JP2016188504A - Concrete guard fence - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a concrete guard fence by which a block in the middle of the lengthwise direction can be removed independently and easily.SOLUTION: A concrete guard fence comprises a lower projecting block 2 in which a lower projecting part 5 is protruded at the lower part of both sides of the lengthwise direction, an upper projecting block 3 in which an upper projecting part 6 arranged on the lower projecting part 5 is protruded at the upper part of both sides of the lengthwise direction, and a steel pipe 15 which connects the lower projecting block 2 with the upper projecting block 3 in a state that the upper projecting part 6 of the upper projecting block 3 is arranged on the lower projecting part 5 of the lower projecting block 2. By releasing the connection by the steel pipe 15, the upper projecting block 3 in the middle can be lifted and removed. By removing the upper projecting blocks 3 and 3 on both sides, the lower projecting block 2 between the upper projecting blocks can be lifted and removed.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a concrete guard fence.

  The guard fence is mainly provided to prevent a vehicle that deviates from the driving lane from deviating from the road or to the opposite lane, and the concrete guard fence is widely used because it is excellent in strength and durability. .

  For example, in a concrete protective wall configured by connecting a plurality of concrete blocks to each other by connecting a block continuum formed by applying tension to a tension stranded wire steel material, An insertion hole is formed for inserting a continuum connecting stranded wire steel material that connects the block continuums with tension, and one end of the insertion hole is opened toward the top of the block. Thus, there has been proposed a concrete protective wall (for example, Patent Document 1) for fixing an end of the continuum connecting stranded wire steel material to the concrete block.

  In the concrete guard fence, a plurality of concrete blocks can be integrated with tension by a stranded wire steel material.

  A wall body made of precast concrete having a flat inclined surface inclined at a predetermined angle on both sides and a cross section expanding downward, and a concrete foundation wider than the wall body provided at a lower portion of the wall body. A concrete guard fence comprising: a lower portion of the wall body and an upper portion of the foundation are concavo-convexly fitted; a lower portion of the wall body is fixed to the foundation by an anchor bolt; and a plurality of wall bodies are tension-integrated by a PC steel material (For example, patent document 2) is proposed.

  The concrete guard fence is excellent in strength, can improve the safety of the occupant at the time of collision, and is easier to construct than in the past.

  In the thing of the said patent document 1 and the patent document 2, since several blocks (wall main body) are tension-integrated with PC steel materials, even when one block is damaged, it is necessary to cut | disconnect PC steel materials. Furthermore, the cut PC steel cannot be reused, and after replacing the block, an operation of tension integration with a new PC steel is required.

  Moreover, since the joint part of adjacent blocks is filled with joint materials, such as a non-shrink mortar, when replacing a block, it is necessary to scrape the joint material of the existing block of both sides. Furthermore, at the time of restoration, there is a problem that it takes time until a strength is developed by installing a leak-proof mold at the joint and injecting non-shrink mortar.

  Further, in the case of fixing the wall body on the foundation as in Patent Document 2, after removing the wall body in order to replace the wall body, the level plate on the existing foundation is removed and the air-mixed mortar is removed. When removing and restoring, there is a problem that centering and leveling are performed in the same manner as in the new installation, and it is necessary to level the empty kneading mortar, which is troublesome.

  Moreover, in the said patent document 1 and patent document 2, a heavy machine is needed for removal, a movement, and installation in the removal operation | work of the said block (wall main body), and a restoration operation | work.

  On the other hand, in addition to the structure in which the blocks are connected by a member in the length direction such as PC steel, an upper protrusion is formed at one end in the longitudinal direction, and a lower protrusion is formed at the other end. A wall block (for example, Patent Document 3) in which both ends are fixed with bolts in the vertical direction has been proposed. In this wall block, the connection between adjacent blocks is released compared to the one using PC steel in the length direction. Can be easily performed.

  However, even if the bolts on both sides are removed in the wall surface block, the upper wall protrusion of the adjacent wall surface block overlaps the lower protrusion, so that the wall block cannot be removed from the middle of the continuous wall and continues. It is necessary to remove from the wall block at the end of the wall.

  By the way, when an accident or the like occurs on an expressway or the like, a traffic jam occurs. Although not known, it is conceivable to change the lane and guide the vehicle to the opposite lane in order to eliminate the traffic jam. At the same time, if an emergency vehicle arrives at the scene using the opposite lane to save lives, it may be possible to reverse the accident to the lane where the accident occurred. Since it is difficult to remove the fence at an arbitrary position, it is impossible to guide the vehicle to the opposite lane or to guide the emergency vehicle to the opposite lane for lifesaving. This problem is particularly important in the case of face-to-face traffic sections.

Japanese Patent Laid-Open No. 2000-240024 JP-A-7-42124 JP 2010-222865 A

  Then, this invention solves the said problem, and it aims at providing the concrete guard fence which can remove easily the block in the middle of a length direction independently.

  According to the first aspect of the present invention, a lower overhanging block in which a lower overhanging portion protrudes at the lower part on both sides in the length direction, and an upper overhanging portion disposed on the lower overhanging portion protrudes at the upper part on both sides in the length direction. In the state where the upper overhanging block and the upper overhanging portion of the upper overhanging block are arranged on the lower overhanging portion of the lower overhanging block, the lower overhanging block and the upper overhanging block are And connecting means for connecting.

  According to the configuration of claim 1, by releasing the connection by the connecting means, the upper overhanging block in the middle can be lifted and removed, and by removing the upper overhanging blocks on both sides, The exit block can be lifted and removed.

  According to a second aspect of the present invention, a foundation block provided on a road surface is provided, and the lower projecting block or / and the upper projecting block are unevenly fitted on the foundation block.

  According to the configuration of the second aspect, the concave / convex fitting portion functions as a sliding resistance of the upper and lower overhanging blocks when the vehicle collides. Further, when the block once removed is returned to the original position, positioning is easy because the concave / convex fitting serves as a guide.

  According to a third aspect of the present invention, the connecting means is a longitudinal member, and the upper projecting portion and the lower projecting portion are coupled by the longitudinal member inserted into the upper projecting portion and the lower projecting portion. It is characterized by.

  According to the structure of Claim 3, compared with the connection using PC steel material of a length direction, a connection cancellation | release operation | work becomes easy and the removal of the block in the middle can be performed simply.

  The invention of claim 4 is characterized in that a notch portion is provided in a lower portion of the side surface of the lower overhanging block and the upper overhanging block.

  According to the configuration of the fourth aspect, in the case of an emergency, the hand lift fork can be inserted into the notch and moved and reinstalled manually.

  The invention of claim 5 is characterized in that a gap is provided between the upper surface of the lower overhanging portion and the lower surface of the upper overhanging portion.

  According to the structure of Claim 5, a forklift fork or the like can be inserted into the gap to lift and carry the overhanging block.

  According to a sixth aspect of the present invention, there is provided a pull-out preventing structure for preventing the vertical member from slipping out.

  According to the configuration of the sixth aspect, the connection can be prevented from being inadvertently released by preventing the vertical member from coming off.

  The invention according to claim 7 is characterized in that a corner portion of a lengthwise end portion of the lower overhanging block and / or the upper overhanging block is cut out.

  According to the structure of Claim 7, the response | compatibility to curve construction is attained.

  The invention according to claim 8 is characterized in that the connecting means is a bolt in the length direction, and the lower projecting block and the upper projecting block which are adjacent to each other are connected by the bolt.

  According to the structure of Claim 8, the adjacent overhanging block and upper overhanging block can be connected with the volt | bolt of a length direction.

  The invention according to claim 9 is characterized in that the connecting means includes a connecting member provided across the outer surface of the adjacent lower projecting block and the outer surface of the upper projecting block, and the connecting member includes the lower projecting block and the upper projecting block. And a fixing member fixed to the overhanging block.

  According to the structure of Claim 9, the adjacent overhanging block and upper overhanging block can be connected with a connection member and a fixing member.

  In the invention of claim 10, the vertical member has a cylindrical shape, and the retaining prevention structure forms a lower insertion hole for inserting a lower portion of the vertical member into the lower projecting portion of the lower projecting block, An upper insertion hole for inserting the upper portion of the vertical member corresponding to the lower insertion hole is formed in the upper extension portion of the upper extension block, and a lateral retaining member is provided in the lower insertion hole, A notch locking groove that engages with and disengages from the retaining member by rotation is provided in a lower portion of the vertical member.

  According to the configuration of the tenth aspect, it is possible to maintain the retaining state by rotating the vertical member and engaging with the retaining member. On the other hand, the vertical member can be pulled out by rotating the vertical member to release the locking with the retaining member.

  The invention according to claim 11 is characterized in that the retaining prevention structure forms a lower insertion hole for inserting a lower portion of the vertical member in the lower extension portion of the lower extension block, and corresponds to the lower insertion hole. An upper insertion hole for inserting an upper portion of the vertical member is formed in the upper extension portion of the upper extension block, and a female screw portion is provided in the lower insertion hole, and a male screw portion that is screwed into the female screw portion is provided. It is provided in the vertical member.

  According to the configuration of the eleventh aspect, the retaining state can be maintained by screwing the male screw portion of the vertical member with the female screw portion of the lower insertion hole. On the other hand, the longitudinal member can be pulled out by releasing the screwing.

  The invention according to claim 12 is characterized in that the retaining prevention structure forms a lower insertion hole for inserting a lower portion of the vertical member in the lower extension portion of the lower extension block, and corresponds to the lower insertion hole. An upper insertion hole for inserting the upper part of the vertical member is formed in the upper projecting portion of the upper projecting block, and an elastic retaining member is provided on the outer periphery of the vertical member to press-contact the upper insertion hole or the lower insertion hole. It is characterized by that.

  According to the configuration of the twelfth aspect, the vertical member is hardly pulled out by inserting the vertical member into the upper and lower insertion holes and pressing the elastic retaining member against at least one of the upper and lower insertion holes. On the other hand, when it is pulled up with a predetermined force or more, the elastic retaining member is elastically deformed, whereby the vertical member can be pulled out.

  The invention according to claim 13 is characterized in that the retaining prevention structure forms a lower insertion hole for inserting a lower portion of the vertical member in the lower extension portion of the lower extension block, and corresponds to the lower insertion hole. An upper insertion hole for inserting the upper part of the vertical member is formed in the upper projecting part of the upper projecting block, a fixing part is provided around the upper part of the vertical member, and the fixing part is used as the upper projecting block. A fixing means for fixing is provided.

  According to the configuration of the thirteenth aspect, it is possible to maintain the retaining state by fixing the fixing portion to the overhanging block by the fixing means. On the other hand, the longitudinal member can be pulled out by releasing the fixing of the fixing portion.

  The invention according to claim 14 is characterized in that a lid for closing the upper insertion hole is provided at an upper portion of the vertical member, and the periphery of the lid is the fixing portion.

  According to the configuration of the fourteenth aspect, it is possible to prevent intrusion of dust and the like into the upper insertion hole by the lid.

  In the concrete guard fence in which a plurality of blocks are arranged, the intermediate block can be easily detached independently.

It is a side view of the concrete guard fence which shows Example 1 of this invention. It is sectional drawing of a vertical member location same as the above. It is sectional drawing of a notch part location same as the above. It is an exploded view of a concrete guard fence same as the above. It is a front view of the principal part of the retaining structure which shows Example 2 of this invention. It is an explanatory perspective view of a retaining structure. It is a top view of the connection location which shows Example 3 of this invention. It is a side view of the concrete guard fence which shows Example 4 of this invention. It is sectional drawing of the principal part same as the above. It is a side view of the principal part which notched a part which shows Example 5 of this invention. It is a top view of the principal part which notched a part same as the above. It is a side view of the principal part which shows Example 6 of this invention. It is a top view of the principal part same as the above. It is a side view of the principal part which shows Example 7 of this invention. It is sectional drawing of the principal part same as the above. It is sectional drawing which shows Example 8 of this invention. It is a side view of the concrete guard fence which shows Example 9 of this invention. It is sectional drawing of a vertical member location same as the above. It is plane explanatory drawing which shows Example 10 of this invention. It is sectional drawing of the retaining structure which shows Example 11 of this invention. FIG. 21A is a plan view of the retaining prevention structure, FIG. 21A shows a structure using a ring-shaped hook-shaped section, and FIG. 21B shows a structure using a hook-shaped section provided with an operation section. It is sectional drawing of the retaining structure which shows Example 12 of this invention. FIG. 23A is a cross-sectional view of the retaining member, FIG. 23A shows a state before deformation, and FIG. 23B shows a state after deformation. It is sectional drawing of the retaining structure which shows Example 13 of this invention. It is a top view of the same as above and a retaining structure. It is a perspective view of the basic block which shows Example 14 of this invention. It is a plane explanatory view showing Example 15 of the present invention. It is a plane explanatory drawing same as the above. It is a plane explanatory drawing same as the above.

  Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments described below do not limit the contents of the present invention described in the claims. In addition, all of the configurations described below are not necessarily essential requirements of the present invention. In each embodiment, by adopting a new concrete guard fence different from the conventional one, an unprecedented concrete guard fence is obtained, and the concrete guard fence will be described.

  Embodiments of the present invention will be described below with reference to the accompanying drawings. 1 to 4 show Embodiment 1 of the present invention. As shown in the figure, a concrete guard fence 1 made of precast concrete (hereinafter referred to as a guard fence) includes a plurality of lower overhanging blocks 2 and a plurality of upper overhangs connected to the longitudinal ends of the lower overhanging blocks 2. An overhanging block 3 and a connecting means for connecting the lower overhanging block 2 and the upper overhanging block 3 are provided, and the upper and lower overhanging blocks 3 and 2 are connected alternately side by side.

  Lower projecting portions 5 and 5 project from the lower portions on both sides in the length direction of the lower projecting block 2, and the lower projecting block 2 has a substantially inverted T shape in a side view. Further, upper projecting portions 6 and 6 project from the upper portions of both sides of the upper projecting block 3 in the longitudinal direction, and the upper projecting block 3 has a substantially T-shape in a side view. Then, in a state where the upper overhanging portion 6 is disposed on the lower overhanging portion 5, adjacent lower overhanging blocks 2 and upper overhanging blocks 3 are connected by the connecting means. The lower overhanging block 2 and the upper overhanging block 3 are protective fence blocks.

  As shown in FIG. 4 and the like, an upper end surface 11 that is substantially perpendicular to the lower surface of the lower overhanging block 2 is provided at the upper part of the longitudinal end portion of the lower overhanging block 2. A substantially horizontal upper surface 5U of the lower overhanging portion 5 is located at the lower portion, and a lower overhanging end surface 5H of the lower overhanging portion 5 is formed substantially vertically downward from an outer end portion of the upper surface 5U. .

  Further, an upper projecting end surface 6H of the upper projecting portion 6 that is substantially perpendicular to the lower surface of the upper projecting block 3 is formed at the upper part of the longitudinal end portion of the upper projecting block 3. A substantially horizontal lower surface 6K of the upper overhanging portion 6 is positioned below the overhanging end surface 6H, and a lower end surface 12 that is substantially vertical is formed downward from the inner end of the lower surface 6K.

  As shown in the cross-sectional view of FIG. 2, the upper and lower overhanging blocks 3 and 2 are formed to have a substantially constant thickness above the positions of the upper surface 5U and the lower surface 6K, that is, the upper side surface portions 13 and 13 on both sides. Are formed in parallel and substantially vertically. On the other hand, it is formed so that the lower side is wider toward the lower side than the positions of the upper surface 5U and the lower surface 6K, that is, the lower side surface portions 14, 14 on both sides are formed in a tapered shape that expands downward. .

  As shown in FIGS. 1 and 4, the adjacent lower overhanging block 2 and the upper overhanging block 3 are connected to each other by overlapping the upper overhanging portion 6 on the lower overhanging portion 5. In this case, a vertical upper joint portion 101 is provided between the upper end surface 11 and the overhanging end surface 6H, and a vertical lower joint portion 102 is provided between the lower end surface 12 and the lower overhanging end surface 5H. The upper joint portions 101 and 102 are provided as gaps and are not filled with a filler or the like. Further, the lower surface 6K of the upper overhanging portion 6 is placed on the upper surface 5U of the lower overhanging portion 5, and no joint material or the like is provided between the upper surface 5U and the lower surface 6K, and the upper surface 5U and the lower surface 6K are bordered. Is cut.

  In the upper and lower projecting portions 6 and 5, the steel pipe 15 as a vertical member is inserted and the lower insertion holes 16 and 17 are provided vertically, and the upper and lower insertion holes 16 and 17 have a planar shape. It has the same shape and communicates vertically. As shown in FIG. 2 and the like, the upper insertion hole 16 is formed through the upper overhanging portion 6, while the lower portion of the lower insertion hole 17 is closed by a closing portion 17A. In addition, the lower insertion hole 17 may be formed through the lower overhanging portion 5 so that the lower end of the lower insertion hole 17 opens in the lower surface of the underhanging portion 5. The upper and lower extension blocks 2 and 3 adjacent to each other are connected to each other by inserting the steel pipe 15 from above into the upper and lower insertion holes 16 and 17, and the steel pipe 15 constitutes a connecting means. doing. The weight of the upper and lower overhanging blocks 3 and 2 is preferably 1.5 tons or less excluding the steel pipe 15, from the viewpoint of transportation and construction. Further, the steel pipe 15 is inserted into substantially the entire length of the upper and lower insertion holes 16 and 17.

  Further, when replacing the lower extension block 2 and the upper extension block 3, it is necessary to pull out the steel pipe 15, so an operation portion such as a drawing projection (not shown) is provided on the inner peripheral surface of the upper part of the steel pipe 15. It is preferable. Further, the steel pipe 15 can be pulled upward without being filled with an adhesive filler and fixed between the outer peripheral surface of the steel pipe 15 and the upper and lower insertion holes 16 and 17. For this reason, a predetermined gap is provided between the inner peripheral surface of the upper and lower insertion holes 16 and 17 and the outer peripheral surface of the steel pipe 15, and the outer diameter of the steel pipe 15 is larger than the inner diameter of the insertion holes 16 and 17. Is small.

  The concrete guard fence 1 includes a foundation block 21. The basic block 21 has a substantially flat upper surface and lower surface, and has a substantially constant thickness. Further, the foundation block 21 is formed continuously in the length direction of the road, is discontinuously arranged in a stepping stone shape at intervals, and is further formed by cast-in-place concrete, or a plurality of precast concrete Or laying blocks.

  In the case where a plurality of the foundation blocks 21 are arranged discontinuously in a stepping stone shape at intervals, a pavement layer is provided between the foundation blocks 21. When the concrete guard fence 1 is provided in the median strip and the roads on both sides are made of permeable pavement, the permeable pavement layer on both sides of the concrete guard fence 1 is provided by providing a permeable pavement layer between the foundation blocks 21. Water permeability can be ensured.

  The upper and lower overhanging blocks 3 and 2 and the base block 21 are concavo-convexly fitted by a concavo-convex fitting structure. For this uneven fitting, fitting convex portions 22, 22, 23, 23 are provided on the flat lower surface on both sides in the length direction of the upper and lower overhanging blocks 3, 2, and these fitting convex portions 22, 22 are provided. , 23, 23 are provided on the upper surface of the foundation block 21. The fitting recesses 24, 24 may be formed in a through-hole shape that penetrates the upper surface and the lower surface of the foundation block 21.

  Further, a notch portion 25 is provided between the fitting convex portions 22, 22, 23, 23 on both sides, and the notch portion 25 is open to the lower side surface portions 14, 14 on both sides in the left-right direction. A lateral support surface 26 located at the upper portion of the notch 25 is supported by the upper surface of a fork such as a handlift (not shown) as a lifting and conveying means.

  The fitting protrusions 22 and 22 of the lower overhanging block 2 have three side faces 22A, 22A and 22A except for the lower end face 12 side so that the area of the fitting protrusion 22 is reduced downward. Are inclined inward and downward. Further, the fitting protrusions 23, 23 of the upper overhanging block 3 have three side surfaces 23A, 23A, 23A excluding the lower overhanging end face 5H side, and the area of the fitting protrusion 23 is directed downward. It is provided inclining inwardly downward so as to be reduced. Corresponding to the fitting convex portions 22 and 23, the side surface portion 24A of the fitting concave portion 24 is also formed obliquely.

  As shown in FIGS. 2 to 4, in the fitting recess 24, a sheet-like elastic member 27 such as a cushioning rubber is disposed on the side surface portions 24 </ b> A and 24 </ b> A in the longitudinal direction. The elastic member 27 may also be arranged on the side surface portion 24A in the left-right width direction.

  In the construction at the time of new construction, the foundation block 21 is embedded and fixed on the road so that the pavement surface 28 of the road and the upper surface of the foundation block 21 are substantially flush with each other. The pavement surface 28 is formed by concrete pavement or asphalt pavement.

  A plurality of upper and lower overhanging blocks 3 and 2 are installed on the base block 21 so that the fitting convex portions 22 and 23 are inserted into the fitting concave portion 24. In this case, after installing the lower overhanging blocks 2 and 2 on both sides of the installation position of the upper overhanging block 3, the upper overhanging block 3 is installed between the lower overhanging blocks 2 and 2, and the upper and lower inserts are inserted. Adjacent upper and lower overhanging blocks 3 and 2 are connected by inserting a steel pipe 15 into the holes 16 and 17.

  When the steel pipe 15 is connected, the base block 21 and the upper and lower overhanging blocks 3 and 2 are not fixed with joint material or the like, and the edges are cut off. , And 2 are in a state where the edges are cut without using joint material or the like. That is, the blocks 3 and 2 are not fixed or bonded to the other than the blocks 3 and 2 except that the adjacent blocks 3 and 2 are connected by the steel pipe 15 and the base block 21 is concavo-convexly fitted.

  A plurality of upper and lower overhanging blocks 3, 2... Are integrally connected by steel pipes 15..., And the upper and lower overhanging blocks 3, 2. By doing so, the impact force applied to the upper and lower overhanging blocks 3 and 2 at the time of a vehicle collision or the like can be absorbed by the entire guard fence 1. In addition, the guard fence 1 of a present Example is provided in the median strip or roadside of a road.

  Next, a repair method for the guard fence 1 will be described. When the guard fence 1 is partially repaired and replaced due to a collision with a vehicle or the like, to remove the upper overhanging block 3, the steel pipes 15 and 15 on both sides are pulled up, and at least the lower part of the steel pipe 15 is extracted from the lower insertion hole 17.

  After that, by inserting a fork of a hand lift into the notch 25, supporting the support surface 26 with the fork, lifting the overhanging block 3 substantially vertically, and moving the overhanging block 3 to the left or right side, The overhanging block 3 can be removed from the middle of the guard fence 1, and it is transferred and removed by a hand lift as it is.

  Further, when removing the lower overhanging block 2, after removing the upper overhanging blocks 3 and 3 on both sides, the lower overhanging block 2 is similarly removed using a notch portion 25 by a hand lift or the like and transferred.

  It is preferable to use two hand lifts when the upper and lower overhanging blocks 3 and 2 are transferred. It is possible to transfer by inserting a fork of a single handlift, or by placing one handlift on each of the left and right sides and inserting a fork into the notch 25 from the opposite direction.

  In order to install the new upper and lower extension blocks 3 and 2, similarly, the fork is inserted into the notch 25, the new upper extension block 3 is transferred by two hand lifts, and the lower extension blocks on both sides are installed. Lower the overhanging block 3 between 2 and 2. In this way, when the lower fitting projections 23 and 23 are fitted into the fitting recesses 24, the left and right of the upper overhanging block 3 are positioned with respect to the lower overhanging blocks 2 and 2 on both sides, and the upper and lower The insertion holes 16 and 17 are also positioned.

  Then, the steel pipe 15 is inserted into the upper and lower insertion holes 16 and 17, and the upper projecting block 3 is connected to the lower projecting blocks 2 and 2 on both sides.

  In this way, using the foundation block 21, the foundation block 21 and the upper and lower extension blocks 3 and 2 are unevenly fitted, and the adjacent upper and lower extension blocks 3 and 2 are connected by the steel pipe 15, so that the joint mortar It is not necessary to use terrain and uneven mortar, and the restoration work can be simplified.

  Thus, in this embodiment, corresponding to claim 1, the lower overhanging block 2 that projects the lower overhanging portion 5 at the lower part on both sides in the length direction, and the upper overhang disposed on the lower overhanging portion 5. In a state in which the overhanging block 3 in which the protruding portion 6 protrudes from the upper part on both sides in the length direction and the upper overhanging portion 6 of the upper overhanging block 3 is arranged on the lower overhanging portion 5 of the lower overhanging block 2 Since the steel pipe 15 as a connecting means for connecting the lower overhanging block 2 and the upper overhanging block 3 is provided, the upper overhanging block 3 can be lifted and removed by releasing the connection with the steel pipe 15. Moreover, by removing the upper overhanging blocks 3 and 3 on both sides, the lower overhanging block 2 in between can be lifted and removed.

  In this way, in this embodiment, corresponding to claim 2, the base block 21 provided on the pavement surface 28 as a road surface is provided, and the lower overhanging block 2 and / or the upper overhanging block 3 are provided on the base block 21. Since the concave / convex fitting is performed, the concave / convex fitting portion functions as a sliding resistance of the upper and lower overhanging blocks 3 and 2 when the vehicle collides. Further, when the blocks 3 and 2 once removed are returned to their original positions, positioning is easy because the concave / convex fitting serves as a guide.

  In this way, in this embodiment, corresponding to claim 3, the connecting means is a steel pipe 15 as a longitudinal member, and the steel pipe 15 inserted into the upper overhanging portion 6 and the lower overhanging portion 5 is used as an upper overhang. Since the part 6 and the underhanging part 5 are connected, it is easier to release the connection than the connection using PC steel in the length direction, and the upper and lower overhanging blocks 3 and 2 can be easily removed. Can be done.

  Further, in this embodiment, in accordance with the fourth aspect of the present invention, since the notched portion 25 is provided in the lower part of the side surface of the lower projecting block 2 and the upper projecting block 3, the notched portion is provided in an emergency or the like. A fork such as a hand lift can be inserted into the section 25 and moved and re-installed manually.

