JP2012240248A - Guide for inserting vibrator for concrete compaction - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve a problem that conventionally, the shape of a concrete structure and arrangement of installed reinforcing bars etc. create a space portion in which it is difficult to insert a bar-shaped vibrator into a concrete placement form and concrete compaction of the portion is impossible.SOLUTION: This guide for inserting a vibrator for concrete compaction comprises a guide reinforcing bar installed within a reinforced concrete placement form to avoid installed reinforcing bars which are installed within the placement form, extending axially and wound spirally. The vibrator for concrete compaction can be inserted into the guide reinforcing bar.

Description

  The present invention relates to a vibrator for inserting a concrete compaction vibrator used for constructing a reinforced concrete structure, a reinforced concrete structure provided with the guide, and a concrete compaction method.

  In a construction site, a rod-like vibrator is used for compacting concrete placed in a concrete placement frame. In this rod-shaped vibrator, a vibrator is fixed to the tip of the vibrator main body. The tip of the rod-like vibrator is inserted to a desired depth in the placed concrete to vibrate the tip, and the rod-like vibrator itself Is moved in the front-rear direction so that the concrete is vibrated to move the air, and the air is extracted from the top of the concrete to compact the concrete.

  Further, since the reinforcing bars arranged in the placing frame are usually arranged vertically and horizontally, if a stick-like vibrator is inserted into a space extending in the vertical direction between the arranged reinforcing bars, the stick-like vibrator is provided. Can be inserted to the bottom of the placement frame. Accordingly, the rod-like vibrator is inserted vertically into the placement frame from above the placement frame and moved back and forth in the vertical direction to compact the concrete. If repeated at intervals, the entire cast concrete can be compacted.

  As such a rod-shaped vibrator, for example, there is known document 1.

JP 2004-218369 A

  However, for example, when constructing a reinforced concrete structure such as a slant web portion having a reverse cross-section of the box girder on both sides of the box girder, as shown in FIG. If it has a ceiling surface 2a, and because of this inclined ceiling surface 2a, a rod-like vibrator 3 is inserted vertically into the placement frame 2 from above the placement frame 2 as in the prior art, There is a space portion 4 into which the tip of the rod-like vibrator 3 cannot be inserted.

  In FIG. 4, 5a indicates a rebar disposed in the vertical direction in the placing frame 2, 5b indicates a rebar disposed in the horizontal direction, and 5c indicates a depth direction. The arrangement | positioning reinforcing bar arrange | positioned is shown, and the said arrangement | positioning reinforcing bar is arrange | positioned in the vertical and horizontal depth direction at intervals, for example, 150 mm to 300 mm.

  In such a case, if the rod-like vibrator 3 can be inserted obliquely rather than in the vertical direction, the tip of the rod-like vibrator 3 can be inserted into the space portion 4, but the rod-like vibrator 3 is inserted in the vertical direction downward. On the other hand, when the rod-like vibrator 3 is inserted obliquely, the rod-like vibrator 3 hits the arranged reinforcing bars 5 on the way, and it becomes difficult to reach the tip of the rod-like vibrator 3 to the bottom or the back of the space portion 4.

  Moreover, for example, when constructing a reinforced concrete structure such as a wing portion having a high concrete placement height, which is connected to the side portion of the box culvert embedded in the natural ground 1, as shown in FIG. 5 and FIG. In the portion 7 where the box culvert body and the wing portion in the concrete placement frame 6 of the wing portion of the box culvert are connected, in addition to the arranged reinforcing bars 8a, 8b, 8c arranged in the vertical and horizontal depth directions, Inclined haunch muscles 9 for reinforcing the connection portion 7 are closely arranged.

  Because of the densely arranged inclined hunting muscles 9, the portion 7 where the box culvert body and the wing portion are connected has a small space for inserting the rod-like vibrator 3 even in the vertical direction, and the tip of the rod-like vibrator 3 is inserted. It is difficult to reach the bottom of the connecting portion 7 in the placement frame 6.

  In addition, since a casting frame with a high casting height has poor visibility, compaction and filling defects are likely to occur at the bottom of the casting frame.

