JPH0978544A - Work execution method for concrete guard fence and concrete guard fence - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve the workability of a concrete guard fence. SOLUTION: Precast concrete plates 1, 1 are installed on both sides across the stanchions S of an existing guard fence. Concrete 24 is filled between the precast concrete plates 1, 1 on both sides from the gap 23 between the upper sections of the precast concrete plates 1, 1. The precast concrete plates 1, 1 are used as a formwork, the concrete 24 is filled at the site, and the filled concrete 24, the precast concrete plates 1, 1, and the stanchions S of the existing guard fence are integrated.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a concrete guard fence construction method and a concrete guard fence, and more particularly to a concrete guard fence construction method and a concrete guard fence using an existing guard rail or its columns.

[0002]

2. Description of the Related Art A guard fence is provided mainly to prevent a vehicle deviating from a driving lane from departing from a road or an oncoming diagonal line, and must have a sufficient deviation preventing effect. Further, in an emergency situation such as a brake trouble, it is also used for making an emergency stop by rubbing the vehicle against a fence, and sufficient stability and impact strength are required. Then, instead of the conventional steel guard fence, attention has been paid to a concrete guard fence having excellent strength and durability, for example, Japanese Utility Model Laid-Open No. 2-11821 (Japanese Utility Model Application No. 63-887).
No. 99), fixing means are provided on both lower sides of the protective wall body, and the fixing means is fixed to the roadbed through the fixing means (Japanese Utility Model Application No. Sho 63)
-88799, Microfilm, page 7, lines 3-4)
A concrete protective wall is known, and as a means for improving the strength of a concrete guard fence, in Japanese Utility Model Laid-Open No. 6-57918 (Japanese Utility Model Application No. 5-1258),
A PVC pipe is buried in the upper part of the guard fence,
A PC steel material, which is a lateral tightening member, is inserted into this pipe (the microfilm No. 0011 of Japanese Utility Model Application No. 5-1258).
A concrete guard fence is known in which tension is applied to the concrete guard fence by its PC steel material. This concrete guard fence is used as a concrete foundation by inserting anchor bolts into the mounting pipes provided on the bottom of both sides. It is fixed (the same 0013th stage).

[0003]

Since the above-mentioned conventional protective wall and concrete guard fence are fixed to the foundation by a fixing member and an anchor bolt, respectively,
There was a point that the installation work on site took time and effort. Further, since the fixing member is provided so as to project laterally on the protective wall, there is a risk that the vehicle wheel may hit the fixing member. On the other hand, in the concrete guard fence, since the upper part of the anchor bolt is housed in the mounting recess (the microfilm No. 0010 of Japanese Patent Application No. 5-1258), the anchor bolt projects to the outer surface of the concrete guard fence. Safe without
A mounting recess had to be formed in the concrete guard fence, which is preferably less uneven.

Further, when constructing the above-mentioned protective wall or the like on a road, there are cases where it is restricted by the place of installation after being carried in or the suspension due to installation, and depending on the construction conditions, if it is bulky longer than a predetermined length, It is expected that the construction will not be possible, and conversely, if the length of one protection wall is shortened, there is a problem that the workability is deteriorated. Further, in the above concrete guard fence, in order to apply tension in the length direction, it is necessary to bury the pipe in the factory and to insert the lateral tightening member into the pipe.

Therefore, an object of the present invention is to provide a concrete guard fence construction method and a concrete guard fence which are excellent in workability without exposing the fixing structure.

[0006]

According to the invention of claim 1, precast concrete slabs are provided on both sides of a guard fence of an existing guard fence, and the precast concrete on both sides of the precast concrete slabs is provided through a gap provided between upper portions of the precast concrete slabs. A concrete guard fence construction method characterized in that concrete is filled between the plates, and the concrete and the precast concrete plate are integrated.

A second aspect of the present invention is the method for constructing a concrete guard fence according to the first aspect, wherein tension is applied in the length direction of the concrete guard fence after the concrete is hardened.

