JP2007032197A - Mesh fence - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mesh fence which can be installed along a sloped surface without creating gaps by offering a free rotation at each intersection of a longitudinal wire rod and a lateral wire rod. <P>SOLUTION: A mesh fence 11 is formed in a latticed shape by superposing a plurality of longitudinal wire rods 12 and lateral wire rods 13 together; pin holes 15 and 16 are made in succession at each intersecting point between the longitudinal wire rod and the lateral wire rod; a shank 17b of a rivet 17 is inserted to each of said pin holes; the tip of the rivet is caulked; and said longitudinal wire rod and lateral wire rod are connected together through a washer 18 made of a low friction material. In this way, the mesh fence can be installed easily without creating gaps along a sloped surface by deforming the mesh fence to a diamond-shaped grille after freely rotating both the longitudinal wire rods and lateral wire rods. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an improvement in a mesh fence installed in the surroundings in order to prevent entry of small animals or the like into an automobile road such as an expressway or an airport site.

  As is well known, a number of mesh fences are installed along roads to prevent small animals such as rabbits and rabbits and humans from entering the site. As this conventional mesh fence, the one shown in FIG. 11 is generally known.

  If the outline is explained based on FIG. 11, this mesh fence 1 is a so-called fixed type, and a plurality of vertical wires 2 and the vertical wires are provided between left and right support columns 4, 4 having a predetermined separation area. 2 and a plurality of horizontal wires 3 arranged substantially orthogonal to each other. Moreover, each intersection part (contact part) 5 of each said vertical wire 2 and the horizontal wire 3 is mutually fixed by welding, and the whole is formed fixedly.

Each mesh fence 1 is installed and fixed by burying the lower ends of the columns 4 and 4 in the ground.
JP 2002-186405 A, etc.

  However, in the conventional mesh fence 1, the intersection part 5 of each vertical wire 2 and the horizontal wire 2 is fixed by welding, and the whole becomes a rectangular fixed shape.

  For this reason, when installing the plurality of mesh fences 1 side by side, if the installation location is flat (horizontal), the mesh fences 1 can be installed one by one as they are in a vertical shape and sequentially arranged side by side as they are. However, when the ground of the installation place is an inclined surface 6, as shown in FIG. 11, each mesh fence 1 is installed perpendicular to the horizontal plane regardless of the inclination angle of the inclined surface 6. Or each mesh fence 1 must be installed perpendicular to the gradient angle of the inclined surface 6.

  As a result, in the former installation method, as shown in FIG. 11, gaps C are formed between the lower edge of each mesh fence 1 and the inclined surface 6, thereby preventing entry of small animals and the like. It is impossible to do so and the intrusion prevention function is inevitably lowered.

  On the other hand, in the latter installation method, an inverted triangular gap is formed between the mesh fence installed in an inclined shape and the mesh fence installed horizontally adjacent thereto. For this reason, the intrusion prevention effect is reduced as in the former prior art.

  Therefore, it is also considered that the mesh fence 1 installed on the inclined surface 6 is formed in an inclined shape in advance so that the gap C is not formed between the mesh fence 1 and the horizontal mesh fence 1.

  However, in this case, the length of the inclined surface 6 is actually measured, and the mesh fence 1 for inclination is manufactured in advance in the factory according to this, and the fixed mesh fence 1 manufactured in this inclined shape is installed on the site. Must be transported and installed. For this reason, the manufacturing work becomes complicated, and the manufacturing work efficiency is lowered, and the cost is inevitably increased.

  The present invention has been devised in view of the technical problems of the conventional mesh fence, and an object thereof is to provide a mesh fence that is easy to manufacture and can be easily installed according to an inclined surface. .

  According to the first aspect of the present invention, in the mesh fence formed by superposing a plurality of vertical wires and horizontal wires in a lattice shape, through holes are continuously formed at intersections of the vertical wires and the horizontal wires. The connecting wire is inserted into the through hole, and the vertical wire and the horizontal wire are connected to each other so as to be rotatable with the connecting pin as a pivot point.

  According to the present invention, for a flat ground, it is possible to install the entire vertical wire and horizontal wire on the ground while maintaining the entire shape, for example, in a rectangular shape without rotational deformation. On the ground, each vertical wire and horizontal wire can be freely rotated and deformed into a substantially rhombus shape via a connecting pin in accordance with the slope angle of the inclined surface at the site.

