WO2018168390A1 - Fixture - Google Patents

Abstract

Provided is a fixture with which even an inexperienced worker can reliably fix a plurality of lattices to each other in a short time. Both ends of a body 10 are bent toward each other to form first bent portions 21, 21; an end away from the body 10 of the first bent portion 21 rises toward a step portion 21s to form a rising portion (third bent portion) 23; and an end of the rising portion 23 is bent away from the body 10 to form a fourth bent portion 24. An end of the fourth bent portion 24 is bent into an arc shape to form an outer fitting portion (fifth bent portion) 25; and the distal end of the outer fitting portion 25 is bent to form a hook portion (sixth bent portion) 26 that fits and engages with a horizontal strip material or a vertical strip material constituting a grid of another welded mesh.

Description

Fixture

The present invention relates to a fixture for fixing a plurality of grid-like bodies formed by arranging vertical strips and horizontal strips in a grid shape, such as a welded wire mesh or a net-like fence embedded in concrete.

When placing concrete to construct a structure such as a floor of a building, in order to increase the strength of the structure and prevent cracks from occurring in the structure, a plurality of welded wire meshes are provided in the concrete. It is buried.

FIG. 27 is an explanatory view for explaining a conventional method for constructing a welded wire mesh, in which WM is a welded wire mesh. The welded wire mesh WM has a plurality of vertical strips W1, W1,... And horizontal strips W2, W2,... Arranged in a grid, and the vertical strips W1, W1,. The part where ... intersects is fixed to each other by welding.

A mold (not shown) is erected around the construction target area, and a plurality of welded metal meshes WM, WM,. At this time, adjacent edges of the welded wire meshes WM, WM are overlapped by a plurality of squares (one square in FIG. 27). Next, as shown in FIG. 27, spacers 30, 30,... Are interposed between the construction target surface and the welding wire mesh WM, WM,. Lift up to the specified dimensions. In order to prevent mutual misalignment from occurring in the overlapping portion of adjacent welded wire meshes WM, WM, for example, even when stepped on by a worker working on the welded wire mesh, The overlapping welded wire meshes WM and WM are bound to each other by the binding materials B, B,.

In this way, after the construction to the welded wire mesh WM, WM,... Is completed in the construction target area, the concrete is poured into the mold to a predetermined depth where the welded wire mesh WM, WM,. Level the surface.

However, such a bundling operation needs to be performed on all the areas where the welded wire meshes WM, WM,... Are overlapped with each other, and there are many bundling points in each area. When constructing a structure with a large area, multiple skilled workers are required, and even a skilled worker takes a long time to complete work on all the binding points. It was.

Therefore, Patent Document 1 to be described later proposes a connector that connects the ends of the strips constituting the adjacent weld metal meshes linearly without overlapping the weld metal meshes.

Japanese Patent Laid-Open No. 51-5818

However, when connecting adjacent weld metal meshes using such a connector, the ends of the strips constituting the adjacent weld metal meshes must be aligned linearly, and such alignment is performed. In addition to the time required for the work, there has been a problem that it takes a relatively long time to connect the ends of the strips with the connecting tool.

The present invention has been made in view of such circumstances, and provides a fixture that can reliably fix a plurality of grids to each other in a short time even by an unskilled worker.

(1) The fixture according to the present invention includes a plurality of vertical strips arranged in parallel to each other at appropriate intervals, and a plurality of horizontal stripes arranged in parallel to each other at appropriate intervals in a manner of intersecting with the respective vertical strips. At least two grid-like bodies having a material and a part of both grid-like bodies are arranged so as to overlap each other. The first engaging means that bends both ends of the spring strip material and engages the vertical strip material or the horizontal strip material of one grid-like body, and the vertical strip material or the horizontal strip material of the other grid-like body And a second engagement means that engages with the first lattice means and a second engagement means that engages with the other lattice body. Both grids are fixed to each other by force.

The fixing tool of the present invention is a fixing tool for fixing the two lattice-like bodies in the overlapped portion to each other with respect to at least two lattice-like bodies in which a part thereof is superposed on each other. Here, the lattice-shaped body is composed of a plurality of vertical strips arranged in parallel to each other at appropriate intervals, and a plurality of horizontal strips arranged in parallel to each other at appropriate intervals in a manner intersecting with each of the vertical strips. It is formed in a lattice shape, and includes a lattice-like body or a net-like fence.

The fixing device includes a first engaging means that bends both ends of the spring strip material and engages the vertical strip material or the horizontal strip material of one grid-like body, and the vertical strip material of the other grid-like body or Second engaging means for engaging with the horizontal member is provided. The fixing member has both spring members caused by spring force generated between the first engaging means engaged with one lattice-like member and the second engaging means engaged with the other lattice-like member. The grids are fixed to each other.

Here, the first engaging means is configured to be engaged with the vertical strip material of one lattice-shaped body, and the second engaging means is configured to be engaged with the vertical strip material or the horizontal strip material of the other lattice-shaped body. Alternatively, the first engaging means may be engaged with the horizontal member of one grid-like body, and the second engaging means may be engaged with the vertical or horizontal member of the other lattice-like body. It may be configured.

In this way, the present fixing tool engages the first engaging means with the vertical strip or horizontal strip of one grid-like body, and the second engaging means with the vertical strip of the other grid-like body or Since both grid-like bodies can be reliably fixed by engaging with the horizontal members, even an unskilled worker can perform the fixing work in a short time.

(2) The fixture according to the present invention includes a main body formed of a spring strip and bent portions obtained by bending both end portions of the main body, and the second engaging means is provided at both bent portions, Alternatively, the first engaging means and the second engaging means are provided, and the main body and the two bent portions apply the bending force to the main body, thereby allowing the main body to move vertically adjacent to one grid-like body. It is characterized in that it can be fitted between the strips or between the adjacent horizontal strips.

In the fixture of the present invention, both end portions of the spring strip are bent into respective bent portions, and the space between the two bent portions is the main body. Each of the bent portions is provided with the second engaging means, or the first engaging means and the second engaging means. The second engaging means provided in each of the bent portions respectively engage with the adjacent vertical strips or the adjacent horizontal strips of the other lattice-shaped body.

Here, in the former case, the main body is fitted between adjacent strips of one grid-like body, and in the latter case, the main body is adjacent to one grid-like body. It is adapted to be fitted between the horizontal strips. That is, the main body and both bent portions are fitted into the main body between adjacent vertical strips or adjacent horizontal strips by applying a bending force to the main body. It is configured to be able to be made. A tension force due to a spring force is generated in the main body fitted between the adjacent vertical strip members or between the adjacent horizontal strip members, and this tensile force is applied to both bent portions and is applied to one lattice. It is prevented that a shape body shifts | deviates to the direction parallel to the plane formed with each vertical strip material or each horizontal strip material which comprises the said grid | lattice-like body.

