JP2017115324A - Method for exposing reinforcement by removing concrete from surface of reinforced concrete skeleton - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for exposing a reinforcement by removing concrete from a surface of a reinforced concrete skeleton with light labor and in a short period of time so as to reduce the demolition cost of the reinforced concrete skeleton.SOLUTION: A method according to the present invention includes the steps of: forming a shot hole (16) at a predetermined depth from a surface (10) in a predetermined position of a concrete part (8); forming a crack guide hole (18) in a position, adjacent to a shallow-cover reinforcement (6), of the concrete part; arranging an explosive (14) in the shot hole; and initiating the explosive.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a method for exposing concrete by removing concrete from the surface of a reinforced concrete frame. In particular, the present invention relates to a method for exposing a reinforcing bar by removing concrete in a predetermined range by blasting for the purpose of dismantling a reinforced concrete frame.

  As a method of dismantling the reinforced concrete frame, there is a method of destroying the concrete on the surface, cutting the exposed reinforcing bar to reduce the proof strength, and applying a load to the portion where the proof strength is reduced to break the skeleton. For example, Patent Document 1 describes a method for blasting and dismantling a reinforced concrete frame. In this method, the boundary groove between the area to be crushed by blasting and the area to be left unbroken is cut at the boundary of the reinforced concrete frame from the surface of the frame, and the rebar is cut within the boundary groove to be crushed. A charge hole is drilled, and an explosive is loaded into the charge hole and blasted to dismantle the concrete body. The boundary groove is cut using a water jet, a breaker, or the like so as to expose the reinforcing bars arranged in the housing.

  Further, as a demolition method for a reinforced concrete frame, a wire saw method is also known in which a reinforced concrete frame is simultaneously cut and demolished. For example, Patent Document 2 describes that in a rebuilding work for a building, an existing building is cut with a wire saw and divided into a plurality of blocks.

JP 2004-293260 A JP 2010-248822 A

  However, in order to cut the exposed reinforcing bars with simple means such as acetylene gas or a cutter, it is necessary to crush the concrete portion existing in a wide area around the reinforcing bars to expose the reinforcing bars. For this purpose, it is necessary to first crush the concrete portion with a breaker or the like, and then further crush it to a small size with a pick or the like to remove even a small piece of concrete. The labor and construction time required for this secondary crushing is excessive compared to the crushing volume, and is very uneconomical in terms of cost.

  There is also a method of cutting the rebar by an electrical method. In this case, the number of exposed portions of the rebar is reduced compared to the above case, but in other respects, the same work as described above is required. Become. Therefore, labor and construction time could not be reduced sufficiently, and the cost-effectiveness could not be improved sufficiently considering the loss of equipment.

  On the other hand, the wire saw method is limited in its application range depending on the shape and dimensions of the reinforced concrete frame, and is not particularly suitable for floor slab structures. In addition, considering the increase in the cutting process for cutting into a transportable shape and the loss of equipment and equipment, the cost-effectiveness was low compared to the above construction method.

  The present invention has been made in view of these problems, and provides a method of exposing concrete by removing concrete from the surface of a reinforced concrete frame in a short period of time with little effort, thereby dismantling, repairing or repairing the reinforced concrete frame. The purpose is to reduce the cost of inspection.

  One aspect of the present invention is a method of removing concrete from a surface (10) of a reinforced concrete frame (2) to expose the reinforcing bar, and having a predetermined depth from the surface at a predetermined position of the concrete portion (8). A step of forming a charge hole (16), a step of forming a crack guide hole (18) in a position of the concrete portion close to a predetermined reinforcing bar (4, 6), and an explosive in the charge hole (14) and a step of detonating the explosive. Here, “the crack guide hole is“ close ”to the reinforcing bar means that the surface of the reinforcing bar is exposed in the crack guide hole, and the inner peripheral surface of the crack guide hole is 1 / of the diameter of the reinforcing bar from the surface of the reinforcing bar. It means up to a state of being separated by about 2.