  Further, as an effect of the embodiment, since the upper and lower overhanging blocks 3 and 2 are symmetrical in the longitudinal direction, it is not necessary to match the longitudinal direction at the time of installation. Further, a vertical upper joint portion 101 that is a gap is provided between the upper end surface 11 and the upper overhanging end surface 6H, and a vertical lower portion that is a gap is provided between the lower end surface 12 and the lower overhanging end surface 5H. Since the joint portion 102 is provided, the upper and lower overhanging blocks 3 and 2 can be lifted smoothly after the connection by the steel pipe 15 is released. Further, the fitting protrusions 22 and 22 of the lower overhanging block 2 have three side faces 22A, 22A and 22A excluding the lower end face 12 side, and the area of the fitting protrusion 22 is reduced downward. The fitting projections 23, 23 of the upper overhanging block 3 are provided with three side surfaces 23A, 23A, 23A excluding the lower overhanging end surface 5H, and the area of the fitting projection 23 is provided. Is provided so as to be reduced toward the lower side, and the side surface portion 24A of the fitting concave portion 24 is also formed obliquely corresponding to the fitting convex portions 22 and 23, so that the concave-convex fitting can be smoothly performed. Can be done. Further, since the left and right widths of the fitting convex portions 22 and 23 are substantially the same as the left and right widths of the bottom surfaces of the upper and lower projecting blocks 3 and 2, the fitting strength is excellent.

  5 and 6 show a second embodiment of the present invention. The same reference numerals are given to the same portions as those in the first embodiment, and the description thereof will be omitted. In detail, this example shows a retaining structure for the vertical member. Show. As shown in the figure, a lateral retaining member 31 is fixed to the lower side of the lower insertion hole 17, and the retaining member 31 is formed of a circular metal rod, a steel pipe, or the like. It is provided in 17 diameter directions. The lower edge 15F of the steel pipe 15 is formed with notch locking grooves 32, 32 at which the retaining member 31 is engaged and disengaged by the rotation of the steel pipe 15 at a position opposed to 180 degrees.

  The notch locking groove 32 includes a vertical lower vertical groove portion 32A formed in the lower edge 15F, a horizontal groove portion 32B formed on one side in the circumferential direction from the upper end of the lower vertical groove portion 32A, and the horizontal groove portion. A vertical upper vertical groove portion 32C formed upward from the end portion of 32B.

  Therefore, when the lower longitudinal groove portion 32A is aligned with the retaining member 31, the lower portion of the steel pipe 15 is inserted into the lower longitudinal groove portion 32A, and the retaining member 31 contacts the upper edge of the lateral groove portion 32B. After rotating in the direction of the portion 32B and the retaining member 31 comes into contact with the upper longitudinal groove portion 32C, the steel pipe 15 is further pushed down and inserted into the upper longitudinal groove portion 32C, so that the retaining member 31 becomes the upper longitudinal groove portion 32C. The steel pipe 15 is locked to the upper part, and the steel pipe 15 is prevented from rotating and is prevented from coming off. On the other hand, from the state in which the retaining member 31 is locked to the upper vertical groove portion 32C, the steel pipe 15 is pulled upward, rotated in the opposite direction, and then lifted to release the locking, and the steel pipe 15 is pulled out from the lower insertion hole 17. be able to.

  Thus, in the present embodiment, the upper and lower overhanging blocks 3 and 2 can be detached independently in the middle of the length direction, and the same operations and effects as in the first embodiment can be achieved.

  In this way, in this embodiment, corresponding to claim 6, since the steel pipe 15 that is the vertical member is provided with a structure for preventing the steel pipe 15 from coming out, the connection is inadequate by preventing the steel pipe 15 from coming out. Can be prevented from being released.

  In this way, in this embodiment, in correspondence with claim 10, the steel pipe 15 as the vertical member has a cylindrical shape, and the retaining prevention structure is provided with the steel pipe 15 in the lower extension portion 5 of the lower extension block 2. A lower insertion hole 17 for inserting the lower part is formed, and an upper insertion hole 16 for inserting the upper part of the steel pipe 15 corresponding to the lower insertion hole 17 is formed in the upper extension part 6 of the upper extension block 3. 17 is provided with a horizontal retaining member 31 and a notch locking groove 32 that engages with and disengages from the retaining member 31 by rotation at the lower portion of the steel pipe 15, so that the steel pipe 15 is rotated to the retaining member 31. By locking, the retaining state can be maintained, and on the other hand, the steel pipe 15 can be pulled out by rotating the steel pipe 15 in the reverse direction to release the retaining member 31.

  Further, as an effect of the embodiment, since the retaining structure includes the lateral groove portion 32B as a retaining portion in the length direction and the upper vertical groove portion 32C as a retaining portion in the rotation direction, the connection is inadvertently released. Can be surely prevented.

  FIG. 7 shows a third embodiment of the present invention. The same reference numerals are given to the same parts as those of the above-described embodiments, and the description thereof will be omitted. In this example, a guard fence 1 suitable for curve laying is shown. . As shown in the figure, right and left corners of the underhanging end surface 5H of the underhanging portion 5 are notched to provide corner cutout portions 7 and 7, and the underhanging end surface 5H is made constant and large. A curved convex surface 41 having a curvature is formed, and left and right corners of the upper projecting end surface 6H of the upper projecting portion 6 are notched to provide corner notches 7, 7, and the upper projecting end surface 6H has a constant and large curvature. The curved convex surface 42 is formed.

  Therefore, even if the upper and lower overhanging blocks 3 and 2 are curved, the end portions in the length direction do not interfere with each other, and the adjacent lower overhanging block 2 and the upper overhanging block 3 around the steel pipe 15 An angle can be provided in the length direction.

  Thus, in the present embodiment, the upper and lower overhanging blocks 3 and 2 can be detached independently in the middle of the length direction, and the same operations and effects as the above embodiments can be obtained.

  In this way, in this embodiment, corresponding to claim 7, since the corner portion of the end portion in the length direction of the lower overhanging block 2 and / or the upper overhanging block 3 is notched, it is possible to cope with curve construction. It becomes possible.

  8 to 9 show a fourth embodiment of the present invention. The same reference numerals are given to the same parts as those of the above-mentioned embodiments, and the description thereof will be omitted. In this example, the length of the connecting means is as follows. Directional bolts 51 are used. As shown in the figure, the upper joint portions 101 of the upper and lower overhanging blocks 3 and 2 adjacent to each other are sandwiched between one of the lower overhanging block 2 and the upper overhanging block 3 and the upper side surface portions 13 and 13 of the other. Recesses 52 and 52A are formed, respectively, and bolt insertion holes 53 and 53A communicating with the recesses 52 and 52A are provided in the lower extension block 2 and the upper extension block 3, respectively.

  In this example, the oblique bolts 51, 51... Provided across the upper joint portion 101 are inclined in the same direction on the plane. That is, a concave portion 52 on one side in the length direction of the upper joint portion 101 (left side in FIG. 8) is provided on one side in the left-right direction (lower side in FIG. 9), and the other side in the length direction of the upper joint portion 101 ( A recess 52 on the right side in FIG. 8 is provided on the other side in the left-right direction (upper side in FIG. 9).

  The recesses 52 and 52A have fixing surfaces 54 and 54A intersecting with the bolt insertion holes 53 and 53A, and the bolt insertion holes 53 and 53A are opened in the fixing surfaces 54 and 54A.

  The bolt insertion holes 53 and 53A have a larger diameter than the oblique bolt 51, and the oblique bolt 51 is loosely inserted into the bolt insertion holes 53 and 53A. Further, as shown in FIG. 9, the diagonal bolt 51 is used in an oblique direction crossing the length direction of the upper and lower overhanging blocks 3, 2 across the upper joint portion 101.

  Then, an oblique bolt 51 is inserted into the bolt insertion holes 53, 53A. The oblique bolt 51 has male screw portions on both sides, and the nuts 50, 50 screwed into the screw portions are fixed to the fixing surfaces 54, 54A. Thus, the upper and lower overhanging blocks 3 and 2 can be connected. In this connected state, the end of the diagonal bolt 51 and the nut 50 are accommodated in the recesses 52 and 52A.

  Thus, in this embodiment, the slant bolt 51 can be removed, and the upper and lower overhanging blocks 3 and 2 can be detached independently, and the same operations and effects as the above embodiments can be obtained.

  In this way, in this embodiment, corresponding to claim 8, the connecting means is a slanted bolt 51 which is a bolt in the length direction, and the bottom projecting block 2 and the top projecting block adjacent to each other by the slanted bolt 51. 3 can be connected.

  10 and 11 show a fifth embodiment of the present invention. The same reference numerals are given to the same parts as those of the above-described embodiments, and the description thereof will be omitted. In this example, the length of the connecting means is as follows. Directional bending bolt 55 is used. As shown in the figure, recesses 56 and 56 are formed on the upper surfaces of the upper and lower overhanging blocks 3 and 2 with the upper joint portions 101 of the upper and lower overhanging blocks 3 and 2 adjacent to each other. Curved bolt insertion holes 57 and 57 for communicating 56 and 56 are provided in the upper and lower overhanging blocks 3 and 2.

  The recesses 56 and 56 have fixing surfaces 58 and 58 intersecting with the bolt insertion holes 57 and 57, and the bolt insertion holes 57 are opened in the fixing surface 58.

  Then, the bending bolt 55 is inserted into the bolt insertion holes 57, 57. The bending bolt 55 has male screw portions on both sides, and the nuts 59, 59 screwed to the screw portions are fixed to the fixing surfaces 58, 58. Thus, the upper and lower overhanging blocks 3 and 2 can be connected. In this connected state, the end of the bending bolt 55 and the nut 59 are accommodated in the recesses 56 and 56A.

  As described above, in this embodiment, the bending bolt 55 can be removed and the upper and lower overhanging blocks 3 and 2 can be detached independently, and the same operations and effects as the above embodiments can be obtained.

  Thus, in this embodiment, corresponding to claim 8, the connecting means is a curved bolt 55 which is a bolt in the length direction, and the lower projecting block 2 and the upper projecting block which are adjacent to each other by the curved bolt 55. 3 can be connected.

  12 and 13 show a sixth embodiment of the present invention. The same reference numerals are given to the same parts as those of the above-mentioned embodiments, and the description thereof will be omitted. A connecting plate 61 as a connecting member provided straddling the outer surface of the overhanging block 2 and the outer surface of the upper overhanging block 3, and a screw for fixing the connecting plate 61 to the lower overhanging block 2 and the upper overhanging block 3 Both screw bolts 62 and 62 or head-attached bolts that are fixing members of the type are provided. The connecting plate 61 is made of a hard material, for example, a metal plate.

  Further, recesses 63 are formed on the upper side portions 13 of the upper and lower overhanging blocks 3 and 2 on both sides. The upper and lower overhanging blocks 3 and 2 are provided with bolt insertion holes 64 so as to communicate the concave portions 63 and 63 on both sides. Further, a through hole 65 is formed in the connection plate 61 corresponding to the bolt insertion hole 64.

  Then, the connecting plates 61, 61 are disposed in the concave portions 63, 63 on both sides, both screw bolts 62 are inserted into the bolt insertion holes 64 and the through holes 65, 65, and nuts 66, 66 are inserted at both ends of the both screw bolts 62. The upper and lower overhanging blocks 3 and 2 can be connected by screwing and tightening. Further, in the connected state, the connecting plate 61, both ends of the screw bolts 62, and the nut 66 are housed in the recess 63 and do not protrude outward from the upper side surface portion 13.

  As described above, in this embodiment, the connecting plate 61 and both screw bolts 62 can be removed, and the upper and lower overhanging blocks 3 and 2 can be detached independently, and the same operations and effects as the above embodiments can be obtained.

  In this way, in this embodiment, corresponding to claim 9, the connecting means is a connecting plate as a connecting member provided straddling the outer surface of the adjacent lower extending block 2 and the outer surface of the upper extending block 3. 61, and both screw bolts 62 as fixing members for fixing the connecting plate 61 to the underhanging block 2 and the upper overhanging block 3, so that the adjoining underhanging block 2 is connected by the connecting plate 61 and the both screw bolts 62. The overhanging block 3 can be connected.

  14 and 15 show Embodiment 7 of the present invention. The same reference numerals are given to the same parts as those in the above-mentioned embodiments, and the description thereof will be omitted. In this example, the recess 63 is formed on the upper side surface. An upper concave portion 63U is formed on the upper surfaces of the upper and lower overhanging blocks 3 and 2 so as to connect the upper portions of the concave portions 63 and 63 on both sides.

  The connecting plate 61 connects the side plates 61S, 61S disposed in the recessed portions 63, 63 in a stored state, and the upper surface plate disposed in the upper recessed portion 63U by connecting the upper portions of the side plates 61S, 61S. Integrated with 61U. Further, the bolt insertion holes 64 and the through holes 65 are provided in multiple stages.

  As described above, in this embodiment, the connecting plate 61 and both screw bolts 62 can be removed, and the upper and lower overhanging blocks 3 and 2 can be detached independently, and the same operations and effects as the above embodiments can be obtained.

  In this way, in this embodiment, corresponding to claim 9, the connecting means is a connecting plate as a connecting member provided straddling the outer surface of the adjacent lower extending block 2 and the outer surface of the upper extending block 3. 61, and both screw bolts 62 as fixing members for fixing the connecting plate 61 to the underhanging block 2 and the upper overhanging block 3, so that the adjoining underhanging block 2 is connected by the connecting plate 61 and the both screw bolts 62. The overhanging block 3 can be connected.

  Further, as an effect of the embodiment, the connecting plate 61 connects the side plates 61S, 61S disposed in the recesses 63, 63 and the upper portions of the side plates 61S, 61S, and the upper surface disposed in the upper recess 63U. Since the plate 61U is integrally provided, the connection strength is excellent.

  FIG. 16 shows an eighth embodiment of the present invention. The same reference numerals are given to the same parts as those of the above-described embodiments, and the description thereof will be omitted. In this example, the basic block 21 is not used. A flat plate portion 71 is integrally provided at the lower part of the lower overhanging blocks 3 and 2, and a lower surface 71K of the flat plate portion 71 is formed flat. In addition, the connection structure of the upper and lower overhanging blocks 3 and 2 can be the same as that of the above embodiments. Further, the side surface portion of the flat plate portion 71 is inclined so as to face inward toward the lower side.

  Further, a road surface recess 72 into which the flat plate portion 71 is inserted is formed on the pavement surface 28, and frame members 73 made of metal angle steel or the like are formed on the guard fence 1 on both sides in the width direction of the road surface recess 72. It is provided over almost the entire length. The frame member 73 integrally includes a bottom surface portion 73A positioned on the bottom surface of the road surface recess 72 and a side surface portion 73B positioned on the side surface of the road surface recess 72. Then, the flat surface portion 71 that is the fitting convex portion is fitted into the road surface recess 72 that is the fitting concave portion, and in this case as well, the road surface concave portion 72 and the flat plate portion 71 are not fixed by a joint material or the like, but the same as the above embodiment. It is configured so that it can be lifted using the notch 25. The elastic member 27 may be provided on the inner surface of the side surface portion 73B.

  Thus, in this embodiment, the upper and lower overhanging blocks 3 and 2 can be disconnected and the upper and lower overhanging blocks 3 and 2 can be detached independently, and the same actions and effects as in the above embodiments. Play.

  Further, as an effect on the embodiment, since the frame member 73 made of metal angle steel or the like is provided on both sides in the width direction of the road surface recess 72, the corner portion of the road surface recess 72 is damaged. Can be prevented.

  17 to 18 show a ninth embodiment of the present invention. The same reference numerals are given to the same portions as those of the above embodiments, and the description thereof will be omitted. A gap 81 is provided between 5U and the lower surface 6K of the overhanging portion 6. The gap 81 is formed so that a fork such as a forklift as a lifting and conveying means can be inserted. The lower surface 6K of the gap 81 is a support surface.

  On the lower surface of the overhanging block 3, a fitting convex portion 23 is formed over the entire length thereof. Further, the height 81 of the gap 81 is formed higher than the height h of the fitting convex portion 23. Further, the height H is preferably 30 mm or more and 150 mm or less.

  When it is necessary to remove the overhanging block 3 of the guard fence 1 due to a collision of a vehicle or the like, the steel pipes 15 and 15 on both sides are pulled up, and at least the lower part of the steel pipe 15 is pulled out from the lower insertion hole 17.

  After that, by inserting a fork of a forklift into the gap 81 on both sides, supporting the lower surface 6K as a support surface with the fork, lifting the upper overhanging block 3 substantially vertically, and moving the upper overhanging block 3 to the left or right side The overhanging block 3 can be removed from the middle of the guard fence 1 and transferred to a transport vehicle (not shown) and removed.

  Further, in this example, the underhanging block 2 can be detached alone. More specifically, the steel pipes 15 on both sides of the lower extension block 2 are pulled out or pulled up so that at least the lower ends of the steel pipes 15 on both sides are above the upper extension end surface 6H. Next, a fork of a hand lift is inserted into the cutout portion 25 of the underhanging block 2, and the supporting surface 26 is supported by the fork to lift the underhanging block 2 substantially vertically. Then, since the height H is greater than the height h, the fitting between the fitting convex portion 22 and the fitting concave portion 24 is released, and the lower overhanging block 2 is left and right in a state where it is held at substantially the same height from here. By moving to the side, the lower overhanging block 2 can be removed from between the upper overhanging blocks 3 and 3. In this case, in order to make the height H larger than the height h, if the height h is too low, the sliding resistance of the lower overhanging block 2 at the time of a vehicle collision or the like decreases, so the height H is preferably 30 mm or more, If it exceeds 150 mm, an impact force at the time of a vehicle collision or the like is greatly applied to the steel pipe 15, which is not preferable.

  When the height H is 30 mm, a predetermined sliding resistance can be obtained by setting the height h to about 25 mm, and the lower overhanging block 2 is placed between the upper overhanging blocks 3 and 3 by a clearance of 5 mm. Can be extracted smoothly.

  Thus, in the present embodiment, the upper and lower overhanging blocks 3 and 2 can be detached independently in the middle of the length direction, and the same operations and effects as the above embodiments can be obtained.

  In this way, in the present embodiment, in correspondence with claim 5, the gap 81 is provided between the upper surface 5U of the lower overhanging portion 5 and the lower surface 6K of the upper overhanging portion 6. Etc. can be inserted and the overhanging block 3 can be lifted and transported.

  Further, as a practical effect, by providing a gap 81 having a lower surface 6K as a support surface, it is not necessary to provide the notch 25 in the overhanging block 3, and it fits the entire length of the lower surface of the overhanging block 3. Since the convex portion 23 can be formed, the fitting strength with the base block 21 can be improved. Furthermore, since the height H of the gap 81 is formed higher than the height h of the fitting projection 22, the upper overhanging blocks 3, 3 can be removed without removing the upper overhanging blocks 3, 3 on both sides. The underhanging block 3 in between can be removed independently.

  In the case where the height H of the gap 81 is formed lower than the height h of the fitting convex portion 23, even if the lower overhanging block 2 is lifted due to an earthquake or the like, the lower overhanging portion 5 becomes the upper overhanging portion 6. Therefore, the fitting convex portion 22 of the underhanging block 2 is not detached from the fitting concave portion 24. In this case, as described above, after removing the upper overhanging blocks 3 and 3 on both sides, the lower overhanging block 2 between them can be removed.

  FIG. 19 shows a tenth embodiment of the present invention. The same reference numerals are given to the same parts as those of the above-mentioned embodiments, and the description thereof will be omitted. In this example, the concrete guard fence 1 is placed at the center of an expressway or the like. A description will be given of a response example in the case where a traffic jam occurs in one of the opposite lanes due to an accident or construction, provided in the separation zone.

  FIG. 19 is a plan view of a highway with one lane on one side, and the opposite lanes 82, 82 A, 82 B and lanes 83, 83 A, 83 B are partitioned by the concrete guard fence 1. If traffic congestion occurs in lanes 82, 82A, 82B due to accidents or construction, lane 83 near the opposite median strip is closed. In addition, a guide sign (not shown) or the like for guiding the vehicle 85 traveling in the lane 83 to the lanes 83A and 83B that can pass is provided at the start position 84A of the closed section 84 of the lane 83. In addition, in a state in which at least one of the plurality of lanes 83, 83A, 83B is secured, a plurality of lanes on the remaining median strip side may be blocked, that is, at least one lane on the median strip side may be blocked. It is preferred that the road is closed and that at least one remaining lane is secured.

  A hand lift (not shown) is placed in the closed section 84, and the overhanging block 3 in the vicinity of the traffic jam is lifted and overhanged toward the start position 84A of the closed section 84 as shown by the one-dot chain line arrow. Remove block 3. From the location where the overhanging block 3 is removed, the vehicle 85 in the lane 82 is guided to the lane 83 on the opposite side, as indicated by the chain line arrow. The guided vehicle 85 travels in the same direction as the vehicles 85 in the other lanes 83A and 83B.

  When guiding a large vehicle, the lower overhanging block 2 adjacent to the removed overhanging block 3 is also removed.

  Thus, in the present embodiment, the upper and lower overhanging blocks 3 and 2 can be detached independently in the middle of the length direction, and the same operations and effects as the above embodiments can be obtained.

  In this way, in this embodiment, the concrete guard fence 1 is provided in the median strip, and traffic congestion occurs in one of the lanes on both sides sandwiching the median strip, so that one of the lanes 82, 82A, 82B In the guidance method for guiding the vehicle 85 to the other lane 83, 83A, 83B, the lower overhanging blocks 3 and 2 are removed in the middle of the concrete guard fence 1 in the vicinity of the traffic congestion point, and this removal point makes the central separation zone. Since a passage is provided, and the vehicle 85 in one lane 82, 82A, 82B can be moved to the other lane 83, 83A, 83B by the passage of this median strip, the continuous guard fence 1 is removed at an arbitrary position, Traffic congestion can be eliminated by guiding the vehicle 85 to the opposite lane. Moreover, when the removed blocks 3 and 2 are returned to their original positions after the congestion is eliminated, the concave / convex fitting serves as a guide to facilitate positioning, and the steel pipe 15 can connect the adjacent blocks 3 and 2 together. It can be done easily.

  20 to 21 show an eleventh embodiment of the present invention. The same reference numerals are given to the same portions as those in the above embodiments, and the description thereof will be omitted. Indicates.

  As shown in the figure, a metal nut body 91 is fixed to the lower insertion hole 17 by insert molding or the like, and a female screw portion 92 is formed on the inner periphery of the nut body 91. The female screw portion 92 is provided on the lower side from the center in the height direction of the lower insertion hole 17, and the lower insertion hole 17 is open on the lower surface of the lower overhanging block 2. Further, a male screw portion 93 that is screwed into the female screw portion 92 is formed at the lower end of the steel pipe 15. A metric trapezoidal screw is used for the female screw portion 92 and the male screw portion 93.

  Further, a flange-like portion 94 is provided at the upper end of the steel pipe 15, and a ring-shaped recess 95 that accommodates at least a part of the flange-like portion 94 is recessed in the upper portion of the upper insertion hole 16. In this example, the entire bowl-shaped portion 94 is accommodated in the recess 95.

  Furthermore, as shown in FIG. 21 (A), the hook-shaped portion 94 is not formed in a ring shape, but as shown in FIG. 21 (B), the hook-shaped portion 94 is formed on the outer periphery of a substantially cross shape or a square shape. If a shape having a plurality of or single recesses 96 is provided, the recess 96 of the bowl-shaped portion 94 can be an operation portion to facilitate the turning of the steel pipe 15. Also in the case of FIG. 21 (B), the bowl-shaped portion 94 is formed to have a size that closes the upper and lower insertion holes 16 and 17.

  Therefore, by screwing the male screw portion 93 of the steel pipe 15 with the female screw portion 92 of the lower insertion hole 17, the steel pipe 15 can be fixed to the upper and lower insertion holes 16, 17, while the screwing is performed. If released, the steel pipe 15 can be pulled out.

  Thus, in the present embodiment, the upper and lower overhanging blocks 3 and 2 can be detached independently in the middle of the length direction, and the same operations and effects as the above embodiments can be obtained.

  In this way, in this embodiment, corresponding to claim 11, the retaining prevention structure has a lower insertion hole 17 for inserting the lower portion of the steel pipe 15 as a vertical member into the lower extension portion 5 of the lower extension block 2. The upper insertion hole 16 for inserting the upper portion of the steel pipe 15 corresponding to the lower insertion hole 17 is formed in the upper extension portion 6 of the upper extension block 3, and the female screw portion 92 is provided in the lower insertion hole 17. At the same time, since the male screw portion 93 that is screwed into the female screw portion 92 is provided in the steel pipe 15, the male screw portion 93 of the steel pipe 15 is screwed into the female screw portion 92 of the lower insertion hole 17, thereby maintaining the retaining state. On the other hand, the steel pipe 15 can be pulled out by releasing the screwing.

  In addition, as an effect on the embodiment, the upper surface of the gap 100 between the upper and lower insertion holes 16, 17 and the steel pipe 15 is blocked by the lower surface of the bowl-shaped portion 94 coming into contact with the recess 95. Intrusion of dust or the like into the gap 100 can be prevented. Furthermore, the steel pipe 15 can be rotated using the ring-shaped bowl-shaped part 94. In particular, by providing the recess 96 serving as the operation part on the outer periphery of the bowl-shaped part 94, the steel pipe 15 can be easily rotated. In addition, since the female screw portion 92 and the male screw portion 93 are metric trapezoidal screws, they are stronger and have a lower frictional resistance during rotation than a triangular screw having a substantially triangular cross section or a screw for a taper tube. Later screw release becomes easy.

  22 to 23 show a twelfth embodiment of the present invention. The same reference numerals are given to the same portions as those of the above-described embodiments, and the description thereof will be omitted to explain in detail. Indicates.

  As shown in the figure, an elastic retaining member 111 made of an elastic material such as a rubber material is provided on the upper outer periphery of the steel pipe 15. This elastic retaining member 111 has a cylindrical mounting portion 112 that is attached to the periphery of the steel pipe 15 by adhesion or the like, and tongue pieces 113 that are provided in a plurality of upper and lower stages on the outer periphery of the mounting portion 112. A groove 114 is provided between the upper and lower tongue pieces 113. Further, the tongue piece 113 has an inclined surface 113A that is obliquely upward on the lower side, and is formed so as to become thinner toward the tip side and upward. An elastic retaining member 111 that presses against the lower insertion hole 17 may be provided on the outer periphery of the lower portion of the steel pipe 15.