Further, the main body is fixed to one grid-like body by the above-described tension force, and the second engaging means of both bent portions communicating with the main body engages with the other grid-like body. Can be firmly fixed.

(3) The fixture according to the present invention is characterized in that the first engaging means is provided in the main body, and the second engaging means is provided in both bent portions.

In the fixture of the present invention, the first engagement means is provided in the main body, and the first engagement means engages with the vertical strip or the horizontal strip of one lattice-like body. Here, the first engaging means may be the entire main body or may be provided on a part of the main body. Further, the second engaging means are provided in both bent portions provided on both sides of the main body, and both the second engaging means are adjacent horizontal strips or adjacent vertical stripes of the other lattice-shaped body. Engage with the material.

Thus, the first engaging means and the second engaging means are in a torsional position, whereby both lattice-like bodies can be firmly fixed.

(4) The fixture according to the present invention is formed of a first bent portion that is connected to the main body and bent so as to face each other, and the main body and the first bent portions. A third bent portion bent in a direction intersecting the plane and a fifth bent portion bent so as to be twisted with the main body are provided, and the second bent portion communicates with the fifth bent portion. The engaging means is provided.

In the fixing device according to the present invention, each of the bent portions is provided with a first bent portion that communicates with the main body and is bent so as to face each other. A shaped structure is formed. Each of the bent portions is provided with a third bent portion that is bent in a direction intersecting with a plane formed by the structure, and is bent so as to be in a twisted position with respect to the main body. A fifth bent portion is provided. The second engaging means described above is provided so as to communicate with the fifth bent portion.

In such a fixture, the main body of the fixture, the first bent portion, the third bent portion, the fifth bent portion, and the second engagement provided at the required positions of the two superposed lattice-like bodies. Since both grids can be reliably fixed only by attaching the means, even an unskilled worker can perform the fixing work in a short time.

(5) In the fixture according to the present invention, the fifth bent portion is opposed to a vertical strip or a horizontal strip that engages the first engaging means of one grid-like body of the other grid-like body. The circumferential surface of the vertical strip or horizontal strip, which is shaped to follow the portion facing the vertical strip or horizontal strip that engages the first engaging means of one of the lattices, It is adapted to be externally fitted to a strip or a horizontal strip, and both the second engaging means are bent so that their end portions face each other.

In the fixture of the present invention, the fifth bent portion described above constitutes the other grid-like body, and the vertical strip material or the horizontal strip material that engages the first engaging means of the one grid-like body, It is a circumferential surface of the opposing vertical strip or horizontal strip, and is bent so as to follow the portion facing the vertical strip or horizontal strip that engages the first engaging means of one lattice-like body. , And is adapted to be externally fitted to the vertical strip or horizontal strip, whereby the other grid-like body is parallel to the plane formed by each vertical strip or each horizontal strip of the grid-like body. Is prevented from shifting in the correct direction.

(6) In the fixture according to the present invention, the fifth bent portion is the vertical strip or horizontal strip of the other lattice-shaped body, and the vertical strip or horizontal adjacent to the vertical strip or horizontal strip. It is shaped so as to be externally fitted to the strip material.

In the fixture of the present invention, the fifth bent portion described above constitutes the other grid-like body, and the vertical strip material or the horizontal strip material that engages the first engaging means of the one grid-like body, It is shaped so as to be externally fitted to the opposing vertical strip or horizontal strip and the vertical strip or horizontal strip adjacent to the vertical strip or horizontal strip. By the fifth bent portion, the vertical strip or horizontal strip constituting the other lattice-shaped body and the vertical strip or horizontal strip adjacent to the vertical strip or horizontal strip are fixed at a time. The other lattice-like body can be more firmly fixed.

(7) The fixture according to the present invention is characterized in that a convex portion is provided on the first engaging means of the main body.

In the fixture of the present invention, the first engaging means of the main body is provided with a convex portion. Here, the convex portion can be formed in an appropriate shape, and may have a mountain shape, a tongue shape, a square shape, a polygonal shape, or the like. Such a convex portion can act as a guide member when the first engaging means of the main body is engaged with the vertical strip or the horizontal strip of one grid-like body, and as described above, the main body can be operated as one side. In the case of fitting between adjacent vertical strips or adjacent horizontal strips of the grid-like body, this can be performed by applying a relatively small bending force to the main body.

(8) In the fixing device according to the present invention, both the bent portions communicate with the main body and bend so as to face each other, and communicate with the first bent portion and in a direction away from each other. Bent to the inside between the second bent portion, the third bent portion bent in a direction intersecting the plane formed by the main body and the first bent portions, and the third bent portion. A sixth bent portion, and the first engaging means includes a first corner portion of the main body and the first bent portion, and a second corner portion of the first bent portion and the second bent portion. The second engaging means includes the sixth bent portion.

In the fixing device according to the present invention, each of the bent portions is provided with a first bent portion that communicates with the main body and is bent so as to face each other. A shaped structure is formed. In addition, the bent portion is provided with a second bent portion that communicates with the first bent portion and is bent in a direction away from each other, and the second bent portion is opposite to the inside between the first bent portions. It is configured to be bent in the direction, that is, outside between both first bent portions. Following the second bent portion, the bent portion is provided with a third bent portion bent in a direction intersecting with the plane formed by the main body and both first bent portions, and further, both third bent portions. And a sixth bent portion bent inward between the portions.

The first engaging means described above includes a first corner portion of the main body and the first bent portion, and a second corner portion of the first bent portion and the second bent portion. The portion is brought into contact with the peripheral surface of the vertical strip or the horizontal strip of one grid-like body and is opposed to the other grid-like body, and the second corner portion is The first engaging portion is engaged with one grid-like body by contacting the peripheral surface of the horizontal strip or the vertical strip with a portion opposite to the portion facing the other grid-like body. . As a result, the first engaging means is fixed to one of the lattice members.

On the other hand, the second engaging means described above includes a sixth bent portion bent inward between the third bent portions, and the sixth bent portion is used as a vertical strip member of the other lattice-like body or The second engagement means is engaged with the other lattice-like body by externally engaging with the horizontal strip.

At this time, the above-described second bent portion, third bent portion, and sixth bent portion constitute a U-shaped structure, and as described above, the second engaging means is engaged with the other lattice-like body. In this case, the other lattice-like body and the one lattice-like body to which the first engaging means is fixed are alternately fixed by the U-shaped structure.