  The invention according to claim 2 is characterized in that the connecting pin is formed by a rivet.

  According to this invention, since the connecting pins are formed by rivets, the vertical wires and the horizontal wires can be connected by caulking the rivets, so that the connecting operation is easy.

  The invention according to claim 3 is characterized in that the connecting pin is formed by a bolt having a nut screwed to the tip.

  The invention according to claim 4 is characterized in that a low friction material is interposed between the vertical wire and the horizontal wire through which the connecting pin is inserted.

  The invention according to claim 5 is characterized in that the low friction material is constituted by a washer.

  According to the first aspect of the present invention, for a flat ground, for example, a plurality of vertical wires and horizontal wires can be installed on the ground while maintaining the entire rectangular shape without rotating and deforming. Needless to say, on the inclined surface, each vertical wire and horizontal wire can be freely rotated and deformed into a substantially rhombus shape via a connecting pin in accordance with the gradient angle.

  As a result, it is possible to reliably prevent the occurrence of a gap between the mesh fence installed on the flat ground and the mesh fence installed on the inclined surface, and in particular, the length of the support fence span of the mesh fence in the field. Since it can be installed simply by adjusting, the installation work becomes extremely easy.

  Moreover, since the intersections of the vertical and horizontal wires are connected by the connecting pins, it is possible to sufficiently increase the rigidity of the entire mesh fence while ensuring free rotational deformation.

  In addition, since a connecting pin is provided at each intersection, for example, an intruder must cut each connecting pin around the intrusion port, and it takes a long time to cut easily. Cannot be done, and the crime prevention effect is improved.

  According to invention of Claim 2, since each vertical wire and a horizontal wire can be connected by crimping each rivet, the connection operation | work is easy.

  According to the invention described in claim 3, since the connecting pin is formed by a bolt, the vertical wire and the horizontal wire are connected to each other by screwing with the nut. It can also be assembled.

  According to the fourth aspect of the present invention, the frictional resistance of the rotation of the vertical wire and the horizontal wire is reduced by interposing the low friction material at the intersection of the vertical wire and the horizontal wire. Work becomes easy.

  According to the invention described in claim 5, since the low friction material is formed by the washer, when the both are connected by the connecting pin, it is only necessary to attach the washer to the connecting pin. Easy.

  Hereinafter, embodiments of a mesh fence according to the present invention will be described in detail with reference to the drawings.

  That is, as shown in FIGS. 2, 3 and 5, the mesh fence 11 is fixed to both sides of a plurality of vertical wires 12 and a plurality of horizontal wires 13 arranged crossing the vertical wires 12. The left and right struts 14 and 14 are formed in a lattice shape with the vertical wire 12 and the horizontal wire 13.

  Moreover, in this embodiment, while the width W between each support | pillar 14 and 14 is set to about 2000 mm, the up-and-down length H of the vertical wire 12 is set to about 800-1000 mm, and the whole is substantially rectangular shape. Is formed. Further, the length h between the horizontal wires 12 is set to about 125 mm, and the length w between the vertical wires 13 is set to about 40 mm.

  As shown in FIG. 1, the vertical wire 12 and the horizontal wire 13 are formed in a substantially circular shape in cross section, and each outer diameter is set to about 4.5 mm, for example, so that the rigidity becomes relatively high. In addition, pin holes 15 and 16 that are through-holes are continuously formed through the intersections, and rivets 17 that are connecting pins are inserted into the pin holes 16 and 17, and the rivets 17 are inserted. As a result, the entire vertical wire 12 and horizontal wire 13 are pivotally connected as shown in FIG.

  That is, the pin hole 15 of the vertical wire 12 and the pin hole 16 of the horizontal wire 13 have the same inner diameter of about 2.3 mm. On the other hand, each rivet 17 has a shaft portion 17b integrally formed on the lower surface of the head portion 17a. The pin holes 15 and 16 are inserted and arranged, and the outer diameter thereof is the inner diameter of each pin hole 15 and 16. It is set to be slightly smaller than that and is almost loosely fitted. In addition, the shaft portion 17b connects the vertical wire 12 and the horizontal wire 13 so as to be rotatable with each other by the tip portion 17c being crushed by caulking. Moreover, the both ends of each horizontal wire 13 are rotatably connected with respect to each support | pillar 14 and 14 with predetermined connection means, such as a volt | bolt, with respect to both said support | pillars 14 and 14, for example.