  Further, a large-diameter portion 16K with which the elastic retaining member 111 is pressed is provided at the upper portion of the upper insertion hole 16. The diameter of the tip of the tongue piece 113 before deformation is larger than the diameter of the large diameter portion 16K. Further, as shown in FIG. 22, the steel pipe 15 is shorter than the upper and lower insertion holes 16 and 17.

  Therefore, when the steel pipe 15 is inserted into the upper and lower insertion holes 16 and 17 and the elastic retaining member 111 is press-fitted into the large diameter portion 16K, the plurality of tongue pieces 113 are obliquely upward as shown in FIG. The tip end side of the inclined surface 113A comes into pressure contact with the large-diameter portion 16K, thereby making it difficult for the steel pipe 15 to come off.

  Thus, in the present embodiment, the upper and lower overhanging blocks 3 and 2 can be detached independently in the middle of the length direction, and the same operations and effects as the above embodiments can be obtained.

  In this way, in this embodiment, corresponding to claim 12, the retaining prevention structure has a lower insertion hole 17 for inserting the lower portion of the steel pipe 15 as a vertical member into the lower extension portion 5 of the lower extension block 2. The upper insertion hole 16 for inserting the upper part of the steel pipe 15 corresponding to the lower insertion hole 17 is formed in the upper extension part 6 of the upper extension block 3, and the upper insertion hole 16 or the lower part is formed on the outer periphery of the steel pipe 15. An elastic retaining member 111 that presses against the insertion hole 17 is provided. In this example, the elastic retaining member 111 is pressed against the upper insertion hole 16, so that the steel pipe 15 is inserted into the upper and lower insertion holes 16 and 17 to prevent elastic retaining. When the member 111 is in pressure contact with the upper insertion hole 16, the steel pipe 15 is hardly pulled out. On the other hand, when the member 111 is pulled up with a predetermined force or more, the elastic retaining member 111 is elastically deformed so that the steel pipe 15 can be pulled out.

  Further, as an effect of the embodiment, the elastic retaining member 111 is pressed against the inner surface of the large diameter portion 16K, so that the upper and lower insertion holes 16, 17 and the steel pipe 15 are located below the elastic retaining member 111. Since the upper part of the gap 100 is closed, it is possible to prevent intrusion of dust or the like into the gap 100. Further, since the center of the tongue portion 113 is formed obliquely upward from the horizontal toward the distal end side, the steel pipe 15 is easily inserted into the upper and lower insertion holes 16 and 17 from above, and on the contrary, the structure is difficult to come off. .

  24 to 25 show a thirteenth embodiment of the present invention. The same reference numerals are given to the same parts as those of the above-described embodiments, and the description thereof will be omitted. Indicates.

  As shown in the figure, a disc-shaped lid 121 is provided at the upper end of the steel pipe 15, and a ring-shaped recess 122 for accommodating at least a part of the lid 121 is recessed at the upper part of the upper insertion hole 16. Set up. In this example, the entire lid 121 is accommodated in the recess 122, and the lid 121 closes the upper end opening of the steel pipe 15. In addition, the steel pipe 15 is shorter than the upper and lower insertion holes 16 and 17, and the lower surface of the lid 121 is placed on the bottom surface of the recess 122. In this placed state, the steel pipe 15 is placed between the lower end of the steel pipe 15 and the closing portion 17A. An interval is provided.

  In addition, a plurality of embedded nuts 123 are embedded and fixed on the bottom surface of the recess 122 by insert molding or the like, and corresponding to the female screw portions 124 of the embedded nuts 123, the fixing portions 121A around the lid body 121 are fixed. A through hole 125 is formed, a bolt 126 as a fixing means is inserted into the through hole 125, and the bolt 126 is screwed into the female screw portion 124, whereby the steel pipe 15 is inserted into the recess 122 of the upper projecting portion 6. The upper insertion hole 16 is closed by the lid 121. The fixing portion 121A is a portion located on the outer periphery of the steel pipe 15 of the lid 121.

  Further, the female screw portions 124 of the plurality of embedded nuts 123 are positioned concentrically with respect to the center of the upper insertion hole 16, and the plurality of through holes 125 are positioned concentrically with respect to the center of the steel pipe 15. Therefore, by screwing the bolt 126 into the nut 123, the upper and lower insertion holes 16, 17 and the center axis of the steel pipe 15 are aligned, and the entire circumference of the steel pipe 15 is aligned with the upper, lower insertion holes 16, 17. It can arrange | position so that it may not contact. In this example, embedded nuts 123 and 123 are arranged before and after the upper insertion hole 16.

  Thus, in the present embodiment, the upper and lower overhanging blocks 3 and 2 can be detached independently in the middle of the length direction, and the same operations and effects as the above embodiments can be obtained.

  Thus, in this embodiment, corresponding to claim 13, the retaining prevention structure has a lower insertion hole 17 for inserting the lower portion of the steel pipe 15 as a vertical member into the lower extension portion 5 of the lower extension block 2. The upper insertion hole 16 for inserting the upper part of the steel pipe 15 corresponding to the lower insertion hole 17 is formed in the upper extension part 6 of the upper extension block 3, and the fixing part 121A is formed around the upper part of the steel pipe 15 In addition, since the fixing portion 121A is provided with a bolt 126 as a fixing means for fixing the fixing portion 121A to the overhanging block 3, the fixing portion 121A is fixed to the overhanging block 3 with the bolt 126, so that the retaining state can be maintained. On the other hand, the steel pipe 15 can be pulled out by releasing the fixing of the fixing portion 121A.

  Further, in this embodiment, in correspondence with the fourteenth aspect, the lid 121 that closes the upper insertion hole 16 is provided on the upper portion of the steel pipe 15 that is the vertical member, and the periphery of the lid 121 is the fixing portion 121A. The upper opening of the steel pipe 15 is blocked by the lid 121, and the lid 121 can prevent dust and the like from entering the upper insertion hole 16.

  FIG. 26 shows a fourteenth embodiment of the present invention. The same reference numerals are given to the same portions as those of the above-mentioned embodiments, and the description thereof will be omitted. In this example, a modification of the basic block 21 is shown. As shown in the figure, the base block 21 is provided with a through hole 24K as a fitting recess to form the base block 21 in a frame shape, and the fitting protrusions 22 and 23 are fitted into the through hole 24K.

  Thus, in the present embodiment, the upper and lower overhanging blocks 3 and 2 can be detached independently in the middle of the length direction, and the same operations and effects as the above embodiments can be obtained.

  Further, as an effect of the embodiment, since the base block 21 is formed in a frame shape by providing the through hole 24K, the weight of the base block 21 can be reduced.

  27 to 29 show a fifteenth embodiment of the present invention. The same reference numerals are given to the same portions as those of the above-mentioned embodiments, and the description thereof will be omitted. In this example, the concrete guard fence 1 is attached to the road. A description will be given of an example of handling when a traffic jam occurs in one of the opposite lanes due to an accident or construction, provided in the median strip. In the figure, the upper and lower overhanging blocks 3 and 2 are hatched for easy understanding. In addition, the white arrow on the left side in the figure indicates the traveling direction.

  This figure shows a plan view of a single lane road, and the opposite lanes 82 and 83 are partitioned by a concrete guard fence 1. In addition, it is applicable also to one side multiple lanes. As shown in FIG. 27 (A), when an accident caused by a plurality of vehicles 85A and 85B occurs in one lane 82, traffic is impossible due to these accident vehicles 85A and 85B, and traffic congestion occurs in one lane 82, A plurality of vehicles become the staying vehicles 85C, 85D, 85E, and 85F. In such a case, conventionally, the staying vehicles 85C, 85D, 85E, and 85F cannot move and have to wait until the accident vehicles 85A and 85B are removed after inspection by the police. Further, as shown in FIG. 27 (B), the accident recovery rescue vehicle 85I is difficult to approach from one lane 82 because of the staying vehicles 85C, 85D, 85E, and 85F. Even if the emergency vehicle 85J approaches the accident scene 86 from the other lane 83, it cannot go around to the lane 82 where the accident vehicles 85A and 85B are located. The accident recovery rescue vehicle 85I is exemplified by a police vehicle, a tow truck, a fire truck, an emergency vehicle 85J, and the like.

  Therefore, as shown in FIG. 28 (A), the overhanging block 3 is removed independently on the rear side (right side in the figure) of the accident scene 86 in one lane 82, and an opening 87 is provided in the middle of the concrete guard fence 1. Form. The removed overhanging block 3 moves to the other lane 83. This moving position is the front side of the opening 87 in the other lane 83. The number of blocks to be removed may be two or more adjacent. Further, as shown in FIG. 28 (A), by moving the removed overhanging block 3 to the center separation band side, it is possible to ensure the passage of the other lane 83. Although not shown, the removed overhanging block 3 may be moved toward the shoulder of the road to secure the passage of the other lane 83.

  When the opening 87 is thus provided, the ambulance vehicle 85J travels to the opening 87 through the other lane 83 and passes through the opening 87 as shown in FIG. And can approach the accident scene 86 in one lane 82. Further, as shown in the figure, the upper overhanging block 3 on the front side (left side in the figure) of the accident vehicles 85A and 85B in one lane 82 is removed to provide an opening 87A.

  When the ambulance 85J arrives at the accident site 86 through the opening 87 and the opening 87 is allowed to pass, as shown in FIG. 29, the staying vehicles 85C, 85D, 85E, 85F in one lane 82 are It returns to one lane 82 through the opening 87, the other lane 83, and the opening 87A, and can leave the accident scene 86 as it is. As a result, the staying vehicles 85C, 85D, 85E, and 85F that are on the front side in the traveling direction of the rescue vehicle 85I can be eliminated. As a result, the accident recovery rescue vehicle 85I can easily approach the accident site 86, reduce the time for accident recovery, and reduce social loss due to traffic closure. When the rescue vehicle 85I carries an injured person or the like, the rescue vehicle 85I passes through the opening 87, the other lane 83, and the opening 87A in one lane 82, like the staying vehicles 85C, 85D, 85E, and 85F. You can return to

  After the accident occurs, the vehicle does not pass on the front side (left side in the figure) from the opening 87A of one lane 82 until the staying vehicles 85C, 85D, 85E, and 85F pass through the opening 87. Then, the removal work of the overhanging block 3 is performed halfway in one lane 82, and after the ambulance vehicle 85J passes, the overhanging block 3 at the position of the opening 87A may be moved to another place. In the middle of the removal work, the work until the upper projecting block 3 is moved from the current plane position is shown. For example, if the release prevention of the steel pipe 15 is released or the steel pipe 15 is pulled out from the underhanging portion 5, the subsequent removal time can be shortened by that amount and the opening 87A can be provided in a short time. . Further, the overhanging block 3 at the position of the opening 87A may be moved to the moving position, and in this case, the removed overhanging block 3 is also separated into the center. By moving to the belt side, the other lane 83 can be secured. Although not shown, the removed overhanging block 3 may be moved toward the shoulder of the road to secure the passage of the other lane 83. Further, as described in the ninth embodiment, the openings 87 and 87A may be formed by removing the underhanging block 3 alone.

  Thus, in the present embodiment, the upper and lower overhanging blocks 3 and 2 can be detached independently in the middle of the length direction, and the same operations and effects as the above embodiments can be obtained.

  In this way, in this embodiment, the concrete guard fence 1 is provided in the central separation band, and traffic jam occurs in one of the lanes 82 on both sides of the central separation band. , 85D, 85E, 85F, in the guidance method to guide the other lane 83, remove the overhanging block 3 or / and the underhanging block 2 in the vicinity of the traffic jam part in the middle of the concrete guard fence 1, and An opening 87 serving as a passage is provided in the central separation zone, and the vehicles 85C, 85D, 85E, and 85F in one lane 82 can be moved to the other lane 83 from the opening 87 in the central separation zone. Has the same actions and effects as

  In this way, in this embodiment, the upper overhanging block 3 / and the lower overhanging block 2 in the vicinity of the traffic jam location are removed, and an opening 87 is provided on the rear side of the accident site 86 in one lane 82. The emergency vehicle 85J, which is an accident recovery rescue vehicle, can travel from the lane 83 to the accident scene 86 in one lane 82 through the opening 87, so even if one lane 82 is congested, the emergency site 85 The vehicle 85J can arrive promptly.

  In this way, in this embodiment, the openings 87 and 87A through which the vehicle can pass are provided on both sides of the accident site 86, so that the staying vehicles 85C, 85D and 85E in one lane 82 before the accident site 86 are provided. , 85F can return to one lane 82 through the opening 87, the other lane 83, and the opening 87A, and leave the accident site 86 as it is.

  The present invention is not limited to this embodiment, and various modifications can be made within the scope of the gist of the present invention. For example, the vertical member may be a solid rod-like member other than a steel pipe, and the outer cross section of this rod-like member is preferably circular, but the vertical member may have a square cross section. Further, in the embodiment, the inner surfaces of the upper and lower insertion holes are exemplified by the exposed concrete surface, but the upper and lower insertion holes may be constituted by buried steel pipes. Furthermore, the slip-out prevention mechanism is not limited to the embodiment, and is a type in which the steel pipe (longitudinal member) is retained by being engaged with and disengaged from the upper part of the steel pipe inserted into the upper and lower insertion holes. It is also possible that the insertion hole is closed so that the vertical member cannot be pulled out, and the slip-out prevention mechanism may be configured by a lid that closes the upper portion of the upper insertion hole. In the embodiment, the corners of the lower overhanging end surface and the upper overhanging end surface are notched, but the lower overhanging end surface or / and the lower end surface of the corner are notched, the upper overhanging end surface or / and the upper end surface of the upper overhanging end surface. The corner may be cut out, that is, at least one corner of both sides sandwiching the upper joint and the lower joint may be cut out. Furthermore, the number of the fitting protrusions provided on the upper and lower extending blocks may be one or more, and the planar shape of the fitting protrusions is not limited to the rectangle or square in the embodiment, but is round. , Triangles, pentagons or more polygons. Furthermore, although the fitting convex part formed three side parts diagonally, you may form four side parts diagonally. Further, although the upper surface 5U and the lower surface 6K of the embodiment are substantially horizontal in the length direction of the upper and lower overhanging blocks, they are formed obliquely with respect to the length direction or formed in a curved shape. Or you may. Further, the notch engaging groove may be of a type having no upper vertical groove portion. Moreover, although the notch part which the lower part opened was shown in the Example, the notch part may be the type which the lower part obstruct | occluded. Further, the corner cutout portion may be a chamfered corner portion at the end in the longitudinal direction of the block, and the shape can be appropriately selected. In the embodiment, a plurality of (two) fixing means are used. However, only one fixing means may be used, and a male screw rod as a fixing means is provided on the upper surface of the overhanging block. The male screw rod may be inserted into the through hole of the lid, and the nut may be screwed onto the tip of the male screw rod protruding from the upper surface of the lid so that the lid is fixed to the overhanging block. . Moreover, although the fitting convex part of a lower overhanging block is preferable 25 mm or more, if the fitting convex part of an upper overhanging block is made high compared with the fitting convex part of a lower overhanging block, the concrete guard fence as a whole Sliding resistance can be ensured. Furthermore, the upper and lower overhanging blocks can be removed and transported by using various lifting and transporting means other than the handlift and forklift shown in the embodiment. preferable.

1 Guard fence 2 Underhanging block (protective fence block)
3 Overhanging block (protective fence block)
5 Lower overhang 5U Upper surface 6 Upper overhang 6K Lower surface
15 Steel pipe (connecting means / vertical member)
15F Lower edge
16 Upper insertion hole
17 Lower insertion hole
21 Basic blocks
22 Mating protrusion
23 Mating protrusion
24 Mating recess
25 Notch
28 Pavement surface (road surface)
31 Retaining member
32 Notch locking groove
41 Curved convex surface
42 Curved convex surface
51 Diagonal bolt (connecting means / bolt)
55 Curved bolt (connecting means / bolt)
61 Connecting plate (connecting member)
62 Double screw bolt (fixing member)
92 Female thread
93 Male thread
111 Elastic retaining member
121A fixed part
126 bolts (fixing means)

  The present invention relates to a concrete guard fence.

  The guard fence is mainly provided to prevent a vehicle that deviates from the driving lane from deviating from the road or to the opposite lane, and the concrete guard fence is widely used because it is excellent in strength and durability. .

  For example, in a concrete protective wall configured by connecting a plurality of concrete blocks to each other by connecting a block continuum formed by applying tension to a tension stranded wire steel material, An insertion hole is formed for inserting a continuum connecting stranded wire steel material that connects the block continuums with tension, and one end of the insertion hole is opened toward the top of the block. Thus, there has been proposed a concrete protective wall (for example, Patent Document 1) for fixing an end of the continuum connecting stranded wire steel material to the concrete block.

  In the concrete guard fence, a plurality of concrete blocks can be integrated with tension by a stranded wire steel material.

  A wall body made of precast concrete having a flat inclined surface inclined at a predetermined angle on both sides and a cross section expanding downward, and a concrete foundation wider than the wall body provided at a lower portion of the wall body. A concrete guard fence comprising: a lower portion of the wall body and an upper portion of the foundation are concavo-convexly fitted; a lower portion of the wall body is fixed to the foundation by an anchor bolt; and a plurality of wall bodies are tension-integrated by a PC steel material (For example, patent document 2) is proposed.

  The concrete guard fence is excellent in strength, can improve the safety of the occupant at the time of collision, and is easier to construct than in the past.

  In the thing of the said patent document 1 and the patent document 2, since several blocks (wall main body) are tension-integrated with PC steel materials, even when one block is damaged, it is necessary to cut | disconnect PC steel materials. Furthermore, the cut PC steel cannot be reused, and after replacing the block, an operation of tension integration with a new PC steel is required.

  Moreover, since the joint part of adjacent blocks is filled with joint materials, such as a non-shrink mortar, when replacing a block, it is necessary to scrape the joint material of the existing block of both sides. Furthermore, at the time of restoration, there is a problem that it takes time until a strength is developed by installing a leak-proof mold at the joint and injecting non-shrink mortar.

  Further, in the case of fixing the wall body on the foundation as in Patent Document 2, after removing the wall body in order to replace the wall body, the level plate on the existing foundation is removed and the air-mixed mortar is removed. When removing and restoring, there is a problem that centering and leveling are performed in the same manner as in the new installation, and it is necessary to level the empty kneading mortar, which is troublesome.

  Moreover, in the said patent document 1 and patent document 2, a heavy machine is needed for removal, a movement, and installation in the removal operation | work of the said block (wall main body), and a restoration operation | work.

  On the other hand, in addition to the structure in which the blocks are connected by a member in the length direction such as PC steel, an upper protrusion is formed at one end in the longitudinal direction, and a lower protrusion is formed at the other end. A wall block (for example, Patent Document 3) in which both ends are fixed with bolts in the vertical direction has been proposed. In this wall block, the connection between adjacent blocks is released compared to the one using PC steel in the length direction. Can be easily performed.

  However, even if the bolts on both sides are removed in the wall surface block, the upper wall protrusion of the adjacent wall surface block overlaps the lower protrusion, so that the wall block cannot be removed from the middle of the continuous wall and continues. It is necessary to remove from the wall block at the end of the wall.

  By the way, when an accident or the like occurs on an expressway or the like, a traffic jam occurs. Although not known, it is conceivable to change the lane and guide the vehicle to the opposite lane in order to eliminate the traffic jam. At the same time, if an emergency vehicle arrives at the scene using the opposite lane to save lives, it may be possible to reverse the accident to the lane where the accident occurred. Since it is difficult to remove the fence at an arbitrary position, it is impossible to guide the vehicle to the opposite lane or to guide the emergency vehicle to the opposite lane for lifesaving. This problem is particularly important in the case of face-to-face traffic sections.

Japanese Patent Laid-Open No. 2000-240024 JP-A-7-42124 JP 2010-222865 A

  Then, this invention solves the said problem, and it aims at providing the concrete guard fence which can remove easily the block in the middle of a length direction independently.

According to the first aspect of the present invention, a lower overhanging block in which a lower overhanging portion protrudes at the lower part on both sides in the length direction, and an upper overhanging portion disposed on the lower overhanging portion protrudes at the upper part on both sides in the length direction. In the state where the upper overhanging block and the upper overhanging portion of the upper overhanging block are arranged on the lower overhanging portion of the lower overhanging block, the lower overhanging block and the upper overhanging block are Connecting means for connecting, provided in the lower part of the side surface of the lower overhanging block and the upper overhanging block, provided with a notch, the notch opened to the side surface on both sides in the left-right direction, and It has a support surface supported by a fork of a lifting and conveying means that lifts and conveys the lower overhanging block or the upper overhanging block .

According to the configuration of claim 1, by releasing the connection by the connecting means, the upper overhanging block in the middle can be lifted and removed, and by removing the upper overhanging blocks on both sides, The exit block can be lifted and removed. In an emergency, the fork of the lifting and transporting means can be inserted into the notch and moved and reinstalled manually.

   According to a second aspect of the present invention, a foundation block provided on a road surface is provided, and the lower projecting block or / and the upper projecting block are unevenly fitted on the foundation block.

  According to the configuration of the second aspect, the concave / convex fitting portion functions as a sliding resistance of the upper and lower overhanging blocks when the vehicle collides. Further, when the block once removed is returned to the original position, positioning is easy because the concave / convex fitting serves as a guide.

  According to a third aspect of the present invention, the connecting means is a longitudinal member, and the upper projecting portion and the lower projecting portion are coupled by the longitudinal member inserted into the upper projecting portion and the lower projecting portion. It is characterized by.

  According to the structure of Claim 3, compared with the connection using PC steel material of a length direction, a connection cancellation | release operation | work becomes easy and the removal of the block in the middle can be performed simply.

The invention of claim 4 is characterized in that a gap is provided between the upper surface of the lower overhanging portion and the lower surface of the upper overhanging portion.

According to the configuration of the fourth aspect , the forklift fork or the like can be inserted into the gap to lift and carry the overhanging block.

According to a fifth aspect of the present invention, there is provided a pull-out preventing structure for preventing the vertical member from slipping out.

According to the configuration of the fifth aspect , by preventing the vertical member from coming off, it is possible to prevent the connection from being inadvertently released.

The invention of claim 6 is characterized in that a corner portion of a lengthwise end portion of the lower overhanging block and / or the upper overhanging block is cut out.

According to the configuration of the sixth aspect , it is possible to cope with curved construction.

The invention according to claim 7 is characterized in that the connecting means is a bolt in the length direction, and the lower projecting block and the upper projecting block which are adjacent to each other are connected by the bolt.

According to the structure of Claim 7, the adjacent overhanging block and upper overhanging block can be connected with the volt | bolt of a length direction.

The invention according to claim 8 is the lower overhanging block in which the lower overhanging portion protrudes at the lower portions on both sides in the length direction, and the upper overhanging portion disposed on the lower overhanging portion protrudes at the upper portions on both sides in the length direction. In the state where the upper overhanging block and the upper overhanging portion of the upper overhanging block are arranged on the lower overhanging portion of the lower overhanging block, the lower overhanging block and the upper overhanging block are Connecting means for connecting, the connecting means is provided across the outer surface of the adjacent lower projecting block and the outer surface of the upper projecting block, and the connecting member is connected to the lower projecting block and the lower projecting block. And a fixing member that is fixed to the overhanging block.

According to the structure of Claim 8, the adjacent overhanging block and upper overhanging block can be connected by the connecting member and the fixing member.

According to the ninth aspect of the present invention, there is provided a lower overhanging block in which a lower overhanging portion is protruded at both lower portions in the length direction, and an upper overhanging portion disposed on the lower overhanging portion is provided in the upper portion on both sides in the length direction. In the state where the upper overhanging block and the upper overhanging portion of the upper overhanging block are arranged on the lower overhanging portion of the lower overhanging block, the lower overhanging block and the upper overhanging block are Connecting means for connecting, the connecting means is a vertical member, and the upper projecting part and the lower projecting part are connected by the vertical member inserted into the upper projecting part and the lower projecting part. the longitudinal member comprises a prevention structure exits to prevent escape, the longitudinal member is a cylindrical shape, preventing structure out the missing is inserted a lower portion of the longitudinal member to the lower projecting portion of the lower projecting block A lower insertion hole is formed, and an upper insertion hole for inserting the upper portion of the vertical member is inserted in front of the lower insertion hole. A notch locking groove formed in the upper projecting portion of the upper projecting block, provided with a lateral retaining member in the lower insertion hole, and engaged with and disengaged from the retaining member by rotation at the lower portion of the vertical member. It is provided.

According to the configuration of the ninth aspect , it is possible to maintain the retaining state by rotating the vertical member and engaging the retaining member. On the other hand, the vertical member can be pulled out by rotating the vertical member to release the locking with the retaining member.

The invention of claim 10 is characterized in that a lower projecting block having lower projecting portions projecting at both lower portions in the length direction and an upper projecting portion disposed on the lower projecting portion projecting from both upper portions in the length direction. In the state where the upper overhanging block and the upper overhanging portion of the upper overhanging block are arranged on the lower overhanging portion of the lower overhanging block, the lower overhanging block and the upper overhanging block are Connecting means for connecting, the connecting means is a vertical member, and the upper projecting part and the lower projecting part are connected by the vertical member inserted into the upper projecting part and the lower projecting part. the longitudinal member comprises a exit prevention structure for preventing the escape prevention structure out the omission forms the lower insertion hole for inserting a lower portion of the longitudinal member to the lower projecting portion of the lower projecting block, said An upper insertion hole for inserting an upper portion of the vertical member corresponding to the lower insertion hole is formed on the upper extension block. Formed on the outlet portion, provided with a female thread portion to the lower insertion hole, characterized in that the male screw portion screwed into the female screw portion provided on the longitudinal member.

According to the configuration of the tenth aspect, the retaining state can be maintained by screwing the male screw portion of the vertical member with the female screw portion of the lower insertion hole. On the other hand, the longitudinal member can be pulled out by releasing the screwing.

