JP3219579U - Construction structure of concrete fence - Google Patents

Abstract

The present invention provides a new concrete construction structure for a concrete fence in which the underground depth (the depth of embedding from the ground) of a pile embedded in the ground can be made relatively short (shallow).
SOLUTION: A plurality of metal rods 1 whose lower end side is buried in the ground and whose upper end side stands vertically from the ground, and a concrete fence body 2 standing vertically from the ground, The portion of the metal bar 1 from the ground to the upper end is embedded in the concrete fence main body 2, and the lower end or the lower end side middle portion of each metal bar 1 is larger than the diameter of the metal rod 1. A pulling-out resistance member (nut) 3 having a diameter portion is fixed.
[Selection] Figure 1

Description

  The present invention relates to a construction structure of concrete fences constructed along a boundary line of land, for example, and particularly relates to a construction structure of concrete fences formed in an I-shape.

  When the height of the work such as concrete fence is less than 2 m from the ground surface, it can be constructed without obtaining the permission of the government (without satisfying the standard according to the predetermined structural calculation). Therefore, such a workpiece of less than 2 m has a high risk of collapsing due to vibration such as an earthquake. In addition, L-type types of concrete fences and other structures may be implemented, but these L-type structures are often formed in the lower end in large cities and metropolitan areas, and are formed at the lower end. It is difficult to secure a sufficient width of the bottom board, and damage such as earthquakes is likely to occur.

  Then, as a construction structure of the concrete fence aiming at preventing the collapse by such an earthquake, there exists what was disclosed by Unexamined-Japanese-Patent No. 2012-225031, for example. This construction structure is provided with a vertical column fixed to a steel pipe pile placed in the ground and a rod member, and the rod member and the vertical column are filled with a filler between the rod member and the vertical column. The filler is connected by solidification, and is formed into an I-shape. According to such a structure, it can be constructed even in a narrow place, has a great strength in the vertical and horizontal directions, and can prevent the earthquake-resistant outer structure from collapsing due to an earthquake.

JP 2012-225031 A

  However, in the construction structure disclosed in Patent Document 1, the steel pipe pile and the vertical column placed in the ground are separate from each other. Specifically, the steel pipe pile is filled with mortar and concrete, Since the steel pipe pile and the vertical column are fixed by inserting the lower end side of the vertical column into the steel pipe pile, the work of filling mortar and concrete into the steel pipe pile that reaches a large number respectively. As a result, not only is it extremely troublesome, but the underground length of the steel pipe piles (the depth of the underground pipe) must be considerably long (deep), which increases the cost. It is inevitable that the construction period will be considerably prolonged.

  Therefore, the present invention has been proposed in order to solve the problems of the above-described conventional construction method of concrete fences, which can simplify the construction work, and is embedded in the ground. An object of the present invention is to provide a new concrete fence construction structure in which the underground length of buried piles (the depth of burying from the ground) can be made relatively short (shallow).

  In order to achieve the above-described object, the concrete fence construction structure according to the first device (the device according to claim 1) includes a plurality of lower ends that are embedded in the ground and the upper ends are erected vertically from the ground. A metal rod and a concrete fence main body standing upright in the vertical direction from the ground, and a portion from the middle to the upper end of each metal rod is embedded in the concrete fence main body, and each of the above A pull-out resistance member having a portion made larger in diameter than the diameter of the metal rod is fixed to the lower end of the metal rod or a middle portion on the lower end side.

  In the construction structure of the concrete fence according to the first invention, a pulling resistance member having a portion made larger in diameter than the diameter of the metal rod is fixed to the lower end or middle portion of the lower end of the metal rod. Therefore, even if a force acts in the direction in which the concrete fence body falls due to vibration such as an earthquake or wind pressure during a typhoon, it is prevented from falling due to the resistance between the pulling resistance member and the ground. The Moreover, according to the construction structure of the concrete fence according to the first device, the burying length (embedding depth from the ground) of the metal rod buried in the ground should be relatively short (shallow). In addition, it is possible to make the interval between the metal rods relatively long, and it is possible to shorten the construction period of the concrete fence.