According to a third aspect of the present invention, the lateral fastening member is arranged in the length direction of the concrete guard fence before the concrete is filled, and after the concrete is hardened, both sides of the lateral fastening member are pulled obliquely upward. The construction method according to claim 2, wherein the tension is applied.

A fourth aspect of the present invention is characterized in that it is made of precast concrete and has an insertion hole for inserting a post of an existing guard fence in the bottom surface and a filling hole for connecting the insertion hole and the outer surface. It is a concrete guard fence.

A fifth aspect of the present invention is the concrete guard fence according to the fourth aspect, wherein the bottom surface side of the insertion hole is larger than the upper portion.

[0011]

In the structure of claim 1, the precast concrete slab is used as a formwork to fill the concrete on site, and the filled concrete and the precast concrete slab are integrated with the columns of the existing guard fence to construct the concrete guard fence. .

In the structure of claim 2, the strength of the concrete guard fence is improved by the tension force applied in the length direction.

According to the third aspect of the present invention, since the PC steel material is arranged before the concrete is filled, it is not necessary to insert the PC steel material after the filling. Further, in the concrete guard fence continuous in the length direction, both ends of the PC steel material are pulled obliquely upward, so that a tension force can be applied within a predetermined section of the concrete guard fence.

According to the fourth aspect of the present invention, the concrete guard fence is installed by aligning the insertion hole with the existing pillar, and the filler is filled from the filling hole into the insertion hole to integrate the concrete guard fence with the pillar of the existing guard fence. Attach to.

In the structure of claim 5, since the bottom surface side of the insertion hole is large, it is easy to align the insertion hole with the support.

[0016]

Embodiments of the present invention will be described below with reference to the accompanying drawings. 1 to 4 show a first embodiment of the present invention, in which a precast concrete slab 1 for a guard fence which also serves as a formwork (hereinafter, concrete slab 1
Is a flat plate having an almost constant thickness, and is diagonally installed on both sides of an existing guard fence made of steel or the like on both sides of the pillar S, and the upper and lower edges thereof. The parts 2U and 2D are formed obliquely. Further, the concrete slab 1 has a plurality of embedded reinforcing bars 3 embedded therein in the height direction and the length direction, and is welded to the embedded reinforcing bars 3 or the embedded reinforcing bars 3 are bent to attach substantially U-shaped concrete. The reinforcing bars 4 are integrally provided, and a plurality of the reinforcing bars 4 are attached to the back surface 5 of the concrete slab 1 so as to project in the vertical direction and the width direction. Further, the upper end of the buried reinforcing bar 3 is projected on the back surface 5 of the concrete slab 1 to form a reinforcing bar connecting portion 3A, and the lower end 3B of the buried reinforcing bar 3 is projected on the back surface 5. Further, the holder 6 for holding the space between the upper portions of the concrete slabs 1, 1 on both sides has a plurality of inserts 7 each having a female screw portion embedded in the upper edge portion 2U, and a hole of a spacer 8 formed of an angle or the like (not shown). ), And the inserted bolt 9 is screwed to the insert 7.

A PC steel material 11 as a lateral fastening member is arranged in the length direction of the concrete guard fence 10.
11 is a steel sheath or duct (not shown), and the PC steel material 11 is a twisted wire of PC steel wire. The PC steel material 11 has an epoxy coating and an ampoule PC steel material to prevent rust. Has been processed. Further, fixing tools 12 are provided on both sides of the PC steel material 11.
Is a sleeve 13 having a tapered hole 13A therein, and a truncated conical clip 14 whose front side is pressed against the tapered hole 13A.
And a crimp hole 15 having a plurality of projections in the circumferential direction is provided at the center of the clip 14, and the crimp hole 15 is formed.
Is formed with four notches 15A communicating with the fixing member 12, and the fixing tool 12 is used via a pressure plate 16 having a hole, and the pressure-bonding hole 15 having the protrusion is pressure-bonded to the PC steel material 11. 17 in the figure
Is a spacing member that holds the spacing between the lower parts of the concrete slabs 1 and 1 on both sides. This spacing member 17 is provided with bent portions 19 that are bent upward on both sides of a flat plate portion 18 made of steel or the like. The bent portion 19 is engaged with the lower surface of the concrete slab 1.