The invention according to claim 11 is characterized in that a lower overhanging block in which a lower overhanging portion protrudes at the lower part on both sides in the length direction, and an upper overhanging portion disposed on the lower overhanging portion protrudes at the upper part on both sides in the length direction. In the state where the upper overhanging block and the upper overhanging portion of the upper overhanging block are arranged on the lower overhanging portion of the lower overhanging block, the lower overhanging block and the upper overhanging block are Connecting means for connecting, the connecting means is a vertical member, and the upper projecting part and the lower projecting part are connected by the vertical member inserted into the upper projecting part and the lower projecting part. the longitudinal member comprises a exit prevention structure for preventing the escape prevention structure out the omission forms the lower insertion hole for inserting a lower portion of the longitudinal member to the lower projecting portion of the lower projecting block, said An upper insertion hole for inserting an upper portion of the vertical member corresponding to the lower insertion hole is formed on the upper extension block. Formed on the outlet portion, characterized in that a said upper insertion hole or elastic stop member pressed against the lower insertion hole on the outer circumference of the vertical member.

According to the configuration of the eleventh aspect , by inserting the vertical member into the upper and lower insertion holes and pressing the elastic retaining member against at least one of the upper and lower insertion holes, it becomes difficult for the vertical member to come off. On the other hand, when it is pulled up with a predetermined force or more, the elastic retaining member is elastically deformed, whereby the vertical member can be pulled out.

The invention according to claim 12 is characterized in that a lower overhanging block in which a lower overhanging portion protrudes at the lower part on both sides in the length direction, and an upper overhanging portion disposed on the lower overhanging portion protrudes at the upper part on both sides in the length direction. In the state where the upper overhanging block and the upper overhanging portion of the upper overhanging block are arranged on the lower overhanging portion of the lower overhanging block, the lower overhanging block and the upper overhanging block are Connecting means for connecting, the connecting means is a vertical member, and the upper projecting part and the lower projecting part are connected by the vertical member inserted into the upper projecting part and the lower projecting part. the longitudinal member comprises a exit prevention structure for preventing the escape prevention structure out the omission forms the lower insertion hole for inserting a lower portion of the longitudinal member to the lower projecting portion of the lower projecting block, said An upper insertion hole for inserting an upper portion of the vertical member corresponding to the lower insertion hole is formed on the upper extension block. Formed on the outlet portion, provided with a fixed part around an upper portion of the longitudinal member, characterized in that the fixing part comprises a fixing means for fixing on said projecting block.

According to the configuration of the twelfth aspect , it is possible to maintain the retaining state by fixing the fixing portion to the overhanging block by the fixing means. On the other hand, the longitudinal member can be pulled out by releasing the fixing of the fixing portion.

The invention according to claim 13 is characterized in that a lid for closing the upper insertion hole is provided at an upper portion of the vertical member, and the periphery of the lid is the fixing portion.

According to the configuration of the thirteenth aspect , it is possible to prevent intrusion of dust and the like into the upper insertion hole by the lid.

  In the concrete guard fence in which a plurality of blocks are arranged, the intermediate block can be easily detached independently.

It is a side view of the concrete guard fence which shows Example 1 of this invention. It is sectional drawing of a vertical member location same as the above. It is sectional drawing of a notch part location same as the above. It is an exploded view of a concrete guard fence same as the above. It is a front view of the principal part of the retaining structure which shows Example 2 of this invention. It is an explanatory perspective view of a retaining structure. It is a top view of the connection location which shows Example 3 of this invention. It is a side view of the concrete guard fence which shows Example 4 of this invention. It is sectional drawing of the principal part same as the above. It is a side view of the principal part which notched a part which shows Example 5 of this invention. It is a top view of the principal part which notched a part same as the above. It is a side view of the principal part which shows Example 6 of this invention. It is a top view of the principal part same as the above. It is a side view of the principal part which shows Example 7 of this invention. It is sectional drawing of the principal part same as the above. It is sectional drawing which shows Example 8 of this invention. It is a side view of the concrete guard fence which shows Example 9 of this invention. It is sectional drawing of a vertical member location same as the above. It is plane explanatory drawing which shows Example 10 of this invention. It is a cross-sectional view of preventing structure out exit showing Embodiment 11 of the present invention. Id is a plan view of preventing structure out dropout, FIG 21 (A) is one using a ring-shaped flange portion, FIG. 21 (B) shows that using a flange-like portion provided with an operation portion. It is a cross-sectional view of preventing structure out exit showing Embodiment 12 of the present invention. FIG. 23A is a cross-sectional view of the retaining member, FIG. 23A shows a state before deformation, and FIG. 23B shows a state after deformation. It is a cross-sectional view of preventing structure out exit showing Embodiment 13 of the present invention. Id is a plan view of preventing structure out missing. It is a perspective view of the basic block which shows Example 14 of this invention. It is a plane explanatory view showing Example 15 of the present invention. It is a plane explanatory drawing same as the above. It is a plane explanatory drawing same as the above.

  Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments described below do not limit the contents of the present invention described in the claims. In addition, all of the configurations described below are not necessarily essential requirements of the present invention. In each embodiment, by adopting a new concrete guard fence different from the conventional one, an unprecedented concrete guard fence is obtained, and the concrete guard fence will be described.

  Embodiments of the present invention will be described below with reference to the accompanying drawings. 1 to 4 show Embodiment 1 of the present invention. As shown in the figure, a concrete guard fence 1 made of precast concrete (hereinafter referred to as a guard fence) includes a plurality of lower overhanging blocks 2 and a plurality of upper overhangs connected to the longitudinal ends of the lower overhanging blocks 2. An overhanging block 3 and a connecting means for connecting the lower overhanging block 2 and the upper overhanging block 3 are provided, and the upper and lower overhanging blocks 3 and 2 are connected alternately side by side.

  Lower projecting portions 5 and 5 project from the lower portions on both sides in the length direction of the lower projecting block 2, and the lower projecting block 2 has a substantially inverted T shape in a side view. Further, upper projecting portions 6 and 6 project from the upper portions of both sides of the upper projecting block 3 in the longitudinal direction, and the upper projecting block 3 has a substantially T-shape in a side view. Then, in a state where the upper overhanging portion 6 is disposed on the lower overhanging portion 5, adjacent lower overhanging blocks 2 and upper overhanging blocks 3 are connected by the connecting means. The lower overhanging block 2 and the upper overhanging block 3 are protective fence blocks.

  As shown in FIG. 4 and the like, an upper end surface 11 that is substantially perpendicular to the lower surface of the lower overhanging block 2 is provided at the upper part of the longitudinal end portion of the lower overhanging block 2. A substantially horizontal upper surface 5U of the lower overhanging portion 5 is located at the lower portion, and a lower overhanging end surface 5H of the lower overhanging portion 5 is formed substantially vertically downward from an outer end portion of the upper surface 5U. .

  Further, an upper projecting end surface 6H of the upper projecting portion 6 that is substantially perpendicular to the lower surface of the upper projecting block 3 is formed at the upper part of the longitudinal end portion of the upper projecting block 3. A substantially horizontal lower surface 6K of the upper overhanging portion 6 is positioned below the overhanging end surface 6H, and a lower end surface 12 that is substantially vertical is formed downward from the inner end of the lower surface 6K.

  As shown in the cross-sectional view of FIG. 2, the upper and lower overhanging blocks 3 and 2 are formed to have a substantially constant thickness above the positions of the upper surface 5U and the lower surface 6K, that is, the upper side surface portions 13 and 13 on both sides. Are formed in parallel and substantially vertically. On the other hand, it is formed so that the lower side is wider toward the lower side than the positions of the upper surface 5U and the lower surface 6K, that is, the lower side surface portions 14, 14 on both sides are formed in a tapered shape that expands downward. .

  As shown in FIGS. 1 and 4, the adjacent lower overhanging block 2 and the upper overhanging block 3 are connected to each other by overlapping the upper overhanging portion 6 on the lower overhanging portion 5. In this case, a vertical upper joint portion 101 is provided between the upper end surface 11 and the overhanging end surface 6H, and a vertical lower joint portion 102 is provided between the lower end surface 12 and the lower overhanging end surface 5H. The upper joint portions 101 and 102 are provided as gaps and are not filled with a filler or the like. Further, the lower surface 6K of the upper overhanging portion 6 is placed on the upper surface 5U of the lower overhanging portion 5, and no joint material or the like is provided between the upper surface 5U and the lower surface 6K, and the upper surface 5U and the lower surface 6K are bordered. Is cut.

  In the upper and lower projecting portions 6 and 5, the steel pipe 15 as a vertical member is inserted and the lower insertion holes 16 and 17 are provided vertically, and the upper and lower insertion holes 16 and 17 have a planar shape. It has the same shape and communicates vertically. As shown in FIG. 2 and the like, the upper insertion hole 16 is formed through the upper overhanging portion 6, while the lower portion of the lower insertion hole 17 is closed by a closing portion 17A. In addition, the lower insertion hole 17 may be formed through the lower overhanging portion 5 so that the lower end of the lower insertion hole 17 opens in the lower surface of the underhanging portion 5. The upper and lower extension blocks 2 and 3 adjacent to each other are connected to each other by inserting the steel pipe 15 from above into the upper and lower insertion holes 16 and 17, and the steel pipe 15 constitutes a connecting means. doing. The weight of the upper and lower overhanging blocks 3 and 2 is preferably 1.5 tons or less excluding the steel pipe 15, from the viewpoint of transportation and construction. Further, the steel pipe 15 is inserted into substantially the entire length of the upper and lower insertion holes 16 and 17.

  Further, when replacing the lower extension block 2 and the upper extension block 3, it is necessary to pull out the steel pipe 15, so an operation portion such as a drawing projection (not shown) is provided on the inner peripheral surface of the upper part of the steel pipe 15. It is preferable. Further, the steel pipe 15 can be pulled upward without being filled with an adhesive filler and fixed between the outer peripheral surface of the steel pipe 15 and the upper and lower insertion holes 16 and 17. For this reason, a predetermined gap is provided between the inner peripheral surface of the upper and lower insertion holes 16 and 17 and the outer peripheral surface of the steel pipe 15, and the outer diameter of the steel pipe 15 is larger than the inner diameter of the insertion holes 16 and 17. Is small.

  The concrete guard fence 1 includes a foundation block 21. The basic block 21 has a substantially flat upper surface and lower surface, and has a substantially constant thickness. Further, the foundation block 21 is formed continuously in the length direction of the road, is discontinuously arranged in a stepping stone shape at intervals, and is further formed by cast-in-place concrete, or a plurality of precast concrete Or laying blocks.

  In the case where a plurality of the foundation blocks 21 are arranged discontinuously in a stepping stone shape at intervals, a pavement layer is provided between the foundation blocks 21. When the concrete guard fence 1 is provided in the median strip and the roads on both sides are made of permeable pavement, the permeable pavement layer on both sides of the concrete guard fence 1 is provided by providing a permeable pavement layer between the foundation blocks 21. Water permeability can be ensured.

  The upper and lower overhanging blocks 3 and 2 and the base block 21 are concavo-convexly fitted by a concavo-convex fitting structure. For this uneven fitting, fitting convex portions 22, 22, 23, 23 are provided on the flat lower surface on both sides in the length direction of the upper and lower overhanging blocks 3, 2, and these fitting convex portions 22, 22 are provided. , 23, 23 are provided on the upper surface of the foundation block 21. The fitting recesses 24, 24 may be formed in a through-hole shape that penetrates the upper surface and the lower surface of the foundation block 21.

  Further, a notch portion 25 is provided between the fitting convex portions 22, 22, 23, 23 on both sides, and the notch portion 25 is open to the lower side surface portions 14, 14 on both sides in the left-right direction. A lateral support surface 26 located at the upper portion of the notch 25 is supported by the upper surface of a fork such as a handlift (not shown) as a lifting and conveying means.

  The fitting protrusions 22 and 22 of the lower overhanging block 2 have three side faces 22A, 22A and 22A except for the lower end face 12 side so that the area of the fitting protrusion 22 is reduced downward. Are inclined inward and downward. Further, the fitting protrusions 23, 23 of the upper overhanging block 3 have three side surfaces 23A, 23A, 23A excluding the lower overhanging end face 5H side, and the area of the fitting protrusion 23 is directed downward. It is provided inclining inwardly downward so as to be reduced. Corresponding to the fitting convex portions 22 and 23, the side surface portion 24A of the fitting concave portion 24 is also formed obliquely.

  As shown in FIGS. 2 to 4, in the fitting recess 24, a sheet-like elastic member 27 such as a cushioning rubber is disposed on the side surface portions 24 </ b> A and 24 </ b> A in the longitudinal direction. The elastic member 27 may also be arranged on the side surface portion 24A in the left-right width direction.

  In the construction at the time of new construction, the foundation block 21 is embedded and fixed on the road so that the pavement surface 28 of the road and the upper surface of the foundation block 21 are substantially flush with each other. The pavement surface 28 is formed by concrete pavement or asphalt pavement.

  A plurality of upper and lower overhanging blocks 3 and 2 are installed on the base block 21 so that the fitting convex portions 22 and 23 are inserted into the fitting concave portion 24. In this case, after installing the lower overhanging blocks 2 and 2 on both sides of the installation position of the upper overhanging block 3, the upper overhanging block 3 is installed between the lower overhanging blocks 2 and 2, and the upper and lower inserts are inserted. Adjacent upper and lower overhanging blocks 3 and 2 are connected by inserting a steel pipe 15 into the holes 16 and 17.

  When the steel pipe 15 is connected, the base block 21 and the upper and lower overhanging blocks 3 and 2 are not fixed with joint material or the like, and the edges are cut off. , And 2 are in a state where the edges are cut without using joint material or the like. That is, the blocks 3 and 2 are not fixed or bonded to the other than the blocks 3 and 2 except that the adjacent blocks 3 and 2 are connected by the steel pipe 15 and the base block 21 is concavo-convexly fitted.

  A plurality of upper and lower overhanging blocks 3, 2... Are integrally connected by steel pipes 15..., And the upper and lower overhanging blocks 3, 2. By doing so, the impact force applied to the upper and lower overhanging blocks 3 and 2 at the time of a vehicle collision or the like can be absorbed by the entire guard fence 1. In addition, the guard fence 1 of a present Example is provided in the median strip or roadside of a road.

  Next, a repair method for the guard fence 1 will be described. When the guard fence 1 is partially repaired and replaced due to a collision with a vehicle or the like, to remove the upper overhanging block 3, the steel pipes 15 and 15 on both sides are pulled up, and at least the lower part of the steel pipe 15 is extracted from the lower insertion hole 17.

  After that, by inserting a fork of a hand lift into the notch 25, supporting the support surface 26 with the fork, lifting the overhanging block 3 substantially vertically, and moving the overhanging block 3 to the left or right side, The overhanging block 3 can be removed from the middle of the guard fence 1, and it is transferred and removed by a hand lift as it is.

  Further, when removing the lower overhanging block 2, after removing the upper overhanging blocks 3 and 3 on both sides, the lower overhanging block 2 is similarly removed using a notch portion 25 by a hand lift or the like and transferred.

  It is preferable to use two hand lifts when the upper and lower overhanging blocks 3 and 2 are transferred. It is possible to transfer by inserting a fork of a single handlift, or by placing one handlift on each of the left and right sides and inserting a fork into the notch 25 from the opposite direction.

  In order to install the new upper and lower extension blocks 3 and 2, similarly, the fork is inserted into the notch 25, the new upper extension block 3 is transferred by two hand lifts, and the lower extension blocks on both sides are installed. Lower the overhanging block 3 between 2 and 2. In this way, when the lower fitting projections 23 and 23 are fitted into the fitting recesses 24, the left and right of the upper overhanging block 3 are positioned with respect to the lower overhanging blocks 2 and 2 on both sides, and the upper and lower The insertion holes 16 and 17 are also positioned.

  Then, the steel pipe 15 is inserted into the upper and lower insertion holes 16 and 17, and the upper projecting block 3 is connected to the lower projecting blocks 2 and 2 on both sides.

  In this way, using the foundation block 21, the foundation block 21 and the upper and lower extension blocks 3 and 2 are unevenly fitted, and the adjacent upper and lower extension blocks 3 and 2 are connected by the steel pipe 15, so that the joint mortar It is not necessary to use terrain and uneven mortar, and the restoration work can be simplified.

  Thus, in this embodiment, corresponding to claim 1, the lower overhanging block 2 that projects the lower overhanging portion 5 at the lower part on both sides in the length direction, and the upper overhang disposed on the lower overhanging portion 5. In a state in which the overhanging block 3 in which the protruding portion 6 protrudes from the upper part on both sides in the length direction and the upper overhanging portion 6 of the upper overhanging block 3 is arranged on the lower overhanging portion 5 of the lower overhanging block 2 Since the steel pipe 15 as a connecting means for connecting the lower overhanging block 2 and the upper overhanging block 3 is provided, the upper overhanging block 3 can be lifted and removed by releasing the connection with the steel pipe 15. Moreover, by removing the upper overhanging blocks 3 and 3 on both sides, the lower overhanging block 2 in between can be lifted and removed.

  In this way, in this embodiment, corresponding to claim 2, the base block 21 provided on the pavement surface 28 as a road surface is provided, and the lower overhanging block 2 and / or the upper overhanging block 3 are provided on the base block 21. Since the concave / convex fitting is performed, the concave / convex fitting portion functions as a sliding resistance of the upper and lower overhanging blocks 3 and 2 when the vehicle collides. Further, when the blocks 3 and 2 once removed are returned to their original positions, positioning is easy because the concave / convex fitting serves as a guide.

  In this way, in this embodiment, corresponding to claim 3, the connecting means is a steel pipe 15 as a longitudinal member, and the steel pipe 15 inserted into the upper overhanging portion 6 and the lower overhanging portion 5 is used as an upper overhang. Since the part 6 and the underhanging part 5 are connected, it is easier to release the connection than the connection using PC steel in the length direction, and the upper and lower overhanging blocks 3 and 2 can be easily removed. Can be done.

In this way, in this embodiment, corresponding to claim 1 , the notched portion 25 is provided in the lower part of the side surface of the lower projecting block 2 and the upper projecting block 3, and the notched portion 25 is formed in the left-right direction. Since it has a support surface 26 that is open on both sides and is supported by a fork of a lifting and conveying means that lifts and conveys the underhanging block 2 or the overhanging block 3 , It can be moved and reinstalled manually by inserting a fork such as a handlift as a lifting and conveying means .

  Further, as an effect of the embodiment, since the upper and lower overhanging blocks 3 and 2 are symmetrical in the longitudinal direction, it is not necessary to match the longitudinal direction at the time of installation. Further, a vertical upper joint portion 101 that is a gap is provided between the upper end surface 11 and the upper overhanging end surface 6H, and a vertical lower portion that is a gap is provided between the lower end surface 12 and the lower overhanging end surface 5H. Since the joint portion 102 is provided, the upper and lower overhanging blocks 3 and 2 can be lifted smoothly after the connection by the steel pipe 15 is released. Further, the fitting protrusions 22 and 22 of the lower overhanging block 2 have three side faces 22A, 22A and 22A excluding the lower end face 12 side, and the area of the fitting protrusion 22 is reduced downward. The fitting projections 23, 23 of the upper overhanging block 3 are provided with three side surfaces 23A, 23A, 23A excluding the lower overhanging end surface 5H, and the area of the fitting projection 23 is provided. Is provided so as to be reduced toward the lower side, and the side surface portion 24A of the fitting concave portion 24 is also formed obliquely corresponding to the fitting convex portions 22 and 23, so that the concave-convex fitting can be smoothly performed. Can be done. Further, since the left and right widths of the fitting convex portions 22 and 23 are substantially the same as the left and right widths of the bottom surfaces of the upper and lower projecting blocks 3 and 2, the fitting strength is excellent.

  5 and 6 show a second embodiment of the present invention. The same reference numerals are given to the same portions as those in the first embodiment, and the description thereof will be omitted. In detail, this example shows a retaining structure for the vertical member. Show. As shown in the figure, a lateral retaining member 31 is fixed to the lower side of the lower insertion hole 17, and the retaining member 31 is formed of a circular metal rod, a steel pipe, or the like. It is provided in 17 diameter directions. The lower edge 15F of the steel pipe 15 is formed with notch locking grooves 32, 32 at which the retaining member 31 is engaged and disengaged by the rotation of the steel pipe 15 at a position opposed to 180 degrees.

  The notch locking groove 32 includes a vertical lower vertical groove portion 32A formed in the lower edge 15F, a horizontal groove portion 32B formed on one side in the circumferential direction from the upper end of the lower vertical groove portion 32A, and the horizontal groove portion. A vertical upper vertical groove portion 32C formed upward from the end portion of 32B.

  Therefore, when the lower longitudinal groove portion 32A is aligned with the retaining member 31, the lower portion of the steel pipe 15 is inserted into the lower longitudinal groove portion 32A, and the retaining member 31 contacts the upper edge of the lateral groove portion 32B. After rotating in the direction of the portion 32B and the retaining member 31 comes into contact with the upper longitudinal groove portion 32C, the steel pipe 15 is further pushed down and inserted into the upper longitudinal groove portion 32C, so that the retaining member 31 becomes the upper longitudinal groove portion 32C. The steel pipe 15 is locked to the upper part, and the steel pipe 15 is prevented from rotating and is prevented from coming off. On the other hand, from the state in which the retaining member 31 is locked to the upper vertical groove portion 32C, the steel pipe 15 is pulled upward, rotated in the opposite direction, and then lifted to release the locking, and the steel pipe 15 is pulled out from the lower insertion hole 17. be able to.

  Thus, in the present embodiment, the upper and lower overhanging blocks 3 and 2 can be detached independently in the middle of the length direction, and the same operations and effects as in the first embodiment can be achieved.

In this way, in this embodiment, corresponding to claim 5 , since the steel pipe 15 which is the longitudinal member is provided with a structure for preventing the steel pipe 15 from coming out, the connection is inadequate by preventing the steel pipe 15 from coming out. Can be prevented from being released.

Further, in the present embodiment in this way, in response to claim 9, the longitudinal members serving steel pipe 15 is a cylindrical shape, prevention structure out missing is the steel pipe 15 to the lower projecting portion 5 of the lower projecting block 2 A lower insertion hole 17 for inserting the lower part is formed, and an upper insertion hole 16 for inserting the upper part of the steel pipe 15 corresponding to the lower insertion hole 17 is formed in the upper extension part 6 of the upper extension block 3. 17 is provided with a horizontal retaining member 31 and a notch locking groove 32 that engages with and disengages from the retaining member 31 by rotation at the lower portion of the steel pipe 15, so that the steel pipe 15 is rotated to the retaining member 31. By locking, the retaining state can be maintained, and on the other hand, the steel pipe 15 can be pulled out by rotating the steel pipe 15 in the reverse direction to release the retaining member 31.

  Further, as an effect of the embodiment, since the retaining structure includes the lateral groove portion 32B as a retaining portion in the length direction and the upper vertical groove portion 32C as a retaining portion in the rotation direction, the connection is inadvertently released. Can be surely prevented.

  FIG. 7 shows a third embodiment of the present invention. The same reference numerals are given to the same parts as those of the above-described embodiments, and the description thereof will be omitted. In this example, a guard fence 1 suitable for curve laying is shown. . As shown in the figure, right and left corners of the underhanging end surface 5H of the underhanging portion 5 are notched to provide corner cutout portions 7 and 7, and the underhanging end surface 5H is made constant and large. A curved convex surface 41 having a curvature is formed, and left and right corners of the upper projecting end surface 6H of the upper projecting portion 6 are notched to provide corner notches 7, 7, and the upper projecting end surface 6H has a constant and large curvature. The curved convex surface 42 is formed.

  Therefore, even if the upper and lower overhanging blocks 3 and 2 are curved, the end portions in the length direction do not interfere with each other, and the adjacent lower overhanging block 2 and the upper overhanging block 3 around the steel pipe 15 An angle can be provided in the length direction.

  Thus, in the present embodiment, the upper and lower overhanging blocks 3 and 2 can be detached independently in the middle of the length direction, and the same operations and effects as the above embodiments can be obtained.

Further, in this embodiment, in correspondence with the sixth aspect , the corner portion of the end portion in the length direction of the lower overhanging block 2 and / or the upper overhanging block 3 is notched, so that it is possible to cope with curved construction. It becomes possible.

  8 to 9 show a fourth embodiment of the present invention. The same reference numerals are given to the same parts as those of the above-mentioned embodiments, and the description thereof will be omitted. In this example, the length of the connecting means is as follows. Directional bolts 51 are used. As shown in the figure, the upper joint portions 101 of the upper and lower overhanging blocks 3 and 2 adjacent to each other are sandwiched between one of the lower overhanging block 2 and the upper overhanging block 3 and the upper side surface portions 13 and 13 of the other. Recesses 52 and 52A are formed, respectively, and bolt insertion holes 53 and 53A communicating with the recesses 52 and 52A are provided in the lower extension block 2 and the upper extension block 3, respectively.

  In this example, the oblique bolts 51, 51... Provided across the upper joint portion 101 are inclined in the same direction on the plane. That is, a concave portion 52 on one side in the length direction of the upper joint portion 101 (left side in FIG. 8) is provided on one side in the left-right direction (lower side in FIG. 9), and the other side in the length direction of the upper joint portion 101 ( A recess 52 on the right side in FIG. 8 is provided on the other side in the left-right direction (upper side in FIG. 9).

  The recesses 52 and 52A have fixing surfaces 54 and 54A intersecting with the bolt insertion holes 53 and 53A, and the bolt insertion holes 53 and 53A are opened in the fixing surfaces 54 and 54A.

  The bolt insertion holes 53 and 53A have a larger diameter than the oblique bolt 51, and the oblique bolt 51 is loosely inserted into the bolt insertion holes 53 and 53A. Further, as shown in FIG. 9, the diagonal bolt 51 is used in an oblique direction crossing the length direction of the upper and lower overhanging blocks 3, 2 across the upper joint portion 101.

  Then, an oblique bolt 51 is inserted into the bolt insertion holes 53, 53A. The oblique bolt 51 has male screw portions on both sides, and the nuts 50, 50 screwed into the screw portions are fixed to the fixing surfaces 54, 54A. Thus, the upper and lower overhanging blocks 3 and 2 can be connected. In this connected state, the end of the diagonal bolt 51 and the nut 50 are accommodated in the recesses 52 and 52A.

  Thus, in this embodiment, the slant bolt 51 can be removed, and the upper and lower overhanging blocks 3 and 2 can be detached independently, and the same operations and effects as the above embodiments can be obtained.