  In addition, as for the raw material of the said metal rod, it is desirable to use a steel material, for example so that it may not be easily bent or cut | disconnected when a force acts in the direction in which a concrete fence main body falls. The thickness (diameter) of the metal rod is preferably about 15 mm to 30 mm, for example, so that it is not easily bent or cut. Moreover, even if the said concrete fence main body is nailed in a construction site, the thing in which the concrete block was laminated | stacked may be sufficient. In addition, the concrete block fence made into the said construction structure may be provided with the soil of predetermined height only on one side, and provided with the function as a soil retaining. The metal rod may be formed into a tubular shape.

  Moreover, the construction structure of the concrete fence according to the second device (the device described in claim 2) is the above-mentioned first device, in which the outer circumference from the lower end side halfway portion to the lower end of each of the metal bars is A screw is engraved, and the other screw to be screwed onto the one screw is engraved at the center of the pull-out resistance member.

  In the construction structure of the concrete fence according to the second device, the pulling resistance member is screwed to the outer periphery from the lower end side middle part to the lower end of each metal bar. It is possible to construct by simply screwing the resistance member, and not only the operation of welding the pulling resistance member to the metal rod is unnecessary, but also the fixing position of the pulling resistance member is screwed on the one screw. It can be appropriately changed within the range.

  Moreover, the construction structure of the concrete fence according to the third device (device of claim 3) is the upper or lower end or midway of the pull-out resistance member in either the first device or the second device. The disk member formed to have a larger diameter than the diameter of the pulling resistance member is fixed.

  In the construction structure of the concrete fence according to the third device, a disk member formed to have a diameter larger than the diameter of the pulling resistance member is fixed to the upper end, the lower end or midway of the pulling resistance member. Even if a force acts in the direction in which the concrete fence body falls, the resistance between the pull-out resistance member and the ground further increases, so that the concrete fence body can be further prevented from falling. Further, even when a liquefaction phenomenon occurs due to an earthquake, the risk of the concrete ridges being lifted or inclined by the disk member can be effectively suppressed.

  According to a fourth aspect of the present invention, there is provided a concrete fence construction structure according to the third aspect, wherein the disk member is fixed to the lower surface of the pull-out resistance member. On the lower surface of the member, one or a plurality of drooping pieces for excavation, which are formed in a plate shape and gradually become narrower from the upper end downward, are fixed.

  In the construction structure of the concrete fence according to the fourth device, the hanging piece for excavation, which is formed into the plate shape and gradually becomes narrower from the upper end to the lower part, is fixed to the lower surface of the disk member and is rotated. Since the metal rod excavated in the ground has a function as a pile as it is, the work of burying the lower end side of a plurality of metal rods in the ground can be further simplified. The construction period can be shortened.

  Moreover, the construction structure of the concrete fence according to the fifth device (the device according to claim 5) is the metal rod according to any one of the first, second, third, or fourth device, and from the ground. The lower portions are respectively located in excavation holes formed in the ground, and at least above the pulling resistance member is filled with concrete, mortar or cement milk. is there.

  In the construction structure of the concrete fence according to the fifth device, the metal bar and the portion below the ground are respectively located in excavation holes formed in the ground, and at least the pull-out resistance member Since the concrete is filled with concrete, mortar or cement milk, even if a force acts in the direction in which the concrete bowl body falls, the pull-out resistance member must be hardened concrete, mortar or cement. Since it comes into contact with the earth that has been filled and hardened with milk, it is possible to further prevent the concrete bowl body from falling.

  According to the concrete fence construction structure according to the first invention (invention of claim 1), the risk of the concrete fence body falling over due to vibrations such as earthquakes or wind pressure during typhoons is effectively prevented. In addition to being able to do this, the embedment length (embedding depth from the ground) of the metal rods buried in the ground can be made relatively short (shallow), and the construction of each metal rod The interval can be made relatively long, and as a result, the construction period of the construction of the concrete fence can be shortened. Moreover, according to this 1st design, it is not necessary to form a retaining wall in the front side or back side of a concrete fence main body, and it can construct also in a narrow site.

  Further, according to the construction structure of the concrete fence according to the second device (device of claim 2), it can be constructed only by screwing the pulling resistance member to the metal rod at the construction site, the pulling resistance member In addition to eliminating the need for welding the metal rod to the metal rod, the fixing position of the pull-out resistance member can be appropriately changed within the range where the one screw is threaded.

  Moreover, according to the construction structure of the concrete fence according to the third invention (invention of claim 3), even if a force acts in the direction in which the concrete fence body falls, the pull-out resistance member and the underground This further increases the resistance of the concrete fence to prevent the concrete fence body from overturning, and even if a liquefaction phenomenon occurs due to an earthquake, the disk member can lift the concrete fence. The risk of tilting can be effectively suppressed.

