KR20220126112A - Spacer for Reinforcing Bars in Concrete Structure - Google Patents

Abstract

The present invention relates to a reinforcing bar spacer having a structure which is easily fastened to a reinforcing bar by using a linear elastic clip member, comprising: a support body (1) protruding from the front of a reinforcing bar and maintaining a distance between the reinforcing bar and a formwork; and a clip member which is composed of a pair of elastic members having elasticity and extending long, which extends long in a status in which one end is coupled and fixed to both sides of the support body (1) respectively, and wherein the other end surrounds the reinforcing bar. Therefore, the reinforcing bar spacer of the present invention can be easily and quickly installed by fastening to the reinforcing bar by simple manipulation by an operator in a field. In addition, after installation, influence on flow of concrete during concrete pouring can be minimized.

Description

A reinforcing bar spacer having a structure that is easily fastened to reinforcing bars using a straight elastic clip member {Spacer for Reinforcing Bars in Concrete Structure}

The present invention relates to a reinforcing bar spacer that secures the covering thickness of reinforcing bars by maintaining a gap between the reinforcing bars embedded in concrete and a formwork. It consists of a member having a After installation, it relates to a reinforcing bar spacer that can minimize the influence on the flow of concrete that has not been hardened.

In a reinforced concrete structure, concrete is poured with a reinforcing bar spacer between the formwork and the reinforcing bar in advance to secure the appropriate thickness of the reinforcing bar embedded in the concrete. Korean Utility Model Publication No. 20-1995-0030596 discloses an example of a reinforcing bar spacer according to the prior art.

However, in the conventionally used various types of reinforcing bar spacers, an impact is applied to the rebar spacer during concrete pouring and compaction, so that the rebar spacer is separated from the form and the reinforcing bar or the rebar is elastically deformed by the concrete and the spacer falls to the bottom. There was a problem that often occurred.

In order to prevent this, in many cases, a method of winding and fixing the rebar spacer around the reinforcing bar using wire is used at the construction site. This conventional method causes a big difference in the installation speed and efficiency of the rebar spacer depending on the skill level of the worker. Above all, the binding state of the reinforcing bar spacer depends on the skill level of the operator, so there are problems such as the reinforcing bar spacer is still unable to maintain its place when concrete is being poured and is separated.

There are other various types of reinforcing bar spacers, but they cannot be easily used in the field due to their complicated structure, or they are expensive due to the high production cost, so the reality is that they are not applied in the actual field.

Korean Utility Model Publication No. 20-1995-0030596 (published on November 20, 1995).

The present invention has been developed to overcome the limitations of the prior art as described above, and is installed to be firmly coupled with the reinforcing bars without disturbing the flow of the poured concrete and stably maintaining the original installed position during the pouring and compacting of concrete. An object of the present invention is to provide a reinforcing bar spacer so that a predetermined gap is formed between the formwork and the reinforcing bar.

In particular, an object of the present invention is to provide a reinforcing bar spacer that can be easily and quickly installed by a worker in the field, thereby maximizing the convenience of use, and can be easily used by an unskilled worker.

In addition, an object of the present invention is to provide a reinforcing bar spacer that can be easily manufactured at a low cost, thereby reducing construction costs in the field.

Furthermore, an object of the present invention is to provide a reinforcing bar spacer that does not interfere with the flow of the poured concrete and minimizes the installation marks due to the very small ground area that comes into contact with the formwork.

In order to achieve the above object, in the present invention, as a reinforcing bar spacer that secures the covering thickness of reinforcing bars by maintaining a gap between reinforcing bars and a formwork, a support protruding from the front of the reinforcing bars to maintain a gap between the reinforcing bars and the formwork; Consisting of a pair of elastic wires having elasticity and elongated, one end is extended in a fixedly coupled state to both sides of the support, the other end is configured to include a clip member that wraps the reinforcing bar; A pair of elastic wire rods constituting the club member consists of an A-side clip member and a B-side clip member extending in opposite directions to each other. The end bent portion is formed, so that the end bent portion is bent in opposite directions to surround the reinforcing bar; When the rear surface of the support is made to be in close contact with the front side of the reinforcing bar and the end bent parts located in the front of the reinforcing bar are respectively positioned to the rear of the rebar, each end bent part automatically wraps around the outer surface of the rear side of the rebar and is fastened to the reinforcing bar. Reinforced spacer is provided, characterized in that installed. In this case, on the rear surface of the support body, a second concave groove extending in the same direction as the extending direction of the A-side clip member and the B-side clip member and into which the reinforcing bar is inserted is further formed, so that the reinforcing bar is fitted into the second concave groove. and the end bent portions formed at the other ends of the A-side clip member and the B-side clip member, respectively, may have a configuration in which the outer surface of the rear side of the reinforcing bar fitted in the second concave groove is rounded and fastened.