In this way, in this embodiment, corresponding to claim 7 , the connecting means is an oblique bolt 51 as a bolt in the length direction, and the lower overhanging block 2 and the overhanging block adjacent to each other by the oblique bolt 51. 3 can be connected.

  10 and 11 show a fifth embodiment of the present invention. The same reference numerals are given to the same parts as those of the above-described embodiments, and the description thereof will be omitted. In this example, the length of the connecting means is as follows. Directional bending bolt 55 is used. As shown in the figure, recesses 56 and 56 are formed on the upper surfaces of the upper and lower overhanging blocks 3 and 2 with the upper joint portions 101 of the upper and lower overhanging blocks 3 and 2 adjacent to each other. Curved bolt insertion holes 57 and 57 for communicating 56 and 56 are provided in the upper and lower overhanging blocks 3 and 2.

  The recesses 56 and 56 have fixing surfaces 58 and 58 intersecting with the bolt insertion holes 57 and 57, and the bolt insertion holes 57 are opened in the fixing surface 58.

  Then, the bending bolt 55 is inserted into the bolt insertion holes 57, 57. The bending bolt 55 has male screw portions on both sides, and the nuts 59, 59 screwed to the screw portions are fixed to the fixing surfaces 58, 58. Thus, the upper and lower overhanging blocks 3 and 2 can be connected. In this connected state, the end of the bending bolt 55 and the nut 59 are accommodated in the recesses 56 and 56A.

  As described above, in this embodiment, the bending bolt 55 can be removed and the upper and lower overhanging blocks 3 and 2 can be detached independently, and the same operations and effects as the above embodiments can be obtained.

Thus, in this embodiment, corresponding to claim 7 , the connecting means is a curved bolt 55 which is a bolt in the length direction, and the lower projecting block 2 and the upper projecting block which are adjacent to each other by the curved bolt 55. 3 can be connected.

  12 and 13 show a sixth embodiment of the present invention. The same reference numerals are given to the same parts as those of the above-mentioned embodiments, and the description thereof will be omitted. A connecting plate 61 as a connecting member provided straddling the outer surface of the overhanging block 2 and the outer surface of the upper overhanging block 3, and a screw for fixing the connecting plate 61 to the lower overhanging block 2 and the upper overhanging block 3 Both screw bolts 62 and 62 or head-attached bolts that are fixing members of the type are provided. The connecting plate 61 is made of a hard material, for example, a metal plate.

  Further, recesses 63 are formed on the upper side portions 13 of the upper and lower overhanging blocks 3 and 2 on both sides. The upper and lower overhanging blocks 3 and 2 are provided with bolt insertion holes 64 so as to communicate the concave portions 63 and 63 on both sides. Further, a through hole 65 is formed in the connection plate 61 corresponding to the bolt insertion hole 64.

  Then, the connecting plates 61, 61 are disposed in the concave portions 63, 63 on both sides, both screw bolts 62 are inserted into the bolt insertion holes 64 and the through holes 65, 65, and nuts 66, 66 are inserted at both ends of the both screw bolts 62. The upper and lower overhanging blocks 3 and 2 can be connected by screwing and tightening. Further, in the connected state, the connecting plate 61, both ends of the screw bolts 62, and the nut 66 are housed in the recess 63 and do not protrude outward from the upper side surface portion 13.

  As described above, in this embodiment, the connecting plate 61 and both screw bolts 62 can be removed, and the upper and lower overhanging blocks 3 and 2 can be detached independently, and the same operations and effects as the above embodiments can be obtained.

In this way, in this embodiment, corresponding to claim 8 , the connecting means is a connecting plate as a connecting member provided straddling the outer surface of the adjacent lower extending block 2 and the outer surface of the upper extending block 3. 61, and both screw bolts 62 as fixing members for fixing the connecting plate 61 to the underhanging block 2 and the upper overhanging block 3, so that the adjoining underhanging block 2 is connected by the connecting plate 61 and the both screw bolts 62. The overhanging block 3 can be connected.

  14 and 15 show Embodiment 7 of the present invention. The same reference numerals are given to the same parts as those in the above-mentioned embodiments, and the description thereof will be omitted. In this example, the recess 63 is formed on the upper side surface. An upper concave portion 63U is formed on the upper surfaces of the upper and lower overhanging blocks 3 and 2 so as to connect the upper portions of the concave portions 63 and 63 on both sides.

  The connecting plate 61 connects the side plates 61S, 61S disposed in the recessed portions 63, 63 in a stored state, and the upper surface plate disposed in the upper recessed portion 63U by connecting the upper portions of the side plates 61S, 61S. Integrated with 61U. Further, the bolt insertion holes 64 and the through holes 65 are provided in multiple stages.

  As described above, in this embodiment, the connecting plate 61 and both screw bolts 62 can be removed, and the upper and lower overhanging blocks 3 and 2 can be detached independently, and the same operations and effects as the above embodiments can be obtained.

In this way, in this embodiment, corresponding to claim 8 , the connecting means is a connecting plate as a connecting member provided straddling the outer surface of the adjacent lower extending block 2 and the outer surface of the upper extending block 3. 61, and both screw bolts 62 as fixing members for fixing the connecting plate 61 to the underhanging block 2 and the upper overhanging block 3, so that the adjoining underhanging block 2 is connected by the connecting plate 61 and the both screw bolts 62. The overhanging block 3 can be connected.

  Further, as an effect of the embodiment, the connecting plate 61 connects the side plates 61S, 61S disposed in the recesses 63, 63 and the upper portions of the side plates 61S, 61S, and the upper surface disposed in the upper recess 63U. Since the plate 61U is integrally provided, the connection strength is excellent.

  FIG. 16 shows an eighth embodiment of the present invention. The same reference numerals are given to the same parts as those of the above-described embodiments, and the description thereof will be omitted. In this example, the basic block 21 is not used. A flat plate portion 71 is integrally provided at the lower part of the lower overhanging blocks 3 and 2, and a lower surface 71K of the flat plate portion 71 is formed flat. In addition, the connection structure of the upper and lower overhanging blocks 3 and 2 can be the same as that of the above embodiments. Further, the side surface portion of the flat plate portion 71 is inclined so as to face inward toward the lower side.

  Further, a road surface recess 72 into which the flat plate portion 71 is inserted is formed on the pavement surface 28, and frame members 73 made of metal angle steel or the like are formed on the guard fence 1 on both sides in the width direction of the road surface recess 72. It is provided over almost the entire length. The frame member 73 integrally includes a bottom surface portion 73A positioned on the bottom surface of the road surface recess 72 and a side surface portion 73B positioned on the side surface of the road surface recess 72. Then, the flat surface portion 71 that is the fitting convex portion is fitted into the road surface recess 72 that is the fitting concave portion, and in this case as well, the road surface concave portion 72 and the flat plate portion 71 are not fixed by a joint material or the like, but the same as the above embodiment. It is configured so that it can be lifted using the notch 25. The elastic member 27 may be provided on the inner surface of the side surface portion 73B.

  Thus, in this embodiment, the upper and lower overhanging blocks 3 and 2 can be disconnected and the upper and lower overhanging blocks 3 and 2 can be detached independently, and the same actions and effects as in the above embodiments. Play.

  Further, as an effect on the embodiment, since the frame member 73 made of metal angle steel or the like is provided on both sides in the width direction of the road surface recess 72, the corner portion of the road surface recess 72 is damaged. Can be prevented.

  17 to 18 show a ninth embodiment of the present invention. The same reference numerals are given to the same portions as those of the above embodiments, and the description thereof will be omitted. A gap 81 is provided between 5U and the lower surface 6K of the overhanging portion 6. The gap 81 is formed so that a fork such as a forklift as a lifting and conveying means can be inserted. The lower surface 6K of the gap 81 is a support surface.

  On the lower surface of the overhanging block 3, a fitting convex portion 23 is formed over the entire length thereof. Further, the height 81 of the gap 81 is formed higher than the height h of the fitting convex portion 23. Further, the height H is preferably 30 mm or more and 150 mm or less.

  When it is necessary to remove the overhanging block 3 of the guard fence 1 due to a collision of a vehicle or the like, the steel pipes 15 and 15 on both sides are pulled up, and at least the lower part of the steel pipe 15 is pulled out from the lower insertion hole 17.

  After that, by inserting a fork of a forklift into the gap 81 on both sides, supporting the lower surface 6K as a support surface with the fork, lifting the upper overhanging block 3 substantially vertically, and moving the upper overhanging block 3 to the left or right side The overhanging block 3 can be removed from the middle of the guard fence 1 and transferred to a transport vehicle (not shown) and removed.

  Further, in this example, the underhanging block 2 can be detached alone. More specifically, the steel pipes 15 on both sides of the lower extension block 2 are pulled out or pulled up so that at least the lower ends of the steel pipes 15 on both sides are above the upper extension end surface 6H. Next, a fork of a hand lift is inserted into the cutout portion 25 of the underhanging block 2, and the supporting surface 26 is supported by the fork to lift the underhanging block 2 substantially vertically. Then, since the height H is greater than the height h, the fitting between the fitting convex portion 22 and the fitting concave portion 24 is released, and the lower overhanging block 2 is left and right in a state where it is held at substantially the same height from here. By moving to the side, the lower overhanging block 2 can be removed from between the upper overhanging blocks 3 and 3. In this case, in order to make the height H larger than the height h, if the height h is too low, the sliding resistance of the lower overhanging block 2 at the time of a vehicle collision or the like decreases, so the height H is preferably 30 mm or more, If it exceeds 150 mm, an impact force at the time of a vehicle collision or the like is greatly applied to the steel pipe 15, which is not preferable.

  When the height H is 30 mm, a predetermined sliding resistance can be obtained by setting the height h to about 25 mm, and the lower overhanging block 2 is placed between the upper overhanging blocks 3 and 3 by a clearance of 5 mm. Can be extracted smoothly.

  Thus, in the present embodiment, the upper and lower overhanging blocks 3 and 2 can be detached independently in the middle of the length direction, and the same operations and effects as the above embodiments can be obtained.

In this way, in this embodiment, since the gap 81 is provided between the upper surface 5U of the lower overhanging portion 5 and the lower surface 6K of the upper overhanging portion 6 in correspondence with the fourth aspect , the fork of the forklift is provided in the gap 81. Etc. can be inserted and the overhanging block 3 can be lifted and transported.

  Further, as a practical effect, by providing a gap 81 having a lower surface 6K as a support surface, it is not necessary to provide the notch 25 in the overhanging block 3, and it fits the entire length of the lower surface of the overhanging block 3. Since the convex portion 23 can be formed, the fitting strength with the base block 21 can be improved. Furthermore, since the height H of the gap 81 is formed higher than the height h of the fitting projection 22, the upper overhanging blocks 3, 3 can be removed without removing the upper overhanging blocks 3, 3 on both sides. The underhanging block 3 in between can be removed independently.

  In the case where the height H of the gap 81 is formed lower than the height h of the fitting convex portion 23, even if the lower overhanging block 2 is lifted due to an earthquake or the like, the lower overhanging portion 5 becomes the upper overhanging portion 6. Therefore, the fitting convex portion 22 of the underhanging block 2 is not detached from the fitting concave portion 24. In this case, as described above, after removing the upper overhanging blocks 3 and 3 on both sides, the lower overhanging block 2 between them can be removed.

  FIG. 19 shows a tenth embodiment of the present invention. The same reference numerals are given to the same parts as those of the above-mentioned embodiments, and the description thereof will be omitted. In this example, the concrete guard fence 1 is placed at the center of an expressway or the like. A description will be given of a response example in the case where a traffic jam occurs in one of the opposite lanes due to an accident or construction, provided in the separation zone.

  FIG. 19 is a plan view of a highway with one lane on one side, and the opposite lanes 82, 82 A, 82 B and lanes 83, 83 A, 83 B are partitioned by the concrete guard fence 1. If traffic congestion occurs in lanes 82, 82A, 82B due to accidents or construction, lane 83 near the opposite median strip is closed. In addition, a guide sign (not shown) or the like for guiding the vehicle 85 traveling in the lane 83 to the lanes 83A and 83B that can pass is provided at the start position 84A of the closed section 84 of the lane 83. In addition, in a state in which at least one of the plurality of lanes 83, 83A, 83B is secured, a plurality of lanes on the remaining median strip side may be blocked, that is, at least one lane on the median strip side may be blocked. It is preferred that the road is closed and that at least one remaining lane is secured.

  A hand lift (not shown) is placed in the closed section 84, and the overhanging block 3 in the vicinity of the traffic jam is lifted and overhanged toward the start position 84A of the closed section 84 as shown by the one-dot chain line arrow. Remove block 3. From the location where the overhanging block 3 is removed, the vehicle 85 in the lane 82 is guided to the lane 83 on the opposite side, as indicated by the chain line arrow. The guided vehicle 85 travels in the same direction as the vehicles 85 in the other lanes 83A and 83B.

  When guiding a large vehicle, the lower overhanging block 2 adjacent to the removed overhanging block 3 is also removed.

  Thus, in the present embodiment, the upper and lower overhanging blocks 3 and 2 can be detached independently in the middle of the length direction, and the same operations and effects as the above embodiments can be obtained.

  In this way, in this embodiment, the concrete guard fence 1 is provided in the median strip, and traffic congestion occurs in one of the lanes on both sides sandwiching the median strip, so that one of the lanes 82, 82A, 82B In the guidance method for guiding the vehicle 85 to the other lane 83, 83A, 83B, the lower overhanging blocks 3 and 2 are removed in the middle of the concrete guard fence 1 in the vicinity of the traffic congestion point, and this removal point makes the central separation zone. Since a passage is provided, and the vehicle 85 in one lane 82, 82A, 82B can be moved to the other lane 83, 83A, 83B by the passage of this median strip, the continuous guard fence 1 is removed at an arbitrary position, Traffic congestion can be eliminated by guiding the vehicle 85 to the opposite lane. Moreover, when the removed blocks 3 and 2 are returned to their original positions after the congestion is eliminated, the concave / convex fitting serves as a guide to facilitate positioning, and the steel pipe 15 can connect the adjacent blocks 3 and 2 together. It can be done easily.

FIGS. 20 21 show an embodiment 11 of the present invention, modification of the above embodiments are denoted by the same reference numerals to the same parts as and will be described in detail explanation thereof is omitted, in this example, anti-out omission structure Indicates.

  As shown in the figure, a metal nut body 91 is fixed to the lower insertion hole 17 by insert molding or the like, and a female screw portion 92 is formed on the inner periphery of the nut body 91. The female screw portion 92 is provided on the lower side from the center in the height direction of the lower insertion hole 17, and the lower insertion hole 17 is open on the lower surface of the lower overhanging block 2. Further, a male screw portion 93 that is screwed into the female screw portion 92 is formed at the lower end of the steel pipe 15. A metric trapezoidal screw is used for the female screw portion 92 and the male screw portion 93.

  Further, a flange-like portion 94 is provided at the upper end of the steel pipe 15, and a ring-shaped recess 95 that accommodates at least a part of the flange-like portion 94 is recessed in the upper portion of the upper insertion hole 16. In this example, the entire bowl-shaped portion 94 is accommodated in the recess 95.

  Furthermore, as shown in FIG. 21 (A), the hook-shaped portion 94 is not formed in a ring shape, but as shown in FIG. 21 (B), the hook-shaped portion 94 is formed on the outer periphery of a substantially cross shape or a square shape. If a shape having a plurality of or single recesses 96 is provided, the recess 96 of the bowl-shaped portion 94 can be an operation portion to facilitate the turning of the steel pipe 15. Also in the case of FIG. 21 (B), the bowl-shaped portion 94 is formed to have a size that closes the upper and lower insertion holes 16 and 17.

  Therefore, by screwing the male screw portion 93 of the steel pipe 15 with the female screw portion 92 of the lower insertion hole 17, the steel pipe 15 can be fixed to the upper and lower insertion holes 16, 17, while the screwing is performed. If released, the steel pipe 15 can be pulled out.

  Thus, in the present embodiment, the upper and lower overhanging blocks 3 and 2 can be detached independently in the middle of the length direction, and the same operations and effects as the above embodiments can be obtained.

Further, in the present embodiment in this way, in response to claim 1 0, prevention structure out loss is lower insertion hole for inserting a lower portion of the longitudinal member serving steel pipe 15 to the lower projecting portion 5 of the lower projecting block 2 17 is formed, an upper insertion hole 16 for inserting the upper portion of the steel pipe 15 corresponding to the lower insertion hole 17 is formed in the upper extension portion 6 of the upper extension block 3, and a female screw portion 92 is formed in the lower insertion hole 17. Since the male screw portion 93 that is screwed to the female screw portion 92 is provided on the steel pipe 15, the male screw portion 93 of the steel pipe 15 is screwed to the female screw portion 92 of the lower insertion hole 17, thereby preventing the retaining state. On the other hand, the steel pipe 15 can be pulled out by releasing the screwing.

  In addition, as an effect on the embodiment, the upper surface of the gap 100 between the upper and lower insertion holes 16, 17 and the steel pipe 15 is blocked by the lower surface of the bowl-shaped portion 94 coming into contact with the recess 95. Intrusion of dust or the like into the gap 100 can be prevented. Furthermore, the steel pipe 15 can be rotated using the ring-shaped bowl-shaped part 94. In particular, by providing the recess 96 serving as the operation part on the outer periphery of the bowl-shaped part 94, the steel pipe 15 can be easily rotated. In addition, since the female screw portion 92 and the male screw portion 93 are metric trapezoidal screws, they are stronger and have a lower frictional resistance during rotation than a triangular screw having a substantially triangular cross section or a screw for a taper tube. Later screw release becomes easy.

Figures 22 23 show an embodiment 12 of the present invention, modification of the above embodiments are denoted by the same reference numerals to the same parts as and will be described in detail explanation thereof is omitted, in this example, anti-out omission structure Indicates.

  As shown in the figure, an elastic retaining member 111 made of an elastic material such as a rubber material is provided on the upper outer periphery of the steel pipe 15. This elastic retaining member 111 has a cylindrical mounting portion 112 that is attached to the periphery of the steel pipe 15 by adhesion or the like, and tongue pieces 113 that are provided in a plurality of upper and lower stages on the outer periphery of the mounting portion 112. A groove 114 is provided between the upper and lower tongue pieces 113. Further, the tongue piece 113 has an inclined surface 113A that is obliquely upward on the lower side, and is formed so as to become thinner toward the tip side and upward. An elastic retaining member 111 that presses against the lower insertion hole 17 may be provided on the outer periphery of the lower portion of the steel pipe 15.

  Further, a large-diameter portion 16K with which the elastic retaining member 111 is pressed is provided at the upper portion of the upper insertion hole 16. The diameter of the tip of the tongue piece 113 before deformation is larger than the diameter of the large diameter portion 16K. Further, as shown in FIG. 22, the steel pipe 15 is shorter than the upper and lower insertion holes 16 and 17.

  Therefore, when the steel pipe 15 is inserted into the upper and lower insertion holes 16 and 17 and the elastic retaining member 111 is press-fitted into the large diameter portion 16K, the plurality of tongue pieces 113 are obliquely upward as shown in FIG. The tip end side of the inclined surface 113A comes into pressure contact with the large-diameter portion 16K, thereby making it difficult for the steel pipe 15 to come off.

  Thus, in the present embodiment, the upper and lower overhanging blocks 3 and 2 can be detached independently in the middle of the length direction, and the same operations and effects as the above embodiments can be obtained.

Further, in the present embodiment in this way, in response to claim 1 1, prevention structure out loss is lower insertion hole for inserting a lower portion of the longitudinal member serving steel pipe 15 to the lower projecting portion 5 of the lower projecting block 2 17 is formed, and an upper insertion hole 16 for inserting the upper portion of the steel pipe 15 corresponding to the lower insertion hole 17 is formed in the upper extension portion 6 of the upper extension block 3, and the upper insertion hole 16 or An elastic retaining member 111 that presses against the lower insertion hole 17 is provided. In this example, the elastic retaining member 111 presses against the upper insertion hole 16, so the steel pipe 15 is inserted into the upper and lower insertion holes 16, 17 and When the stopper member 111 is pressed against the upper insertion hole 16, the steel pipe 15 is difficult to be pulled out. .

  Further, as an effect of the embodiment, the elastic retaining member 111 is pressed against the inner surface of the large diameter portion 16K, so that the upper and lower insertion holes 16, 17 and the steel pipe 15 are located below the elastic retaining member 111. Since the upper part of the gap 100 is closed, it is possible to prevent intrusion of dust or the like into the gap 100. Further, since the center of the tongue portion 113 is formed obliquely upward from the horizontal toward the distal end side, the steel pipe 15 is easily inserted into the upper and lower insertion holes 16 and 17 from above, and on the contrary, the structure is difficult to come off. .

FIGS. 24 25 show an embodiment 13 of the present invention, modification of the above embodiments are denoted by the same reference numerals to the same parts as, when described in detail explanation thereof is omitted, in this example, anti-out omission structure Indicates.

  As shown in the figure, a disc-shaped lid 121 is provided at the upper end of the steel pipe 15, and a ring-shaped recess 122 for accommodating at least a part of the lid 121 is recessed at the upper part of the upper insertion hole 16. Set up. In this example, the entire lid 121 is accommodated in the recess 122, and the lid 121 closes the upper end opening of the steel pipe 15. In addition, the steel pipe 15 is shorter than the upper and lower insertion holes 16 and 17, and the lower surface of the lid 121 is placed on the bottom surface of the recess 122. In this placed state, the steel pipe 15 is placed between the lower end of the steel pipe 15 and the closing portion 17A. An interval is provided.

  In addition, a plurality of embedded nuts 123 are embedded and fixed on the bottom surface of the recess 122 by insert molding or the like, and corresponding to the female screw portions 124 of the embedded nuts 123, the fixing portions 121A around the lid body 121 are fixed. A through hole 125 is formed, a bolt 126 as a fixing means is inserted into the through hole 125, and the bolt 126 is screwed into the female screw portion 124, whereby the steel pipe 15 is inserted into the recess 122 of the upper projecting portion 6. The upper insertion hole 16 is closed by the lid 121. The fixing portion 121A is a portion located on the outer periphery of the steel pipe 15 of the lid 121.

  Further, the female screw portions 124 of the plurality of embedded nuts 123 are positioned concentrically with respect to the center of the upper insertion hole 16, and the plurality of through holes 125 are positioned concentrically with respect to the center of the steel pipe 15. Therefore, by screwing the bolt 126 into the nut 123, the upper and lower insertion holes 16, 17 and the center axis of the steel pipe 15 are aligned, and the entire circumference of the steel pipe 15 is aligned with the upper, lower insertion holes 16, 17. It can arrange | position so that it may not contact. In this example, embedded nuts 123 and 123 are arranged before and after the upper insertion hole 16.

  Thus, in the present embodiment, the upper and lower overhanging blocks 3 and 2 can be detached independently in the middle of the length direction, and the same operations and effects as the above embodiments can be obtained.

Further, in the present embodiment in this way, in response to claim 1 2, prevention structure out loss is lower insertion hole for inserting a lower portion of the longitudinal member serving steel pipe 15 to the lower projecting portion 5 of the lower projecting block 2 17 is formed, and an upper insertion hole 16 for inserting the upper portion of the steel pipe 15 corresponding to the lower insertion hole 17 is formed in the upper overhanging portion 6 of the upper overhanging block 3, and a fixing portion 121A is formed around the upper portion of the steel pipe 15 And a bolt 126 which is a fixing means for fixing the fixing portion 121A to the overhanging block 3 is provided, so that the fixing portion 121A is fixed to the overhanging block 3 with the bolt 126 to maintain the retaining state. On the other hand, the steel pipe 15 can be pulled out by releasing the fixing of the fixing portion 121A.

Further, in this embodiment Thus, in response to claims 1 to 3, the lid 121 for closing the upper insertion hole 16 at the top of the vertical member serving steel pipe 15 is provided, around the lid 121 is a fixed portion 121A Thus, the upper opening of the steel pipe 15 is closed by the lid 121, and the lid 121 can prevent entry of dust and the like into the upper insertion hole 16.

  FIG. 26 shows a fourteenth embodiment of the present invention. The same reference numerals are given to the same portions as those of the above-mentioned embodiments, and the description thereof will be omitted. In this example, a modification of the basic block 21 is shown. As shown in the figure, the base block 21 is provided with a through hole 24K as a fitting recess to form the base block 21 in a frame shape, and the fitting protrusions 22 and 23 are fitted into the through hole 24K.

  Thus, in the present embodiment, the upper and lower overhanging blocks 3 and 2 can be detached independently in the middle of the length direction, and the same operations and effects as the above embodiments can be obtained.

  Further, as an effect of the embodiment, since the base block 21 is formed in a frame shape by providing the through hole 24K, the weight of the base block 21 can be reduced.

  27 to 29 show a fifteenth embodiment of the present invention. The same reference numerals are given to the same portions as those of the above-mentioned embodiments, and the description thereof will be omitted. In this example, the concrete guard fence 1 is attached to the road. A description will be given of an example of handling when a traffic jam occurs in one of the opposite lanes due to an accident or construction, provided in the median strip. In the figure, the upper and lower overhanging blocks 3 and 2 are hatched for easy understanding. In addition, the white arrow on the left side in the figure indicates the traveling direction.

  This figure shows a plan view of a single lane road, and the opposite lanes 82 and 83 are partitioned by a concrete guard fence 1. In addition, it is applicable also to one side multiple lanes. As shown in FIG. 27 (A), when an accident caused by a plurality of vehicles 85A and 85B occurs in one lane 82, traffic is impossible due to these accident vehicles 85A and 85B, and traffic congestion occurs in one lane 82, A plurality of vehicles become the staying vehicles 85C, 85D, 85E, and 85F. In such a case, conventionally, the staying vehicles 85C, 85D, 85E, and 85F cannot move and have to wait until the accident vehicles 85A and 85B are removed after inspection by the police. Further, as shown in FIG. 27 (B), the accident recovery rescue vehicle 85I is difficult to approach from one lane 82 because of the staying vehicles 85C, 85D, 85E, and 85F. Even if the emergency vehicle 85J approaches the accident scene 86 from the other lane 83, it cannot go around to the lane 82 where the accident vehicles 85A and 85B are located. The accident recovery rescue vehicle 85I is exemplified by a police vehicle, a tow truck, a fire truck, an emergency vehicle 85J, and the like.