  Further, washers 18 are interposed in the shaft portions 17b between the vertical wire 12 and the horizontal wire 13, respectively. The washer 18 is formed of a metal material in an annular shape, and a low friction material such as Teflon (registered trademark) is formed on the surface thereof.

  Therefore, according to this embodiment, when the mesh fence 11 is installed on a flat ground, as shown by the solid lines in FIG. If installed, each vertical wire 12 and each horizontal wire 13 can be installed on the ground while the entire mesh fence 11 is maintained in a square shape without rotational deformation.

  Further, with respect to the inclined ground E as shown in FIG. 5, the height of each column 14, 14 is set according to the gradient angle θ of the inclined surface E as indicated by the one-dot chain line in FIG. 2. In other words, as shown in FIG. 5, each of the vertical wire 12 and the horizontal wire 13 can be freely rotated and deformed into a substantially rhombus shape via each rivet 17 to form an arbitrary inclined shape. Can be installed.

  As a result, it is possible to reliably prevent the gap between the mesh fence 11 installed on the flat ground and the mesh fence 11 installed on the inclined surface, and in particular, the length of the mesh fence 11 in the field. Since it can be installed simply by adjusting, the installation work becomes extremely easy.

  Moreover, since the intersections of the vertical wire 12 and the horizontal wire 13 are respectively connected by the rivets 17, it is possible to sufficiently increase the rigidity of the entire mesh fence 11 while ensuring large and free rotational deformation. It becomes possible.

  In addition, since rivets 17 are provided at the respective intersections, for example, an intruder must cut each rivet 17 around the entrance, and it takes a lot of time to cut the rivet 17 easily. Cannot be done, and the crime prevention effect is improved. That is, for example, by cutting only one or two small rivets 17, the connection at the intersection of the vertical wire 12 and the horizontal wire 13 is not released, and sufficient bonding rigidity is ensured. Is big.

  Furthermore, since the connecting pins are formed by the rivets 17, the vertical wires 12 and the horizontal wires 13 can be connected by caulking the rivets 17, and the connecting operation is easy.

  Further, in this embodiment, when each mesh fence 11 is transported or stored in a warehouse or the like, each vertical wire 12 and horizontal wire 13 is greatly increased via each rivet 17 as shown in FIG. By rotating, that is, the entire mesh fence 11 can be folded in a compact shape into a diamond shape. For this reason, the bulkiness of each mesh fence 11 is eliminated, and the mesh fences 11 can be stacked and transported or stored in a warehouse or the like.

  As a result, a large number of mesh fences 11 can be transported at one time, and the storage space in a warehouse or the like can be reduced, so that the storage amount per unit area can be increased.

  In addition, since the operation | work which expand | deploys each said mesh fence 11 folded compactly on the spot is also easy, installation work efficiency can be improved significantly.

  Furthermore, since the washer 18 is interposed at the intersection of the vertical wire 12 and the horizontal wire 13, the frictional resistance during the rotation of the vertical wire 12 and the horizontal wire 13 is reduced, and the rotational deformation work is facilitated. . Further, since the vertical wire 12 and the horizontal wire 13 can be connected in close contact by the washer 18, it is possible to prevent wind noise.

  When the vertical wire 12 and the horizontal wire 13 are connected by the rivet 17, it is only necessary to attach the washer 18 to the rivet 17, so that the attaching operation is easy.

  FIG. 7 shows a second embodiment of the present invention, in which a flat head rivet 17 is used as a connecting pin. That is, the outer end sides of the pin holes 15 and 16 are formed in concave grooves 15a and 16a having a substantially triangular cross section, and the head portion 17a of the rivet 17 is substantially triangular in cross section corresponding to the shape of one concave groove 16a. It is formed in a flat head portion 17a having a shape, and the tip portion 17c of the shaft portion 17b is caulked in a substantially triangular shape in cross section so as to match the shape of the other concave groove 15a.

  Therefore, according to this embodiment, when the tip portion 17c is crimped after the rivets 17 are inserted into the pin holes 15 and 16, the flat head portion 17a and the tip portion 17c are embedded in the concave grooves 15a and 16a. It is held in the state. For this reason, since it does not protrude from the outer surface of each vertical wire 12 or horizontal wire 13, the appearance quality can be improved and manual work during the installation work of each mesh fence 11 can be easily performed.