  As described above, due to the shape of the concrete structure, the arrangement of the reinforcing bars, etc., there is a space part in which it is difficult to insert the rod-like vibrator in the concrete casting, and there is a disadvantage that the concrete cannot be compacted in that part. It was.

  The present invention eliminates the above-mentioned drawbacks.

  The vibrator insertion guide for concrete compaction according to the present invention is provided in a reinforced concrete placement frame so as to avoid the installed rebar disposed in the placement frame, and extends in the axial direction and spirally wound. It is characterized in that a vibrator for compacting concrete can be inserted into the guide reinforcing bar.

  The reinforced concrete placement frame has an inclined surface, and the guide reinforcing bar is provided along the inclined surface.

  Further, the reinforced concrete structure of the present invention includes a concrete, a disposed reinforcing bar disposed in the concrete, and a spiral extending in the axial direction provided in the concrete so as to avoid the disposed reinforcing bar. It is composed of a guide rebar that is wound, and a vibrator for compacting concrete can be inserted into the guide rebar when the concrete is placed when constructing a reinforced concrete structure.

  Further, the concrete compaction method of the present invention is a guide in which the arranged reinforcing bars are disposed in the reinforced concrete placing frame, and the guide bars are wound in a spiral shape extending in the axial direction while avoiding the arranged reinforcing bars. A step of providing a reinforcing bar, and a step of inserting a vibrator for compaction of the concrete into the guide reinforcing bar and compacting the placed concrete when placing concrete into the placing frame. It is characterized by becoming.

  According to the present invention, since the rod-like vibrator is inserted into the guide reinforcing bar, the rod-like vibrator can be connected to the bottom portion of the placing frame without coming into contact with obstacles such as the arranged reinforcing bars and the formwork holding material (separator, etc.). And can be moved back and forth. Thereby, there is a great advantage that concrete can be effectively compacted and a sufficiently compacted reinforced concrete structure can be obtained.

  Further, since the vibrator insertion guide is composed of a reinforcing bar wound spirally, even if the vibrator is inserted into the guide, it can be transmitted to the outside of the guide with almost no loss of vibration of the vibrator. The concrete around the vibrator can be compacted in substantially the same way as when there is no.

It is a cross-sectional view of the concrete placement frame which abbreviate | omitted the arrangement | positioning reinforcement for construction of the reinforced concrete structure of 1st Example of this invention. It is explanatory drawing of the vibrator insertion guide for concrete compaction of 1st Example of this invention. It is a cross-sectional view of the concrete placement frame which omitted the arrangement reinforcing bar for construction of the reinforced concrete structure of the 2nd example of the present invention. It is a cross-sectional view of the concrete placement frame for construction of the conventional reinforced concrete structure. It is a cross-sectional view of the concrete placement frame for construction of other conventional reinforced concrete structures. It is the sectional view on the AA line of FIG.

  Embodiments of the present invention will be described below with reference to the drawings. In the drawing, the same or equivalent components as those of the above-described prior art are designated by the same reference numerals, and the description thereof is omitted.

  FIG. 1 shows a vibrator insertion guide for concrete compaction according to a first embodiment of the present invention, which is fixed in a concrete placing frame for constructing a reinforced concrete structure of a slant web portion of a box girder. In FIG. 1, the arrangement reinforcing bars in the placement frame 2 are omitted, but the arrangement of the arrangement reinforcing bars arranged in the placement frame 2 is the same as that described in the prior art and FIG. 4. The same arrangement as described.

  In the first embodiment, as shown in FIG. 2, in the concrete casting frame 2 of the oblique web portion of the box girder, along the inclined ceiling surface 2 a of the casting frame 2 of the oblique web portion, the axial direction A vibrator insertion guide 10 for concrete compaction composed of spiral guide reinforcing bars wound in a spiral shape is fixed.

  Further, the guide 10 avoids the disposed reinforcing bar 5 and the obstacle so that the obstacle such as the disposed reinforcing bar 5 and the formwork holding material (separator or the like) does not enter the spiral. It is fixed in the frame 2.

