JP2009036291A - Method for fixing anchor bolt - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an anchor bolt fixing method capable of easily detaching an anchor bolt after assembling without damages such as cracks around a female screw hole, and surely facilitating disassembly of the anchor bolt. <P>SOLUTION: In this method for fixing an anchor bolt 1 screwed in a female screw hole 4, after a coating element 9 is mounted to at least one part of an outer periphery of a screwing part 10 of the anchor bolt 1, the screwing part 10 is screwed in the female screw hole 4. <P>COPYRIGHT: (C)2009,JPO&amp;INPIT

Description

  The present invention relates to a method for fixing an anchor bolt screwed into a female screw hole.

  As a seismic isolation structure used for structures such as buildings and bridges, a seismic isolation structure including a laminated seismic isolation rubber is widely known. This seismic isolation structure has a structure in which a laminated seismic isolation rubber is interposed between a base plate fixed to the lower structure and a sole plate fixed to the upper structure. The above-described base plate and sole plate are generally fixed to a concrete lower structure and upper structure by anchor bolts, respectively. More specifically, a plurality of female screw holes are formed in the base plate and the sole plate, respectively, and the tip end (screwed portion) of the anchor bolt is screwed into these female screw holes. Thereby, a plurality of anchor bolts protrude from the lower surface of the base plate and the upper surface of the sole plate. These anchor bolts are embedded in the concrete of the lower structure or the upper structure.

  As a construction method of the above-mentioned seismic isolation structure, there is a method of assembling a laminated seismic isolation rubber, a base plate and a sole plate in the field. In this case, anchor bolts are previously attached to the base plate and the sole plate to be carried into the site at a factory or the like. At this time, if the anchor bolt is transported in a state of protruding downward, the anchor bolt may loosen due to vibration during transportation, and the anchor bolt may fall out of the female screw hole. On the other hand, if the anchor bolt is transported in a state of protruding upward, the anchor bolt may turn due to vibration during transportation, and the tip of the anchor bolt may protrude from the upper surface of the base plate or the lower surface of the sole plate.

Therefore, conventionally, there is a technique for preventing the anchor bolt from rotating during conveyance by welding the anchor bolt to a base plate or the like. This is a method of fixing the anchor bolt by welding the base portion of the anchor bolt protruding from the base plate or the like to the base plate or the like at a factory or the like (see, for example, Patent Document 1).
Another technique for preventing the rotation of the anchor bolt is to use an adhesive. This is because before the anchor bolt is screwed onto the base plate or the like, a resin adhesive is applied to the screwed portion of the anchor bolt, and then the screwed portion is screwed into the female screw hole to fix the anchor bolt. Is the method. As an adhesive in this method, an anaerobic adhesive that hardens when the supply of air is cut is generally used.
Japanese Patent Laid-Open No. 11-50694

  However, in the prior art based on the above-described welding, a crack may occur around the female screw hole due to welding heat. Moreover, since the fixation by welding is strong, it is difficult to remove the anchor bolt from the base plate or the like after assembly. Therefore, there arises a problem that operations such as readjustment and reassembly during assembly become complicated. Furthermore, when the surface of the base plate or the like is coated with zinc plating or the like, the base plate or the like is hardly welded. For this reason, the base plate or the like is not welded, and the anchor bolt may not be prevented from rotating during conveyance.

  Further, in the conventional technique using the above-described adhesive, when the female screw hole penetrates the base plate and the anchor bolt screwed portion is screwed into the female screw hole, the anaerobic material applied to the screw screw portion is applied. Since the adhesive touches the air, the anaerobic adhesive is difficult to cure. For this reason, an anaerobic adhesive agent does not harden | cure and rotation of the anchor bolt at the time of conveyance may not be prevented.

  In the present invention, the above-described conventional problems are considered, damage such as cracks does not occur around the female screw hole, anchor bolts can be easily removed after assembly, An object of the present invention is to provide an anchor bolt fixing method capable of reliably preventing the anchor bolt from rotating at times.

