the next and attached to each corner portion It is fixedly installed in the form of wrapping the reinforcing bars (3) to perform the formwork function when the concrete (8) is filled into them, as well as integrally fixed to the outside of the cured concrete (8) to function as the outer decorative slab of the piers Will perform.

On the other hand, another embodiment of the concrete surface fixing plate mounting structure of the present invention, as shown in Figure 5 and 6, so that the fixing plate is integrally provided on the arch rib (A) or the top plate (M) surface of the bridge is made of concrete A concrete surface fixing plate installation structure which is manufactured in the vertical direction from the ground and rotated in the horizontal direction in the field, and its main technical components are a plurality of reinforcing bars (3), a plurality of mortar spacers (4), fixing the fixing plate Means 5, a plurality of shock absorbing rubber plates 6, a plurality of stone spacers 7, and a plurality of fixing plates 2a, 2b, 2c and 2d for upper, lower, left and right plates. .

At this time, the plurality of reinforcing bars (3) are reinforced in the vertical and horizontal direction at a predetermined interval inside the arch rib (A) or the upper plate (M) structure of the bridge is applied to the arch rib (A) or the upper plate (M) itself The bearing performs the function of satisfying the compressive stress caused by the vertical force and the shear stress and bending stress caused by the horizontal force.

In addition, the plurality of mortar spacers 4 are provided with a binding line 4a for fixing the mortar spacers 4 themselves to the reinforcing bars 3, and when the arch rib A or the upper plate M is manufactured from the ground. The concrete is fixedly installed at both sides and the lower surface of the outer side of the reinforcement (3) is filled between the inner surface of the reinforcing bar (3) and the lower, left, right plate fixing plate (2b) (2c) (2d) It will function to maintain a constant thickness.

In addition, the fixing plate fixing means (5) has a form consisting of a plurality of annular buried anchor (5a), a plurality of rope slings (5b) and a plurality of turnbuckles (5c) as in one embodiment, the reinforcing bar (3) and By binding the left and right plate fixing plate (2c) (2d) installed in the opposite position with the concrete (8) in between each other to perform the function of self-resistance to the side pressure when placing the concrete (8).

At this time, the specific operating relationship of the plurality of annular buried anchors 5a, the plurality of rope slings 5b, and the plurality of turnbuckles 5c constituting the anchoring plate fixing means 5 are the same as in the embodiment. Omitted to avoid duplicate descriptions.

In addition, the plurality of shock absorbing rubber plates 6 are respectively installed at the mutual contact portions of the fixing plates 2a, 2b, 2c, and 2d for the upper, lower, left, and right plates, and are subjected to an external impact. The lower, left, and right plates serve to prevent damage to some of the contact parts of the fixing plates.

In addition, the plurality of stone spacers 7 of the fixing plate (2a) (2b) (2c) (2d) of the upper, lower, left, right plate having a state in contact with each other as shown in the enlarged portion of Figs. It is attached to only one fixing plate through epoxy on the back of each corner to perform the function of integrally connecting adjacent fixing plates (2a) (2b) (2c) (2d) for upper, lower, left and right plates. do.

In addition, the plurality of upper, lower, left, and right plate fixing plates 2a, 2b, 2c, and 2d surround the outer side of the reinforcing bar 3 at intervals corresponding to lengths of the mortar spacers 4. It is arranged continuously so as to have a form connected to each other integrally through the stone spacers (7) attached to the corner portion of each contact portion, the left and right plate fixing plate (2c) (2d) is the fixing plate fixing means (5) It is fixedly installed so as not to spread out through the outside, and performs the formwork function when the concrete 8 is filled into them, as well as being integrally fixed to the outside of the cured concrete 8 so that the arch rib A of the bridge or It performs the function of the outer decorative stone slab of the upper plate (M).

In addition, in the present invention, a plurality of shear reinforcing bars (3a) at a predetermined interval between the reinforcing bars in the horizontal direction of the reinforcing bars (3) applied to the arch rib (A) or the upper plate (M) of the bridge in the two embodiments Increase the shear force of the arch rib (A) or the upper plate (M) of the bridge, as well as a plurality of annular buried anchors (5a) on the inner surface of the fixing plate (2a) (2b) for the upper and lower plates By installing it further to prevent falling from the concrete (8).