  Further, the length of the guide 10 is a length from the upper end to the bottom of the placement frame 2.

  Further, the distance between the inclined ceiling surface 2a of the placing frame 2 and the guide 10 may be separated as long as the vibration of the rod-like vibrator 3 can be transmitted to the concrete near the inclined ceiling surface 2a. .

  Moreover, although the spiral diameter of the said guide 10 and its pitch change with the shape of a reinforced concrete structure, arrangement | positioning of arrangement | positioning reinforcement, etc., for example, a spiral diameter is 100 mm and the pitch is 100 mm.

  The shape of the spiral surface of the guide 10 may be an ellipse in addition to a circle. Further, it may be polygonal.

  The axial direction is preferably a linear direction, but may be a curved direction as long as it does not hinder the insertion and back-and-forth movement of the rod-like vibrator 3.

  Since the vibrator compacting guide for concrete compaction according to the first embodiment of the present invention is configured as described above, if the vibrator 3 is inserted into the guide 10, a rod-like shape is formed vertically downward in the placing frame 2. When the vibrator 3 is inserted, the tip of the vibrator 3 can be inserted up to the space portion 4 where the tip of the rod-like vibrator 3 cannot be inserted because of the inclined ceiling surface 2 a of the placing frame 2. Accordingly, concrete is placed in the placement frame 2, the rod-like vibrator 3 is inserted from the upper end of the guide 10, the tip thereof is vibrated, and the rod-like vibrator 3 itself is moved in the front-rear direction in the guide 10. By doing so, the concrete can be compacted from the upper end to the bottom and back of the placement frame 2.

  And if the said rod-shaped vibrator 3 is extracted from the said concrete and the said concrete is solidified, the reinforced concrete structure in which the vibrator insertion guide was embedded can be constructed | assembled.

  According to the first embodiment of the present invention, there is a great advantage that concrete can be effectively compacted and a sufficiently compacted reinforced concrete structure can be obtained.

  In general, the vibration transmission distance of the vibrator of the rod-like vibrator is in the range of about 10 times the diameter of the vibrator. For example, when the diameter of the vibrator is 30 mm, the concrete in the range of 300 mm from the shaft center of the vibrator can be compacted. However, in the guide 10 of the present invention, the reinforcing bars forming the guide 10 are spiraled. Therefore, even if the rod-shaped vibrator 3 is inserted into the guide 10, the vibration of the vibrator of the rod-shaped vibrator can be transferred to the outside of the guide 10 through the gap between the spiral reinforcing bars without damaging the vibration of the vibrator as much as possible. As in the case where the guide 10 is not provided, vibration can be transmitted to a distance of about 10 times the diameter of the vibrator.

  In consideration of the vibration transmission distance of the vibrator, a plurality of the guides 10 may be provided in the placing frame 2 so that the rod-like vibrator 3 can be inserted into each of them.

  Further, the guide 10 may be provided at a place other than the inclined ceiling surface 2a depending on the arrangement of the arranged reinforcing bars in the placement frame 2 and the position of the space portion 4.

  FIG. 3 shows a concrete compaction frame in a concrete placement frame for constructing a reinforced concrete structure of a wing portion with a high concrete placement height, which is connected to a side portion of a box culvert embedded in the natural ground 1. 2 shows a second embodiment of the present invention in which a vibrator insertion guide is fixed. In FIG. 3, the arrangement reinforcing bars in the placement frame 6 are omitted, but the arrangement of the arrangement reinforcing bars arranged in the placement frame 6 is the same as that described in the prior art, FIG. The arrangement is the same as described in FIG.

  In this second embodiment, the shape of the wing portion connected to the box culvert embedded in the natural ground 1 is an inverted triangular shape in cross section, and the connecting portion 7 between the box culvert body and the wing portion is provided with a haunch muscle 9. In the placement frame 6 in which the wing portion is closely arranged, along the lower inclined surface 6a of the placement frame 6 of the wing portion, the vibrator insertion guide 10 for concrete compaction of the first embodiment described above. To fix.