  Moreover, in the construction structure of the concrete fence which concerns on 4th invention (device of Claim 4), the drooping piece for excavation shape | molded by the said plate shape and was made narrow gradually from the upper end to the downward direction is a disk member. Since the metal rod that is fixed to the lower surface and excavated underground by rotating has the function as a pile as it is, the work of burying the lower end side of multiple metal rods in the ground is even easier The construction period can be further shortened.

  Moreover, according to the construction structure of the concrete fence according to the fifth device (the device according to claim 5), even if a force acts in a direction in which the concrete fence body falls, Since the hardened concrete or mortar or cement milk comes into contact with the hardened earth and sand filled with cement milk, it is possible to prevent the concrete bowl body from falling over.

It is a perspective view which shows typically the construction structure of the concrete fence which concerns on this invention. It is a side view which shows the lower end side and nut of a metal bar, respectively. It is sectional drawing which shows typically the state where the vertical hole was excavated in the ground. It is a schematic diagram which shows a metal rod embedding hole, a metal rod, and a nut. It is a disassembled perspective view which shows a metal bar and a nut. It is sectional drawing which shows typically the state with which the metal rod excavation hole was filled with concrete. It is sectional drawing which shows the example which fixed the elongate nut provided with the disk body at the front-end | tip of a metal bar. It is a disassembled perspective view which shows the elongate nut provided with the metal bar and disc body shown in FIG. It is sectional drawing which shows the nut by which the disk member and the hanging piece were fixed to the front-end | tip of a metal bar. It is a disassembled perspective view which shows the nut to which the metal rod, the disk member, and the hanging piece were fixed. It is a disassembled perspective view which shows the nut with a disk member by which two drooping pieces were fixed to the metal rod and the disk member. It is a side view which shows the state which excavates in the ground with the metal rod to which the nut shown in FIG. 11 was fixed using a drilling apparatus. It is a side view which shows the state after underground excavation from the state shown in FIG. It is a perspective view which shows the state in which the concrete flock was loaded by the other loading method, and the concrete fence main body was formed.

  Hereinafter, the construction structure of the concrete fence which concerns on the form for implementing this invention is demonstrated in detail, referring drawings.

  As shown in FIG. 1 or FIG. 2, the construction structure of the concrete fence according to this embodiment includes a plurality of metal bars 1 each having a lower end buried in the ground, and a concrete fence standing upright from the ground. And a main body 2. And the nut 3 is each screwed by the lower end side of each said metal rod 1. As shown in FIG. This nut 3 is a pulling resistance member constituting the present invention. That is, as shown in FIG. 5, one screw 1 a is threaded on the outer periphery from the middle part to the lower end of the lower end side of the metal rod 1, and a hole formed in the center of the nut 3 (reference numeral is The other screw 3a is threaded on the inner circumference of (not shown). Therefore, when the nut 3 is screwed from the lower end of the metal rod 1, the nut 3 is arranged at the lower end or the lower end side middle portion of the metal rod 1. In other words, the fixing position of the nut 3 can be changed within the range where the one screw 1a is engraved. In addition, based on the construction method mentioned later, the hardened concrete or mortar is located above and below the nut 3 fixed to the metal rod 1. In the above-described example, a single nut 3 is screwed and fixed to the tip of the metal rod 1, but a plurality of these nuts 3 are fixed at predetermined intervals. Also good. Moreover, the metal rod which comprises this invention may be shape | molded by the tubular shape.

  Moreover, the concrete fence main body 2 is composed of a plurality of concrete blocks 2a stacked vertically in the vertical direction from the ground and fixed by concrete or mortar (not shown), as shown in FIG. 1 or FIG. Since the concrete block 2a has a plurality of through holes 2b and left and right concave grooves 2c formed in advance, each of the metal rods 1 standing upward from the ground is one of the through holes 2b. Or while being penetrated in the said concave groove 2c, concrete or mortar (a code | symbol is abbreviate | omitted) is filled in each through-hole 2b and the said concave groove 2c.

  Hereinafter, the concrete fence construction method described above will be described for each step with reference to the drawings.