Next, the construction method of the concrete guard fence 10 using the concrete slab 1 will be explained. First, the lower part is driven and fixed to the existing foundation road base 21 made of existing soil or crushed stone compacted soil. If necessary, a strip-shaped protection plate and a wire (not shown) hung between the support columns S and S were removed from the support column S of the existing guard fence, and in FIG. 1, the protection plate was removed. Prop S
Is shown. A height adjusting mortar 22 shown by a trapezoidal cross section in FIG. 1 is provided on the base roadbed 21, and the height adjusting mortar 22 adjusts the height to provide a spacing member 17. Next, sandwich the columns S on both sides of the concrete plates 1, 1
And the lower part of the concrete slab 1 is positioned by the bent portion 19. In this positioning state, a binding wire (not shown) such as a wire is wound around the overlapping portions of the reinforcing bar connecting portions 3A, 3A of the concrete slabs 1, 1 on both sides to bind them together. In addition, a bolt 9 is inserted into the spacer 8 and the bolt 9 is screwed to the insert 7, whereby the upper portions of the concrete slabs 1 and 1 on both sides are positioned, and the upper edge portion 2U of both concrete slabs 1 and 1 is positioned. , 2U between the 2U, filled with concrete 23
Is provided. Also, the PC steel material 11 inserted into the sheath is placed above the concrete slabs 1 and 1 on both sides, and as shown in FIG. 3, both end portions 11A and 11A of the PC steel material 11 are placed obliquely upward. Then, these end portions 11A are exposed and arranged in a concave form (not shown) provided in the upper part of the center of the concrete slab in the longitudinal direction, and the upper part of the concave form is open. Also, as shown in FIG.
The end portions 11A and 11A 'of the C steel materials 11 and 11' are arranged so as to cross each other like crossing, and the overlapping portion 27 is formed at the end portions 11A and 11A '. The PC steel material 11 'having the end 11A' has the same structure as the PC steel material 11 having the end 11A. In this way, the P inserted into the concrete plates 1 and 1 and the sheath
After arranging the C steel material 11 and the
24 is filled, and the filled concrete 24 is filled between the concrete slabs 1 and 1 without leaking to the lower portion by the spacing member 17. When the filled concrete 24 has hardened to a strength capable of giving tension, the PC steel material 11 is tensioned. In this case, if the mold for the recess is removed,
After that, a fixing recess 25 is formed, and the end portion 11A is exposed in the fixing recess 25 having an opening at the upper portion.
Through the pressure bearing plate 16 and the clip 14 combined with the sleeve 14 and pulling the inserted end 11A obliquely upward with a predetermined tension force by a jack or the like, whereby the length direction of the concrete guard fence 10 is increased. Give tension to. In this case, the clip 14 bites into the taper hole 13A of the sleeve 13 by a wedge action and cuts 15
The crimp hole 15 provided with A is crimped to the end portion 11A to fix the end portion 11A. Then, loosen the bolt 9 to remove the holder 6,
If necessary, the fixing recess 25 is filled with a filler (not shown) such as mortar after the tension is applied,
The recess 25 is aligned with the upper surface of the concrete guard fence 10 and finished flat. Also, pavement material 26 or seal concrete is cast on both sides of the concrete guard fence 10 to finish.

As described above, in this embodiment, according to claim 1, precast concrete slabs 1, 1 are provided on both sides of the existing guard fence strut S, and the space between the upper parts of the precast concrete slabs 1, 1 is set. Since the concrete 24 is filled between the precast concrete slabs 1 and 1 on both sides from the gap 23 provided and the concrete 24 and the precast concrete slabs 1 and 1 are integrated, the precast concrete slab 1 is used as a formwork. As the concrete guard fence 10 can be formed by filling the concrete 24 at the site and integrating the filled concrete 24 and the precast concrete slab 1 with the pillar S of the existing guard fence, the workability is excellent. Since the existing support column S is taken in and used, its additional strength is taken into consideration. Without requiring withdrawal removal of S, if the simplification of the fixing structure can be achieved, replacing the existing guard fence consisting of steel or the like to a concrete, is particularly effective. Furthermore, since both sides of the concrete guard fence 10 are formed by the concrete slab 1 having a flat and smooth surface, and the fixing structure is not exposed, the vehicle is excellent in safety. Furthermore, at the site, precast concrete slab 1
Since only the installation is required, no space is required when carrying in, and the hanging work accompanying the installation can be easily performed.