In addition, in the above-described reinforcing bar spacer, the rear surface of the support is further formed with a first concave groove extending in a direction perpendicular to the direction in which the A-side clip member and the B-side clip member are extended and into which the reinforcing bar is inserted; When the front reinforcing bar and the rear reinforcing bar are installed at the intersection point where they intersect each other, the front reinforcing bar is inserted into the first concave groove, and the end bent portions formed at the other ends of the A-side clip member and the B-side clip member, respectively, are of the rear reinforcing bars. It may have a configuration that is fastened by wrapping the outer surface of the rear side in a round shape.

The reinforcing bar spacer of the present invention can be installed very easily and quickly, and it is possible to stably maintain the original installed position even during concrete pouring and compaction. Therefore, when the reinforcing bar spacer of the present invention is used, the advantage of being able to reliably secure a pre-determined rebar covering thickness between the formwork and the reinforcing bar is exhibited.

In particular, since the reinforcing bar spacer of the present invention can be coupled to the first and second reinforcing bars that are orthogonal to each other at the same time, according to the present invention, the first and second reinforcing bars are first and second by using separate iron wires at the intersection point orthogonal to each other. There is no need to perform the work of weaving the reinforcing bars, and accordingly, the reinforcing bar work is simplified, and accordingly, the work cost and work time are reduced, which is a very useful advantage that enables more economical construction.

Furthermore, since the reinforcing bar spacer of the present invention has a simple structure, and the material used is easily obtainable in the field, if necessary, it has the advantage that it can be manufactured and used easily and inexpensively using concrete or mortar at the construction site. .

In addition, the reinforcing bar spacer of the present invention allows the support to be manufactured in the shape of a truncated cone, so that when concrete is poured, the flow of the poured concrete is not disturbed, and the footprint that comes into contact with the formwork is very small, which minimizes the installation marks There are also very useful advantages.

1 (a) to (c) is a schematic view showing a different direction of looking at the reinforcing bar spacer according to the first embodiment of the present invention, respectively.
2 and 3 are schematic views showing the reinforcing bar spacer according to the first embodiment of the present invention shown in FIG. 1 installed at the intersection of the first and second reinforcing bars by the first installation method in different viewing directions; is a perspective view.
4 is a schematic perspective view of a rear surface showing an example of a process of installing the reinforcing bar spacer according to the first embodiment of the present invention at the intersection of the first and second reinforcing bars in the form shown in FIGS. 2 and 3 .
5 and 6 are schematic views showing the reinforcing bar spacer according to the first embodiment of the present invention shown in FIG. 4 installed at the intersection of the first and second reinforcing bars by the second installation method in different viewing directions; is a perspective view.
Figure 7 is a schematic perspective view of the rear surface exemplarily showing the process of installing the reinforcing bar spacer according to the first embodiment of the present invention in the manner shown in Figures 5 and 6 .
8 (a) and (b) are schematic views showing different directions of looking at the reinforcing bar spacer according to the second embodiment of the present invention, respectively.
9 and 10 are schematic perspective views showing the state in which the reinforcing bar spacer according to the second embodiment of the present invention shown in FIG. 8 is installed at the intersection of the reinforcing bars, respectively, in different directions.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiment shown in the drawings, which is described as one embodiment, the technical idea of the present invention and its core configuration and operation are not limited thereby.

