JP2018168546A - Method for shaving off surface of concrete skeleton at predetermined depth - Google Patents

Abstract

To provide a method for shaving off a surface of a concrete skeleton without requiring a special device and efficiently without imposing a large burden on a worker.SOLUTION: A plurality of first slits 3 parallel to each other and a plurality of second slits 5 orthogonal to the first slits are formed in a surface 2 of a concrete skeleton 1 and a plurality of charge holes 4 are formed along the first slits at a center between the plurality of first slits adjacent to each other. An explosive 6 is disposed in the charge hole 4. A depth from the surface 2 of the concrete skeleton 1 to a center of the explosive 6 is equal to or larger than a depth of the first slit 3 which is shaved off. Further, a distance from the center of the explosive 6 to the bottom of the first slit 3 is equal to or less than a detonation distance (a distance that the explosive can generate a crack on the free surface).SELECTED DRAWING: Figure 4

Description

  The present disclosure relates to a method of suspending the surface of a concrete frame at a predetermined depth. .

  Patent Document 1 describes a device provided with a concrete disk cutter and a hammer as means for holding the surface of a concrete frame. The cutter is provided with a plurality of slits on the concrete surface, and the hammer is hit against the slits. It is described that the surface of the concrete frame is held by being inserted.

  Moreover, a slit may be provided in the surface of a concrete frame in order to prevent the influence of a blast before a slit, when crushing a concrete frame by blasting (for example, refer patent document 2).

JP-A-5-214820 JP 2004-293260 A

However, in the method described in Patent Document 1, it is necessary to use a special device. Without using this device, after forming a slit with a cutter and then hitting with a hammer manually, the work efficiency is remarkably low (at most 2.5 to 3.0 m ² / day / person), Due to heavy labor, it was difficult to secure workers.

  In view of such problems, an object of the present invention is to provide a method for suspending the surface of a concrete frame at a predetermined depth without using a special device and efficiently and without placing a heavy burden on workers. And

  The method according to at least some embodiments of the present invention is a method of suspending a surface (2) of a concrete frame (1) at a predetermined depth, and a plurality of the predetermined depths on the surface of the concrete frame. Forming a plurality of charge holes (4) arranged at predetermined intervals along the first slit in the center between the first slits adjacent to each other. And a step of disposing an explosive in the charge hole and a step of detonating the explosive, the depth from the surface of the concrete housing to the center of the explosive is not less than the predetermined depth, and The distance between the predetermined depth and the distance from the center of the charge hole to the first slit is less than or equal to the distance, and the distance from the center of the explosive to the bottom of the first slit is less than or equal to the initiation distance. Through the face The distance between the charge holes adjacent to each other without is characterized in that said more than 2 times the detonation distance. Here, the “detonation distance” means a distance at which the explosive can generate a crack on a free surface.

  According to this configuration, the compressive stress wave generated by the explosion of the explosive is reflected at the bottom of the first slit to become the tensile stress wave, and the two tensile stress waves traveling toward the charge hole are first changed to the first. Since it overlaps at the same depth as the bottom of the slit, a fracture surface is formed at the same depth as the bottom of the first slit, and the concrete is crushed. For this reason, since secondary crushing performed using a hammer, a pick, etc. can be reduced significantly, there is little burden on an operator and can perform a lifting work efficiently.

  In the method according to at least some embodiments of the present invention, in the above-described configuration, the forming step includes a plurality of second slits having the predetermined depth on the surface and intersecting the first slits ( 5), and between any two adjacent first slits, at least one of the charge holes is interposed between the second slits adjacent to each other.

  According to this configuration, since some of the charge holes and explosives can be replaced with the second slits, the number of explosives 6 can be reduced and the cost can be reduced. Further, since the fracture surface is formed up to the bottom of the second slit, the secondary crushing can be efficiently performed especially at the end of the region to be fitted.

  ADVANTAGE OF THE INVENTION According to this invention, the method of suspending the surface of a concrete frame can be provided without using a special apparatus and without putting a big burden on an operator.

The top view (before detonation) which shows the concrete frame suspended by the method concerning an embodiment The enlarged plan view (before detonation) which shows the concrete frame suspended by the method concerning an embodiment The longitudinal cross-sectional view (before detonation) which shows the concrete frame suspended by the method which concerns on embodiment Conceptual diagram showing the propagation of shock waves caused by detonation Photograph showing examples (a: before detonation, b: after detonation, c: after secondary crushing)

  Embodiments of the present invention will be described below with reference to the drawings. 1 to 3 show a concrete frame 1 that is hung by a method according to an embodiment.