As described above, in this embodiment, according to the second aspect of the present invention, the concrete 24 is hardened to a strength capable of giving a tension, and then the tension is applied in the length direction of the concrete guard fence 10. Therefore, the precast plate 1 and the concrete 24 are combined with each other by the tension force applied in the lengthwise direction to act as an effective whole cross section, and the strength of the concrete guard fence 10 can be improved.

As described above, in this embodiment, according to the third aspect, before filling the concrete 24, the PC steel material 11 as the lateral fastening member is arranged in the length direction between the precast plates 1 and 1 on both sides, and After hardening of 24, it is a construction method in which both sides of the PC steel material 11 are pulled obliquely upward to give a tension force. Therefore, since the PC steel material 11 is arranged, the PC steel material after the filling is placed.
The work of inserting 11 is unnecessary, and in the concrete guard fence 10 continuous in the length direction, PC steel material
Since both ends of 11 are pulled diagonally upward, tension can be easily applied to each of the concrete guard fences 10 within a predetermined section without connecting the PC steel material 11 in the middle. In this case, the PC steel material 11 may be arranged before the precast plate 1 is installed before the concrete 24 is filled.

Further, as an effect of the embodiment, since a plurality of attaching rebars 4 and a lower end 3B which is an attaching rebar are projected on the back surface 5 of the precast plate 1, the filled concrete 24 and the precast plate 1 are Are integrated. Furthermore, since the reinforcing bar connecting portion 3A is provided on the upper portion of the back surface 5, the precast plates 1 and 1 on both sides can be provisionally positioned by binding the mutual reinforcing bar connecting portions 3A and 3A together. The space between the upper parts of the concrete slabs 1 and 1 on both sides can be stably held by the holder 6.
In addition, a spacing member that is locked to the bottom of the concrete slab 1
With 17, it is possible to easily position the lower parts of the concrete slabs 1, 1 on both sides. Further, by changing the widths of the spacer 8 and the spacing member 17, the concrete guard fence 10 having an appropriate thickness can be constructed. Furthermore, the end portions 11A, 11A 'of the adjacent PC steel materials 11, 11'
Since the overlapping portions 27 are formed at the end portions 11A and 11A ′, the tension force is not interrupted between the adjacent PC steel materials, and the PC steel materials 11 and 11 ′ extend the entire length of the concrete guard fence 10. Tension can be applied across.

5 to 10 show a second embodiment of the present invention. The same parts as those in the first embodiment are designated by the same reference numerals, and detailed description thereof will be omitted. The concrete guard fence 31
Vertical faces 33 are provided on both sides of a lower part of a side face 32 that slightly expands downwardly, and an embedded reinforcing bar 34 is embedded inside. Also, the bottom surface of the concrete guard fence 31.
An insertion hole 36 is formed in 35, and a plurality of insertion holes 36 are formed corresponding to the existing guard fence S made of steel or the like. The insertion hole 36 has a taper shape that contracts upward from the bottom surface 35 side, and the pillar S is loosely inserted into the insertion hole 36. Further, a filling hole that connects the upper portion of the insertion hole 36 and the upper surface 37 that is the outer surface of the concrete guard fence 31.
38 is formed, and the filling hole 38 has a smaller cross-sectional area than the insertion hole 36. Further, a spiral reinforcing bar 39 is embedded inside the concrete guard fence 31 located around the insertion hole 36. still,
An oblique filling hole may be formed above the insertion hole 36, and the oblique filling hole may be opened to the side surface 32.