An anchor bolt fixing method according to the present invention is an anchor bolt fixing method that is screwed into a female screw hole, and after attaching a covering to at least a part of an outer peripheral surface of a screwed portion of the anchor bolt, The screwing portion is screwed into the female screw hole.
With such a feature, once the cover is sandwiched in the gap between the screw threads of the female screw hole and the screwed portion, and the screwed portion is once screwed into the female screw hole, the anchor bolt is difficult to rotate.

In the anchor bolt fixing method according to the present invention, it is preferable that the covering body is attached to a portion of the screwed portion on the rear end side in the bolt screwing direction.
Thereby, when screwing the threaded portion into the female screw hole, the anchor bolt is easily rotated without the covering at first.

In the anchor bolt fixing method according to the present invention, it is preferable to use a polymer material as the covering.
Thereby, when screwing the screwed portion into the female screw hole, the anchor bolt can be tightened relatively easily even if the cover is sandwiched between the screw threads.

Furthermore, it is preferable to use a rubber material as the above-described covering.
Thereby, when screwing the screwed portion into the female screw hole, the anchor bolt can be further tightened even if the cover is sandwiched between the screw threads.

In the anchor bolt fixing method according to the present invention, it is preferable to use a belt-like member wound around the screwed portion as the covering.
Thereby, it is possible to change the thickness of the covering body attached to the screwing portion by adjusting the winding amount of the belt-like covering body wound around the screwing portion.

In addition, in the anchor bolt fixing method according to the present invention, an annular member that fits into the screwed portion may be used as the covering body.
As a result, the covering body is attached to the screwing portion simply by fitting the annular covering body to the screwing portion.

  According to the anchor bolt fixing method of the present invention, once the screwed portion is screwed into the female screw hole, the anchor bolt is difficult to rotate, and the anchor bolt can be reliably prevented from rotating during transportation. it can. Further, since only the covering is attached to the screwed portion, the peripheral portion of the female screw hole is not damaged. Further, the assembled anchor bolt is firmly screwed into the female screw hole to such an extent that it does not rotate due to vibration or the like, but can be easily removed by using a tool or the like.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of an anchor bolt fixing method according to the present invention will be described with reference to the drawings. FIG. 1 is a diagram illustrating a method of fixing the anchor bolt 1 in the present embodiment.

  This embodiment is an example of the anchor bolt fixing method according to the present invention, and is a method of fixing the anchor bolt 1 to the base plate 2 and the sole plate 3 used in the seismic isolation structure 5 shown in FIG.

First, the configuration of the above-described seismic isolation structure 5 will be described. FIG. 2 is a cross-sectional view showing the seismic isolation structure 5.
As shown in FIG. 2, the seismic isolation structure 5 is a structure for isolating a concrete structure such as a concrete bridge, and includes a lower structure 6 such as a bridge pier and an upper structure 7 such as a main girder and a floor slab. Intervened in between. The seismic isolation structure 5 includes a base plate 2 fixed to the upper end surface of the lower structure 6 by the anchor bolt 1, a sole plate 3 fixed to the lower surface of the upper structure 7 by the anchor bolt 1, and the base plate 2 and the sole plate 3. And a laminated seismic isolation rubber 8 interposed therebetween.

  The laminated seismic isolation rubber 8 has a configuration in which a laminated rubber body 82 is interposed between a lower rod 80 and an upper rod 81. The laminated seismic isolation rubber 8 has a configuration in which steel plates and rubber layers are alternately laminated. The lower rod 80 and the upper rod 81 are plates made of steel plates or the like, and are respectively bolted to the laminated seismic isolation rubber 8. Further, the outer edge portions of the lower rod 80 and the upper rod 81 are projected in a flange shape to the side of the laminated seismic isolation rubber 8, and are bolted to the base plate 2 and the sole plate 3, respectively.

  The base plate 2 and the sole plate 3 are plates made of steel plates or the like. A plurality of female screw holes 4 for screwing the anchor bolts 1 are formed in the base plate 2 and the sole plate 3, respectively. These female screw holes 4 penetrate the base plate 2 and the sole plate 3 in the vertical direction.