1 (a) to (c) are schematic views showing different viewing directions of the reinforcing bar spacer 100 according to the first embodiment of the present invention, respectively, in FIGS. 1 (a) and (b) is a perspective view, and (c) of FIG. 1 is a plan view. In the present specification, in describing the present invention with reference to the drawings, the direction toward the formwork (not shown) based on the reinforcing bar is described as "front", and the opposite direction is described as "rear". In (b) of FIG. 1, an arrow X indicates a forward direction and an arrow Y indicates a backward direction. And when the two reinforcing bars intersect each other at right angles, they are shown in the form of a cross (十字) erected for convenience. The reinforcing bar) is named “first reinforcing bar 201”, and the reinforcing bar (rear-side reinforcing bar) located on the rear side is named “second reinforcing bar 202”. The direction in which the first reinforcing bars extend long is described as “first direction” for convenience, and the direction in which the second reinforcing bars extend long is described as “second direction”. In the drawings, the vertical direction is the first direction and the horizontal direction is the second direction, but in actual arrangement, the vertical direction is the second direction and the horizontal direction is the first direction. In addition, in arranging the first and second reinforcing bars in a cross shape, they may be arranged in a form lying on the floor rather than in a vertically erected form as shown in the drawing.

The reinforcing bar spacer 100 according to the first embodiment of the present invention illustrated in FIG. 1 includes a support body 1 positioned to protrude forward from the front of the first reinforcing bar 201 and a clip member fastened to the reinforcing bar have a configuration

Specifically, the support body 1 is installed so that its rear surface is in close contact with the first reinforcing bar 201 and protrudes from the front side of the first reinforcing bar 201 toward the front, so that the gap between the first reinforcing bar 201 and the formwork is the absence of maintaining As illustrated in the drawings, the support 1 preferably has a truncated cone shape whose cross section decreases toward the front. When the support body 1 has a truncated shape like this, it is possible to minimize the situation in which the support body 1 prevents the flow of unhardened concrete in the gap between the reinforcing bars and the formwork when the concrete is poured. That is, it is possible to minimize the obstruction of the flow of the poured concrete. Furthermore, if the support body 1 is manufactured in the form of a truncated cone as above, the contact area where the front end of the support body 1 comes into contact with the formwork can be reduced, and accordingly, when the formwork is demolded, the

The effect of being able to minimize the remaining traces of installing the reinforcing bar spacer 100 is also exhibited. In the drawings, a truncated cone shape is exemplified as an example of the truncated cone shape, but the present invention is not limited thereto. In the truncated support body 1 shown in the drawing, the front end is not made of a flat surface but a convex surface having a curve. A very useful effect is exhibited. However, the front end of the support 1 does not necessarily have to be made of such a curved convex surface, and it may be made of a flat surface or have other shapes.

A concave groove into which the reinforcing bar is inserted may be formed on the rear surface of the support body 1 to which the first reinforcing bar 201 is in close contact. Among the two concave grooves, a concave groove extending in a direction orthogonal to the direction in which the clip member A-side clip member 2A and the B-side clip member 2B extend to be described later is "first concave groove 11". and the concave groove extending in the same direction as the extending direction of the A-side clip member 2A and the B-side clip member 2B is referred to as a "second concave groove 12". In this way, when the support body 1 has a concave groove formed therein, when the rear surface of the support body 1 is in close contact with the reinforcing bar, the reinforcing bar is inserted into the concave groove, so that the support 1 is firmly attached to the reinforcing bar. is performed In particular, when both the first and second concave grooves 11 and 11 that are orthogonal to each other are formed, at the intersection point where the first reinforcing bar and the second reinforcing bar are orthogonal to each other, the support body 1 has two reinforcing bars (first, 2 reinforcing bars), since they are installed in a form in which they are firmly attached, the effect of simultaneously fastening the two reinforcing bars by the support 1 is exhibited. And since the reinforcing bar spacer 100 is prevented from sliding in the vertical direction in a state in which the first and second reinforcing bars are erected on the vertical surface, the effect of being able to install the reinforcing bar spacer 100 stably at a desired position is exhibited. However, in the present invention, the two orthogonal first concave grooves 11 and second concave grooves 11 are not necessarily formed, and the first concave grooves 11 and second concave grooves 11 are not necessarily formed as needed. ), only any one of them may be formed.