At the center of one end face in the length direction of the concrete guard fence 31, a ridge 40 having a substantially semicircular plane is provided vertically, and at the other end in the length direction, the ridge 40 is engaged. The groove 41 is provided vertically. In addition, at the upper ends of both ends of the concrete guard fence 31, there are formed connecting recesses 42 having side openings and upper openings 42A, and the concrete guard fence 31 corresponding to the mounting recesses 42 is formed. A pipe 43 made of vinyl chloride is embedded in the upper part of this, and a PC steel material 44 that is a lateral fastening member is inserted into this pipe 43.
The connection end portions 44A having 44 threaded portions face the connection recesses 42, respectively, and the connection end portions 44A, 44A are connected to each other by the coupler 45. In addition, the PC steel material 44,
It is prestressed in advance and fixed by the fixing tool 46.

Next, the concrete guard fence 31
Explaining about the construction method of, first, from the pillar S of the existing guard fence fixed by driving the lower part to the foundation roadbed 47 made of the existing soil part or crushed stone compacted soil, between these pillars S, S Remove the band-shaped protective plate and wires (not shown) that have been hung over, and remove the concrete guard fence 31
The concrete guard fence 31 is hoisted as shown in FIG. 8 by using a hoisting metal fitting (not shown) or the like provided on the upper surface 37, and the insertion hole 36 of the bottom surface 35 is hoisted down according to the existing support S. With the support S inserted in the insertion hole 36, the insertion hole 36
Since there is a gap between the column S and the pillar S, the adjacent concrete guard fences 31 can be aligned with each other.
40 and the receiving groove 41 are engaged with each other to connect the adjacent concrete guard fences 31 and 31 to each other, and the coupler 45 connects them to each other.
The connection end portions 44A, 44A of the steel material 44 are connected to rigidly connect the plurality of concrete guard fences 31, 31 in the length direction.
Further, the concrete 48 is filled into the gap between the insertion hole 36 and the support S from the filling hole 38 in the upper portion, and the concrete 48 is filled with the concrete 48.
To the top of the container as shown in FIG. Then, the filled concrete 48 is hardened, so that the concrete guard fence 31 is fixed to the foundation roadbed 47 via the pillar S. Further, in this fixed state, since the spiral reinforcing bar 39 is provided surrounding the insertion hole 36,
Even if the vehicle collides with the concrete guard fence 31 and the impact force concentrates on the insertion hole 36 portion, damage from the insertion hole 36 portion can be prevented.

As described above, in this embodiment, according to the fourth aspect, the insertion hole 36 made of precast concrete, into which the pillar S of the existing guard fence is inserted, and the insertion hole 36 and the upper surface 37 which is the outer surface are formed. Since it is the concrete guard fence 31 having the filling hole 38 that communicates with, the concrete guard fence 31 is installed by aligning the insertion hole 36 with the existing support S, and the concrete as the filling material from the filling hole 38 to the insertion hole 36. Filling 48 and supporting pillar S of the existing guard fence
Since the concrete guard fence 31 can be integrally attached to, the fixing structure can be simplified and the workability can be improved. In addition, since it is not necessary to expose the fixing structure or provide unevenness on the surface, the vehicle has excellent safety.

As described above, in this embodiment, since the bottom surface 35 side of the insertion hole 36 is larger than the upper portion, the position of the insertion hole 36 with respect to the support S can be easily adjusted during the hanging operation. At the same time, the support S can be prevented from hitting the edge of the insertion hole 36 on the side of the bottom surface 35 at the time of insertion, and both are not damaged.

Further, as an effect of the embodiment, by providing the spiral reinforcing bar 39 around the insertion hole 36,
The mounting strength of the concrete guard fence 31 can be improved. Further, since a plurality of insertion holes 36 are provided in one concrete guard fence 31 in accordance with the intervals of the columns S of the existing guard fence made of steel or the like, the vehicle collides with one side in the length direction of the concrete guard fence 31. Even if the rotating force about the pillar S acts on the concrete guard fence 31, it is possible to prevent the rotation by the plural pillars S. In addition, the adjacent concrete guard fences 31, 31 are Since the engagement between the 40 and the receiving groove 41 and the connection by the coupler 45, the continuous concrete guard fences 31, 31 as a whole can resist the impact of the vehicle. In addition, the insertion hole 36 from the column S
Since the pillar is formed large, the concrete guard fence 31 can be aligned after the pillar S is inserted and arranged in the insertion hole 36.