  The anchor bolt 1 is a rod-shaped steel member that is screwed into the female screw hole 4 and protrudes from the base plate 2 and the sole plate 3 respectively. More specifically, one end of the anchor bolt 1 is a male screw-like screwed portion 10, and this screwed portion 10 has a female screw hole in the base plate 2 or the sole plate 3 described above. 4 is screwed. Thereby, the anchor bolt 1 is attached to the base plate 2 and the sole plate 3. In addition, the anchor bolt 1 has a round bar-shaped fixing portion 11 other than the screwed portion 10, and this fixing portion 11 is embedded and fixed in the concrete of the lower structure 6 or the upper structure 7. Yes.

  The anchor bolt 1 attached to the base plate 2 protrudes downward from the lower surface of the base plate 2. The tip end surface of the threaded portion 10 of the anchor bolt 1 is substantially flush with the upper surface of the base plate 2. On the other hand, the anchor bolt 1 attached to the sole plate 3 protrudes upward from the upper surface of the sole plate 3. The front end surface of the threaded portion 10 of the anchor bolt 1 is substantially flush with the lower surface of the sole plate 3.

  When constructing the seismic isolation structure 5 having the above-described configuration, it is transported to the site with the anchor bolts 1 attached to at least the base plate 2 and the sole plate 3 at a factory or the like in advance. At this time, in order to prevent the anchor bolt 1 from turning due to vibration during conveyance, the anchor bolt 1 screwed into the female screw hole 4 is fixed by the following method as shown in FIG.

  First, a process of attaching the covering body 9 to the outer peripheral surface of the threaded portion 10 of the anchor bolt 1 is performed. More specifically, as the covering 9, a belt-shaped member made of a polymer material such as polyvinyl chloride is prepared, and this is wound around the screwing portion 10. At this time, the covering body 9 is not wound around the front end side portion of the screwing portion 10 in the screwing direction A, and is wound around the entire periphery of the screwing portion 10 around the rear end side portion of the screwing portion 10 in the screwing direction A. Wrap it. The above-described screwing direction A means a direction in which the anchor bolt 1 travels when the screwed portion 10 is screwed into the female screw hole 4, and is a downward direction in FIG.

  More specifically, the covering 9 is wound around the screwed portion 10 a plurality of times so that a part of the covering 9 covers the fixing portion 11. The winding amount of the covering body 9 is appropriately determined according to the size of the gap between the screw thread of the screwing portion 10 and the screw thread of the female screw hole 4 and the thickness of the covering body 9. As the covering 9, it is preferable to use an adhesive tape having an adhesive surface, and for example, a commercially available vinyl tape can be used.

  Next, a process of attaching the anchor bolt 1 to the base plate 2 or the sole plate 3 by screwing the screwed portion 10 of the anchor bolt 1 into the female screw hole 4 is performed. More specifically, when the anchor bolt 1 is attached to the base plate 2, the screw portion 10 is screwed into the female screw hole 4 from the lower surface side of the base plate 2. On the other hand, when the anchor bolt 1 is attached to the sole plate 3, the screw portion 10 is screwed into the female screw hole 4 from the upper surface side of the sole plate 3. 1 is the lower surface side of the base plate 2 and the upper surface side of the sole plate 3. The anchor bolt 1 is screwed into the female screw hole 4 until the tip surface of the screwed portion 10 is substantially flush with the upper surface of the base plate 2 and the lower surface of the sole plate 3. At this time, at the last place where the rear end side portion of the screwed portion 10 is screwed into the female screw hole 4, the cover 9 wound around the rear end side portion of the screwed portion 10 is screwed into the female screw hole 4. It is sandwiched in the gap between the threads with the landing part 10. As a result, the anchor bolt 1 is firmly screwed into the female screw hole 4 and is difficult to turn. Therefore, it is preferable that the final tightening of the anchor bolt 1 is performed using a fastener such as a pipe wrench or a chain wrench.