The clip member provided with the reinforcing bar spacer 100 according to the first embodiment of the present invention each has elasticity and consists of a pair of elongated elastic members, and the pair of elastic members constituting the clip member are opposite to each other. elongated in the direction of For convenience of explanation, a pair of elastic members constituting the club member in the reinforcing bar spacer 100 according to the first embodiment are respectively classified as "A-side clip member 2A" and "B-side clip member 2B". Write it down. However, when both the A-side clip member 2A and the B-side clip member 2B are collectively referred to as simply "clip member", they are only described.

One end of each of the A-side clip member 2A and the B-side clip member 2B is fixed to the support 1, but the other end thereof extends to face each other. In fixing one end of each of the A-side clip member 2A and the B-side clip member 2B to the support 1 , various methods such as embedding in the support 1 as well as mechanical fixing can be used. The A-side clip member 2A and the B-side clip member 2B may be made of a steel wire, but is not limited thereto, and the elastic member constituting the A-side clip member 2A and the B-side clip member 2B is made of steel. In addition to the wire, various types may be used.

At the other ends of each of the A-side clip member 2A and the B-side clip member 2B, bent end bent portions are formed to surround the reinforcing bars, respectively. For convenience of explanation, the ends formed at the other end of the A-side clip member 2A The bent portion is indicated by reference number 20a, and the bent end portion formed at the other end of the B-side clip member 2B is indicated by reference number 20b. The end bent portions 20a and 20b are formed in the form of hooks bent in a shape orthogonal to the direction in which the clip member is extended, so as to surround the reinforcing bars. Both the end bent portion 20a and the other end bent portion 20b surround the rear side of the reinforcing bar, but the bending directions are opposite to each other. That is, the bent end portion 20a of the A-side clip member 2A is bent so as to surround the rear outer surface of the reinforcing bar, and the end bent portion 20b of the B-side clip member 2B is located on the rear side of the reinforcing bar. The directions of bending to surround the outer surface are opposite to each other.

In FIGS. 2 and 3, the direction of looking at the reinforcing bar spacer 100 according to the first embodiment of the present invention shown in FIG. 1 is installed at the intersection of the first and second reinforcing bars by the first installation method, respectively. A schematic perspective view showing the In particular, in the reinforcing bar spacer 100 according to the first embodiment shown in FIGS. 2 and 3 , a first concave groove 11 is formed in the support 1 .

When installing the reinforcing bar spacer 100 according to the first embodiment at the reinforcing bar intersection where the second reinforcing bar 202 is located on the rear side and the first reinforcing bar 201 is located on the front side, first, the rear surface of the support body 1 is first The first reinforcing bar 201 is approached and brought into close contact, and in parallel with or after this, the bent end portions 20a and 20b surround the rear outer surface of the second reinforcing bar 202 , respectively. 2 and 3, a first concave groove 11 is formed in the support 1, and the first concave groove 11 is an A-side clip member 2A and a B-side clip member ( 2B) extends perpendicularly to the extending direction. Therefore, in this case, when the rear surface of the support body 1 is in close contact with the first reinforcing bar 201, the first reinforcing bar 201 is fitted into the first concave groove 11, and the A-side clip member 2A and the B-side clip The end bent portions 20a and 20b formed at the other end of each member 2B are respectively fastened to the second reinforcing bars 202 while roundly surrounding the rear outer surface of the second reinforcing bars 202 . In the drawings, since the second reinforcing bar 202 is horizontally arranged, if described based on this arrangement state, the end bent portion 20a of the A-side clip member 2A when viewed from the front side faces downward while the second reinforcing bar The outer surface of the rear side of the 202 is rounded, and the end bent portion 20b of the B-side clip member 2B is opposite to each other in a form of roundly wrapping the outer surface of the rear side of the second reinforcing bar 202 while facing upward. It will surround the outer surface of the rear side of the reinforcing bar 202 in a round shape.