On the other hand, by attaching the first bent portion, the second bent portion, the third bent portion, and the sixth bent portion of the fixture to the required positions of the two superposed lattice-like bodies, the two lattice-like bodies can be securely attached. Since it can be fixed, even an unskilled worker can perform the fixing work in a short time.

(9) The fixture according to the present invention is characterized in that the sixth bent portion is bent toward the main body side from a plane parallel to the plane.

In the fixture of the present invention, the sixth bent portion constituting the second engaging means is bent toward the main body side from a plane parallel to the plane formed by the main body and both first bent portions. The sixth bent portion is externally engaged with the vertical strip or horizontal strip of the other lattice-shaped body, and when a force for extracting from the second engaging means is applied to the vertical strip or horizontal strip. While the spring force of the third bent portion and the sixth bent portion acts, as described above, the sixth bent portion is bent toward the main body side from the plane parallel to the plane formed by the main body and both first bent portions. Therefore, the tip of the fourth bent portion moves forward in the inner direction between the third bent portions by sliding on the circumferential surface of the vertical or horizontal strip member to which the sixth bent portion is externally fitted. Thus, the vertical strip or horizontal strip is held deeper into the corners of the third bent portion and the sixth bent portion. As a result, the engagement between the second engagement means and the other lattice-shaped body is further strengthened, so that the other lattice-shaped body is prevented from being extracted from the second engagement means.

It is a perspective view which shows an example of the fixing tool concerning this invention. It is explanatory drawing explaining the usage condition of the fixing tool shown in FIG. It is a fragmentary top view of the part fixed with the fixture of the welding wire mesh shown in FIG. It is a partial side view of the part fixed with the fixing tool of the welding wire mesh shown in FIG. It is explanatory drawing explaining the state which inserts the main body of a fixing tool in one welding wire mesh of the welding wire mesh made to mutually overlap. It is explanatory drawing explaining the method of superimposing a part of two welding metal meshes mutually, and fixing the superimposition part with a fixing tool by planar view. It is explanatory drawing explaining the method of superimposing a part of two welding metal meshes mutually, and fixing the superimposition part with a fixing tool by planar view. It is explanatory drawing explaining the method of superimposing a part of two welding metal meshes mutually, and fixing the superimposition part with a fixing tool by planar view. It is explanatory drawing explaining the method of superimposing a part of two welding metal meshes mutually, and fixing the superimposition part with a fixing tool by planar view. It is a perspective view which shows the fixing tool which concerns on the 2nd form for implementing this invention. It is a fragmentary perspective view which shows the state which fixed the overlapped weld metal mesh using the fixing tool shown in FIG. It is a top view which shows the fixing tool which concerns on the 3rd form for implementing this invention. It is a perspective view which shows the fixing tool which concerns on the 3rd form for implementing this invention. It is a fragmentary perspective view which shows the state which fixed the two overlapped weld metal mesh using the fixing tool shown in FIG. FIG. 15 is a partial plan view of the fixture shown in FIG. 14 and both welded wire meshes. It is a front view of the fixing tool shown in FIG. 14, and both welded wire meshes. It is explanatory drawing explaining the method of superimposing a part of two welding metal meshes mutually, and fixing the superimposition part with a fixing tool by planar view. It is explanatory drawing explaining the method of superimposing a part of two welding metal meshes mutually, and fixing the superimposition part with a fixing tool by planar view. It is explanatory drawing explaining the method of superimposing a part of two welding metal meshes mutually, and fixing the superimposition part with a fixing tool by planar view. It is explanatory drawing explaining the method of superimposing a part of two welding metal meshes mutually, and fixing the superimposition part with a fixing tool by planar view. It is a top view which shows the fixing tool which concerns on the 4th form for implementing this invention. It is a perspective view which shows the fixing tool which concerns on the 4th form for implementing this invention. FIG. 23 is a partial perspective view showing a state in which two superposed welded wire meshes are fixed using the fixture shown in FIG. 22. FIG. 24 is a partial plan view of the fixture and both welded wire meshes shown in FIG. 23. It is a front view of the fixture shown in FIG. It is explanatory drawing explaining the state of the 6th bending part when the force which detach | leaves from a welded wire mesh is applied to the fixing tool shown in FIG. It is explanatory drawing explaining the construction method of the conventional welded wire mesh.

The fixture according to the present invention will be described in detail with reference to the drawings. Note that the fixture described in the present embodiment is an example for explaining the gist of the present invention, and it goes without saying that the present invention includes modifications and alterations without departing from the gist.

(First embodiment for carrying out the invention)
FIG. 1 is a perspective view showing an example of a fixture according to the present invention, which is adapted to fix a welded wire mesh as a grid-like body.

The whole fixing tool 1 is composed of a spring strip. The fixture 1 includes a linearly divided main body 10, and the length of the main body 10 is a grid of meshes constituting a welded wire mesh in which a plurality of vertical strips and horizontal strips are arranged in a grid pattern. The length is slightly shorter than the length of the portion of the material or the portion of the horizontal member constituting the cell. That is, in the case where the main body 10 is attached to the portion of the vertical strip that constitutes the grid of the welded wire mesh, the length of the main body 10 is slightly shorter than the length of the vertical strip. In the case where the main body 10 is attached to the portion of the horizontal strip constituting the grid of the welded wire mesh, the length of the main body 10 is larger than the length of the portion of the horizontal strip. The dimensions are slightly shorter.

A convex portion 10 t formed by forming a spring strip into a mountain shape is provided at a midway position in the longitudinal direction of the main body 10. The convex portion 10t can be formed in an appropriate shape, and may have a tongue shape, a square shape, a polygonal shape, or the like other than the mountain shape as shown in FIG. 1 shows the case where the main body 10 is provided with the convex portion 10t, the present invention is not limited to this, and the main body 10 may not be provided with the convex portion 10t.

Both end portions of the main body 10 are bent so as to face each other to form first bent portions 21, 21, and a plane f is formed by both the first bent portions 21, 21 and the main body 10. The dimension between the first bent portions 21 and 21 is gradually increased as the distance from the main body 10 increases. When a pressure is applied to both the first bent portions 21 and 21 from the outside to deform the main body 10 made of the spring material into an arc shape, a restoring force is generated in the main body 10 to return to the original posture. As described above, since the dimension between the first bent portions 21 and 21 is gradually increased as the distance from the main body 10 increases, the return to the end portion of the first bent portions 21 and 21 that are separated from the main body 10 is performed. The power can be concentrated. The end portions of the first bent portions 21 and 21 that are separated from the main body 10 are contact portions that contact the portion of the vertical strip or the portion of the horizontal strip that is located outside the mesh of the above-described welded wire mesh. ing.