  According to the fixing method of the anchor bolt 1 described above, the cover 9 is attached to the screw portion 10 and then the screw portion 10 is screwed into the female screw hole 4, and the female screw hole 4 and the screw portion 10 are fixed. Since the cover 9 is sandwiched between the screw threads, the anchor bolt 1 is difficult to rotate once the screwed portion 10 is screwed into the female screw hole 4. Thereby, even if the base plate 2 and the sole plate 3 are transported with the anchor bolt 1 attached, the anchor bolt 1 can be prevented from rotating due to vibration during transportation. Therefore, the screwed portion 10 does not loosen during the transfer of the base plate 2 or the sole plate 3 with the anchor bolt 1 so that the anchor bolt 1 does not fall out of the female screw hole 4, and the anchor bolt 1 does not rotate. Thus, the tip of the screwing portion 10 does not protrude from the upper surface of the base plate 2 or the lower surface of the sole plate 3.

Moreover, since the anchor bolt 1 is fixed only by attaching the cover 9 to the screwed portion 10, damage such as cracks may occur around the female screw holes 4 of the base plate 2 and the sole plate 3. Absent. Thereby, the seismic isolation structure 5 without a defect can be constructed.
Further, the assembled anchor bolt 1 is firmly screwed into the female screw hole 4 to such an extent that it does not rotate due to vibration or the like, but can be easily removed by using a tool or the like. Thereby, the operation | work which readjusts the seismic isolation structure 5, or disassembles once and reassembles can be performed easily.

  Moreover, in the fixing method of the anchor bolt 1 described above, since the covering body 9 is mounted on the rear end side portion of the screwing portion 10 in the bolt screwing direction A, the screwing portion 10 is attached to the female screw hole 4. At the time of screwing, the anchor bolt 1 is easily rotated without the covering body 9 at first. Thereby, compared with the case where the covering body 9 is attached to the entire screw part 10 or the front end side part, the screwing operation of the anchor bolt 1 is facilitated, and the workability can be improved.

  Moreover, in the fixing method of the anchor bolt 1 described above, since the covering body 9 made of a polymer material is used, when the screwing portion 10 is screwed into the female screw hole 4, the covering body 9 is between the screw threads. The anchor bolt 1 can be turned relatively easily even if it is pinched. Thereby, the screwing operation | work of the anchor bolt 1 becomes easy and workability | operativity can be improved.

  Moreover, in the fixing method of the anchor bolt 1 described above, since the band-shaped covering body 9 wound around the screwing portion 10 is used, by adjusting the winding amount of the band-shaped covering body 9 wound around the screwing portion 10, It is possible to change the thickness of the covering 9 attached to the screwing portion 10 as appropriate. Accordingly, the thickness of the cover 9 is set to the size of the gap between the screw thread of the female screw hole 4 and the screw thread of the screwed portion 10 without preparing a plurality of types of cover bodies having different thicknesses. The thickness can be set according to the thickness.

As mentioned above, although embodiment of the fixing method of the anchor bolt concerning this invention was described, this invention is not limited to above-described embodiment, In the range which does not deviate from the meaning, it can change suitably.
For example, in the above-described embodiment, the belt-shaped covering body 9 is wound around the screwing portion 10, but the covering body of the present invention is not limited to this, and as shown in FIG. It is also possible to use an annular covering body 109 that fits into 10. By using such an annular covering body 109, it is possible to attach the covering body 109 to the screwing portion 10 simply by fitting the annular covering body 109 to the screwing portion 10. Therefore, the screwing operation of the anchor bolt 1 is facilitated, and the workability can be improved.
Furthermore, the present invention is not limited to the method of winding the belt-shaped covering body 9 around the screwing portion 10 or fitting the annular covering body 109 to the screwing portion 10, and the covering body is attached to the screwing portion by other means. It is also possible to install. For example, a liquid or slime coating material may be applied to the screwing portion, and after the coating material is solidified to form a covering, the screwing portion may be screwed into the female screw hole.