  According to this configuration, the shock wave generated when the explosive blasts is induced by the crack induction hole provided close to the reinforcing bar, so that a propagation path along the reinforcing bar is generated, and the reinforcing bar is pulled from the reinforcing bar to the surface of the reinforced concrete frame. Strain can be grown. For this reason, cracks are formed on the surface of the reinforced concrete frame, and the cracked surface is crushed so that the cracked surface is peeled off by the explosive force of the explosive. Can expose the rebar. Therefore, it is possible to reduce the cost of operations requiring exposure of the reinforcing bars, for example, the dismantling, repairing or inspection of the reinforced concrete frame.

  According to another aspect of the present invention, in the above configuration, the concrete frame includes a first reinforcing bar (4) and a plurality of second reinforcing bars arranged at a position shallower than the first reinforcing bar and intersecting the first reinforcing bar. Including a reinforcing bar (6), wherein the predetermined reinforcing bar is selected from the second reinforcing bars.

  According to this configuration, the second rebar has a shallow cover and is not pressed against another rebar from the surface side. Therefore, the shock wave due to the explosion of the explosive is easily transmitted, and the concrete is crushed so that the concrete peels from the second rebar after the explosion Therefore, it is possible to reduce the concrete remaining in the state of being attached to the second reinforcing bar.

  According to another aspect of the present invention, in the above-described configuration, the predetermined reinforcing bar includes two reinforcing bars that are parallel to each other, the crack guide hole is disposed in a position adjacent to each of the reinforcing bars, It is arrange | positioned in the intermediate position of the reinforcing bar of a book.

  According to this configuration, since the shock wave caused by the explosion of the explosive reflected from the crack induction hole concentrates at an intermediate position between the two reinforcing bars to induce a crack (22), the explosive is directed from the position where the explosive is disposed to the surface. The initiation force makes it easier for the surface concrete to delaminate over a wide area between the two rebars.

  Another aspect of the present invention is characterized in that, in the above configuration, the predetermined depth of the charge hole is shallower than a depth of the crack guide hole from the surface of the concrete portion.

  According to this configuration, the path of the shock wave spreading on the cone is diffracted in the direction toward the surface of the concrete body along the thin rebar due to the presence of the crack induction hole, so that it is outside the range surrounded by the crack induction hole. Shock waves heading toward can be reduced.

  According to another aspect of the present invention, in the above-described configuration, the predetermined depth of the charge hole is provided such that the explosive is disposed in the middle of the depth direction of the reinforced concrete frame, and the crack induction hole is A through-hole penetrating from the surface of the concrete portion to the opposite surface (12).

  According to this configuration, since the concrete on both surfaces can be removed even if the charge hole and the crack guide hole are provided only from one surface, the labor required for the work can be reduced.

  According to the present invention, it is possible to remove the concrete from the surface of the reinforced concrete in a short time and to expose the reinforcing bar, thereby reducing the cost of dismantling, repairing or inspecting the reinforced concrete frame.

The schematic diagram (A) top view (B) front view which shows the position of the hole formed in the reinforced concrete frame in embodiment of this invention The photograph which shows the state before detonation of the reinforced concrete frame of the Example of this invention The photograph which shows the state after the explosion of the reinforced concrete frame of the Example of this invention Schematic plan view showing the positions of the holes formed in the reinforced concrete frame of the comparative example (prior art) Photograph showing the state after detonation of the reinforced concrete frame of the comparative example (prior art)

  Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 schematically shows a reinforced concrete frame 2 dismantled by the method according to the embodiment.