On the other hand, the first bent portion 21 is formed with a stepped portion 21s that is convex in the substantially vertical direction of the plane f at a midway position, and a vertical strip that forms a welded wire mesh at the stepped portion 21s of the first bent portion 21. It is possible to carry a material or a horizontal strip. The end portion of the first bent portion 21 that is separated from the main body 10 is an upright portion (third bent portion) 23 that rises in the direction of the stepped portion 21 s in the substantially vertical direction of the plane f, and the upright portion 23. These end portions are in a posture substantially parallel to the main body 10, and are bent in a direction away from the main body 10 to form the fourth bent portion 24. The height of the upright portion 23 is determined according to the number of welded wire meshes to be superimposed and the outer diameters of the vertical and horizontal strips constituting the welded wire mesh.

The end of the fourth bent portion 24 is bent in an arc shape, and is an outer fitting portion that is externally fitted to the outer vertical strip portion or the horizontal strip portion constituting the other mesh of the other welded wire mesh. (Fifth bent portion) 25 is formed. The bottom portion of the outer fitting portion 25 is slightly lower than the height of the fourth bent portion 24, so that the outer fitting portion 25 follows the outer peripheral surface of the vertical strip portion or the horizontal strip portion. Fit outside so as to dive. And the front-end | tip part of the external fitting part 25 is curving, and the hook part (6th bending part) which carries out external fitting engagement to the part of the horizontal strip material which comprises the grid of said other welding wire mesh, or the part of a vertical strip material 26. The bent portion 20 is constituted by the first bent portion 21, the upright portion 23, the fourth bent portion 24, the outer fitting portion 25, and the hook portion 26.

FIG. 2 is an explanatory diagram for explaining a usage state of the fixture 1 shown in FIG. 1, and shows a case where two welded wire meshes WM and WM are fixed. FIGS. 3 and 4 are a partial plan view and a partial side view of the portion fixed by the fixture 1 of the welded wire mesh WM shown in FIG. 2 to 4, the same reference numerals are given to the portions corresponding to the portions shown in FIG.

As shown in FIG. 2, the welded wire mesh WM is formed by arranging a plurality of vertical strips W1, W1,... And horizontal strips W2, W2,. The portions where the materials W1, W1,... And the horizontal strips W2, W2,... Are fixed to each other by welding. A plurality of meshes M, M,... Surrounded by the vertical strips W1, W1,. In FIG. 2, only a part including one grid M, M is shown in both the welded wire meshes WM, WM.

As shown in FIG. 2, the two welded wire meshes WM and WM are overlapped so that the meshes M and M coincide with each other. In the case shown in FIG. 2, the fixing device 1 is a portion of the longitudinal strip W1 that constitutes the mesh M of one welding wire WM, and is opposite to the other welding wire WM. It is inserted from the outer side of the mesh M to the inner side so as to abut on the peripheral surface of the side, and the aforementioned abutting portions of the first bent portions 21 and 21 are the outer side of the mesh M, and the longitudinal strip W1 Are in contact with the portions of the horizontal strips W2, W2 orthogonal to the portion.

As described above, the length dimension of the main body 10 is slightly shorter than the length dimension of the portion of the vertical strip W1, but the dimension between the first bent portions 21, 21 is from the main body 10. When the main body 10 is inserted from the outer side of the mesh M to the inner side so as to abut on the portion of the vertical strip material W1 as described above, the outer side of the first bent portions 21 and 21 is increased. The main body 10 made of a spring strip is deformed into an arc shape by applying a pressure from the main strip 10 and the second strip 10 between the horizontal strips W2 and W2 perpendicular to the vertical strip W1. The bent portions 21 and 21 are fitted in, and the pressing is removed. At this time, since the convex part 10t is provided in the main body 10, the deformation | transformation of the main body 10 can be performed comparatively easily.

When the pressing force is removed after the main body 10 is deformed, a spring force is generated in the main body 10 to return to the original posture. However, as described above, the dimension between the first bent portions 21 and 21 is separated from the main body 10. As the width gradually increases, the spring force concentrates on both abutting portions, and as shown in FIG. 4, the abutting portions of the first bent portions 21 and 21 are formed by the horizontal strips W2 and W2. Strongly pressed against the part. Therefore, the main body 10 is fixed thereto in a state where it is stretched between the above-mentioned portions of the horizontal strips W2, W2.

Since the first bent portions 21 and 21 have step portions 21s and 21s as described above, the main body 10 is inserted into the vertical strip W1 as shown in FIGS. In this case, the portion of the vertical strip W1 is held in the step portions 21s and 21s of the first bent portions 21 and 21. At this time, the convex portion 10t provided on the main body 10 slides on the peripheral surface of the portion of the vertical strip material W1, and the convex portion 10t thereby causes the main body 10 to move to the portion of the vertical strip member W1. It also functions as a guide when plugged into.

On the other hand, since the bottom portion of the outer fitting portion 25 is slightly lower than the height of the fourth bent portion 24 as described above, as shown in FIGS. The other welded wire mesh WM superimposed on the welded wire mesh WM, which is the portion of the longitudinal strip W1 opposite to the portion of the longitudinal strip W1 of the one welded mesh WM, and the portions on both outer sides of the mesh M Is externally fitted so as to wrap around from the side facing the one welded wire mesh WM. As a result, the outer fitting portions 25, 25 surround the two corners of the mesh M of the other welded wire mesh WM, and fix both corners.

As shown in FIGS. 2 and 3, the hook portions 26, 26 are externally engaged with the outer peripheral surfaces of the portions of the horizontal strips W2, W2 constituting the grid M of the other welded wire mesh WM, As a result, the fixture 1 is fixed to both the welded wire meshes WM, WM.

In such a fixture 1, one outer fitting portion 25 surrounds one corner of the mesh M of the other welding wire mesh WM as described above, and both the first bent portions 21, 21. The main body 10 made of a spring strip is deformed into an arc shape by applying a pressure to the main body 10 between the horizontal strips W2 and W2 perpendicular to the vertical strip W1. And after fitting both the 1st bending parts 21 and 21, the other outer fitting part 25 surrounds the other corner | angular part of the mesh M of the other welding wire mesh WM, and the said press is removed. Then, as described above, the main body 10 is inserted into the portion of the vertical strip W1 of one welded wire mesh WM, and both hook portions 26 and 26 form the horizontal strip W2 constituting the grid M of the other welded wire mesh WM. , W2 are engaged with the outer peripheral surface.

FIG. 5 is an explanatory view illustrating a state in which the main body 10 of the fixture 1 is inserted into one of the welded wire meshes WM and WM that are overlapped with each other. In the figure, parts corresponding to those shown in FIGS. 1 to 4 are given the same reference numerals and explanation thereof is omitted.