  The concrete frame 1 may be reinforced concrete or unreinforced concrete, such as a floor slab of a concrete bridge, a bottom of a tunnel, a floor and wall of a building, a machine foundation and a retaining wall. As shown in FIGS. 1 and 2, first, a first slit 3, a charge hole 4, and a second slit 5 are formed on the surface 2 of the concrete housing 1. These can be formed in any order.

  The 1st slit 3 is provided in order to reflect the stress wave which arises by the explosion of the explosive 6 (refer FIG. 3), and is formed with a diamond cutter etc. FIG. When the concrete housing 1 is reinforced concrete and there is a reinforcing bar at a position where the first slit 3 is to be provided, the reinforcing bar is cut together with the concrete with a diamond cutter or the like. The depth of the first slit 3 is equal to the vine depth, and the width of the first slit 3 only needs to be able to reflect the stress transmitted through the concrete. For example, about 1 mm is sufficient. A plurality of first slits 3 are formed so as to be arranged in parallel to each other. The interval between the two first slits 3 adjacent to each other is set to be twice or less the initiation distance of the explosive 6 used. Here, the initiation distance means a distance at which the explosive 6 can generate a crack on the free surface, and is generally designated for each explosive (type and amount of the explosive 6). The two first slits arranged on the outermost sides serve as boundaries between the regions to be inserted.

  The charge hole 4 is a hole into which the explosive 6 is loaded. The charge hole 4 is drilled by a drill or the like and is positioned along the first slit 3 so as to be positioned at the center of the two first slits 3 adjacent to each other. Arranged at intervals. Between the two first slits 3 adjacent to each other, the distance between the two charge holes 4 adjacent to each other is set to be not more than twice the initiation distance of the explosive 6 to be used, preferably not more than the initiation distance. Moreover, it is preferable to be equal to 1/2 of the distance from the charge hole 4 to the first slit, that is, the distance between the two adjacent first slits 3. The charge hole 4 is deeper than the depth of the first slit 3 so that the center of the explosive 6 loaded in the charge hole 4 can be arranged at a position equal to or deeper than the depth of the first slit 3. It is formed.

  The second slit 5 is provided in order to reduce the number of explosives 6 and to make secondary crushing efficient, and is formed by a diamond cutter or the like so as to be orthogonal to the first slit 3. When the concrete frame 1 is reinforced concrete and there is a reinforcing bar at a position where the second slit 5 is to be provided, the reinforcing bar is cut with a diamond cutter or the like together with the concrete. The depth of the second slit 5 is equal to the vine depth, and the width of the second slit 5 can be arbitrarily set to the same width as that of the first slit 3, for example. Between any first slits adjacent to each other, six charge holes 4 are interposed between the second slits 5 adjacent to each other. The number of charge holes 4 interposed between the second slits 5 adjacent to each other may be one or more. The distance between the second slit 5 and the closest charge hole 4 is preferably equal to the distance between the two adjacent charge holes 4 without the second slit 5 interposed therebetween. The two second slits 5 arranged on the outermost side serve as boundaries between the regions to be inserted. Note that the second slits only need to intersect with the first slits even if they are not orthogonal to each other. In that case, the plurality of second slits 5 are preferably parallel to each other, but are provided along different directions. May be. Further, the second slit 5 may not be formed.

  Next, as shown in FIG. 3, the explosive 6 is placed in the charge hole 4. The depth of the center of the explosive 6 is not less than the depth of the bottom of the first slit 3, that is, not less than the depth to be applied. Further, the depth of the center of the explosive 6 is preferably equal to or less than the total value of the depth of the bottom of the first slit 3 and the distance from the center of the charge hole 4 to the center of the first slit 3. The depth of the bottom of one slit 3 is about 1.1 times. Further, the distance from the center of the explosive 6 to the bottom of the first slit 3 is equal to or less than the initiation distance of the explosive 6 used. The distance from the center of the explosive 6 arranged in the charge hole 4 closest to the second slit 5 to the bottom of the second slit 5 is not more than the initiation distance of the explosive 6 used. After the explosive is placed, the filling material 7 is filled above the explosive 6 in the charge hole 4.