  Therefore, as shown in FIG. 28 (A), the overhanging block 3 is removed independently on the rear side (right side in the figure) of the accident scene 86 in one lane 82, and an opening 87 is provided in the middle of the concrete guard fence 1. Form. The removed overhanging block 3 moves to the other lane 83. This moving position is the front side of the opening 87 in the other lane 83. The number of blocks to be removed may be two or more adjacent. Further, as shown in FIG. 28 (A), by moving the removed overhanging block 3 to the center separation band side, it is possible to ensure the passage of the other lane 83. Although not shown, the removed overhanging block 3 may be moved toward the shoulder of the road to secure the passage of the other lane 83.

  When the opening 87 is thus provided, the ambulance vehicle 85J travels to the opening 87 through the other lane 83 and passes through the opening 87 as shown in FIG. And can approach the accident scene 86 in one lane 82. Further, as shown in the figure, the upper overhanging block 3 on the front side (left side in the figure) of the accident vehicles 85A and 85B in one lane 82 is removed to provide an opening 87A.

  When the ambulance 85J arrives at the accident site 86 through the opening 87 and the opening 87 is allowed to pass, as shown in FIG. 29, the staying vehicles 85C, 85D, 85E, 85F in one lane 82 are It returns to one lane 82 through the opening 87, the other lane 83, and the opening 87A, and can leave the accident scene 86 as it is. As a result, the staying vehicles 85C, 85D, 85E, and 85F that are on the front side in the traveling direction of the rescue vehicle 85I can be eliminated. As a result, the accident recovery rescue vehicle 85I can easily approach the accident site 86, reduce the time for accident recovery, and reduce social loss due to traffic closure. When the rescue vehicle 85I carries an injured person or the like, the rescue vehicle 85I passes through the opening 87, the other lane 83, and the opening 87A in one lane 82, like the staying vehicles 85C, 85D, 85E, and 85F. You can return to

  After the accident occurs, the vehicle does not pass on the front side (left side in the figure) from the opening 87A of one lane 82 until the staying vehicles 85C, 85D, 85E, and 85F pass through the opening 87. Then, the removal work of the overhanging block 3 is performed halfway in one lane 82, and after the ambulance vehicle 85J passes, the overhanging block 3 at the position of the opening 87A may be moved to another place. In the middle of the removal work, the work until the upper projecting block 3 is moved from the current plane position is shown. For example, if the release prevention of the steel pipe 15 is released or the steel pipe 15 is pulled out from the underhanging portion 5, the subsequent removal time can be shortened by that amount and the opening 87A can be provided in a short time. . Further, the overhanging block 3 at the position of the opening 87A may be moved to the moving position, and in this case, the removed overhanging block 3 is also separated into the center. By moving to the belt side, the other lane 83 can be secured. Although not shown, the removed overhanging block 3 may be moved toward the shoulder of the road to secure the passage of the other lane 83. Further, as described in the ninth embodiment, the openings 87 and 87A may be formed by removing the underhanging block 3 alone.

  Thus, in the present embodiment, the upper and lower overhanging blocks 3 and 2 can be detached independently in the middle of the length direction, and the same operations and effects as the above embodiments can be obtained.

  In this way, in this embodiment, the concrete guard fence 1 is provided in the central separation band, and traffic jam occurs in one of the lanes 82 on both sides of the central separation band. , 85D, 85E, 85F, in the guidance method to guide the other lane 83, remove the overhanging block 3 or / and the underhanging block 2 in the vicinity of the traffic jam part in the middle of the concrete guard fence 1, and An opening 87 serving as a passage is provided in the central separation zone, and the vehicles 85C, 85D, 85E, and 85F in one lane 82 can be moved to the other lane 83 from the opening 87 in the central separation zone. Has the same actions and effects as

  In this way, in this embodiment, the upper overhanging block 3 / and the lower overhanging block 2 in the vicinity of the traffic jam location are removed, and an opening 87 is provided on the rear side of the accident site 86 in one lane 82. The emergency vehicle 85J, which is an accident recovery rescue vehicle, can travel from the lane 83 to the accident scene 86 in one lane 82 through the opening 87, so even if one lane 82 is congested, the emergency site 85 The vehicle 85J can arrive promptly.

  In this way, in this embodiment, the openings 87 and 87A through which the vehicle can pass are provided on both sides of the accident site 86, so that the staying vehicles 85C, 85D and 85E in one lane 82 before the accident site 86 are provided. , 85F can return to one lane 82 through the opening 87, the other lane 83, and the opening 87A, and leave the accident site 86 as it is.

  The present invention is not limited to this embodiment, and various modifications can be made within the scope of the gist of the present invention. For example, the vertical member may be a solid rod-like member other than a steel pipe, and the outer cross section of this rod-like member is preferably circular, but the vertical member may have a square cross section. Further, in the embodiment, the inner surfaces of the upper and lower insertion holes are exemplified by the exposed concrete surface, but the upper and lower insertion holes may be constituted by buried steel pipes. Furthermore, the slip-out prevention mechanism is not limited to the embodiment, and is a type in which the steel pipe (longitudinal member) is retained by being engaged with and disengaged from the upper part of the steel pipe inserted into the upper and lower insertion holes. It is also possible that the insertion hole is closed so that the vertical member cannot be pulled out, and the slip-out prevention mechanism may be configured by a lid that closes the upper portion of the upper insertion hole. In the embodiment, the corners of the lower overhanging end surface and the upper overhanging end surface are notched, but the lower overhanging end surface or / and the lower end surface of the corner are notched, the upper overhanging end surface or / and the upper end surface of the upper overhanging end surface. The corner may be cut out, that is, at least one corner of both sides sandwiching the upper joint and the lower joint may be cut out. Furthermore, the number of the fitting protrusions provided on the upper and lower extending blocks may be one or more, and the planar shape of the fitting protrusions is not limited to the rectangle or square in the embodiment, but is round. , Triangles, pentagons or more polygons. Furthermore, although the fitting convex part formed three side parts diagonally, you may form four side parts diagonally. Further, although the upper surface 5U and the lower surface 6K of the embodiment are substantially horizontal in the length direction of the upper and lower overhanging blocks, they are formed obliquely with respect to the length direction or formed in a curved shape. Or you may. Further, the notch engaging groove may be of a type having no upper vertical groove portion. Moreover, although the notch part which the lower part opened was shown in the Example, the notch part may be the type which the lower part obstruct | occluded. Further, the corner cutout portion may be a chamfered corner portion at the end in the longitudinal direction of the block, and the shape can be appropriately selected. In the embodiment, a plurality of (two) fixing means are used. However, only one fixing means may be used, and a male screw rod as a fixing means is provided on the upper surface of the overhanging block. The male screw rod may be inserted into the through hole of the lid, and the nut may be screwed onto the tip of the male screw rod protruding from the upper surface of the lid so that the lid is fixed to the overhanging block. . Moreover, although the fitting convex part of a lower overhanging block is preferable 25 mm or more, if the fitting convex part of an upper overhanging block is made high compared with the fitting convex part of a lower overhanging block, the concrete guard fence as a whole Sliding resistance can be ensured. Furthermore, the upper and lower overhanging blocks can be removed and transported by using various lifting and transporting means other than the handlift and forklift shown in the embodiment. preferable.

1 Guard fence 2 Underhanging block (protective fence block)
3 Overhanging block (protective fence block)
5 Lower overhang 5U Upper surface 6 Upper overhang 6K Lower surface
15 Steel pipe (connecting means / vertical member)
15F Lower edge
16 Upper insertion hole
17 Lower insertion hole
21 Basic blocks
22 Mating protrusion
23 Mating protrusion
24 Mating recess
25 Notch
28 Pavement surface (road surface)
31 Retaining member
32 Notch locking groove
41 Curved convex surface
42 Curved convex surface
51 Diagonal bolt (connecting means / bolt)
55 Curved bolt (connecting means / bolt)
61 Connecting plate (connecting member)
62 Double screw bolt (fixing member)
92 Female thread
93 Male thread
111 Elastic retaining member
121A fixed part
126 bolts (fixing means)

  The present invention relates to a concrete guard fence.

  The guard fence is mainly provided to prevent a vehicle that deviates from the driving lane from deviating from the road or to the opposite lane, and the concrete guard fence is widely used because it is excellent in strength and durability. .

  For example, in a concrete protective wall configured by connecting a plurality of concrete blocks to each other by connecting a block continuum formed by applying tension to a tension stranded wire steel material, An insertion hole is formed for inserting a continuum connecting stranded wire steel material that connects the block continuums with tension, and one end of the insertion hole is opened toward the top of the block. Thus, there has been proposed a concrete protective wall (for example, Patent Document 1) for fixing an end of the continuum connecting stranded wire steel material to the concrete block.

  In the concrete guard fence, a plurality of concrete blocks can be integrated with tension by a stranded wire steel material.

  A wall body made of precast concrete having a flat inclined surface inclined at a predetermined angle on both sides and a cross section expanding downward, and a concrete foundation wider than the wall body provided at a lower portion of the wall body. A concrete guard fence comprising: a lower portion of the wall body and an upper portion of the foundation are concavo-convexly fitted; a lower portion of the wall body is fixed to the foundation by an anchor bolt; and a plurality of wall bodies are tension-integrated by a PC steel material (For example, patent document 2) is proposed.

  The concrete guard fence is excellent in strength, can improve the safety of the occupant at the time of collision, and is easier to construct than in the past.

  In the thing of the said patent document 1 and the patent document 2, since several blocks (wall main body) are tension-integrated with PC steel materials, even when one block is damaged, it is necessary to cut | disconnect PC steel materials. Furthermore, the cut PC steel cannot be reused, and after replacing the block, an operation of tension integration with a new PC steel is required.

  Moreover, since the joint part of adjacent blocks is filled with joint materials, such as a non-shrink mortar, when replacing a block, it is necessary to scrape the joint material of the existing block of both sides. Furthermore, at the time of restoration, there is a problem that it takes time until a strength is developed by installing a leak-proof mold at the joint and injecting non-shrink mortar.

  Further, in the case of fixing the wall body on the foundation as in Patent Document 2, after removing the wall body in order to replace the wall body, the level plate on the existing foundation is removed and the air-mixed mortar is removed. When removing and restoring, there is a problem that centering and leveling are performed in the same manner as in the new installation, and it is necessary to level the empty kneading mortar, which is troublesome.

  Moreover, in the said patent document 1 and patent document 2, a heavy machine is needed for removal, a movement, and installation in the removal operation | work of the said block (wall main body), and a restoration operation | work.

  On the other hand, in addition to the structure in which the blocks are connected by a member in the length direction such as PC steel, an upper protrusion is formed at one end in the longitudinal direction, and a lower protrusion is formed at the other end. A wall block (for example, Patent Document 3) in which both ends are fixed with bolts in the vertical direction has been proposed. In this wall block, the connection between adjacent blocks is released compared to the one using PC steel in the length direction. Can be easily performed.

  However, even if the bolts on both sides are removed in the wall surface block, the upper wall protrusion of the adjacent wall surface block overlaps the lower protrusion, so that the wall block cannot be removed from the middle of the continuous wall and continues. It is necessary to remove from the wall block at the end of the wall.

  By the way, when an accident or the like occurs on an expressway or the like, a traffic jam occurs. Although not known, it is conceivable to change the lane and guide the vehicle to the opposite lane in order to eliminate the traffic jam. At the same time, if an emergency vehicle arrives at the scene using the opposite lane to save lives, it may be possible to reverse the accident to the lane where the accident occurred. Since it is difficult to remove the fence at an arbitrary position, it is impossible to guide the vehicle to the opposite lane or to guide the emergency vehicle to the opposite lane for lifesaving. This problem is particularly important in the case of face-to-face traffic sections.

Japanese Patent Laid-Open No. 2000-240024 JP-A-7-42124 JP 2010-222865 A

  Then, this invention solves the said problem, and it aims at providing the concrete guard fence which can remove easily the block in the middle of a length direction independently.

According to the first aspect of the present invention, a lower overhanging block in which a lower overhanging portion protrudes at the lower part on both sides in the length direction, and an upper overhanging portion disposed on the lower overhanging portion protrudes at the upper part on both sides in the length direction. In the state where the upper overhanging block and the upper overhanging portion of the upper overhanging block are arranged on the lower overhanging portion of the lower overhanging block, the lower overhanging block and the upper overhanging block are Connecting means for connecting, the connecting means is provided across the outer surface of the adjacent lower projecting block and the outer surface of the upper projecting block, and the connecting member is connected to the lower projecting block and the lower projecting block. And a fixing member that is fixed to the overhanging block.

According to the configuration of the first aspect, the adjacent overhanging block and upper overhanging block can be connected by the connecting member and the fixing member.

The invention of claim 2 is characterized in that a lower overhanging block in which a lower overhanging portion protrudes at the lower part on both sides in the length direction and an upper overhanging portion disposed on the lower overhanging portion protrudes at the upper part on both sides in the length direction. In the state where the upper overhanging block and the upper overhanging portion of the upper overhanging block are arranged on the lower overhanging portion of the lower overhanging block, the lower overhanging block and the upper overhanging block are Connecting means for connecting, the connecting means is a vertical member, and the upper projecting part and the lower projecting part are connected by the vertical member inserted into the upper projecting part and the lower projecting part. The vertical member has a pull-out preventing structure for preventing the pull-out, the vertical member has a cylindrical shape, and the pull-out preventive structure inserts a lower portion of the vertical member into the lower projecting portion of the lower projecting block. A lower insertion hole is formed, and the upper insertion hole for inserting the upper part of the vertical member corresponding to the lower insertion hole A notch locking groove formed in the upper projecting portion of the upper projecting block, provided with a lateral retaining member in the lower insertion hole, and engaged with and disengaged from the retaining member by rotation at the lower portion of the vertical member. It is provided.

According to the configuration of the second aspect, the retaining state can be maintained by rotating the vertical member and engaging the retaining member. On the other hand, the vertical member can be pulled out by rotating the vertical member to release the locking with the retaining member.

According to the invention of claim 3 , the lower overhanging block in which the lower overhanging portion protrudes at the lower part on both sides in the length direction, and the upper overhanging portion arranged on the lower overhanging portion protrudes at the upper part on both sides in the length direction. In the state where the upper overhanging block and the upper overhanging portion of the upper overhanging block are arranged on the lower overhanging portion of the lower overhanging block, the lower overhanging block and the upper overhanging block are Connecting means for connecting, the connecting means is a vertical member, and the upper projecting part and the lower projecting part are connected by the vertical member inserted into the upper projecting part and the lower projecting part. The vertical member has a pull-out preventing structure for preventing the pull-out, and the pull-out preventive structure forms a lower insertion hole for inserting a lower portion of the vertical member into the lower projecting portion of the lower projecting block. An upper insertion hole for inserting an upper portion of the vertical member corresponding to the insertion hole is formed on the upper extension of the upper extension block. Formed in part, provided with a female thread portion to the lower insertion hole, characterized in that the male screw portion screwed into the female screw portion provided on the longitudinal member.

According to the configuration of the third aspect, the retaining state can be maintained by screwing the male screw portion of the vertical member with the female screw portion of the lower insertion hole. On the other hand, the longitudinal member can be pulled out by releasing the screwing.

According to the invention of claim 4 , a lower overhanging block in which a lower overhanging portion is protruded at both lower portions in the lengthwise direction, and an upper overhanging portion disposed on the lower overhanging portion is protruded at both upper portions in the lengthwise direction. In the state where the upper overhanging block and the upper overhanging portion of the upper overhanging block are arranged on the lower overhanging portion of the lower overhanging block, the lower overhanging block and the upper overhanging block are Connecting means for connecting, the connecting means is a vertical member, and the upper projecting part and the lower projecting part are connected by the vertical member inserted into the upper projecting part and the lower projecting part. The vertical member has a pull-out preventing structure for preventing the pull-out, and the pull-out preventive structure forms a lower insertion hole for inserting a lower portion of the vertical member into the lower projecting portion of the lower projecting block. An upper insertion hole for inserting an upper portion of the vertical member corresponding to the insertion hole is formed on the upper extension of the upper extension block. Formed in part, characterized in that a said upper insertion hole or elastic stop member pressed against the lower insertion hole on the outer circumference of the vertical member.

According to the configuration of the fourth aspect , the vertical member is difficult to be removed by inserting the vertical member into the upper and lower insertion holes and pressing the elastic retaining member against at least one of the upper and lower insertion holes. On the other hand, when it is pulled up with a predetermined force or more, the elastic retaining member is elastically deformed, whereby the vertical member can be pulled out.

According to the invention of claim 5 , a lower overhanging block in which a lower overhanging portion protrudes at both lower portions in the lengthwise direction, and an upper overhanging portion arranged on the lower overhanging portion protrudes in the upper portion on both sides in the lengthwise direction. In the state where the upper overhanging block and the upper overhanging portion of the upper overhanging block are arranged on the lower overhanging portion of the lower overhanging block, the lower overhanging block and the upper overhanging block are Connecting means for connecting, the connecting means is a vertical member, and the upper projecting part and the lower projecting part are connected by the vertical member inserted into the upper projecting part and the lower projecting part. The vertical member has a pull-out preventing structure for preventing the pull-out, and the pull-out preventive structure forms a lower insertion hole for inserting a lower portion of the vertical member into the lower projecting portion of the lower projecting block. An upper insertion hole for inserting an upper portion of the vertical member corresponding to the insertion hole is formed on the upper extension of the upper extension block. Formed in part, provided with a fixed part around an upper portion of the longitudinal member, characterized in that the fixing part comprises a fixing means for fixing on said projecting block.

According to the configuration of the fifth aspect, the retaining portion can be held by fixing the fixing portion to the overhanging block by the fixing means. On the other hand, the longitudinal member can be pulled out by releasing the fixing of the fixing portion.

The invention according to claim 6 is characterized in that a lid that closes the upper insertion hole is provided at an upper portion of the vertical member, and the periphery of the lid is the fixing portion.

According to the configuration of the sixth aspect , it is possible to prevent intrusion of dust and the like into the upper insertion hole by the lid.

  In the concrete guard fence in which a plurality of blocks are arranged, the intermediate block can be easily detached independently.

It is a side view of the concrete guard fence which shows Example 1 of this invention. It is sectional drawing of a vertical member location same as the above. It is sectional drawing of a notch part location same as the above. It is an exploded view of a concrete guard fence same as the above. It is a front view of the principal part of a retaining structure same as the above . It is an explanatory perspective view of a retaining structure. It is a top view of the connection location which shows the reference example 1 of this invention. It is a side view of the concrete guard fence which shows the reference example 2 of this invention. It is sectional drawing of the principal part same as the above. It is a side view of the principal part which notched a part which shows the reference example 3 of this invention. It is a top view of the principal part which notched a part same as the above. It is a side view of the principal part which shows Example 2 of this invention. It is a top view of the principal part same as the above. It is a side view of the principal part which shows Example 3 of this invention. It is sectional drawing of the principal part same as the above. It is sectional drawing which shows the reference example 4 of this invention. It is a side view of the concrete guard fence which shows the reference example 5 of this invention. It is sectional drawing of a vertical member location same as the above. It is a plane explanatory view showing reference example 6 of the present invention. It is sectional drawing of the escape prevention structure which shows Example 4 of this invention. FIG. 21A is a plan view of the pull-out prevention structure, FIG. 21A shows a structure using a ring-shaped hook-shaped section, and FIG. 21B shows a structure using a hook-shaped section provided with an operation section. It is sectional drawing of the escape prevention structure which shows Example 5 of this invention. FIG. 23A is a cross-sectional view of the retaining member, FIG. 23A shows a state before deformation, and FIG. 23B shows a state after deformation. It is sectional drawing of the escape prevention structure which shows Example 6 of this invention. FIG. 3 is a plan view of the structure for preventing slipping out. It is a perspective view of the basic block which shows the reference example 7 of this invention. It is a plane explanatory view showing Reference Example 8 of the present invention. It is a plane explanatory drawing same as the above. It is a plane explanatory drawing same as the above.

  Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments described below do not limit the contents of the present invention described in the claims. In addition, all of the configurations described below are not necessarily essential requirements of the present invention. In each embodiment, by adopting a new concrete guard fence different from the conventional one, an unprecedented concrete guard fence is obtained, and the concrete guard fence will be described.

Embodiments of the present invention will be described below with reference to the accompanying drawings. 1 to 6 show Embodiment 1 of the present invention. As shown in the figure, a concrete guard fence 1 made of precast concrete (hereinafter referred to as a guard fence) includes a plurality of lower overhanging blocks 2 and a plurality of upper overhangs connected to the longitudinal ends of the lower overhanging blocks 2. An overhanging block 3 and a connecting means for connecting the lower overhanging block 2 and the upper overhanging block 3 are provided, and the upper and lower overhanging blocks 3 and 2 are connected alternately side by side.

  Lower projecting portions 5 and 5 project from the lower portions on both sides in the length direction of the lower projecting block 2, and the lower projecting block 2 has a substantially inverted T shape in a side view. Further, upper projecting portions 6 and 6 project from the upper portions of both sides of the upper projecting block 3 in the longitudinal direction, and the upper projecting block 3 has a substantially T-shape in a side view. Then, in a state where the upper overhanging portion 6 is disposed on the lower overhanging portion 5, adjacent lower overhanging blocks 2 and upper overhanging blocks 3 are connected by the connecting means. The lower overhanging block 2 and the upper overhanging block 3 are protective fence blocks.

  As shown in FIG. 4 and the like, an upper end surface 11 that is substantially perpendicular to the lower surface of the lower overhanging block 2 is provided at the upper part of the longitudinal end portion of the lower overhanging block 2. A substantially horizontal upper surface 5U of the lower overhanging portion 5 is located at the lower portion, and a lower overhanging end surface 5H of the lower overhanging portion 5 is formed substantially vertically downward from an outer end portion of the upper surface 5U. .

  Further, an upper projecting end surface 6H of the upper projecting portion 6 that is substantially perpendicular to the lower surface of the upper projecting block 3 is formed at the upper part of the longitudinal end portion of the upper projecting block 3. A substantially horizontal lower surface 6K of the upper overhanging portion 6 is positioned below the overhanging end surface 6H, and a lower end surface 12 that is substantially vertical is formed downward from the inner end of the lower surface 6K.

  As shown in the cross-sectional view of FIG. 2, the upper and lower overhanging blocks 3 and 2 are formed to have a substantially constant thickness above the positions of the upper surface 5U and the lower surface 6K, that is, the upper side surface portions 13 and 13 on both sides. Are formed in parallel and substantially vertically. On the other hand, it is formed so that the lower side is wider toward the lower side than the positions of the upper surface 5U and the lower surface 6K, that is, the lower side surface portions 14, 14 on both sides are formed in a tapered shape that expands downward. .

  As shown in FIGS. 1 and 4, the adjacent lower overhanging block 2 and the upper overhanging block 3 are connected to each other by overlapping the upper overhanging portion 6 on the lower overhanging portion 5. In this case, a vertical upper joint portion 101 is provided between the upper end surface 11 and the overhanging end surface 6H, and a vertical lower joint portion 102 is provided between the lower end surface 12 and the lower overhanging end surface 5H. The upper joint portions 101 and 102 are provided as gaps and are not filled with a filler or the like. Further, the lower surface 6K of the upper overhanging portion 6 is placed on the upper surface 5U of the lower overhanging portion 5, and no joint material or the like is provided between the upper surface 5U and the lower surface 6K, and the upper surface 5U and the lower surface 6K are bordered. Is cut.

  In the upper and lower projecting portions 6 and 5, the steel pipe 15 as a vertical member is inserted and the lower insertion holes 16 and 17 are provided vertically, and the upper and lower insertion holes 16 and 17 have a planar shape. It has the same shape and communicates vertically. As shown in FIG. 2 and the like, the upper insertion hole 16 is formed through the upper overhanging portion 6, while the lower portion of the lower insertion hole 17 is closed by a closing portion 17A. In addition, the lower insertion hole 17 may be formed through the lower overhanging portion 5 so that the lower end of the lower insertion hole 17 opens in the lower surface of the underhanging portion 5. The upper and lower extension blocks 2 and 3 adjacent to each other are connected to each other by inserting the steel pipe 15 from above into the upper and lower insertion holes 16 and 17, and the steel pipe 15 constitutes a connecting means. doing. The weight of the upper and lower overhanging blocks 3 and 2 is preferably 1.5 tons or less excluding the steel pipe 15, from the viewpoint of transportation and construction. Further, the steel pipe 15 is inserted into substantially the entire length of the upper and lower insertion holes 16 and 17.

  Further, when replacing the lower extension block 2 and the upper extension block 3, it is necessary to pull out the steel pipe 15, so an operation portion such as a drawing projection (not shown) is provided on the inner peripheral surface of the upper part of the steel pipe 15. It is preferable. Further, the steel pipe 15 can be pulled upward without being filled with an adhesive filler and fixed between the outer peripheral surface of the steel pipe 15 and the upper and lower insertion holes 16 and 17. For this reason, a predetermined gap is provided between the inner peripheral surface of the upper and lower insertion holes 16 and 17 and the outer peripheral surface of the steel pipe 15, and the outer diameter of the steel pipe 15 is larger than the inner diameter of the insertion holes 16 and 17. Is small.

  The concrete guard fence 1 includes a foundation block 21. The basic block 21 has a substantially flat upper surface and lower surface, and has a substantially constant thickness. Further, the foundation block 21 is formed continuously in the length direction of the road, is discontinuously arranged in a stepping stone shape at intervals, and is further formed by cast-in-place concrete, or a plurality of precast concrete Or laying blocks.

  In the case where a plurality of the foundation blocks 21 are arranged discontinuously in a stepping stone shape at intervals, a pavement layer is provided between the foundation blocks 21. When the concrete guard fence 1 is provided in the median strip and the roads on both sides are made of permeable pavement, the permeable pavement layer on both sides of the concrete guard fence 1 is provided by providing a permeable pavement layer between the foundation blocks 21. Water permeability can be ensured.

  The upper and lower overhanging blocks 3 and 2 and the base block 21 are concavo-convexly fitted by a concavo-convex fitting structure. For this uneven fitting, fitting convex portions 22, 22, 23, 23 are provided on the flat lower surface on both sides in the length direction of the upper and lower overhanging blocks 3, 2, and these fitting convex portions 22, 22 are provided. , 23, 23 are provided on the upper surface of the foundation block 21. The fitting recesses 24, 24 may be formed in a through-hole shape that penetrates the upper surface and the lower surface of the foundation block 21.