As described above, both the outer fitting portions 25, 25 of the fixture 1 surround the two corners constituting the mesh M of the other welded wire mesh WM, and the main body 10 of the fixture 1 and both first bent portions. The portions 21 and 21 are internally fitted between the portions of the horizontal strips W2 and W2 orthogonal to the portion of the vertical strip W1 constituting the grid M of one welded wire mesh WM (FIG. 5 (a)). . At this time, the convex portion 10t of the main body 10 is in contact with the vertical strip W1 of one welded wire mesh WM.

Then, for example, by applying a pressing force to the compatible upper portions 23, 23 of the fixture 1, the main body 10 is inserted into the portion of the vertical strip W1 of one welded wire mesh WM (FIG. 5B). At this time, the portion of the vertical strip W1 is fitted and fixed to the stepped portion 21s (21s) of the first bent portion 21 (21). On the other hand, the convex part 10t of the main body 10 acts as a guide member.

Thus, after attaching both the external fitting parts 25 and 25 and both the 1st bending parts 21 and 21 of the fixing tool 1 to the required position of the two welded wire meshes WM and WM superimposed, Both welded wire meshes WM and WM can be fixed with one touch.

Next, a method for fixing a plurality of welded wire meshes using the fixture according to the present invention will be described.
6, 7, 8, and 9 are explanatory diagrams for explaining a method in which a part of two welded wire meshes are overlapped with each other and the overlapped part is fixed with a fixture in plan view. 7 and 7 show the case where the long side portion of the rectangular welded wire mesh is superimposed, and FIGS. 8 and 9 show the case where the short side portion of the rectangular welded wire mesh is overlapped. In these drawings, parts corresponding to those shown in FIGS. 1 to 5 are denoted by the same reference numerals.

As shown in FIG. 6, rectangular welded wire meshes WM, WM are connected to the longitudinal strips W1, W1,..., W1, W1,. , W2,... So that a plurality of cells M, M,..., M, M,. To place. Then, as shown in FIG. 7, among the superimposed cells M, M,..., M, M,..., An appropriate plural (three in FIG. 7) cells M, M, M , M, M, M paired fixtures 1, 1, 1, 1, 1, 1 are arranged opposite to each other, and each fixture 1, 1, 1, 1, 1, 1 is attached as described above. Thus, the overlapping portions of the two welded wire meshes WM, WM and the fixtures 1, 1, 1, 1, 1, 1 are mutually coupled to fix the welded wire meshes WM, WM.

On the other hand, as shown in FIG. 8, a plurality of meshes M, M,..., M, M,. That is, it arrange | positions so that the short side part of both the metal meshes WM and WM may mutually overlap. Then, as shown in FIG. 9, among the superimposed cells M, M,..., M, M,..., An appropriate plurality (two in FIG. 9) of cells M, M, M , M, and the fixtures 1, 1, 1, 1 which are paired with each other, and the fixtures 1, 1, 1, 1 are attached as described above, so that the overlapping portions of the two welded wire meshes WM, WM The respective fixtures 1, 1, 1, 1 are coupled to each other to fix the two welded wire meshes WM, WM.

At this time, as described above, the required positions of the two welded wire meshes WM and WM in which the outer fitting portions 25 and 25 and the first bent portions 21 and 21 (both see FIG. 2) of the fixture 1 are overlapped. After being attached to, both the welded wire meshes WM, WM can be fixed with a single touch with the fixing tool 1, so that even an unskilled worker can reliably perform the fixing work in a short time.

By the way, as shown in FIG. 2, two corners of the mesh M of the other welded wire mesh WM are surrounded by the outer fitting portions 25, 25 of one of the fixing tools 1 that make a pair. One abutting portion of the first bent portions 21, 21 abuts on a portion of one of the horizontal strips W 2, W 2 outside the mesh M of the one welded wire mesh WM. Similarly, the other two corners of the mesh M of the other welded wire mesh WM are surrounded by the outer fitting portions 25 of the other fixing tool 1 that make a pair, and the first bending of the fixing tool 1 is also performed. The abutting portions of the portions 21 and 21 abut on the other horizontal strips W2 and W2 outside the grid M of the one welded wire mesh WM. In this way, the surroundings of the mesh M of the two overlapped welded wire meshes WM and WM are fixed in four directions by the pair of fixing tools 1 and 1, respectively, so that both welded wire meshes WM and WM are connected to the vertical strips. It is prevented that it shifts | deviates to the direction which makes parallel to the plane formed with material W1, W1, ... or each horizontal strip material W2, W2, ....

On the other hand, as shown in FIG. 2, in the present fixture 1, the hook portion 26 of the fixture 1 engaged with the horizontal strip W2 of the other welded wire mesh WM and the vertical length of the one welded wire mesh WM. Both welded wire meshes WM, WM are sandwiched between the main body 10 externally fitted to the strip material W1, and in addition, the fixture 1 is entirely composed of a spring strip material. WM and WM can be firmly fixed. Further, in the fixture 1 to which both the welding wire meshes WM are fixed, the outer fitting portions 25 of the fixture 1 surround the two corners of the mesh M of the other welding wire mesh WM. Therefore, it is possible to prevent the two welded wire meshes WM and WM from being extracted from the fixture 1.

In the present embodiment, the fixtures 1 and 1 that are paired with one mesh M of the welded wire mesh WM are disposed. However, the present invention is not limited to this, and a plurality of meshes of the welded mesh WM are arranged. One fixing tool 1 may be provided for each of M, M,.

Moreover, the main body 10 of the fixture 1 may be externally fitted to the portion of the vertical strip W1 that forms the grid M of the welded wire mesh WM as described above, or the horizontal strip W2 that configures the grid M. Needless to say, it may be externally fitted to the portion.

(Second embodiment for carrying out the invention)
FIG. 10 is a perspective view showing a fixture according to a second embodiment for carrying out the present invention, and a position at which the hook portions 26 and 26 of the fixture 1 shown in FIG. 1 are engaged with the welding wire mesh WM. It is designed to engage at different positions. FIG. 11 is a partial perspective view showing a state in which the overlapped weld metal meshes WM and WM are fixed using the fixture 1a shown in FIG. In both figures, parts corresponding to those shown in FIGS. 1 to 4 are designated by corresponding numbers, and description thereof is omitted.

As shown in FIGS. 10 and 11, in the present fixture 1a, both outer fitting portions 25a, 25a communicating with the fourth bent portions 24a, 24a are positioned at the height of the fourth bent portions 24a, 24a. After bending the first bent portions 21a and 21a to a position slightly lower than the height of the fourth bent portions 24a and 24a to a position on the first bent portions 21a and 21a side, the mesh M The ends of both outer fitting portions 25a, 25a are bent inward by approximately 90 ° from each other, and the outer side of the mesh M is laterally extended. The hooks 26a and 26a are curved so as to be fitted and engaged with the portions of the strips W2 and W2, respectively.