  The reinforced concrete frame 2 includes a plurality of first reinforcing bars 4 arranged in parallel to each other, a plurality of second reinforcing bars 6 arranged in parallel to each other and perpendicular to the first reinforcing bars 4, the first reinforcing bars 4 and the first reinforcing bars 4. And a concrete portion 8 in which two reinforcing bars 6 are embedded. The reinforced concrete frame 2 has a plate shape, and the concrete portion 8 has a first surface 10 forming a plate-shaped main surface and a second surface 12 forming a main surface opposite to the first surface 10. The first reinforcing bar 4 and the second reinforcing bar 6 that intersect with each other form a layer, and are arranged in two layers of the first surface 10 side and the second surface 12 side. The second reinforcing bars 6 are arranged so that the cover is shallower than the first reinforcing bars 4. That is, the second rebar 6 of each layer is shallower than the corresponding depth of the adjacent first rebar 4 in the depth from the adjacent surface of the first surface 10 and the second surface 12. For example, the reinforced concrete frame 2 is a floor slab of a concrete bridge, a floor and wall of a building, a machine foundation and a retaining wall.

  The reinforced concrete frame 2 peels the surface of the concrete part 8 to expose the first reinforcing bar 4 and the second reinforcing bar 6, cuts the first reinforcing bar 4 or the second reinforcing bar 6 at the exposed part, and the first reinforcing bar 4 or The reinforced concrete frame 2 is disassembled by applying a load so that the second rebar 6 is broken at the cut portion. The present invention relates to a step of peeling the surface of the concrete portion 8 and exposing the first rebar 4 and the second rebar 6 in the dismantling step of the reinforced concrete frame 2.

  First, the positions of the first rebar 4, the second rebar 6 and other rebars (not shown) in the reinforced concrete frame 2 are detected by known rebar exploration means such as an electromagnetic radar method, an electromagnetic induction method, or an X-ray transmission method. To grasp.

  Next, a charge hole 16 into which the explosive 14 is loaded and a crack guide hole 18 to be a hole are formed in the concrete portion 8. The crack induction hole 18 is disposed at a position close to one or both of the first rebar 4 and the second rebar 6, but is preferably disposed at a position close to the second rebar 6 with a shallow cover. It is preferable that a plurality of the second rebars 6 are arranged at positions close to each of the second reinforcing bars 6. The charge hole 16 has an intermediate position between the two second reinforcing bars 6 in which the crack induction holes 18 are arranged close to each other, and an intermediate position between the two crack induction holes 18 adjacent to each other in the extending direction of the second reinforcing bars 6. One by one. It is preferable that the crack guide holes 18 arranged in two rows are symmetrical with respect to the charge holes 16 arranged in one row. Depending on the range of the concrete portion 8 to be removed, the number of charge holes 16 and crack induction holes 18 in the second rebar 6 direction, and the charge holes 16 and crack induction holes alternately arranged in the first rebar 4 direction The number of 18 columns is increased or decreased.

  The distance between two charge holes 16 adjacent to each other is D, the maximum resistance line length that can be taken according to the destruction medium (concrete portion 8), the hole diameter of the charge hole 16 and the explosive type of explosive 14 used, The distance between the charge hole 16 and the crack induction hole 18 in the direction orthogonal to the two rebars 6 (rebar with the crack induction hole 18 in close proximity) is S, and the charge hole 16 in the direction parallel to the second rebar 6 is When the distance from the crack induction hole 18 is L, it is preferable that D <0.7W, S <0.5D, and L≈0.5D. Moreover, it is desirable that the distances D between the two charge holes 16 adjacent to each other are equal to each other, and the distances between the two crack induction holes 18 adjacent to each other in the direction parallel to the second rebar 6 are equal to each other. In addition, the positions of the charge hole 16 and the crack guide hole 18 are appropriately corrected according to the arrangement of the first reinforcing bar 4, the second reinforcing bar 6, and other reinforcing bars (not shown).