On the other hand, an embodiment of the construction method of the concrete surface fixing flagstone according to the present invention, as shown in Figure 8 (a)-(e), the fixing flagstone on the bridge (P) surface of the bridge is made of concrete A method of constructing a concrete surface fixing plate that is installed to be integrally provided. First, the reinforcing bar (3) is laid on the ground to a predetermined height, and the concrete is poured / cured to form a foundation concrete (8a), which is the foundation of the piers. It is formed as shown in (a).

Subsequently, mortar spacers 4 are installed at predetermined intervals on the outside of the reinforcing bar 3 as shown in FIG. 8B, and then the entirety of the reinforcing bars 3 is wrapped as shown in FIG. 8C. The side plate fixing plate stones (1) to the outside of the mortar spacers (4), as well as each side plate fixing plate stones (1) of the joint portion of the shock absorbing rubber plate 6 is disposed between the reinforcing bars (3) By passing through the plate fixing means (5) to fix the side plate fixing plate (1) in the opposite position to each other, the stone spacers (7) are attached to the corner portion of each side plate fixing plate (1) .

Subsequently, the concrete is poured into the space formed by the combination of the side plate fixing plate stones 1, the vibration compaction and the top surface are carried out, and then cured. As shown in (e) of FIG. By (1) to be fixedly installed integrally has a form in which the fixing plate is integrally provided on the surface of the bridge (P) of the bridge is made of concrete.

At this time, the step of installing / curing the concrete (8) from the step of installing the mortar spacer 4 at a predetermined interval on the outside of the reinforcing bar (3) if repeatedly performed by a predetermined section until the pier of the desired height is completed do.

In addition, another embodiment of the construction method of the concrete surface fixing flagstone according to the present invention, as shown in Figure 9 (a)-(f), the surface of the arch rib (A) or the top plate (M) of the bridge to be constructed of concrete The present invention relates to a method of constructing a concrete surface fixing plate which is manufactured in a vertical direction from the ground so that the fixing plate is integrally installed and installed in a horizontal direction in the field. First, the ground is flattened to form a stop foundation 9.

Subsequently, a plurality of foundation timbers 10 are installed in the longitudinal and transverse directions at predetermined intervals on the top surface of the stationary foundation 9, and the space between the foundation timbers 10 is filled with sand 11, The lower plate fixing plate (2b) having a plurality of annular buried anchors (5a) is installed on the upper surface of the base timber 10, and a plurality of mortar spacers (4) are provided on the upper surface of the lower fixing plate (2b) Of course, when the stone spacers 7 are attached to both corners, the shape becomes as shown in FIG.

Subsequently, as shown in FIG. 9 (b), the reinforcing bars including the shear bars 3a at a predetermined height corresponding to the height of the arch rib A or the upper plate M of the bridge to be built on the mortar spacers 4. After placing (3), a plurality of mortar spacers 4 are fixedly installed at both sides of the reinforcing bar 3 at predetermined intervals.

Subsequently, as shown in FIG. 9 (c) (d), a plurality of left and right plate fixing plates 2c and 2d are stacked on the outer side of the mortar spacers 4 and the fixing plate fixing means 5 is reinforced. Passing between the two to fix the fixing plate (2c) (2d) for the left and right plates arranged in the opposite position to each other, each of the anchoring plate contact surface is arranged with a shock-absorbing rubber plate (6), each fixing cross The stone spacers 7 are attached to the inside of the corners of the flagstones.

Subsequently, the concrete 8 is poured into the space formed by the combination of the lower, left and right plates for fixing plates 2b, 2c, and 2d, as shown in FIG. Simultaneously, the upper plate fixing plate slats (2a) with a plurality of annular buried anchors (5a) are installed and cured in the upper opening as shown in Fig. 9 (f) to the outside of the concrete (8) Fixing plate seats (2a) (2b) (2c) (2d) for fixing the left and right plates are integrally installed on the surface of the arch rib (A) or the top plate (M) of the bridge made of concrete Will become a form.

Of course, the arch rib (A) or the top plate (M) of the bridge made in the vertical direction from the ground as described above after lifting by using a crane or a crane at the bridge installation site, and then rotated in a horizontal direction, Figure 10 ( As in a)-(c), the arch rib A may be directly installed on the upper portion of the bridge P first, and the upper plate M of the bridge may be installed on the upper portion of the bridge P to complete the bridge having a desired shape.