  Further, the guide 10 avoids the disposed reinforcing bars 8 and the obstacles so that the obstacles such as the disposed reinforcing bars 8 and the formwork holding material (separator, etc.) do not enter the spiral. It is fixed in the frame 6.

  Further, the length of the guide 10 is a length from the upper end to the bottom of the placement frame 6.

  Further, the distance between the lower inclined surface 6a of the placing frame 6 and the guide 10 is separated as long as the vibration of the rod-like vibrator 3 can be transmitted to the concrete near the lower inclined surface 6a. Also good.

  The guide 10 has the same spiral diameter, pitch, spiral surface shape, and axial direction as described in the first embodiment.

  In this second embodiment, even if the rod-like vibrator 3 is inserted vertically downward into the placement frame 6, the punch frame 9 is formed by the haunch muscle 9 of the portion 7 where the box culvert body and the wing portion are connected. When the guide 10 is not inserted to the bottom, the guide 10 is fixed along the lower inclined surface 6a by using the lower inclined surface 6a of the wing portion without the hunch streak, so that the connecting portion 7 is driven. The tip of the rod-like vibrator 3 can be inserted to the bottom and the back in the frame 6.

  Accordingly, the concrete is placed in the placement frame 6, the rod-like vibrator 3 is inserted from the upper end of the guide 10, the tip thereof is vibrated, and the rod-like vibrator 3 itself is moved in the front-rear direction in the guide 10. By doing so, it becomes possible to compact the bottom and back concrete of the portion 7 where the box culvert body and the wing portion are connected.

  And in the part in the placement frame 6 without the haunch line, the rod-like vibrator 3 is inserted in the placement frame downward in the vertical direction and the concrete is compacted in the horizontal direction. If repeated at a desired interval, the entire cast concrete can be compacted.

  And if the said rod-shaped vibrator 3 is extracted from the said concrete and the said concrete is solidified, the reinforced concrete structure in which the vibrator insertion guide was embedded can be constructed | assembled.

  Also in the second embodiment of the present invention, as in the first embodiment, there is a great advantage that concrete can be compacted effectively and a sufficiently compacted reinforced concrete structure can be obtained.

  In consideration of the vibration transmission distance of the vibrator of the rod-shaped vibrator 3, a plurality of the guides 10 may be provided in the depth direction of the placing frame 6 in FIG. .

  Further, the guide 10 may be provided at a place other than the lower inclined surface 2a depending on the arrangement of the arranged reinforcing bars in the placement frame 6 and the position of the haunch bars 9.

DESCRIPTION OF SYMBOLS 1 Ground mountain 2 Placing frame 2a Inclined ceiling surface 3 Bar-shaped vibrator 4 Space part 5a Arranged reinforcing bar 5b Arranged reinforcing bar 5c Arranged reinforcing bar 6 Placing frame 6a Lower inclined surface 7 Connecting part 8 Arranged reinforcing bar 9 Haunch muscle 10 Vibrator Insertion guide

Claims (4)

  In the reinforced concrete placement frame, it is provided with a guide rebar that extends in the axial direction and is spirally wound, and is provided around the placement rebar disposed in the placement frame. A vibrator insertion guide for concrete compaction, wherein a vibrator for compaction can be inserted.   The vibrator insertion guide for concrete compaction according to claim 1, wherein the reinforced concrete placement frame has an inclined surface, and the guide reinforcing bar is provided along the inclined surface. Concrete,
An arrangement reinforcing bar arranged in the concrete,
In the concrete, it is provided with a guide reinforcing bar that is provided around the arranged reinforcing bar and that extends in the axial direction and is spirally wound,
A reinforced concrete structure characterized in that a concrete compacting vibrator can be inserted into the guide rebar at the time of placing the concrete when constructing a reinforced concrete structure. In the reinforced concrete placement frame, the step of disposing the disposed reinforcing bars, avoiding the disposed reinforcing bars, and providing the guide reinforcing bars extending in the axial direction and spirally wound,
And a step of inserting a concrete compacting vibrator into the guide rebar and compacting the placed concrete when placing concrete into the placement frame. Concrete compaction method.

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