  The depth of the charge hole 16 is deeper than the cover of the second rebar 6. The depth of the crack induction hole 18 is preferably deeper than the depth of the charge hole 16, for example, approximately twice. In the present embodiment in which the first rebar 4 and the second rebar 6 are disposed on both the upper and lower sides, the charge hole 16 is provided so that the explosive 14 can be disposed at the center in the thickness direction of the plate-shaped reinforced concrete housing 2. The crack induction hole 18 is a through hole. In addition, when the concrete frame 2 is a single side reinforcement, the charge hole 16 is set to a depth at which the explosive 14 can be charged more than the depth at which the filling effect of the explosive 14 specified by the dose is obtained.

  In the present embodiment, the crack induction hole 18 is disposed on the side of the charge hole 16 with respect to the adjacent second rebar 6, but on the opposite side of the charge hole 16 with respect to the adjacent second rebar 6. It may be arranged.

  Next, after loading the explosive 14 on the bottom of the charge hole 16, the explosive 14 is detonated. Then, the blasting portion 20 of the concrete portion 8 shown by the dot pattern in FIG. 1 is peeled off and removed by the initiation force of the explosive 14. The range of the blast portion 20 on the first surface 10 and the second surface 12 is a continuous surface including the charge hole 16 and the crack guide hole 18 as shown in FIG. The made 2nd rebar 6 is exposed. In the exposed portion of the second rebar 6, the concrete peels from the second rebar 6 almost completely. Further, the range of the blasted portion 20 in the thickness direction of the reinforced concrete frame 2 extends in a bowl shape or a cone shape toward the first surface 10 and the second surface 12 with the position where the explosive 14 is disposed as a base point. In addition, the charge holes 16 forming a row are connected to each other, and cracks 22 are formed outwardly from the two outermost charge holes 16.

  Although not theoretically constrained, the blasting portion 20 is removed by blasting and the second rebar 6 is exposed as described above. The shock wave generated by the blasting of the explosive 14 is reflected on the surface of the crack induction hole 18 and By diffracting, a crack extending from the charge hole 16 to the crack induction hole 18 or the vicinity thereof, a crack 22 connecting the plurality of charge holes 16 to each other, and a crack along the second rebar 6 with a thin cover are formed. It is considered that the surrounding concrete peels off due to the initiation force of the explosive 14 that spreads in a cylindrical or long cylindrical shape toward the first surface 10 and the second surface 12. In particular, in the second rebar 6, it is considered that when a shock wave due to the explosion of the explosive 14 is transmitted through the crack guide hole 18, the vibration caused by the shock wave causes a tensile strain to grow in the concrete with shallow cover and causes a crack. It is done.

  The portion of the second reinforcing bar 6 exposed by the blasting is substantially peeled off from the concrete, and can be cut by a simple means such as acetylene gas or a cutter without requiring a secondary crushing step of the concrete. Therefore, the preparatory work for cutting the second rebar 6 is completed by the relatively simple work of drilling the charge hole 16 and the crack guide hole 18 and loading and detonating the explosive 14. That is, it is possible to remove the concrete from the surface of the reinforced concrete housing 2 in a short time and expose the first and second rebars 4 and 6, thereby reducing the cost of dismantling the reinforced concrete housing 2.

  2 and 3 are photographs showing states before and after initiation of an example corresponding to the above embodiment, and FIGS. 4 and 5 show comparative examples.

  As shown in FIG. 3, in the embodiment according to the present invention, in the concrete portion 8 of the reinforced concrete frame 2, the surface in the range where the charge holes 16 and the crack guide holes 18 are provided peels, and the first rebar 4 and the second rebar 4. Reinforcing bar 6 was exposed. In particular, the second rebar 6 to which the crack guide hole 18 is adjacent was exposed over substantially the entire circumference in the thickness direction in a predetermined length direction section.