As such, in the present invention, the finishing work and the concrete concrete work are unified in the structure having the exterior stone on four sides, such as the arch ribs or the bridge top plate, which are manufactured horizontally, horizontally, or the precast concrete is installed on the four sides. In the case of mounting, it is possible to prevent the occurrence of cracks in the surface fixing plate during installation work, which can greatly reduce the construction cost of the pier, arch rib or bridge deck, and can greatly anticipate the effect of suppressing the dropping of the fixing plate.

In addition, by using the fixing slab fixing means by rope slings, turnbuckles and buried anchors, the construction can be significantly improved even in a structure in which the rebar is densely installed, and the hardware exposed to the outside of the fixing slab and cut after completion Since there is no structure at all, it is possible to solve the problem of generation of rust and the like, and there is no need for a process such as mortar filling.

It should be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

P: Pier A: Arch Rib
M: Top plate
1: fixing plate stone for side plate
2a, 2b, 2c, 2d: fixing plate for up, down, left and right plates
3: rebar
4 Mortar Spacer 4a Binding Line
5: fixing plate fixing means 5a: buried anchor
5b: rope sling 5c: turnbuckle
6: rubber plate for shock absorption
7: stone spacer
8: Concrete 8a: Foundation Concrete
9: stop foundation
10: basic corners
11: sand

Claims (8)