In this way, the first reinforcing bar 201 is fitted into the first concave groove 11 of the support body 1, and in addition to this, end bent portions formed at the other ends of the A-side clip member 2A and the B-side clip member 2B, respectively. Since the (20a, 20b) surrounds the rear-side outer surface of the second reinforcing bar 202 in opposite directions, the support 1 is prevented from moving in the first direction. That is, since the end bent portions 20a and 20b are fastened to the second reinforcing bars 202 alternately with each other, the first reinforcing bar 201 is inserted into the first concave groove 11 of the supporting body 1 in the state where it is inserted into the support body 1 ) does not move along the first reinforcing bar 201 in the first direction. This configuration is very useful when the first and second reinforcing bars are erected on a vertical surface. Since the support body 1 cannot move in the first direction, even when the first and second reinforcing bars are orthogonal to each other in a form in which the first direction is in the vertical direction, the reinforcing bar spacer 100 is stably maintained at the desired position. The advantages of being able to do this will be demonstrated.

4 is a rear surface showing an example of the process of installing the reinforcing bar spacer 100 according to the first embodiment of the present invention at the intersection of the first and second reinforcing bars in the form shown in FIGS. 2 and 3 . A schematic perspective view is shown. As illustrated in the figure, the operator attaches the rear surface of the support body 1 to the front side of the first reinforcing bar 201 . When the support body 1 is in close contact with the first reinforcing bar 201, the end bent portions 20a and 20b formed at the other ends of the A-side clip member 2A and the B-side clip member 2B, respectively, are all second reinforcing bars 202 ) is located in front of Since each of the A-side clip member 2A and the B-side clip member 2B is made of an elastic member, the operator slightly moves the A-side clip member 2A and the B-side clip member 2B to form the end bent portions 20a, 20b ) is moved to the rear of the second reinforcing bar 202 , each of the end bent portions 20a and 20b automatically surrounds the rear outer surface of the second reinforcing bar 202 .

By this process, the reinforcing bar spacer 100 according to the first embodiment of the present invention is firmly and stably fastened and installed at the intersection of the first and second reinforcing bars. In the above, each installation step was described separately, but the operator can perform the above installation step by connecting the process naturally. In particular, as described above, since the clip member is made of a material with elasticity, even if the operator only changes the position of the other end of the clip member with a little force, the clip member returns to its original position by elasticity and is firmly attached to the reinforcing bar in the above form. fastening is combined.

As described above, as the clip member is firmly fastened to the reinforcing bar, the support body 1 is firmly coupled and installed while stably maintaining a state protruding toward the front. Therefore, during the pouring and compaction of concrete, the support 1 and the reinforcing bar spacer 100 having the same can stably maintain the original installed position, and accordingly, a predetermined interval between the formwork and the reinforcing bar, that is, the designed reinforcing bar The coating thickness can be easily secured.

In particular, in the installation method described with reference to FIGS. 2 to 4 , the support body 1 is in close contact with the first reinforcing bar 201 and the clip member is coupled to the second reinforcing bar 202 . That is, the first reinforcing bar 201 and the second reinforcing bar 202 are woven into one by the reinforcing bar spacer 100 . In the general prior art, in order to prevent the first and second reinforcing bars from being in close contact with each other at the intersection because the first and second reinforcing bars move forward or backward, respectively, at the intersection where the first and second rebars intersect orthogonally, a separate wire is used. It is necessary to perform the work of weaving the first and second reinforcing bars. However, as described above, when the reinforcing bar spacer 100 according to the first embodiment of the present invention is installed at the intersection of the first and second reinforcing bars, the first reinforcing bar 201 and the second reinforcing bar 202 form an integral body. Therefore, the first and second reinforcing bars move individually forward or backward, so that they cannot be in close contact with each other, and thus the problem of separation from each other fundamentally does not occur. That is, when the reinforcing bar spacer 100 according to the first embodiment of the present invention is used, it is not necessary to weave the first and second reinforcing bars using separate iron wires at the intersection. Therefore, the work is simplified and the work cost and work time are reduced accordingly, which is a very useful advantage that enables more economical construction.