  Further, a notch portion 25 is provided between the fitting convex portions 22, 22, 23, 23 on both sides, and the notch portion 25 is open to the lower side surface portions 14, 14 on both sides in the left-right direction. A lateral support surface 26 located at the upper portion of the notch 25 is supported by the upper surface of a fork such as a handlift (not shown) as a lifting and conveying means.

  The fitting protrusions 22 and 22 of the lower overhanging block 2 have three side faces 22A, 22A and 22A except for the lower end face 12 side so that the area of the fitting protrusion 22 is reduced downward. Are inclined inward and downward. Further, the fitting protrusions 23, 23 of the upper overhanging block 3 have three side surfaces 23A, 23A, 23A excluding the lower overhanging end face 5H side, and the area of the fitting protrusion 23 is directed downward. It is provided inclining inwardly downward so as to be reduced. Corresponding to the fitting convex portions 22 and 23, the side surface portion 24A of the fitting concave portion 24 is also formed obliquely.

  As shown in FIGS. 2 to 4, in the fitting recess 24, a sheet-like elastic member 27 such as a cushioning rubber is disposed on the side surface portions 24 </ b> A and 24 </ b> A in the longitudinal direction. The elastic member 27 may also be arranged on the side surface portion 24A in the left-right width direction.

  In the construction at the time of new construction, the foundation block 21 is embedded and fixed on the road so that the pavement surface 28 of the road and the upper surface of the foundation block 21 are substantially flush with each other. The pavement surface 28 is formed by concrete pavement or asphalt pavement.

  A plurality of upper and lower overhanging blocks 3 and 2 are installed on the base block 21 so that the fitting convex portions 22 and 23 are inserted into the fitting concave portion 24. In this case, after installing the lower overhanging blocks 2 and 2 on both sides of the installation position of the upper overhanging block 3, the upper overhanging block 3 is installed between the lower overhanging blocks 2 and 2, and the upper and lower inserts are inserted. Adjacent upper and lower overhanging blocks 3 and 2 are connected by inserting a steel pipe 15 into the holes 16 and 17.

  When the steel pipe 15 is connected, the base block 21 and the upper and lower overhanging blocks 3 and 2 are not fixed with joint material or the like, and the edges are cut off. , And 2 are in a state where the edges are cut without using joint material or the like. That is, the blocks 3 and 2 are not fixed or bonded to the other than the blocks 3 and 2 except that the adjacent blocks 3 and 2 are connected by the steel pipe 15 and the base block 21 is concavo-convexly fitted.

  A plurality of upper and lower overhanging blocks 3, 2... Are integrally connected by steel pipes 15..., And the upper and lower overhanging blocks 3, 2. By doing so, the impact force applied to the upper and lower overhanging blocks 3 and 2 at the time of a vehicle collision or the like can be absorbed by the entire guard fence 1. In addition, the guard fence 1 of a present Example is provided in the median strip or roadside of a road.

  Next, a repair method for the guard fence 1 will be described. When the guard fence 1 is partially repaired and replaced due to a collision with a vehicle or the like, to remove the upper overhanging block 3, the steel pipes 15 and 15 on both sides are pulled up, and at least the lower part of the steel pipe 15 is extracted from the lower insertion hole 17.

  After that, by inserting a fork of a hand lift into the notch 25, supporting the support surface 26 with the fork, lifting the overhanging block 3 substantially vertically, and moving the overhanging block 3 to the left or right side, The overhanging block 3 can be removed from the middle of the guard fence 1, and it is transferred and removed by a hand lift as it is.

  Further, when removing the lower overhanging block 2, after removing the upper overhanging blocks 3 and 3 on both sides, the lower overhanging block 2 is similarly removed using a notch portion 25 by a hand lift or the like and transferred.

  It is preferable to use two hand lifts when the upper and lower overhanging blocks 3 and 2 are transferred. It is possible to transfer by inserting a fork of a single handlift, or by placing one handlift on each of the left and right sides and inserting a fork into the notch 25 from the opposite direction.

  In order to install the new upper and lower extension blocks 3 and 2, similarly, the fork is inserted into the notch 25, the new upper extension block 3 is transferred by two hand lifts, and the lower extension blocks on both sides are installed. Lower the overhanging block 3 between 2 and 2. In this way, when the lower fitting projections 23 and 23 are fitted into the fitting recesses 24, the left and right of the upper overhanging block 3 are positioned with respect to the lower overhanging blocks 2 and 2 on both sides, and the upper and lower The insertion holes 16 and 17 are also positioned.

  Then, the steel pipe 15 is inserted into the upper and lower insertion holes 16 and 17, and the upper projecting block 3 is connected to the lower projecting blocks 2 and 2 on both sides.

  In this way, using the foundation block 21, the foundation block 21 and the upper and lower extension blocks 3 and 2 are unevenly fitted, and the adjacent upper and lower extension blocks 3 and 2 are connected by the steel pipe 15, so that the joint mortar It is not necessary to use terrain and uneven mortar, and the restoration work can be simplified.

Thus, in this embodiment, the lower overhang block 2 which projects the lower projecting portion 5 in the longitudinal direction on both sides the lower, longitudinal sides of the protruding portion 6 on which disposed on the lower projecting portion 5 With the upper overhanging block 3 projecting from the upper portion and the upper overhanging portion 6 of the upper overhanging block 3 disposed on the lower overhanging portion 5 of the lower overhanging block 2, Since the steel pipe 15 as a connecting means for connecting the overhanging block 3 is provided, the upper overhanging block 3 can be lifted and removed by releasing the connection with the steel pipe 15, and the upper overhanging blocks on both sides can be removed. By removing 3 and 3, the underhanging block 2 in between can be lifted and removed.

Also, in this embodiment thus comprises a base block 21 provided on the road surface serving as pavement 28, since unevenness fitted under overhanging block 2 and / or overlayer unloading block 3 on the base block 21, uneven The fitting portion functions as a sliding resistance for the upper and lower overhanging blocks 3 and 2 when the vehicle collides. Further, when the blocks 3 and 2 once removed are returned to their original positions, positioning is easy because the concave / convex fitting serves as a guide.

Also, in this way this embodiment, prior to SL coupling means is a longitudinal member serving steel pipe 15, the steel tube 15 inserted into the overlayer unloading unit 6 and ShitaCho fat 5 overlayer unloading unit 6 and ShitaCho fat 5 is connected, the connection release work is facilitated compared to the connection using PC steel in the length direction, and the upper and lower overhanging blocks 3 and 2 can be removed easily.

In this way, in this embodiment, the notched portions 25 are provided in the lower portions of the side surfaces of the lower projecting block 2 and the upper projecting block 3, and the notched portions 25 open to the side surfaces on both sides in the left-right direction. Since it has the support surface 26 supported by the fork of the lift transportation means for lifting and transporting the lower extension block 2 or the upper extension block 3, such as a hand lift as a lift transportation means at the notch 25 in an emergency or the like. It can be moved and re-installed manually by inserting a fork.

  Further, as an effect of the embodiment, since the upper and lower overhanging blocks 3 and 2 are symmetrical in the longitudinal direction, it is not necessary to match the longitudinal direction at the time of installation. Further, a vertical upper joint portion 101 that is a gap is provided between the upper end surface 11 and the upper overhanging end surface 6H, and a vertical lower portion that is a gap is provided between the lower end surface 12 and the lower overhanging end surface 5H. Since the joint portion 102 is provided, the upper and lower overhanging blocks 3 and 2 can be lifted smoothly after the connection by the steel pipe 15 is released. Further, the fitting protrusions 22 and 22 of the lower overhanging block 2 have three side faces 22A, 22A and 22A excluding the lower end face 12 side, and the area of the fitting protrusion 22 is reduced downward. The fitting projections 23, 23 of the upper overhanging block 3 are provided with three side surfaces 23A, 23A, 23A excluding the lower overhanging end surface 5H, and the area of the fitting projection 23 is provided. Is provided so as to be reduced toward the lower side, and the side surface portion 24A of the fitting concave portion 24 is also formed obliquely corresponding to the fitting convex portions 22 and 23, so that the concave-convex fitting can be smoothly performed. Can be done. Further, since the left and right widths of the fitting convex portions 22 and 23 are substantially the same as the left and right widths of the bottom surfaces of the upper and lower projecting blocks 3 and 2, the fitting strength is excellent.

Further, FIGS. 5 and 6 show the retaining structure before Kitate member. As shown in the figure, a lateral retaining member 31 is fixed to the lower side of the lower insertion hole 17, and the retaining member 31 is formed of a circular metal rod, a steel pipe, or the like. It is provided in 17 diameter directions. The lower edge 15F of the steel pipe 15 is formed with notch locking grooves 32, 32 at which the retaining member 31 is engaged and disengaged by the rotation of the steel pipe 15 at a position opposed to 180 degrees.

  The notch locking groove 32 includes a vertical lower vertical groove portion 32A formed in the lower edge 15F, a horizontal groove portion 32B formed on one side in the circumferential direction from the upper end of the lower vertical groove portion 32A, and the horizontal groove portion. A vertical upper vertical groove portion 32C formed upward from the end portion of 32B.

  Therefore, when the lower longitudinal groove portion 32A is aligned with the retaining member 31, the lower portion of the steel pipe 15 is inserted into the lower longitudinal groove portion 32A, and the retaining member 31 contacts the upper edge of the lateral groove portion 32B. After rotating in the direction of the portion 32B and the retaining member 31 comes into contact with the upper longitudinal groove portion 32C, the steel pipe 15 is further pushed down and inserted into the upper longitudinal groove portion 32C, so that the retaining member 31 becomes the upper longitudinal groove portion 32C. The steel pipe 15 is locked to the upper part, and the steel pipe 15 is prevented from rotating and is prevented from coming off. On the other hand, from the state in which the retaining member 31 is locked to the upper vertical groove portion 32C, the steel pipe 15 is pulled upward, rotated in the opposite direction, and then lifted to release the locking, and the steel pipe 15 is pulled out from the lower insertion hole 17. be able to.

Thus, in this embodiment, as possible out to be removed above the lower projecting block 3,2 alone in the middle of the length direction.

In this way, in this embodiment, corresponding to claim 2 , since the steel pipe 15 which is the vertical member is provided with a structure for preventing the steel pipe 15 from coming out, the connection is inadequate by preventing the steel pipe 15 from coming out. Can be prevented from being released.

In this way, in this embodiment, in correspondence with claim 2 , the steel pipe 15 as the vertical member is formed in a cylindrical shape, and the structure for preventing the withdrawal is provided in the lower projecting portion 5 of the lower projecting block 2 at the lower portion of the steel pipe 15. A lower insertion hole 17 for inserting the upper portion of the steel pipe 15 corresponding to the lower insertion hole 17 is formed in the upper extension portion 6 of the upper extension block 3. Is provided with a retaining member 31 in the horizontal direction, and a notch locking groove 32 that engages with and disengages from the retaining member 31 by rotation is provided at the lower part of the steel pipe 15, so that the steel tube 15 is rotated to engage with the retaining member 31. By stopping, the retaining state can be maintained, and on the other hand, the steel pipe 15 can be pulled out by rotating the steel pipe 15 in the reverse direction and releasing the locking with the retaining member 31.

Further, as an effect of the embodiment, since the retaining structure includes the lateral groove portion 32B as a retaining portion in the length direction and the upper vertical groove portion 32C as a retaining portion in the rotation direction, the connection is inadvertently released. Can be surely prevented.
[Reference Example 1]

7 shows a reference example 1 of the present invention, the same reference numerals to the same parts as above you施例, when described in detail explanation thereof is omitted, in this example, a guard fence 1 suitable curve laid Show. As shown in the figure, right and left corners of the underhanging end surface 5H of the underhanging portion 5 are notched to provide corner cutout portions 7 and 7, and the underhanging end surface 5H is made constant and large. A curved convex surface 41 having a curvature is formed, and left and right corners of the upper projecting end surface 6H of the upper projecting portion 6 are notched to provide corner notches 7, 7, and the upper projecting end surface 6H has a constant and large curvature. The curved convex surface 42 is formed.

  Therefore, even if the upper and lower overhanging blocks 3 and 2 are curved, the end portions in the length direction do not interfere with each other, and the adjacent lower overhanging block 2 and the upper overhanging block 3 around the steel pipe 15 An angle can be provided in the length direction.

Thus in the present reference example, the can be removed above the lower projecting block 3,2 alone in the middle of the length direction, effects comparable to those above you施例.

Further, in this reference example, since the corner portion of the end portion in the length direction of the lower overhanging block 2 and / or the upper overhanging block 3 is notched, it is possible to cope with curve construction.
[Reference Example 2]

Figures 8-9 show a reference example 2 of the present invention, the same reference numerals are applied to the upper you施例and reference examples the same components and will be described in detail explanation thereof is omitted, in this example, the connecting means As shown, a slanted bolt 51 in the length direction is used. As shown in the figure, the upper joint portions 101 of the upper and lower overhanging blocks 3 and 2 adjacent to each other are sandwiched between one of the lower overhanging block 2 and the upper overhanging block 3 and the upper side surface portions 13 and 13 of the other. Recesses 52 and 52A are formed, respectively, and bolt insertion holes 53 and 53A communicating with the recesses 52 and 52A are provided in the lower extension block 2 and the upper extension block 3, respectively.

  In this example, the oblique bolts 51, 51... Provided across the upper joint portion 101 are inclined in the same direction on the plane. That is, a concave portion 52 on one side in the length direction of the upper joint portion 101 (left side in FIG. 8) is provided on one side in the left-right direction (lower side in FIG. 9), and the other side in the length direction of the upper joint portion 101 ( A recess 52 on the right side in FIG. 8 is provided on the other side in the left-right direction (upper side in FIG. 9).

  The recesses 52 and 52A have fixing surfaces 54 and 54A intersecting with the bolt insertion holes 53 and 53A, and the bolt insertion holes 53 and 53A are opened in the fixing surfaces 54 and 54A.

  The bolt insertion holes 53 and 53A have a larger diameter than the oblique bolt 51, and the oblique bolt 51 is loosely inserted into the bolt insertion holes 53 and 53A. Further, as shown in FIG. 9, the diagonal bolt 51 is used in an oblique direction crossing the length direction of the upper and lower overhanging blocks 3, 2 across the upper joint portion 101.

  Then, an oblique bolt 51 is inserted into the bolt insertion holes 53, 53A. The oblique bolt 51 has male screw portions on both sides, and the nuts 50, 50 screwed into the screw portions are fixed to the fixing surfaces 54, 54A. Thus, the upper and lower overhanging blocks 3 and 2 can be connected. In this connected state, the end of the diagonal bolt 51 and the nut 50 are accommodated in the recesses 52 and 52A.

Thus in this reference example, the Remove the oblique bolts 51, can be removed under overhanging blocks 3,2 alone, effects comparable to those above you施例.

Also, in this way the reference example, before Symbol a bolt serving oblique bolts 51 of the connection means the length direction, that connects the lower overhang block 2 and overlayer unloading block 3 that adjoin the oblique bolts 51 it can.
[Reference Example 3]

10 and 11 show Reference Example 3 of the present invention, the same reference numerals are applied to the upper you施例and reference examples the same components and will be described in detail explanation thereof is omitted, in this example, the connecting means As shown, a bending bolt 55 in the length direction is used. As shown in the figure, recesses 56 and 56 are formed on the upper surfaces of the upper and lower overhanging blocks 3 and 2 with the upper joint portions 101 of the upper and lower overhanging blocks 3 and 2 adjacent to each other. Curved bolt insertion holes 57 and 57 for communicating 56 and 56 are provided in the upper and lower overhanging blocks 3 and 2.

  The recesses 56 and 56 have fixing surfaces 58 and 58 intersecting with the bolt insertion holes 57 and 57, and the bolt insertion holes 57 are opened in the fixing surface 58.

  Then, the bending bolt 55 is inserted into the bolt insertion holes 57, 57. The bending bolt 55 has male screw portions on both sides, and the nuts 59, 59 screwed to the screw portions are fixed to the fixing surfaces 58, 58. Thus, the upper and lower overhanging blocks 3 and 2 can be connected. In this connected state, the end of the bending bolt 55 and the nut 59 are accommodated in the recesses 56 and 56A.

Thus in this reference example, the Remove the curved bolts 55, can be removed under overhanging blocks 3,2 by itself brings about an upper you施例and similar actions and effects as in Reference Example.

Also, in this way the reference example, before Symbol coupling means is a bolt serving curved bolt 55 in the longitudinal direction, that connects the lower overhang block 2 and overlayer unloading block 3 that adjoin the curved bolts 55 it can.

12 and 13 show a second embodiment of the present invention, the same reference numerals are applied to the upper you施例and reference examples the same components and will be described in detail explanation thereof is omitted, connecting means in this example, The connecting plate 61 as a connecting member provided straddling the outer surface of the adjacent lower projecting block 2 and the outer surface of the upper projecting block 3, and the connecting plate 61 as the lower projecting block 2 and the upper projecting block 3 Both screw bolts 62 and 62 or head-attached bolts, which are screw-type fixing members fixed to the head, are provided. The connecting plate 61 is made of a hard material, for example, a metal plate.

  Further, recesses 63 are formed on the upper side portions 13 of the upper and lower overhanging blocks 3 and 2 on both sides. The upper and lower overhanging blocks 3 and 2 are provided with bolt insertion holes 64 so as to communicate the concave portions 63 and 63 on both sides. Further, a through hole 65 is formed in the connection plate 61 corresponding to the bolt insertion hole 64.

  Then, the connecting plates 61, 61 are disposed in the concave portions 63, 63 on both sides, both screw bolts 62 are inserted into the bolt insertion holes 64 and the through holes 65, 65, and nuts 66, 66 are inserted at both ends of the both screw bolts 62. The upper and lower overhanging blocks 3 and 2 can be connected by screwing and tightening. Further, in the connected state, the connecting plate 61, both ends of the screw bolts 62, and the nut 66 are housed in the recess 63 and do not protrude outward from the upper side surface portion 13.

Thus, in this embodiment, on the connecting plate 61 by removing the two screw bolt 62, can be removed under overhanging blocks 3,2 alone, on you施例and reference examples similar functions and effects Play.

In this way, in this embodiment, corresponding to claim 1 , the connecting means is a connecting plate as a connecting member provided straddling the outer surface of the adjacent lower extending block 2 and the outer surface of the upper extending block 3. 61, and both screw bolts 62 as fixing members for fixing the connecting plate 61 to the underhanging block 2 and the upper overhanging block 3, so that the adjoining underhanging block 2 is connected by the connecting plate 61 and the both screw bolts 62. The overhanging block 3 can be connected.

14 and 15 show a third embodiment of the present invention, the same reference numerals are applied to the upper you施例and reference examples the same components and will be described in detail explanation thereof is omitted, in this example, the recess 63 Is formed over the entire length of the upper side surface portion 13 in the height direction, and an upper concave portion 63U is formed on the upper surfaces of the upper and lower overhanging blocks 3 and 2 so as to connect the upper portions of the concave portions 63 and 63 on both sides. doing.

  The connecting plate 61 connects the side plates 61S, 61S disposed in the recessed portions 63, 63 in a stored state, and the upper surface plate disposed in the upper recessed portion 63U by connecting the upper portions of the side plates 61S, 61S. Integrated with 61U. Further, the bolt insertion holes 64 and the through holes 65 are provided in multiple stages.

Thus, in this embodiment, on the connecting plate 61 by removing the two screw bolt 62, can be removed under overhanging blocks 3,2 alone, on you施例and reference examples similar functions and effects Play.

In this way, in this embodiment, corresponding to claim 1 , the connecting means is a connecting plate as a connecting member provided straddling the outer surface of the adjacent lower extending block 2 and the outer surface of the upper extending block 3. 61, and both screw bolts 62 as fixing members for fixing the connecting plate 61 to the underhanging block 2 and the upper overhanging block 3, so that the adjoining underhanging block 2 is connected by the connecting plate 61 and the both screw bolts 62. The overhanging block 3 can be connected.

Further, as an effect of the embodiment, the connecting plate 61 connects the side plates 61S, 61S disposed in the recesses 63, 63 and the upper portions of the side plates 61S, 61S, and the upper surface disposed in the upper recess 63U. Since the plate 61U is integrally provided, the connection strength is excellent.
[Reference Example 4]

Figure 16 shows a reference example 4 of the present invention, the same reference numerals are applied to the upper you施例and reference examples the same components and will be described in detail explanation thereof is omitted, he in this example using a base block 21 First, the flat plate portion 71 is integrally provided at the lower portion of the upper and lower overhanging blocks 3 and 2, and the lower surface 71K of the flat plate portion 71 is formed flat. Incidentally, on the connection structure of the lower projecting block 3,2 may be used one above you施例and Reference Examples. Further, the side surface portion of the flat plate portion 71 is inclined so as to face inward toward the lower side.

  Further, a road surface recess 72 into which the flat plate portion 71 is inserted is formed on the pavement surface 28, and frame members 73 made of metal angle steel or the like are formed on the guard fence 1 on both sides in the width direction of the road surface recess 72. It is provided over almost the entire length. The frame member 73 integrally includes a bottom surface portion 73A positioned on the bottom surface of the road surface recess 72 and a side surface portion 73B positioned on the side surface of the road surface recess 72. Then, the flat surface portion 71 that is the fitting convex portion is fitted into the road surface recess 72 that is the fitting concave portion, and in this case as well, the road surface concave portion 72 and the flat plate portion 71 are not fixed by a joint material or the like, but the same as the above embodiment. It is configured so that it can be lifted using the notch 25. The elastic member 27 may be provided on the inner surface of the side surface portion 73B.

Thus, in the present reference example, on, on to release the connection of the lower projecting block 3,2, it can be removed under overhanging blocks 3,2 alone, as above you施例and Reference Examples Has an effect and effect.

Further, as an effect on the reference example, the frame member 73 made of metal angle steel or the like is provided on both sides in the width direction of the road surface recess 72, so that the corner portion of the road surface recess 72 is damaged. Can be prevented.
[Reference Example 5]

17 to 18 show Reference Example 5 of the present invention, the same reference numerals are applied to the upper you施例and reference examples the same components and will be described in detail explanation thereof is omitted, in this example, the lower overhang A gap 81 is provided between the upper surface 5U of the part 5 and the lower surface 6K of the overhang part 6. The gap 81 is formed so that a fork such as a forklift as a lifting and conveying means can be inserted. The lower surface 6K of the gap 81 is a support surface.

  On the lower surface of the overhanging block 3, a fitting convex portion 23 is formed over the entire length thereof. Further, the height 81 of the gap 81 is formed higher than the height h of the fitting convex portion 23. Further, the height H is preferably 30 mm or more and 150 mm or less.

  When it is necessary to remove the overhanging block 3 of the guard fence 1 due to a collision of a vehicle or the like, the steel pipes 15 and 15 on both sides are pulled up, and at least the lower part of the steel pipe 15 is pulled out from the lower insertion hole 17.

  After that, by inserting a fork of a forklift into the gap 81 on both sides, supporting the lower surface 6K as a support surface with the fork, lifting the upper overhanging block 3 substantially vertically, and moving the upper overhanging block 3 to the left or right side The overhanging block 3 can be removed from the middle of the guard fence 1 and transferred to a transport vehicle (not shown) and removed.

  Further, in this example, the underhanging block 2 can be detached alone. More specifically, the steel pipes 15 on both sides of the lower extension block 2 are pulled out or pulled up so that at least the lower ends of the steel pipes 15 on both sides are above the upper extension end surface 6H. Next, a fork of a hand lift is inserted into the cutout portion 25 of the underhanging block 2, and the supporting surface 26 is supported by the fork to lift the underhanging block 2 substantially vertically. Then, since the height H is greater than the height h, the fitting between the fitting convex portion 22 and the fitting concave portion 24 is released, and the lower overhanging block 2 is left and right in a state where it is held at substantially the same height from here. By moving to the side, the lower overhanging block 2 can be removed from between the upper overhanging blocks 3 and 3. In this case, in order to make the height H larger than the height h, if the height h is too low, the sliding resistance of the lower overhanging block 2 at the time of a vehicle collision or the like decreases, so the height H is preferably 30 mm or more, If it exceeds 150 mm, an impact force at the time of a vehicle collision or the like is greatly applied to the steel pipe 15, which is not preferable.

  When the height H is 30 mm, a predetermined sliding resistance can be obtained by setting the height h to about 25 mm, and the lower overhanging block 2 is placed between the upper overhanging blocks 3 and 3 by a clearance of 5 mm. Can be extracted smoothly.

Thus in the present reference example, can be removed above the lower projecting block 3,2 alone in the middle of the length direction, it exhibits the above you施例and similar actions and effects as in Reference Example.

Further, in this reference example, since the gap 81 is provided between the upper surface 5U of the lower overhanging portion 5 and the lower surface 6K of the upper overhanging portion 6, the fork lift fork or the like is inserted into the gap 81 and the upper overhanging is provided. The block 3 can be lifted and transported.

Further, as an effect of the reference example , by providing the gap 81 having the lower surface 6K as the support surface, it is not necessary to provide the notch 25 in the upper overhanging block 3, and the entire length of the lower surface of the upper overhanging block 3 is fitted. Since the joint protrusion 23 can be formed, the fitting strength with the base block 21 can be improved. Furthermore, since the height H of the gap 81 is formed higher than the height h of the fitting projection 22, the upper overhanging blocks 3, 3 can be removed without removing the upper overhanging blocks 3, 3 on both sides. The underhanging block 3 in between can be removed independently.

In the case where the height H of the gap 81 is formed lower than the height h of the fitting convex portion 23, even if the lower overhanging block 2 is lifted due to an earthquake or the like, the lower overhanging portion 5 becomes the upper overhanging portion 6. Therefore, the fitting convex portion 22 of the underhanging block 2 is not detached from the fitting concave portion 24. In this case, as described above, after removing the upper overhanging blocks 3 and 3 on both sides, the lower overhanging block 2 between them can be removed.
[Reference Example 6]

Fast 19 shows a reference example 6 of the present invention, the same reference numerals are applied to the upper you施例and reference examples the same components and will be described in detail explanation thereof is omitted, in this example, the concrete guard fence 1 A description will be given of an example of handling when a traffic jam occurs in one of the opposite lanes due to an accident or construction, which is provided in a median strip such as a road.