In the concrete surface fixing plate mounting structure to be provided integrally with the fixing plate on the pier surface of the bridge to be built of concrete,
A plurality of reinforcing bars which are arranged in the vertical and horizontal directions at predetermined intervals on the upper surface of the foundation concrete provided on the ground to satisfy the compressive stress due to the vertical force applied to the piers and the shear stress and bending stress due to the horizontal force;
A plurality of mortar spacers having a binding line and fixed to the outer side of the reinforcing bars at fixed intervals to maintain a certain thickness of concrete filled between the reinforcing bars and the inner surface of the fixing plate for the side plate;
Fixing plate fixing means for self-resisting side pressure when placing concrete by mutually binding the fixing plate for the side plate installed in the opposite position with the reinforcing bar and concrete;
A plurality of shock absorbing rubber plates installed on the upper, lower, and both side mutual contact portions of the side plate fixing plates to prevent a part of the contact portions of the side plate fixing plates from being damaged by an impact applied from the outside;
A plurality of stone spacers attached to only one side plate fixing plate through epoxy at the four corners of the side plate fixing plates having mutually contacted states to integrally connect adjacent side plate fixing plates;
Corresponding to the shape of the piers, the flat section is formed to have an arc or straight rectangular plate shape, and the mortar spacers are continuously arranged in the up, down, left, and right directions from the outside of the rebar at intervals corresponding to the length. Arranged in the form of integrally connected to each other through the stone spacers attached to the corner portion is fixed in the form of wrapping the reinforcing bars through the fixing plate fixing means to perform the formwork function as well as curing when the concrete is filled into them Concrete surface fixing plate mounting structure, characterized in that consisting of; a plurality of side plate fixing plate is fixedly installed on the outside of the concrete.
In the concrete surface fixing plate installation structure that is installed in the vertical direction from the ground and installed in a horizontal direction on the site so that the fixing plate is integrally provided on the surface of the arch rib or top plate of the bridge made of concrete,
A plurality of rebars are reinforced in the vertical and horizontal directions at predetermined intervals in the arch ribs or the upper plate structure of the bridge to satisfy the compressive stress due to the vertical force applied to the arch ribs or the upper plate itself, and the shear stress and bending stress due to the horizontal force. and;
The concrete is provided between the reinforcing bar and the lower, left and right plate fixing plate with fixed line and fixed at regular intervals on both sides and the lower surface of the reinforcing bar when manufacturing the arch rib or the upper plate on the ground. A plurality of mortar spacers to maintain the;
Fixing plate seat fixing means for self-resisting side pressure when placing concrete by mutually binding the fixing plates for the left and right plates installed at opposite positions with rebar and concrete interposed therebetween;
A plurality of shock-absorbing rubber plates installed at the mutual contact portions of the fixing plates for the upper, lower, left and right plates to prevent a part of the contact portions of the fixing plates for the upper, lower, left and right plates from being damaged by an external impact. ;
It is attached to only one fixing plate through epoxy at the back of each corner of upper, lower, left and right plate fixing plates having a state of contact with each other and connects adjacent fixing plates for upper, lower, left and right plates together. A plurality of stone spacers;
The mortar spacers are continuously disposed to surround the outer side of the reinforcing bar at intervals corresponding to the length, and have a shape in which the mortar spacers are integrally connected to each other through stone spacers attached to the corners of the contact parts, and the fixing plates for the left and right plates are For fixing a plurality of upper, lower, left and right plates that are fixedly installed so as not to open to the outside through the fixing plate seat fixing means to perform the formwork function when the concrete is filled into them, as well as integrally fixed to the outside of the cured concrete. Concrete surface fixing plate installation structure, characterized in that composed of the fixing plate.
The method according to any one of claims 1 to 3,
The fixing plate stone fixing means,
A plurality of annular buried anchors fixedly installed at predetermined intervals on each of the fixing slabs so that one side hook of the rope sling is caught;
A plurality of rope slings having a flexible shape to facilitate installation between reinforcing bars and having a ring at both ends and installed between the annular buried anchor and the turnbuckle;
The other end of the two rope slings, one end of which is hooked to the annular buried anchors fixed to the anchoring plates of the opposite positions, are installed to have both ends hooked to each other. And a plurality of turnbuckles for fixing the fixing plates at opposite positions to be fixed at a predetermined interval.
The method according to claim 2,
A concrete surface fixing plate installation structure, characterized in that a plurality of shear reinforcing bars are installed at a predetermined interval between the reinforcing bars in the horizontal direction of the reinforcement applied to the arch rib or the top plate of the bridge.
The method according to claim 2,
An inner surface of the fixing plate of the upper and lower plates applied to the arch ribs or the upper plate of the bridge concrete concrete surface fixing plate installation structure characterized in that the installation of several annular buried anchors at regular intervals to prevent falling from the concrete.
In the construction method of the concrete surface fixing plate to be installed so that the fixing plate is integrally provided on the pier surface of the bridge made of concrete,
Reinforcing the reinforcement to a predetermined height on the ground and placing / curing concrete to form a foundation concrete that is the foundation of the piers;
Installing mortar spacers at predetermined intervals on the outside of the reinforcing bars;
Arrange the side plate fixing plates to the outside of the mortar spacers to surround the entire reinforcing bar, as well as the shock absorbing rubber plate in each of the side plate fixing plate stones joining portion and passing the fixing plate fixing means between the bars to face each other Fixing the side plate fixing plates in position to each other, and attaching and installing stone spacers at edge portions of the respective side plate fixing plates;
Placing concrete into the space formed by the coupling of the side plate fixing plates, and then performing vibration compaction and leveling to cure the plate to fix the side plate fixing plates integrally to the outside of the concrete. Construction method of surface fixing flagstone.
The method of claim 6,
Construction method of the concrete surface fixing flagstone, characterized in that the step of installing the mortar spacer at a predetermined interval on the outside of the reinforcement to concrete placing / curing step is repeated by a predetermined section until the pier of the desired height is completed .
In the construction method of concrete surface anchoring slab manufactured in the vertical direction from the ground and installed in a horizontal direction on the site so that the anchoring slab is integrally provided on the surface of the arch rib or top plate of the bridge made of concrete,
Leveling the ground flat to form a stop foundation;
Installing a plurality of basic squares in the longitudinal and transverse directions at predetermined intervals on the top surface of the stationary foundation;
Filling the spaces between the base pieces with sand;
Installing a lower plate fixing plate with a plurality of annular buried anchors on an upper surface of the basic lumber, and installing a plurality of mortar spacers on the upper surface of the lower fixing plate;
Reinforcing the reinforcing bars including the shear bars at a predetermined height corresponding to the height of the arch ribs or the upper plate of the bridge to be built on the mortar spacers;
Fixing a plurality of mortar spacers at predetermined intervals on both sides of the reinforcing bar;
Lay out a plurality of left and right plate fixing plates on the outer side of the mortar spacers and passing the fixing plate fixing means between the reinforcing bars to fix the left and right plate fixing plates arranged in opposite positions, respectively, each of the fixing plate contact surface Disposing a rubber plate for shock absorption, and attaching and installing a stone spacer inside the corners of the fixing plates that cross each other;
Placing concrete into a space formed by a combination of fixing plates for lower and left and right plates;
Simultaneous vibration compaction and leveling of the concrete, and the upper plate fixing plate with a plurality of annular buried anchors are installed and cured in the upper opening, and the fixing plate for the upper, lower, left and right plate is integrated to the outside of the concrete. Method of fixing the installation; Concrete surface fixing plate construction method characterized in that consisting of.

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