It should be noted that the present invention is not limited to the above-described embodiments, but various modifications can be made within the scope of the present invention. For example, the shape, size, size, etc. of the concrete slab 1 and the concrete guard fence 31 can be appropriately selected. In addition, in the first embodiment, the existing guard fence in which the protection plate and the wires are laid together with the support column S may be embedded in the concrete 24. Further, the spacers 8 are attached to the precast plates 1 on both sides.
1 is provided at a lower position of the upper edge portions 2U, 2U of the spacer 8
May be embedded in the concrete 24. Further, the insertion hole 36 is not limited to a round cross section and may have a square cross section or the like as long as the column S can be inserted.

[0030]

According to the invention of claim 1, precast concrete slabs are provided on both sides of the existing guard fence pillars, and concrete is provided between the precast concrete slabs on both sides through a gap provided between upper portions of these precast concrete slabs. Is a construction method of a concrete guard fence, characterized in that this concrete and the precast concrete plate are integrated.
It is possible to provide a method for constructing a concrete guard fence having excellent workability without exposing the fixed structure.

The invention of claim 2 is a method for constructing a concrete guard fence according to claim 1, wherein after the concrete is hardened, a tension force is applied in the length direction of the concrete guard fence. It is possible to provide a method for constructing a concrete guard fence which is excellent in workability because strength is improved by applying force and the fixed structure is not exposed.

According to a third aspect of the present invention, the lateral fastening member is arranged in the length direction of the concrete guard fence before the concrete is filled, and after the concrete is hardened, both sides of the lateral fastening member are pulled obliquely upward. The construction method according to claim 2, wherein the tension force is applied, and the strength is improved by imparting the tension force, and the fixed structure is not exposed, and the concrete guard fence is excellent in workability. A construction method can be provided.

The invention of claim 4 is characterized in that it is made of precast concrete, and has an insertion hole for inserting a support post of an existing guard fence on the bottom surface, and a filling hole for connecting the insertion hole and the outer surface. It is a concrete guard fence, and it is possible to provide a method for constructing a concrete guard fence with excellent workability without exposing the fixed structure.

A fifth aspect of the present invention is the concrete guard fence according to the fourth aspect, wherein the bottom surface side of the insertion hole is larger than the upper portion, and the fixed structure is not exposed and the concrete guard is excellent in workability. A fence construction method can be provided.

[Brief description of drawings]

FIG. 1 is a sectional view showing a first embodiment of the present invention.

FIG. 2 is a front view showing the first embodiment of the present invention.

FIG. 3 is a front view showing a first embodiment of the present invention.

FIG. 4 is a cross-sectional view of a main portion of the fixing unit in a used state according to the first embodiment of the present invention.

FIG. 5 is a front view showing a second embodiment of the present invention.

FIG. 6 is a side view showing a second embodiment of the present invention.

FIG. 7 is a sectional view showing a second embodiment of the present invention.

FIG. 8 is a cross-sectional view illustrating a construction state showing a second embodiment of the present invention.

FIG. 9 is a cross-sectional view after concrete filling showing a second embodiment of the present invention.

FIG. 10 is an enlarged plan view of a connecting portion of adjacent concrete guard fences showing a second embodiment of the present invention.

[Explanation of symbols]

 1 Precast concrete slab 10 Concrete guard fence 11 PC steel material (horizontal fastening member) 23 Gap 24 Concrete 31 Concrete guard fence 35 Bottom 36 Insert hole 37 Top 38 Fill hole S prop