  Next, explosive 6 is detonated. It is preferable that the explosives in the charge holes 4 located in one square formed by the first slits and the second slits adjacent to each other are simultaneously initiated. By the explosion of the explosive 6, the concrete in the surface 2 in the region surrounded by the first slit 3 and the second slit 5 arranged on the outermost side is crushed. If necessary, secondary crushing is performed with a pick or the like, and the crushed concrete is removed, whereby the surface 2 of the concrete housing 1 is pulled.

  Although not theoretically constrained, the concrete crushing mechanism in this embodiment will be described with reference to FIG. As shown in FIG. 4A, the center of the explosive 6 is arranged at a position slightly deeper than the depth of the first slit 3. When the explosive 6 is detonated, a compressive stress wave propagates spherically from the center of the explosive 6. Therefore, the stress wave is first reflected most strongly at the position closest to the center of the explosive 6 in the first slit 3, that is, at the lower end of the first slit 3. As shown in FIG.4 (b), a compression wave reflects in the lower end of the 1st slit 3, changes in a phase to a tension wave, and propagates the inside of concrete spherically. Since the tensile stress wave reflected by the first slits 3 facing each other with the explosive 6 interposed therebetween first overlaps at the depth of the lower end of the first slit 3, a fracture surface is formed at this depth.

  Thus, the 1st slit 3 fulfill | performs the function to reflect the stress wave by the explosion of the explosive 6 not only to isolate | separate the area | region which should be, and the area which should not be separated. In addition, because the concrete is crushed by the explosive, the secondary crushing work with a hammer or pick can be greatly reduced, so that it is efficient and efficient without using a special device that combines the cutter and hammer. The surface 2 of the concrete housing 1 can be held without imposing a large burden on the wall. In addition, since the fracture surface is formed at the depth of the lower end of the first slit 3, the finished surface becomes smooth compared to the conventional technology.

  Further, by providing the second slit 5, the secondary crushing operation after detonating the explosive 6 is facilitated. In particular, by providing the second slit 5 at the end of the first slit 3, a fracture surface is formed at a depth to reach the second slit 5, so that the secondary crushing operation is facilitated. In addition, by providing the second slit 5 so as to pass through the portion where the charge hole 4 is to be formed, the explosive 6 that should have been placed in the charge hole 4 of that portion becomes unnecessary, so that the second By providing the slit 5, the explosive 6 can be reduced.

  FIG. 5 shows an example in which the above-described embodiment is experimentally applied to a part of the concrete bottom of the water channel (a: after loading explosive, b: after detonation, c: after secondary crushing). As shown in FIG. 5A, four first slits were provided at intervals of 300 mm. One second slit was provided only on one end side of the first slit. The depth of the first slit and the second slit was 100 mm. Six charge holes were provided at intervals of 150 mm between two adjacent first slits. The depth of the charge hole was 150 mm, and an explosive with a length of 80 mm was arranged at the bottom of the charge hole so that the center depth of the explosive was 110 mm. After the explosive was installed, the charge hole was closed with a filler.

  As shown in FIG. 5B, when the explosive was detonated, cracks occurred along the charge holes on the concrete surface, and a fracture surface occurred between the lower ends of the first slits adjacent to each other.

  As shown in FIG. 5C, on the side where the second slit was provided, the fracture surface generated between the lower ends of the first slits reached the lower end of the second slits. On the side where the second slit was not provided, the fracture surface faced diagonally upward.

  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, the plurality of first slits may not be parallel to each other. However, even in this case, the charge hole provided between the two first slits adjacent to each other needs to be arranged at the center of the two first slits, that is, at an equal distance from the two first slits. .

1: Concrete frame 2: Surface 3: First slit 4: Charge hole 5: Second slit 6: Explosive 7: Filling material

Claims (2)

It is a method of hanging the surface of a concrete frame at a predetermined depth,
A plurality of first slits having the predetermined depth are formed on the surface of the concrete frame, and a plurality of first slits are arranged at predetermined intervals along the first slit in the center between the first slits adjacent to each other. Forming a charge hole of
Placing an explosive in the charge hole;
Detonating the explosive,
The depth from the surface of the concrete housing to the center of the explosive is not less than the predetermined depth and not more than the total value of the predetermined depth and the distance from the center of the charge hole to the first slit. The distance from the center of the explosive to the bottom of the first slit is not more than the initiation distance, and the distance between the charge holes adjacent to each other without a free surface is not more than twice the initiation distance. A method characterized in that The forming step includes forming a plurality of second slits having the predetermined depth on the surface and intersecting the first slits,
2. The method according to claim 1, wherein at least one of the charge holes is interposed between the first slits adjacent to each other and between the second slits adjacent to each other.