In such a fixing tool 1a, the main body 10a of the fixing tool 1a is disposed opposite to the portion of the longitudinal strip W1 constituting the grid M of one welded wire mesh WM, and one of the fixing tools 1a is disposed. The outer fitting portion 25a is fitted on both the vertical strips W1 and W1 constituting the mesh M of the other welded wire mesh WM, and the two corners of the mesh M are surrounded. Next, pressure is applied from the outside to both first bent portions 21a and 21a of the fixture 1a to deform the main body 1a formed of a spring strip into an arc shape, thereby orthogonal to the portion of the vertical strip W1. After the main body 1a and the first bent portions 21a and 21a are fitted between the horizontal strips W2 and W2, the mesh M of the other welded wire mesh WM is overlapped with the other outer fitting portion 25a. While making it fit in both the vertical strips W1 and W1 which comprise, it surrounds the other two corner | angular parts of the said mesh M, and removes the said press. Then, the main body 10a is inserted into the portion of the vertical strip W1 of one welding wire mesh WM, and both hook portions 26a, 26a are portions of the horizontal strip materials W2, W2 outside the mesh M of the other welding wire mesh WM. Both welded wire meshes WM and WM are fixed by engaging with the outer peripheral surface of the wire.

Thus, this fixing tool 1a has four corners constituting the mesh M of the other welded wire mesh WM overlapped by the fourth bent portions 24a, 24a, the outer fitting portions 25a, 25a and the hook portions 26a, 26a. In order to surround all the parts, the other welded wire mesh WM is parallel to the plane formed by each of the vertical strip members W1, W1,... Or each of the horizontal strip members W2, W2,. It is prevented from slipping. Moreover, since the other welded wire mesh WM can be firmly fixed, the fixing strength of one welded wire mesh WM is also relatively improved.

In addition, the main body 10a of the fixture 1a may be externally fitted to the portion of the vertical strip W1 that forms the grid M of the welded wire mesh WM as described above, or the horizontal strip W2 that configures the grid M. You may make it fit outside. In the latter case, the hook portions 26a, 26a engage with the outer peripheral surfaces of the portions of the vertical strips W1, W1 outside the mesh M.

(Third embodiment for carrying out the invention)
FIG.12 and FIG.13 is the top view and perspective view which show the fixing tool which concerns on the 3rd form for implementing this invention, The engagement mode with the welding wire mesh is varied. FIG. 14 is a partial perspective view showing a state in which two superposed welded wire meshes WM and WM are fixed using the fixture 1b shown in FIG. 13, and FIGS. It is the fragmentary top view and front view of the fixing tool 1b and both welded wire meshes WM and WM shown in FIG. In these drawings, parts corresponding to those shown in FIGS. 1 and 2 are given corresponding numbers.

In addition, in this Embodiment, although it has shown about the case where this fixing tool 1b is fixed to the part of the horizontal strip materials W2 and W2 which comprise the meshes M and M of the welding wire mesh WM, WM, the welding wire mesh WM, Needless to say, this fixing tool 1b may be fixed to the portions of the vertical strips W1, W1 constituting the meshes M, M of the WM.

As shown in FIG. 12 to FIG. 16, the whole fixture 1b is composed of a spring strip. The fixture 1b is provided with a main body 10b having an arc shape or a straight line shape (in the shape of an arc in FIG. 12), and the dimension between both ends of the main body 10b is a grid of a plurality of vertical strips and horizontal strips. It is made into the dimension a little longer than the length dimension of the part of the vertical strip member which comprises the weld metal mesh arrange | positioned in this, or the part of the horizontal strip member which comprises the said mesh. That is, when the main body 10b is attached to the portion of the vertical strip W1 constituting the grid M of the welded wire mesh WM, the length of the main body 10b is slightly smaller than the length of the vertical strip W1. When the main body 10b is attached to the portion of the horizontal strip W2 constituting the grid M of the welded wire mesh WM, the length of the main body 10b is the length of the horizontal strip W2. The length is slightly longer than the length.

Both end portions of the main body 10b are bent so as to face each other to form first bent portions 21b, 21b, and a U-shaped plane fb is formed by the first bent portions 21b, 21b and the main body 10b. It has become. Further, as shown in FIG. 14, the first corner portions T1 and T1 formed by the main body 10b and the first bent portions 21b and 21b are respectively one of the superposed weld metal meshes WM and WM. It is configured to come into contact with the portions of the strips W1 and W1 constituting the grid M of the WM.

The dimension between the first bent portions 21b and 21b is gradually narrowed as the distance from the main body 10b increases, and the end portions of the first bent portions 21b and 21b that are separated from the main body 10b are bent in a direction away from each other. The second bent portions 22b and 22b are formed. The second bent portions 22b and 22b are both inclined with respect to the plane fb by a required angle, and are formed by the second bent portions 22b and 22b and the corresponding first bent portions 21b and 21b. As shown in FIG. 14, each of T2 and T2 comes into contact with the portion of the horizontal strip W2 constituting the grid M of one of the superposed welded wire meshes WM and WM. Yes. The angle of the second corner portion T2 is smaller than 90 °. These first corner portions T1 and T1 and the corresponding second corner portions T2 and T2 constitute a first engaging means.

End portions of the second bent portions 22b and 22b that are separated from the first bent portions 21b and 21b fall from the plane fb to the side where the second bent portions 22b and 22b are inclined (third bent portion). 23b, 23b. The dimension between the compatible lower portions 23b and 23b is slightly increased as the distance from the second bent portions 22b and 22b increases, and the height of the standing portions 23b and 23b is as shown in FIG. The dimension is slightly shorter than the total dimension of the diameter of the horizontal strip W2 of one welded wire mesh WM and the diameter of the vertical strip W1 of the other welded wire mesh WM.

The ends of the compatible lower portions 23b, 23b that are separated from the second bent portions 22b, 22b are bent inwardly between the compatible lower portions 23b, 23b to form sixth bent portions 26b, 26b. As shown in FIG. 14, each of 26b and 26b is a member that is externally engaged with the portion of the vertical strip W1 that constitutes the mesh M of the other welded wire mesh WM of the superimposed welded wire meshes WM and WM. It is made into a joint. The tip of the sixth bent portion 26b is bent on the opposite side of the main body 10b from the plane parallel to the plane fb, and is bent outwardly between the standing portions 23b and 23b, whereby the sixth bent portion 26b is bent. It is easy to engage with the other welding wire mesh WM. The upright portions 23b and 23b and the sixth bent portions 26b and 26b constitute second engaging means. Further, the bent portion 20b is constituted by the first bent portion 21b, the second bent portion 22b, the standing portion 23b, and the sixth bent portion 26b.