  FIG. 19 is a plan view of a highway with one lane on one side, and the opposite lanes 82, 82 A, 82 B and lanes 83, 83 A, 83 B are partitioned by the concrete guard fence 1. If traffic congestion occurs in lanes 82, 82A, 82B due to accidents or construction, lane 83 near the opposite median strip is closed. In addition, a guide sign (not shown) or the like for guiding the vehicle 85 traveling in the lane 83 to the lanes 83A and 83B that can pass is provided at the start position 84A of the closed section 84 of the lane 83. In addition, in a state in which at least one of the plurality of lanes 83, 83A, 83B is secured, a plurality of lanes on the remaining median strip side may be blocked, that is, at least one lane on the median strip side may be blocked. It is preferred that the road is closed and that at least one remaining lane is secured.

  A hand lift (not shown) is placed in the closed section 84, and the overhanging block 3 in the vicinity of the traffic jam is lifted and overhanged toward the start position 84A of the closed section 84 as shown by the one-dot chain line arrow. Remove block 3. From the location where the overhanging block 3 is removed, the vehicle 85 in the lane 82 is guided to the lane 83 on the opposite side, as indicated by the chain line arrow. The guided vehicle 85 travels in the same direction as the vehicles 85 in the other lanes 83A and 83B.

  When guiding a large vehicle, the lower overhanging block 2 adjacent to the removed overhanging block 3 is also removed.

Thus in the present reference example, can be removed above the lower projecting block 3,2 alone in the middle of the length direction, exhibits the above you施例and similar actions and effects as in Reference Example.

In addition, in this reference example, the concrete guard fence 1 is provided in the median strip, and traffic congestion occurs in one of the lanes on both sides of the median strip, so that one of the lanes 82, 82A, 82B In the guidance method for guiding the vehicle 85 to the other lane 83, 83A, 83B, the lower overhanging blocks 3 and 2 are removed in the middle of the concrete guard fence 1 in the vicinity of the traffic congestion point, and this removal point makes the central separation zone. Since a passage is provided, and the vehicle 85 in one lane 82, 82A, 82B can be moved to the other lane 83, 83A, 83B by the passage of this median strip, the continuous guard fence 1 is removed at an arbitrary position, Traffic congestion can be eliminated by guiding the vehicle 85 to the opposite lane. Moreover, when the removed blocks 3 and 2 are returned to their original positions after the congestion is eliminated, the concave / convex fitting serves as a guide to facilitate positioning, and the steel pipe 15 can connect the adjacent blocks 3 and 2 together. It can be done easily.

FIGS. 20 21 show a fourth embodiment of the present invention, the same reference numerals are applied to the upper you施例and reference examples the same components and will be described in detail explanation thereof is omitted, in this example, exit prevention structure The modification of is shown.

  As shown in the figure, a metal nut body 91 is fixed to the lower insertion hole 17 by insert molding or the like, and a female screw portion 92 is formed on the inner periphery of the nut body 91. The female screw portion 92 is provided on the lower side from the center in the height direction of the lower insertion hole 17, and the lower insertion hole 17 is open on the lower surface of the lower overhanging block 2. Further, a male screw portion 93 that is screwed into the female screw portion 92 is formed at the lower end of the steel pipe 15. A metric trapezoidal screw is used for the female screw portion 92 and the male screw portion 93.

  Further, a flange-like portion 94 is provided at the upper end of the steel pipe 15, and a ring-shaped recess 95 that accommodates at least a part of the flange-like portion 94 is recessed in the upper portion of the upper insertion hole 16. In this example, the entire bowl-shaped portion 94 is accommodated in the recess 95.

  Furthermore, as shown in FIG. 21 (A), the hook-shaped portion 94 is not formed in a ring shape, but as shown in FIG. 21 (B), the hook-shaped portion 94 is formed on the outer periphery of a substantially cross shape or a square shape. If a shape having a plurality of or single recesses 96 is provided, the recess 96 of the bowl-shaped portion 94 can be an operation portion to facilitate the turning of the steel pipe 15. Also in the case of FIG. 21 (B), the bowl-shaped portion 94 is formed to have a size that closes the upper and lower insertion holes 16 and 17.

  Therefore, by screwing the male screw portion 93 of the steel pipe 15 with the female screw portion 92 of the lower insertion hole 17, the steel pipe 15 can be fixed to the upper and lower insertion holes 16, 17, while the screwing is performed. If released, the steel pipe 15 can be pulled out.

As described above, in this embodiment, can be removed above the lower projecting block 3,2 alone in the middle of the length direction, it exhibits the above you施例and similar actions and effects as in Reference Example.

In this way, in this embodiment, corresponding to claim 3 , the pull-out prevention structure has a lower insertion hole 17 into which the lower portion of the steel pipe 15 as a vertical member is inserted into the lower extension portion 5 of the lower extension block 2. An upper insertion hole 16 is formed in the upper overhanging portion 6 of the upper overhanging block 3 and a female screw portion 92 is provided in the lower insertion hole 17. Since the male screw portion 93 that is screwed into the female screw portion 92 is provided in the steel pipe 15, the male screw portion 93 of the steel pipe 15 is screwed into the female screw portion 92 of the lower insertion hole 17, thereby maintaining the retaining state. On the other hand, the steel pipe 15 can be pulled out by releasing the screwing.

  In addition, as an effect on the embodiment, the upper surface of the gap 100 between the upper and lower insertion holes 16, 17 and the steel pipe 15 is blocked by the lower surface of the bowl-shaped portion 94 coming into contact with the recess 95. Intrusion of dust or the like into the gap 100 can be prevented. Furthermore, the steel pipe 15 can be rotated using the ring-shaped bowl-shaped part 94. In particular, by providing the recess 96 serving as the operation part on the outer periphery of the bowl-shaped part 94, the steel pipe 15 can be easily rotated. In addition, since the female screw portion 92 and the male screw portion 93 are metric trapezoidal screws, they are stronger and have a lower frictional resistance during rotation than a triangular screw having a substantially triangular cross section or a screw for a taper tube. Later screw release becomes easy.

Figures 22 23 show the fifth embodiment of the present invention, the same reference numerals are applied to the upper you施例and reference examples the same components and will be described in detail explanation thereof is omitted, in this example, exit prevention structure The modification of is shown.

  As shown in the figure, an elastic retaining member 111 made of an elastic material such as a rubber material is provided on the upper outer periphery of the steel pipe 15. This elastic retaining member 111 has a cylindrical mounting portion 112 that is attached to the periphery of the steel pipe 15 by adhesion or the like, and tongue pieces 113 that are provided in a plurality of upper and lower stages on the outer periphery of the mounting portion 112. A groove 114 is provided between the upper and lower tongue pieces 113. Further, the tongue piece 113 has an inclined surface 113A that is obliquely upward on the lower side, and is formed so as to become thinner toward the tip side and upward. An elastic retaining member 111 that presses against the lower insertion hole 17 may be provided on the outer periphery of the lower portion of the steel pipe 15.

  Further, a large-diameter portion 16K with which the elastic retaining member 111 is pressed is provided at the upper portion of the upper insertion hole 16. The diameter of the tip of the tongue piece 113 before deformation is larger than the diameter of the large diameter portion 16K. Further, as shown in FIG. 22, the steel pipe 15 is shorter than the upper and lower insertion holes 16 and 17.

  Therefore, when the steel pipe 15 is inserted into the upper and lower insertion holes 16 and 17 and the elastic retaining member 111 is press-fitted into the large diameter portion 16K, the plurality of tongue pieces 113 are obliquely upward as shown in FIG. The tip end side of the inclined surface 113A comes into pressure contact with the large-diameter portion 16K, thereby making it difficult for the steel pipe 15 to come off.

As described above, in this embodiment, can be removed above the lower projecting block 3,2 alone in the middle of the length direction, it exhibits the above you施例and similar actions and effects as in Reference Example.

Further, in this embodiment, in accordance with the fourth aspect of the present invention, the pull-out prevention structure has the lower insertion hole 17 for inserting the lower portion of the steel pipe 15 as the vertical member in the lower extension portion 5 of the lower extension block 2. An upper insertion hole 16 is formed in the upper overhanging portion 6 of the upper overhanging block 3 to insert the upper portion of the steel pipe 15 corresponding to the lower insertion hole 17, and the upper insertion hole 16 or the lower insertion is inserted into the outer periphery of the steel pipe 15. An elastic retaining member 111 that presses against the hole 17 is provided. In this example, the elastic retaining member 111 is pressed against the upper insertion hole 16, so that the steel pipe 15 is inserted into the upper and lower insertion holes 16 and 17, and the elastic retaining member is inserted. When the steel pipe 15 is not easily pulled out by being in pressure contact with the upper insertion hole 16, the steel pipe 15 can be pulled out by elastically deforming the elastic retaining member 111 when pulled up with a force of a predetermined level or more.

  Further, as an effect of the embodiment, the elastic retaining member 111 is pressed against the inner surface of the large diameter portion 16K, so that the upper and lower insertion holes 16, 17 and the steel pipe 15 are located below the elastic retaining member 111. Since the upper part of the gap 100 is closed, it is possible to prevent intrusion of dust or the like into the gap 100. Further, since the center of the tongue portion 113 is formed obliquely upward from the horizontal toward the distal end side, the steel pipe 15 is easily inserted into the upper and lower insertion holes 16 and 17 from above, and on the contrary, the structure is difficult to come off. .

FIGS. 24 25 show a sixth embodiment of the present invention, the same reference numerals are applied to the upper you施例and reference examples the same components and will be described in detail explanation thereof is omitted, in this example, exit prevention structure The modification of is shown.

  As shown in the figure, a disc-shaped lid 121 is provided at the upper end of the steel pipe 15, and a ring-shaped recess 122 for accommodating at least a part of the lid 121 is recessed at the upper part of the upper insertion hole 16. Set up. In this example, the entire lid 121 is accommodated in the recess 122, and the lid 121 closes the upper end opening of the steel pipe 15. In addition, the steel pipe 15 is shorter than the upper and lower insertion holes 16 and 17, and the lower surface of the lid 121 is placed on the bottom surface of the recess 122. In this placed state, the steel pipe 15 is placed between the lower end of the steel pipe 15 and the closing portion 17A. An interval is provided.

  In addition, a plurality of embedded nuts 123 are embedded and fixed on the bottom surface of the recess 122 by insert molding or the like, and corresponding to the female screw portions 124 of the embedded nuts 123, the fixing portions 121A around the lid body 121 are fixed. A through hole 125 is formed, a bolt 126 as a fixing means is inserted into the through hole 125, and the bolt 126 is screwed into the female screw portion 124, whereby the steel pipe 15 is inserted into the recess 122 of the upper projecting portion 6. The upper insertion hole 16 is closed by the lid 121. The fixing portion 121A is a portion located on the outer periphery of the steel pipe 15 of the lid 121.

  Further, the female screw portions 124 of the plurality of embedded nuts 123 are positioned concentrically with respect to the center of the upper insertion hole 16, and the plurality of through holes 125 are positioned concentrically with respect to the center of the steel pipe 15. Therefore, by screwing the bolt 126 into the nut 123, the upper and lower insertion holes 16, 17 and the center axis of the steel pipe 15 are aligned, and the entire circumference of the steel pipe 15 is aligned with the upper, lower insertion holes 16, 17. It can arrange | position so that it may not contact. In this example, embedded nuts 123 and 123 are arranged before and after the upper insertion hole 16.

As described above, in this embodiment, can be removed above the lower projecting block 3,2 alone in the middle of the length direction, it exhibits the above you施例and similar actions and effects as in Reference Example.

Further, in this embodiment, in accordance with the fifth aspect of the present invention, the pull-out prevention structure has a lower insertion hole 17 into which the lower portion of the steel pipe 15 as a vertical member is inserted into the lower extension portion 5 of the lower extension block 2. An upper insertion hole 16 is formed in the upper overhanging portion 6 of the upper overhanging block 3 so as to insert the upper portion of the steel pipe 15 corresponding to the lower insertion hole 17, and a fixing portion 121A is provided around the upper portion of the steel pipe 15 At the same time, since the fixing portion 121A is provided with a bolt 126 as a fixing means for fixing the fixing portion 121A to the overhanging block 3, the fixing portion 121A is fixed to the overhanging block 3 with the bolt 126, so that the retaining state can be maintained. On the other hand, the steel pipe 15 can be pulled out by releasing the fixing of the fixing portion 121A.

Further, in this embodiment, in accordance with the sixth aspect of the present invention, the lid 121 that closes the upper insertion hole 16 is provided on the upper portion of the steel pipe 15 that is the vertical member, and the periphery of the lid 121 is the fixing portion 121A. The upper opening of the steel pipe 15 is blocked by the lid 121, and the lid 121 can prevent dust and the like from entering the upper insertion hole 16.
[Reference Example 7]

Figure 26 shows a reference example 7 of the present invention, the same reference numerals are applied to the upper you施例and reference examples the same components and will be described in detail explanation thereof is omitted, in this example, modification of the base block 21 Indicates. As shown in the figure, the base block 21 is provided with a through hole 24K as a fitting recess to form the base block 21 in a frame shape, and the fitting protrusions 22 and 23 are fitted into the through hole 24K.

As described above, in this embodiment, can be removed above the lower projecting block 3,2 alone in the middle of the length direction, it exhibits the above you施例and similar actions and effects as in Reference Example.

Further, as an effect on the reference example, since the base block 21 is formed in a frame shape by providing the through hole 24K, the weight of the base block 21 can be reduced.
[Reference Example 8]

27-29 show a reference example 8 of the present invention, the same reference numerals are applied to the upper you施例and reference examples the same components and will be described in detail explanation thereof is omitted, in this example, concrete guard fences 1 is provided in the median strip of the road, and a description will be given of a response example in the case where traffic congestion occurs in one of the opposite lanes due to an accident or construction. In the figure, the upper and lower overhanging blocks 3 and 2 are hatched for easy understanding. In addition, the white arrow on the left side in the figure indicates the traveling direction.

  This figure shows a plan view of a single lane road, and the opposite lanes 82 and 83 are partitioned by a concrete guard fence 1. In addition, it is applicable also to one side multiple lanes. As shown in FIG. 27 (A), when an accident caused by a plurality of vehicles 85A and 85B occurs in one lane 82, traffic is impossible due to these accident vehicles 85A and 85B, and traffic congestion occurs in one lane 82, A plurality of vehicles become the staying vehicles 85C, 85D, 85E, and 85F. In such a case, conventionally, the staying vehicles 85C, 85D, 85E, and 85F cannot move and have to wait until the accident vehicles 85A and 85B are removed after inspection by the police. Further, as shown in FIG. 27 (B), the accident recovery rescue vehicle 85I is difficult to approach from one lane 82 because of the staying vehicles 85C, 85D, 85E, and 85F. Even if the emergency vehicle 85J approaches the accident scene 86 from the other lane 83, it cannot go around to the lane 82 where the accident vehicles 85A and 85B are located. The accident recovery rescue vehicle 85I is exemplified by a police vehicle, a tow truck, a fire truck, an emergency vehicle 85J, and the like.

  Therefore, as shown in FIG. 28 (A), the overhanging block 3 is removed independently on the rear side (right side in the figure) of the accident scene 86 in one lane 82, and an opening 87 is provided in the middle of the concrete guard fence 1. Form. The removed overhanging block 3 moves to the other lane 83. This moving position is the front side of the opening 87 in the other lane 83. The number of blocks to be removed may be two or more adjacent. Further, as shown in FIG. 28 (A), by moving the removed overhanging block 3 to the center separation band side, it is possible to ensure the passage of the other lane 83. Although not shown, the removed overhanging block 3 may be moved toward the shoulder of the road to secure the passage of the other lane 83.

  When the opening 87 is thus provided, the ambulance vehicle 85J travels to the opening 87 through the other lane 83 and passes through the opening 87 as shown in FIG. And can approach the accident scene 86 in one lane 82. Further, as shown in the figure, the upper overhanging block 3 on the front side (left side in the figure) of the accident vehicles 85A and 85B in one lane 82 is removed to provide an opening 87A.

  When the ambulance 85J arrives at the accident site 86 through the opening 87 and the opening 87 is allowed to pass, as shown in FIG. 29, the staying vehicles 85C, 85D, 85E, 85F in one lane 82 are It returns to one lane 82 through the opening 87, the other lane 83, and the opening 87A, and can leave the accident scene 86 as it is. As a result, the staying vehicles 85C, 85D, 85E, and 85F that are on the front side in the traveling direction of the rescue vehicle 85I can be eliminated. As a result, the accident recovery rescue vehicle 85I can easily approach the accident site 86, reduce the time for accident recovery, and reduce social loss due to traffic closure. When the rescue vehicle 85I carries an injured person or the like, the rescue vehicle 85I passes through the opening 87, the other lane 83, and the opening 87A in one lane 82, like the staying vehicles 85C, 85D, 85E, and 85F. You can return to

After the accident occurs, the vehicle does not pass on the front side (left side in the figure) from the opening 87A of one lane 82 until the staying vehicles 85C, 85D, 85E, and 85F pass through the opening 87. Then, the removal work of the overhanging block 3 is performed halfway in one lane 82, and after the ambulance vehicle 85J passes, the overhanging block 3 at the position of the opening 87A may be moved to another place. In the middle of the removal work, the work until the upper projecting block 3 is moved from the current plane position is shown. For example, if the release prevention of the steel pipe 15 is released or the steel pipe 15 is pulled out from the underhanging portion 5, the subsequent removal time can be shortened by that amount and the opening 87A can be provided in a short time. . Further, the overhanging block 3 at the position of the opening 87A may be moved to the moving position, and in this case, the removed overhanging block 3 is also separated into the center. By moving to the belt side, the other lane 83 can be secured. Although not shown, the removed overhanging block 3 may be moved toward the shoulder of the road to secure the passage of the other lane 83. Further, as described in the fifth embodiment, the openings 87 and 87A may be formed by removing the underhanging block 3 alone.

Thus in the present reference example, can be removed above the lower projecting block 3,2 alone in the middle of the length direction, it exhibits the above you施例and similar actions and effects as in Reference Example.

In this way, in this reference example, the concrete guard fence 1 is provided in the median strip, and traffic congestion occurs in one of the lanes 82 on both sides sandwiching the median strip. , 85D, 85E, 85F, in the guidance method to guide the other lane 83, remove the overhanging block 3 or / and the underhanging block 2 in the vicinity of the traffic jam part in the middle of the concrete guard fence 1, and Since an opening 87 serving as a passage is provided in the median strip, and the vehicles 85C, 85D, 85E, and 85F in one lane 82 can be moved to the other lane 83 from the aperture 87 in the median strip, the above reference example 6 Has the same actions and effects as

In this way, in this reference example, the upper overhanging block 3 / and the lower overhanging block 2 in the vicinity of the traffic jam are removed, and an opening 87 is provided on the rear side of the accident site 86 in one lane 82. The emergency vehicle 85J, which is an accident recovery rescue vehicle, can travel from the lane 83 to the accident scene 86 in one lane 82 through the opening 87, so even if one lane 82 is congested, the emergency site 85 The vehicle 85J can arrive promptly.

Further, in this reference example, since the openings 87 and 87A through which the vehicle can pass are provided on both sides of the accident site 86, the staying vehicles 85C, 85D, and 85E in one lane 82 before the accident site 86 are provided. , 85F can return to one lane 82 through the opening 87, the other lane 83, and the opening 87A, and leave the accident site 86 as it is.

The present invention is not limited to this embodiment, and various modifications can be made within the scope of the gist of the present invention. For example, the vertical member may be a solid rod-like member other than a steel pipe, and the outer cross section of this rod-like member is preferably circular, but the vertical member may have a square cross section. Further, in the embodiment, the inner surfaces of the upper and lower insertion holes are exemplified by the exposed concrete surface, but the upper and lower insertion holes may be constituted by buried steel pipes. Furthermore, the real施例has cutaway corner portion of the lower clad Extension end surface and the overlayer Extension end surface, or cutting away the corners of the lower clad Extension end face and / or lower end face, overlayer Extension end surface or / and the upper end surface May be cut out, that is, at least one corner of both side portions sandwiching the upper joint portion and the lower joint portion may be cut out. Furthermore, the number of the fitting protrusions provided on the upper and lower extending blocks may be one or more, and the planar shape of the fitting protrusions is not limited to the rectangle or square in the embodiment, but is round. , Triangles, pentagons or more polygons. Furthermore, although the fitting convex part formed three side parts diagonally, you may form four side parts diagonally. Further, although the upper surface 5U and the lower surface 6K of the embodiment are substantially horizontal in the length direction of the upper and lower overhanging blocks, they are formed obliquely with respect to the length direction or formed in a curved shape. Or you may. Further, the notch engaging groove may be of a type having no upper vertical groove portion. Moreover, although the notch part which the lower part opened was shown in the Example, the notch part may be the type which the lower part obstruct | occluded. Further, the corner cutout portion may be a chamfered corner portion at the end in the longitudinal direction of the block, and the shape can be appropriately selected. In the embodiment, a plurality of (two) fixing means are used. However, only one fixing means may be used, and a male screw rod as a fixing means is provided on the upper surface of the overhanging block. The male screw rod may be inserted into the through hole of the lid, and the nut may be screwed onto the tip of the male screw rod protruding from the upper surface of the lid so that the lid is fixed to the overhanging block. . Moreover, although the fitting convex part of a lower overhanging block is preferable 25 mm or more, if the fitting convex part of an upper overhanging block is made high compared with the fitting convex part of a lower overhanging block, the concrete guard fence as a whole Sliding resistance can be ensured. Furthermore, the upper and lower overhanging blocks can be removed and transported by using various lifting and transporting means other than the handlift and forklift shown in the embodiment. preferable.

1 Guard fence 2 Underhanging block (protective fence block)
3 Overhanging block (protective fence block)
5 Lower overhang 5U Upper surface 6 Upper overhang 6K Lower surface
15 Steel pipe (connecting means / vertical member)
15F Lower edge
16 Upper insertion hole
17 Lower insertion hole
21 Basic blocks
22 Mating protrusion
23 Mating protrusion
24 Mating recess
25 Notch
28 Pavement surface (road surface)
31 Retaining member
32 Notch locking groove
41 Curved convex surface
42 Curved convex surface
51 Diagonal bolt (connecting means / bolt)
55 Curved bolt (connecting means / bolt)
61 Connecting plate (connecting member)
62 Double screw bolt (fixing member)
92 Female thread
93 Male thread
111 Elastic retaining member
121A fixed part
126 bolts (fixing means)

Claims (14)

A lower overhanging block in which a lower overhanging portion protrudes on the lower part on both sides in the length direction, and an upper overhanging block in which an upper overhanging portion disposed on the lower overhanging portion protrudes on the upper side in the longitudinal direction; A connecting means for connecting the lower projecting block and the upper projecting block in a state where the upper projecting portion of the upper projecting block is disposed on the lower projecting portion of the lower projecting block; A concrete guard fence characterized by that. The concrete guard fence according to claim 1, further comprising a foundation block provided on a road surface, wherein the lower extension block or / and the upper extension block are unevenly fitted on the foundation block. 2. The connecting means is a vertical member, and the upper projecting part and the lower projecting part are connected by the vertical member inserted into the upper projecting part and the lower projecting part. Or the concrete guard fence of 2. The concrete guard fence according to any one of claims 1 to 3, wherein a notch portion is provided at a lower part of a side surface of the lower and upper projecting blocks. The concrete guard fence according to any one of claims 1 to 4, wherein a gap is provided between an upper surface of the lower overhang portion and a lower surface of the upper overhang portion. The concrete guard fence according to claim 3, further comprising a slip-out preventing structure that prevents the vertical member from slipping out. The concrete guard fence according to any one of claims 1 to 6, wherein corner portions of lengthwise end portions of the lower overhanging block and / or the upper overhanging block are cut out. The concrete guard fence according to claim 1 or 2, wherein the connecting means is a bolt in a length direction, and the lower projecting block and the upper projecting block adjacent to each other are connected by the bolt. The connecting means includes a connecting member provided across an outer surface of the adjacent lower overhanging block and an outer surface of the upper overhanging block, and fixing for fixing the connecting member to the lower overhanging block and the upper overhanging block. The concrete guard fence according to claim 1, further comprising a member. The vertical member has a cylindrical shape, and the retaining prevention structure forms a lower insertion hole for inserting a lower portion of the vertical member in the lower extension portion of the lower extension block, and corresponds to the lower insertion hole. An upper insertion hole for inserting the upper part of the vertical member is formed in the upper projecting part of the upper projecting block, a lateral retaining member is provided in the lower insertion hole, and the lower part of the vertical member is rotated by rotation. The concrete guard fence according to claim 6, wherein a notch locking groove for engaging and disengaging with the retaining member is provided. The retaining structure is configured to form a lower insertion hole into which the lower part of the vertical member is inserted into the lower extension part of the lower extension block, and to insert the upper part of the vertical member corresponding to the lower insertion hole. An upper insertion hole is formed in the upper extension portion of the upper extension block, a female screw portion is provided in the lower insertion hole, and a male screw portion that is screwed into the female screw portion is provided in the vertical member. The concrete guard fence according to claim 6. The retaining structure is configured to form a lower insertion hole into which the lower part of the vertical member is inserted into the lower extension part of the lower extension block, and to insert the upper part of the vertical member corresponding to the lower insertion hole. An upper insertion hole is formed in the upper overhanging portion of the upper overhanging block, and an elastic retaining member that presses against the upper insertion hole or the lower insertion hole is provided on the outer periphery of the vertical member. Item 7. A concrete guard fence according to item 6. The retaining structure is configured to form a lower insertion hole into which the lower part of the vertical member is inserted into the lower extension part of the lower extension block, and to insert the upper part of the vertical member corresponding to the lower insertion hole. An upper insertion hole is formed in the upper projecting portion of the upper projecting block, a fixing portion is provided around the upper portion of the vertical member, and a fixing means for fixing the fixing portion to the upper projecting block is provided. The concrete guard fence according to claim 6. The concrete guard fence according to claim 13, wherein a lid that closes the upper insertion hole is provided at an upper portion of the vertical member, and the periphery of the lid is the fixing portion.

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