  First, the metal rod embedding holes 5 are provided in a straight line at predetermined intervals over the range where the concrete fence main body 2 is erected. These metal rod embedding holes 5 can use the excavator 6 shown in FIG. The excavator 6 includes a left and right base member 7 whose lower surface is grounded, left and right guide rails 8 erected from the left and right base members 7, and the guide rail 8 while being guided by the left and right guide rails 8. , And a drive motor 10 mounted and fixed on the lift body 9. Between the left and right guide rails 8, a hydraulic cylinder (not shown) that drives the lifting body 9 to move up and down is disposed, and this hydraulic cylinder has a lifting operation (not shown) that controls the driving operation of the hydraulic cylinder. A lever is provided. In addition, the lifting body 9 is provided with a screw rod 13 having a screw 13 a formed on the tip side or a chucking member 11 for fixing the upper end side of the metal rod 1, and the chucking member 11 and the drive motor 10. These drive shafts are connected by a belt or chain (not shown). Note that left and right tires 14 are rotatably disposed on the lower end side of the left and right guide rails 8 on the side opposite to the side on which the left and right base members 7 are disposed. The excavator 6 can be moved by rolling the tires 14 by rolling the rails 8 to the right in FIG. 3 and pulling them to the right in the figure.

  Therefore, as shown in FIG. 3, the upper end side of the screw rod 13 is fixed to the chucking member 11, the drive motor 10 is driven, and the elevator 9 is operated to a predetermined length by operating the elevator operation lever. The metal rod embedding hole 5 is formed by lowering the elevator body 9 and then raising the elevating body 9. Then, when the operation of forming the metal rod embedding holes 5 in a straight line with a predetermined interval is completed, then, as shown in FIG. 4 or FIG. 6, the nuts 3 are placed in these metal rod embedding holes 5. Insert a metal rod 1 fixed and screwed to the tip, and fill the metal rod embedding hole 5 with a filler 15 such as cement or mortar while keeping the metal rod 1 oriented in the vertical direction. To do. In addition, after the work of erecting a plurality of metal bars 1 is completed in this way, in order to prevent the swing of each metal bar 1, a reinforcing bar (not shown) may be welded horizontally to each metal bar 1. .

  When the filling of the filler is completed and cured, concrete or mortar having a predetermined width is then placed, and a concrete block 2a is laminated on the placed concrete or mortar, and the concrete fence body 2 is constructed. In addition, as shown in FIG. 1, each concrete block 2a has a plurality of through holes 2b formed in advance and recessed grooves 2c are formed at both ends. By arranging them side by side, a through hole 2b is formed by the concave grooves 2c. Therefore, each of the above-mentioned standing metal rods 1 from the ground to the upper end is inserted through the through holes 2b formed by the concave grooves 2c, and concrete or mortar is filled in each through hole 2b. May be cured. Therefore, when the metal rods 1 are arranged in the through holes 2b formed by the concave grooves 2c, the distance between the metal rods 1 is that of the through holes 2b formed by the concave grooves 2c. What is necessary is just to set it as the space | interval corresponding to the space | interval of each center and cancellation.

  In the above description, the metal rod constituting the present invention is screwed with the nut 3 as a pull-out resistance member. However, the pull-out resistance member may be the tip or the tip side of the metal rod 1. Alternatively, as shown in FIG. 7 or FIG. 8, a long nut 32 in which a disk body 31 is fixed in the middle may be used. The long nut 32 is threaded with the other screw 32 a that is screwed into the one screw 1 a formed on the metal rod 1, and the disc body 31 is a midway part of the outer periphery of the long nut 32. In addition, the outer diameter of each of the metal rod embedding holes 5 formed by the excavator 6 is substantially the same.

  Further, in the above-described construction example, each of the metal rod embedding holes 5 is formed in advance by the excavator 6, and then a part of the metal rod 1 to which the nut 3 or the long nut 32 is screwed and fixed is grounded. It is a method of burying inside and standing up from the ground, but by providing a drilling piece having a function of excavating the ground at the lower end of the metal bar 1, and rotating the metal bar 1 provided with this drilling piece After excavating the ground and excavating for a predetermined length, the metal rod 1 may be left in the ground, and then each excavated site may be filled with cement milk. That is, as shown in FIG. 9 or FIG. 10, a nut 33 is fixed to the tip (lower end) of the metal rod 1 at the tip of the metal rod 1 when the metal rod 1 is erected using this construction example. A disk member 34 is welded to the lower surface of the nut 33, and the lower surface of the disk member 34 is gradually narrowed from the upper end fixed to the disk member 34 to the lower side. A hanging piece 35 (which is the excavating piece) is fixed.