In such a fixture, as shown in FIGS. 12 and 15, the main body 10b made of the spring strip material is further curved by applying a pressing force to the first bent portions 21b and 21b from the outside. In this state, as shown in FIGS. 14 and 15, the main body 10b is positioned inside the mesh M of the one welded wire mesh WM, and both the first bent portions 21b and 21b are placed on the one side. The welded wire mesh WM is fitted between the portions of the longitudinal strips W1, W1 constituting the grid M.

At this time, as described above, since the second bent portions 22b and 22b are bent in a direction away from each other, as shown in FIGS. 14 and 15, the meshes M of one welded wire mesh WM are formed. A corner C formed by a portion of the horizontal strip W2 outside the grid M and a portion of the vertical strip W1 beyond the portion of the horizontal strip W2 and the vertical strip W1, W1. Stretched to C. Accordingly, the upright portions 23b and 23b are at both corners C and C, and the sixth bent portions 26b and 26b are formed at the portions of the vertical strips W1 and W1 outside the mesh M of the other welded wire mesh WM. Located opposite to each other.

Then, the pressing force applied to the first bent portions 21b and 21b is removed, and as shown in FIGS. 14 and 15, the first corner portions T1 and T1 are overlapped with the mesh M of the one welded wire mesh WM. Is a peripheral surface of the portion of the vertical strips W1 and W1 that constitutes a portion, and is in contact with a portion facing the other welded wire mesh WM, and the second corner portions T2 and T2 are made to contact the other welded wire mesh WM. It is made to contact | abut on the peripheral surface of the part of the horizontal strip W2 which comprises the mesh M, and the part which differs in a 180 degree position from the part which opposes the other welding wire mesh WM. And as shown in FIG.14 and FIG.16, both the 6th bending parts 26b and 26b are externally engaged by the part of the said vertical strip materials W1 and W1.

As described above, the main body 10b is further bent by applying a pressing force to the first bent portions 21b and 21b from the outside, and in this state, the main body 10b is placed inside the mesh M of the one welded wire mesh WM. When the pressing force is removed, the first bent portions 21b and 21b are positioned and fitted between the portions of the longitudinal strips W1 and W1 constituting the grid M of the one welded wire mesh WM. The second bent portions 22b and 22b are the intersections of the vertical strips W1 and W1 and the horizontal strips W2 and W2 constituting the grid M of the one welded wire mesh WM in an attempt to return the main body 10b to the original state. The main body 10b abuts on the welded portion and is fixed to the main body 10b in a stretched state.

At this time, 1st corner | angular part T1, T1 is a surrounding surface of the part of the vertical strip W1, W1 which comprises the grid M of one welding wire mesh WM to overlap, and is the part which opposes the other welding wire mesh WM The second corners T2 and T2 are circumferential surfaces of the portion of the horizontal strip W2 constituting the grid M of the one welding wire mesh WM, and are opposed to the other welding wire mesh WM. The first corner portions T1 and T1 and the second corner portions T2 and T2 are also fixed to the portion of the mesh M of the one welded wire mesh WM. .

As described above, in the case shown in FIG. 14, the height dimension of the standing portions 23b and 23b is equal to the diameter of the horizontal strip W2 of one welding wire WM and the vertical strip W1 of the other welding wire WM. Therefore, when the sixth bent portions 26b and 26b are externally engaged with the vertical strips W1 and W1, the second bent portions 22b and 22b are formed. However, since the second bent portions 22b and 22b are also made of spring strips, a spring force is generated to restore the bending to the sixth bent portions 26b. , 26b and the sixth bent portions 26b, 26b are engaged with each other, and the portions of the longitudinal strips W1, W1 outside the mesh M of the other welded wire mesh WM are firmly drawn, whereby one welded wire mesh WM and the other. The welding wire mesh WM is fixed.

17 and 18 and FIGS. 19 and 20 are explanatory views for explaining a method in which a part of two welded wire meshes are overlapped with each other and the overlapped part is fixed with a fixture in plan view. 18 and 18 show the case where the long side portion of the rectangular welded wire mesh is overlapped, and FIGS. 19 and 20 show the case where the short side portion of the rectangular welded wire mesh is overlapped. In these drawings, parts corresponding to those shown in FIGS. 6 to 9 are designated by the same reference numerals and description thereof is omitted.

As shown in FIG. 17, rectangular welded wire meshes WM, WM are connected to the longitudinal strips W1, W1,..., W1, W1,. , W2,... So that a plurality of cells M, M,..., M, M,. To place. Then, as shown in FIG. 18, among the superimposed cells M, M,..., M, M,..., An appropriate plurality (three in FIG. 18) cells M, M, M , M, M, M, and a pair of fixtures 1b, 1b, 1b, 1b, 1b, 1b are arranged opposite to each other, and the fixtures 1b, 1b, 1b, 1b, 1b, 1b are attached as described above. As a result, the overlapping portions of the two welded wire meshes WM, WM and the fixtures 1b, 1b, 1b, 1b, 1b, 1b are mutually coupled to fix the welded wire meshes WM, WM.

On the other hand, as shown in FIG. 19, a plurality of meshes M, M,..., M, M,. That is, it arrange | positions so that the short side part of both the metal meshes WM and WM may mutually overlap. Then, as shown in FIG. 20, among the superimposed cells M, M,..., M, M,..., An appropriate plurality (four in FIG. 20) of cells M, M, M , M, M, M, M, and M, one fixing tool 1b, 1b, 1b, 1b is attached as described above, so that the overlapping portions of the two welded wire meshes WM, WM and each fixing tool 1b, 1b, 1b are attached. 1b is coupled to each other to fix the two welded wire meshes WM, WM.

At this time, the first bent portions 21b and 21b, the second bent portions 22b and 22b, the standing portions 23b and 23b, and the sixth bent portion 26b of the fixture 1b are provided at required positions of the two welded wire meshes WM and WM. , 26b can be securely fixed by simply attaching them as described above, so that even an unskilled worker can perform the fixing work in a short time.

By the way, as shown in FIG. 20, the two corners of the mesh M of the welding wire mesh WM, WM are fixed by one fixing tool 1b, and the welding wire meshes WM, WM are fixed by the other fixing tool 1b. In order to fix the other two corners of the other mesh M, both the welded wire meshes WM, WM are formed by the vertical strip members W1, W1,... Or the horizontal strip members W2, W2,. A shift in the parallel direction is prevented.