Further, in the above-described embodiment, the covering body 9 made of a polymer material such as polyvinyl chloride is attached to the screwed portion 10, but the present invention uses a thing made of a rubber material in particular as the covering body. You can also. For example, a ring-shaped rubber packing or the like can be used as the annular covering 109 shown in FIG. Thereby, when screwing the threaded portion 10 into the female screw hole 4, the anchor bolt 1 can be rotated more easily even if the cover 109 is present. Therefore, the screwing operation of the anchor bolt 1 becomes easy and workability can be improved.
Furthermore, in the present invention, a polymer material other than a rubber material or polyvinyl chloride can be used as a covering, or a covering made of a low molecular material can be used.

  In the above-described embodiment, the method for fixing the anchor bolt 1 used in the seismic isolation structure 5 including the laminated seismic isolation rubber 8 is described. However, the present invention is not limited to this, and the laminated It is also possible to fix an anchor bolt used in a seismic isolation structure including a seismic isolation device other than the seismic rubber 8. Furthermore, the present invention is not limited to the method of fixing the anchor bolt used for the seismic isolation structure, for example, it is also possible to fix the anchor bolt used for the support structure interposed between the pier and the main girder, It is also possible to fix anchor bolts used for installing other machines.

  Further, in the above-described embodiment, the female screw hole 4 into which the screwing portion 10 of the anchor bolt 1 is screwed is formed in the base plate 2 and the sole plate 3, but the present invention is a female screw hole formed in the plate. The method is not limited to the method of fixing the anchor bolt screwed into the screw hole, and the shape and the like of the member in which the female screw hole is formed can be appropriately changed. For example, a female screw hole may be formed in the block-shaped member, or an anchor bolt may be screwed into the long nut-shaped member.

  In the above-described embodiment, the female screw hole 4 penetrates the base plate 2 and the sole plate 3, but the present invention can also fix an anchor bolt screwed into a non-penetrated female screw hole. It is.

  In the above-described embodiment, the cover 9 is attached to the rear end portion of the screwing portion 10 in the bolt screwing direction A. However, the present invention is not limited to at least a part of the screwing portion. What is necessary is just to mount | wear with a covering. For example, it is possible to attach a covering to the front end side portion of the screwing portion in the bolt screwing direction, or to attach a covering to the central portion of the screwing portion, and It is also possible to attach the covering to the entire screwed portion.

  In addition, in the range which does not deviate from the main point of this invention, it is possible to replace suitably the component in above-mentioned embodiment with a well-known component, and you may combine the above-mentioned modification suitably.

It is a figure showing the fixing method of the anchor bolt for demonstrating embodiment of this invention. It is a figure showing the structure of the seismic isolation structure for demonstrating embodiment of this invention. It is a figure showing the fixing method of the anchor bolt for demonstrating other embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Anchor bolt 4 Female screw hole 9 Covering body 10 Screwing part 109 Covering body

Claims (6)

An anchor bolt fixing method for screwing into a female screw hole,
A method of fixing an anchor bolt, comprising: attaching a covering to at least a part of an outer peripheral surface of a screwed portion of the anchor bolt; and screwing the screwed portion into the female screw hole. The anchor bolt fixing method according to claim 1,
The said covering body is mounted | worn to the part of the rear end side of the bolt screwing direction among the said screwing parts, The fixing method of the anchor bolt characterized by the above-mentioned. In the anchor bolt fixing method according to any one of claims 1 and 2,
The anchor bolt fixing method, wherein a polymer material is used as the covering. In the anchor bolt fixing method according to claim 3,
A method for fixing an anchor bolt, wherein a rubber material is used as the covering body. In the anchor bolt fixing method according to any one of claims 1 to 4,
A fixing method for an anchor bolt, wherein a belt-like member wound around the screwed portion is used as the covering body. In the anchor bolt fixing method according to any one of claims 1 to 4,
An anchor bolt fixing method, wherein an annular member that fits into the threaded portion is used as the covering body.

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