  It should be noted that the drooping piece 35 as the excavating piece may be a plurality of pieces (two of the one and the other drooping pieces 36 and 37) fixed to the lower surface of the disk member 34 as shown in FIG. good. That is, the one and the other hanging pieces 36 and 37 are iron plates formed in a right triangle shape, respectively, and are fixed in parallel to each other, and are fixed sides fixed to the lower surface of the disk member 34. 36a, 37a, hanging sides 36b, 37b suspended from one end of the fixed sides 36a, 37a, and inclined sides 36c, 37c inclined from the other ends of the fixed sides 36a, 37a, and the fixed sides 36a, 37a. And the corners (reference numerals are omitted) located between the inclined sides 36c and 37c protrude slightly laterally from the peripheral surface of the disk member 34.

  And when excavating the ground with the metal rod 1 provided with such a hanging piece 35, or when excavating the underground with the metal rod 1 provided with the one and the other hanging pieces 36, 37, the metal rod 1 shows the chucking that constitutes the excavator 6 as shown in FIG. 12 (illustrating the step of excavating the ground with the metal rod 1 having the one and the other hanging pieces 36, 37). As shown in FIG. 13, the elevating body 9 is lowered over a predetermined length by fixing the member 11 and driving the driving motor 10 and operating the elevating operation lever as shown in FIG. After the excavation work is completed, the fixed state of the metal rod 1 by the chucking member 11 is released, and then the excavated site is filled with cement milk as described above.

  Therefore, by rotating the plurality of hanging pieces 36 and 37 using the metal rod 1 fixed to the lower end, not only can the earth be excavated easily, but the excavated site can be made of the cement milk. By filling a certain filler, the completed concrete fence can effectively prevent the risk of falling due to an earthquake, and even if liquefaction occurs, the entire concrete fence body 2 Can be prevented from tilting.

  The above-mentioned concrete fence is erected in the vertical direction from the ground, but the height (level) of the ground on both sides of the concrete fence main body 2 does not necessarily have to be the same position. The soil may be raised only on one surface of the main body 2 and may be constructed in a state having a function as a so-called earth retaining or retaining wall.

  In the above-described example, the concrete fence main body 2 formed by laminating a plurality of concrete blocks 2a has been illustrated and described. However, the concrete fence main body constituting the present invention is as shown in FIG. In addition, the concrete fence body 2 may be formed by alternately laminating the concrete blocks 2a, and moreover, it is not formed by laminating a plurality of concrete blocks 2a. In the construction site, it may be formed through a process of assembling reinforcing bars and placing concrete in a predetermined formwork.

DESCRIPTION OF SYMBOLS 1 Metal rod 1a One screw 2 Concrete cage | basket body 3 Nut 3a The other screw 31 Disc body 32 Long nut 33 Nut 34 Disk member 35 Drooping piece 36 One drooping piece 37 The other drooping piece

Claims (5)

A plurality of metal rods whose lower end side is buried in the ground and whose upper end side stands upright from the ground;
A concrete fence body standing vertically from the ground, and
The parts from the middle part to the upper end of each of the metal bars are embedded in the concrete fence body,
A concrete fence construction structure in which a pull-out resistance member having a portion made larger in diameter than the diameter of the metal rod is fixed to the lower end or middle portion on the lower end side of each metal rod.   One screw is threaded on the outer periphery from the middle part of the lower end of each metal rod to the lower end, and the other screw is screwed to the one screw at the center of the pull-out resistance member. The construction structure of concrete fences according to claim 1, wherein the structure is screwed.   3. The concrete according to claim 1, wherein a disk member formed to have a diameter larger than the diameter of the drawing resistance member is fixed to the upper end, the lower end or the middle of the drawing resistance member. The construction structure of firewood.   The disk member is fixed to the lower surface of the pull-out resistance member, and the lower surface of the disk member is formed into a plate shape and is gradually narrowed from the upper end downward. The construction structure of the concrete fence according to claim 3, wherein the hanging piece is fixed. The portions of the metal bar below the ground are respectively located in excavation holes formed in the ground, and at least the pull-out resistance member is filled with concrete, mortar, or cement milk. The construction structure of a concrete fence according to any one of claims 1, 2, 3 and 4, wherein