  As shown in FIG. 4, the reinforced concrete frame 102 tested as a comparative example includes a plurality of first reinforcing bars 104 arranged in parallel to each other and a plurality of first reinforcing bars 104 overlapped so as to be orthogonal to each other and arranged in parallel to each other. The second reinforcing bar 106 and a concrete portion 108 in which the first reinforcing bar 104 and the second reinforcing bar 106 are embedded. Two charge holes 116 were formed in the middle position between the two second reinforcing bars 106, but no hole corresponding to the crack induction hole 18 (see FIG. 1) of the present invention was formed. An explosive (not shown) was loaded into the charge hole 116 and detonated.

  FIG. 5 is a photograph showing a state after initiation of the reinforced concrete casing 102 according to the comparative example. The concrete peels around each charge hole 116 to form a blasted portion 120 and a crack 122 is formed that connects the two charge holes 116 and expands outward, but between the two charge holes 116. The concrete portion 108 did not peel off. Moreover, although the 1st reinforcing bar 104 and the 2nd reinforcing bar 106 exposed by the blasting part 120 were exposed in the surface side, there were many parts to which the concrete adhered on the opposite side, and the exposure range was narrow. Therefore, in order to cut with simple means such as acetylene gas or a cutter, a secondary crushing step of concrete is necessary.

  Although the description of the specific embodiment is finished as described above, the present invention is not limited to the above embodiment and can be widely modified. For example, using the charge holes and crack induction holes formed from the first surface side, the concrete only on the first surface side may be removed, and further, other charge holes and crack induction holes from the second surface side. And concrete on the second surface side may be removed. In this case, the crack induction holes may be bottomed holes or through holes corresponding to the charge holes from both sides. Further, the present invention may be applied to a reinforced concrete frame having a large thickness or mechanical foundation concrete. In this case, the charge holes and crack induction holes formed from one surface side peel off the concrete on the surface side. For this purpose, the bottom of the charge hole may be a bottomed hole. Moreover, although the reinforcing bar which mutually cross | intersects is arrange | positioned in two layers in the reinforced concrete frame in the said embodiment, a reinforcing bar does not need to cross | intersect or may be 1 layer. Further, the present invention may be applied to expose the reinforcing bars on the surface layer side of the reinforcing bars arranged in three or more layers. Moreover, in order not only to dismantle the concrete body but also to repair the surface of the concrete body and inspect the reinforcing bars, the cover portion of the concrete may be peeled off.

2: Reinforced concrete frame 4: First rebar 6: Second rebar 8: Concrete portion 10: First surface 12: Second surface 14: Explosive 16: Charge hole 18: Crack induction hole 20: Explosion portion 22: Crack D: Distance between charge holes W: Maximum resistance wire length L: Distance between charge holes and crack induction holes (in the second rebar direction)
S: Distance between charge hole and crack induction hole (first rebar direction)

Claims (5)

A method of removing concrete from the surface of a reinforced concrete frame to expose the reinforcing bar,
Forming a charge hole of a predetermined depth from the surface at a predetermined position of the concrete part;
Forming a crack induction hole in a position of the concrete portion adjacent to a predetermined reinforcing bar;
Placing an explosive in the charge hole;
Detonating the explosive. The concrete frame includes a first reinforcing bar and a plurality of second reinforcing bars arranged at a position shallower than the first reinforcing bar and intersecting the first reinforcing bar,
The method of claim 1, wherein the predetermined reinforcing bar is selected from the second reinforcing bar. The predetermined reinforcing bar includes two reinforcing bars parallel to each other, and the crack induction hole is disposed at a position close to each of the reinforcing bars,
The method according to claim 1, wherein the charge hole is disposed at an intermediate position between the two reinforcing bars.   The method according to any one of claims 1 to 3, wherein the predetermined depth of the charge hole is shallower than a depth of the crack induction hole from the surface of the concrete portion.   The predetermined depth of the charge hole is provided such that the explosive is disposed in the middle of the depth direction of the reinforced concrete frame, and the crack guide hole is a surface opposite to the surface of the concrete portion. The method according to any one of claims 1 to 3, wherein the method is a through-hole penetrating through.