 ─────────────────────────────────────────────────── ─── Continuation of the front page (71) Applicant 390021197 4-30-5 Ryogoku, Sumida-ku, Tokyo, Tayhu Co., Ltd. (71) Applicant 591197699 Nippon 8 High-Pressure Concrete Co., Ltd. 3-8, Minami-jo Nishi, Chuo-ku, Sapporo-shi, Hokkaido Address (71) Applicant 000228660 Nippon Concrete Industry Co., Ltd. 1-8-23 Konan, Minato-ku, Tokyo (71) Applicant 000228785 Nippon Samicon Co., Ltd. 1-8-23 Bentenbashi Dori, Niigata City, Niigata Prefecture (71) Application Person 000229128 Nippon Zenith Pipe Co., Ltd. 2-24-14 Higashi-Nihonbashi, Chuo-ku, Tokyo (71) Applicant 000229667 Nippon Hume Tube Co., Ltd. 5-33-11, Shimbashi, Minato-ku, Tokyo (71) Applicant 390004938 Haneda Concrete Industry 2-16-11, Nihonbashi, Chuo-ku, Tokyo (71) Applicant 000201504 Maeda Steel & Pipe Co., Ltd. 6-7 Uehonmachi, Sakata-shi, Yamagata (71) Applicant 000005854 Marubeni Corporation 2-5-7 Honmachi, Chuo-ku, Osaka-shi, Osaka (72) Inventor Tetsufumi Nitta 1-8-2 Tsukiji, Chuo-ku, Tokyo Asahi Concrete Industry Co., Ltd. (72) Inventor Naoki Kinugawa 225 Yodomoto-cho, Fushimi-ku, Kyoto City, Kyoto Prefecture Inside Keihan Concrete Creat Co., Ltd. (72) Inventor Junichi Akama 4-2 Kojimachi, Chiyoda-ku, Tokyo Kowa Concrete Shares In-house (72) Inventor Hisaga Otani 4-2-3 Shiba, Minato-ku, Tokyo Geostar Co., Ltd. In-company (72) Nobuyoshi Yoshikawa 4-30-5 Ryogoku, Sumida-ku, Tokyo In Tayu Corporation (72) Inventor Yamada Satoru 1-4-9 Nishishinbashi, Minato-ku, Tokyo Within Japan High Voltage Concrete Co., Ltd. (72) Inventor Junichi Kawamura 1-8-3 Shimbashi, Minato-ku, Tokyo Within Japan Concrete Industries Co., Ltd. (72) Inventor Kobayashi Ichiryu 1-8-23 Bentenhashi-dori, Niigata-shi, Niigata Japan Sumicon Co., Ltd. (72) Inventor Yukito Tsushima 2-24-14 Higashi Nihonbashi, Chuo-ku, Tokyo Inside Zenith Pipe Co., Ltd. (72) Inventor Takao Iwasaki 5-33-11 Shinbashi, Minato-ku, Tokyo Inside Hume Pipe Co., Ltd. (72 ) Inventor Toru Kurihara 2-16-11 Nihonbashi, Chuo-ku, Tokyo Inside Haneda Concrete Industry Co., Ltd. (72) Inventor Kei Sato 6-7 Uehonmachi, Sakata-shi, Yamagata Prefecture Maeda Pipe Co., Ltd. (72) Inventor Takagi Heroes Marubeni Co., Ltd. 1-4-2 Otemachi, Chiyoda-ku, Tokyo

Claims (5)

[Claims] 1. A precast concrete slab is provided on both sides of a pillar of an existing guard fence, and concrete is filled between the precast concrete slabs on both sides through a gap provided between the upper parts of these precast concrete slabs. A method for constructing a concrete guard fence, characterized in that it is integrated with the precast concrete slab. 2. The method for constructing a concrete guard fence according to claim 1, wherein after the concrete is hardened, a tension force is applied in the length direction of the concrete guard fence. 3. A lateral fastening member is arranged in a length direction of the concrete guard fence before the concrete is filled, and after the concrete is hardened, both sides of the lateral fastening member are pulled obliquely upward to apply the tension force. The construction method according to claim 2, wherein 4. An insertion hole, which is made of precast concrete and into which a support post of an existing guard fence is inserted,
A concrete guard fence comprising the filling hole communicating the insertion hole and the outer surface. 5. The concrete guard fence according to claim 4, wherein the bottom surface side of the insertion hole is larger than the upper part.