Further, as described above, the main body 10b of the fixture 1b may be externally fitted to the portion of the vertical strip material W1 constituting the mesh M of the welded wire mesh WM, or the horizontal strip material W2 constituting the mesh M. Needless to say, it may be externally fitted to the portion.

(Fourth embodiment for carrying out the invention)
FIGS. 21 and 22 are a plan view and a perspective view showing a fixture according to a fourth embodiment for carrying out the present invention, in which the shape of the portion engaged with the other welded wire mesh is varied. FIG. 23 is a partial perspective view showing a state in which two welded metal meshes overlapped with each other using the fixture shown in FIG. 22 are fixed. FIGS. 24 and 25 show the fixture shown in FIG. They are a partial plan view and a front view of both welded wire meshes. In these drawings, portions corresponding to the portions shown in FIGS. 12 to 16 are given corresponding numbers.

As shown in FIGS. 21 to 25, the sixth bent portions 26c, 26c communicating with the standing portions (third bent portions) 23c, 23c are the other welded wire mesh WM of the superimposed welded wire meshes WM, WM. Are engaged with and engaged with the portion of the vertical strip material W1 constituting the mesh M, and the second engaging means is constituted by the upright portions 23c and 23c and the sixth bent portions 26c and 26c. . Further, as in the previous case, the first engaging means is constituted by the first corner portions T1, T1 and the corresponding second corner portions T2, T2, and the upright portions 23c, 23c and the sixth bent portions 26c, 26c. Second engagement means is configured. Further, the bent portion 20c is constituted by the first bent portion 21c, the second bent portion 22c, the standing portion 23c, and the sixth bent portion 26c.

The sixth bent portions 26c and 26c are bent toward the main body 10c side from the plane parallel to the plane fc formed by the main body 10c and the first bent portions 21c and 21c. The engagement between the two engaging means and the other welding wire mesh WM can be further strengthened.

FIG. 26 is an explanatory diagram for explaining the state of the sixth bent portion 26c when a force for detaching from the wire mesh WM is applied to the fixture 1c shown in FIG. In the figure, the same reference numerals are given to the portions corresponding to the portions shown in FIG.

As shown in FIG. 26, the sixth bent portion 26c is externally engaged with the vertical strip W1 of the other welded wire mesh WM, and at this time, the tip of the sixth bent portion 26c constituting the second engaging means. The position is on the inner line L1 between the compatible lower portions 23c (23c) from the center of the vertical strip W1. In this state, when a force is applied to the other welded wire mesh WM to extract the vertical strip W1 from the second engaging means of the fixture 1c, the sixth bent portion 26c is vertically fitted with the outer fitting. By sliding on the circumferential surface of the strip material W1, the tip of the sixth bent portion 26c advances to the position of the line L2 in the inner direction between the compatible lower portions 23c (23c), and the vertical strip material W1 becomes the standing portion 23c. And the sixth bent portion 26c are held deeper. As a result, the engagement between the second engagement means and the other welding wire mesh WM becomes stronger, so that the other welding wire mesh is prevented from being extracted from the second engagement means.

DESCRIPTION OF SYMBOLS 1 Fixing tool 1a Fixing tool 1b Fixing tool 1c Fixing tool 10 Main body 10a Main body 10b Main body 21 1st bending part 22 2nd bending part 23 Upright part (3rd bending part)
23b Vertical part (third bent part)
23c Vertical part (3rd bending part)
24 4th bent portion 25 5th bent portion 26 6th bent portion 26b 6th bent portion 26c 6th bent portion WM welded wire mesh (lattice-like body)
W1 Longitudinal strip W2 Horizontal strip M Cross-cut L1 line L2 line

Claims (9)

1. At least two grid-like bodies having a plurality of vertical strips arranged in parallel with each other at appropriate intervals, and a plurality of horizontal strips arranged in parallel with each other at appropriate intervals in a manner of intersecting with each of the vertical strips, A part of both grid-like bodies are arranged so as to overlap each other, and is a fixture for fixing both grid-like bodies of this overlapped part to each other,
   Bending both ends of the spring strip material, the first engagement means that engages with the vertical strip material or the horizontal strip material of one grid-like body, and the vertical strip material or the horizontal strip material of the other grid-like body. Second engaging means to be combined,
   The lattice members are fixed to each other by the spring force generated between the first engaging means engaged with one lattice member and the second engaging means engaged with the other lattice member. A fixture characterized by being.
2. A main body composed of a spring material, and bent portions obtained by bending both ends of the main body,
   The second engaging means, or the first engaging means and the second engaging means are provided on both bent portions,
   By applying a bending force to the main body and the two bent portions, the main body is fitted between adjacent vertical strip members of one grid-like body or between adjacent horizontal strip members. The fixing device according to claim 1, wherein the fixing device can be made to operate.
3. 3. The fixture according to claim 2, wherein the first engagement means is provided on the main body, and the second engagement means is provided on both bent portions.
4. The two bent portions are respectively bent in a direction intersecting with a plane formed by the first bent portion communicating with the main body and bent so as to face each other, and the main body and both first bent portions. 4. A third bent portion and a fifth bent portion bent so as to be twisted with the main body are provided, and the second engaging means is provided in communication with the fifth bent portion. Fixing tool.
5. The fifth bent portion is a circumferential surface of a vertical strip or horizontal strip facing the vertical strip or horizontal strip that engages the first engaging means of the other grid of the other grid. Then, it is formed so as to follow the portion facing the vertical strip or the horizontal strip to be engaged with the first engaging means of one of the lattice-shaped bodies, and is externally fitted to the vertical strip or the horizontal strip. There is
   The fixing tool according to claim 4, wherein both the second engaging means are bent so that their end portions face each other.
6. The fifth bent portion is shaped so as to be externally fitted to the vertical strip or horizontal strip of the other lattice-shaped body, and the vertical strip or horizontal strip adjacent to the vertical strip or horizontal strip. The fixing tool according to claim 5.
7. The fixture according to any one of claims 3 to 6, wherein a convex portion is provided on the first engaging means of the main body.
8. Each of the bent portions communicates with the main body and is bent so as to face each other, the second bent portion communicates with the first bent portion and is bent in a direction away from each other, and the main body And a third bent portion bent in a direction intersecting the plane formed by the first bent portion and a sixth bent portion bent inward between the third bent portions,
   The first engaging means includes a first corner portion of the main body and the first bent portion, and a second corner portion of the first bent portion and the second bent portion,
   The fixture according to claim 1, wherein the second engagement means includes the sixth bent portion.
9. The fixture according to claim 8, wherein the sixth bent portion is bent toward the main body from a plane parallel to the plane.

Images