  FIG. 8 shows a third embodiment in which the connecting pin is constituted by a bolt 19 and a nut 20. That is, the shaft portion 19a of the bolt 19 is inserted into the pin holes 15 and 16 of the vertical wire rod 12 and the horizontal wire rod 13, and the nut 20 is screwed to the male screw formed at the tip portion 19b of the shaft portion 19a. Thus, the intersections of the vertical wire 12 and the horizontal wire 13 are rotatably connected. In addition, it is the same as that of each said embodiment that the washer 18 is provided in each said intersection part.

  Thus, since the connecting pin is constituted by the bolt 19 and the nut 20, the connecting operation can be performed relatively easily on site. Further, it is possible to prevent the nut 20 from coming out by inserting the split pin through the tip 19b of the bolt 19 from the direction perpendicular to the axis and bending the tip.

  FIG. 9 shows a fourth embodiment, in which the vertical wire 12 and the horizontal wire 13 are formed in a square shape instead of a circular cross section, and each is formed in a square shape. Further, the connecting pin is constituted by the rivet 17 similar to that in the first embodiment.

  According to this embodiment, since the contact area through the washer 18 at the intersection of each vertical wire 12 and horizontal wire 13 is larger than that of the circular shape, the coupling rigidity at each intersection is increased. The durability can be improved and the crime prevention effect is enhanced.

  FIG. 10 shows a fifth embodiment in which the cross sections of the vertical wire 12 and the horizontal wire 13 are formed in a hexagonal plane. A rivet 17 is used as a connecting pin.

  Therefore, this embodiment can obtain the same effects as those of the fourth embodiment.

  The present invention is not limited to the configuration of each of the embodiments described above, and other pin type structures can be used instead of the rivets 17 and bolts 19 as the connecting pins. In addition, the material of the said rivet 17 and the volt | bolt 19 can set arbitrarily the material strong in corrosion resistance, such as stainless steel, for example.

  Moreover, it is also possible to further change each cross-sectional shape of the vertical wire 12 and the horizontal wire 13, and these materials can also be formed of a high steel material in order to further increase the strength.

It is also possible to loosely fit the rivet 17 into one of the pin holes 15 and 16 on the head side and insert it into the other by press fitting. It may be formed of other materials such as hard nylon, or may be a low friction material paint.

  Furthermore, the support | pillar 14 can also be formed in the pole shape of a cross-section circular shape instead of a square material shape.

  Further, the outer shape of the mesh fence 11 is not limited to the rectangle and may be a square.

It is principal part sectional drawing of the intersection part of 1st Embodiment of the mesh fence which concerns on this invention. It is a front view of the mesh fence of this embodiment. It is a side view of the mesh fence of this embodiment. It is a principal part perspective view which shows the rotation state of the vertical wire provided to this embodiment, and a horizontal wire. It is a front view which shows the state which installed the some mesh fence of this embodiment in the inclined surface. It is a front view which shows the state which folded one mesh fence of this embodiment to the minimum. It is principal part sectional drawing of the intersection part in 2nd Embodiment. It is principal part sectional drawing of the intersection part in 3rd Embodiment. It is principal part sectional drawing of the intersection part in 4th Embodiment. It is principal part sectional drawing of the intersection in 5th Embodiment. It is a front view which shows the state which installed the conventional several mesh fence in the inclined surface.

Explanation of symbols

DESCRIPTION OF SYMBOLS 11 ... Mesh fence 12 ... Vertical wire 13 ... Horizontal wire 14 ... Support | pillar 15 ... Pin hole 16 ... Pin hole 17 ... Rivet (connection pin)
18 ... Washer (low friction material)
19 ... Bolt (connecting pin)
20 ... Nut

Claims (5)

In a mesh fence formed in a lattice shape by polymerizing a plurality of vertical wires and horizontal wires,
A through-hole is continuously formed at the intersection of the vertical wire and the horizontal wire, and a connecting pin is inserted into the through-hole so that the vertical wire and the horizontal wire can be rotated with each other using the connecting pin as a pivot point. A mesh fence characterized by being connected. The mesh fence according to claim 1, wherein the connecting pin is formed by a rivet. The mesh fence according to claim 1, wherein the connecting pin is formed by a bolt having a nut screwed to a tip. The mesh fence according to any one of claims 1 to 3, wherein a low friction material is interposed between the vertical wire and the horizontal wire through which the connecting pin is inserted. The mesh fence according to claim 4, wherein the low friction material is constituted by a washer.

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