In the reinforcing bar spacer 100 according to the first embodiment of the present invention, the support 1 may be made of various materials, and in particular, it can be easily manufactured using concrete or mortar used in the field. In this case, it is also very easy to fix one end of the clip member to the support 1, for example, by placing one end of the clip member in a mold for forming the support 1 and pouring concrete or the like into the mold to form the support 1 ) can be used to create As described above, the reinforcing bar spacer 100 according to the first embodiment of the present invention can be easily manufactured at a low cost, and the construction cost required in the field can be greatly reduced by that much. Of course, the reinforcing bar spacer 100 according to the first embodiment of the present invention may be pre-fabricated according to the required number in advance at the factory rather than the field, and transported to the field for use.

The reinforcing bar formwork 100 according to the first embodiment of the present invention described above maximizes the convenience of use because it can be installed easily and quickly by a worker in the field. Therefore, even unskilled workers have the advantage of being able to use it easily to achieve a consistent effect.

As mentioned above, on the rear surface of the support 1 in the reinforcing bar spacer 100 according to the first embodiment of the present invention, the A-side clip member 2A and the B-side clip member 2B extend in the same direction as the extending direction. The second concave groove 12 extending in the direction may be formed alone, or both the second concave groove 12 and the first concave groove 11 may be formed. In this case, when the reinforcing bar spacer 100 according to the first embodiment is installed, the first reinforcing bar 201 may be installed in the second concave groove 12 . 5 and 6, when installing the reinforcing bar spacer 100 according to the first embodiment of the present invention shown in FIG. A schematic perspective view showing a different viewing direction of what is installed by the installation method is shown. 7 is a schematic perspective view of the rear surface exemplarily showing the process of installing the reinforcing bar spacer 100 according to the first embodiment of the present invention in the manner shown in FIGS. 5 and 6 is shown.

Specifically, in the installation method shown in FIGS. 5 to 7 , the operator attaches the rear surface of the support body 1 to the front side of the first reinforcing bar 201 , but sets the extension direction of the second concave groove 12 to the first reinforcing bar The first reinforcing bar 201 is fitted into the second concave groove 12 accordingly. In this case, the end bent portions 20a and 20b of each of the A-side clip member 2A and the B-side clip member 2B are all positioned in front of the first reinforcing bar 201 . When the operator moves the A-side clip member 2A and the B-side clip member 2B slightly to move the end bent portions 20a and 20b to the rear of the first reinforcing bar 201 as illustrated in FIG. 7 , each The end bent portions 20a and 20b automatically surround the rear outer surface of the first reinforcing bar 201 . Since the installation method of the reinforcing bar spacer 100 according to the first embodiment of the present invention illustrated in FIGS. 5 to 7 is to substantially install the reinforcing bar spacer 100 on one reinforcing bar, the intersection of the first and second reinforcing bars is It has the advantage that it can be freely used in other locations.

8 (a) and (b) are schematic views showing different viewing directions of the reinforcing bar spacer 100 according to the second embodiment of the present invention, respectively, in FIGS. 9 and 10, respectively, in FIG. 8 A schematic perspective view showing a state in which the reinforcing bar spacer 100 is installed at the intersection of the reinforcing bars according to the second embodiment of the present invention shown in a different direction is shown.

In the reinforcing bar spacer 100 according to the second embodiment of the present invention illustrated in FIGS. 8 to 10 , both the first concave groove 11 and the second concave groove 12 are formed on the rear surface of the support body 1 , In addition, it has a configuration in which there is, and further has both the clip member extending in the first direction and the clip member extending in the second direction. Therefore, when installing the reinforcing bar spacer 100 according to the second embodiment at the reinforcing bar intersection where the second reinforcing bar 202 is located on the rear side and the first reinforcing bar 201 is located on the front side, the first concave groove 11 and the second reinforcing bar spacer A first reinforcing bar 201 and a second reinforcing bar 202 are fitted in each of the 2 concave grooves 12, and ends provided at the other ends of the clip member extending in the first direction and the clip member extending in the second direction. The bent part wraps the reinforcing bars facing each other. The form in which the bent end part wraps the reinforcing bar is the same as the method of the first embodiment described above, and thus repeated description is omitted.

The reinforcing bar spacer 100 according to the second embodiment of the present invention is also fastened and installed very easily, quickly, and securely and stably at the intersection of the first and second reinforcing bars. The advantage that can be secured is demonstrated.

1: support
100: rebar spacer

Claims (4)

As a reinforcing bar spacer (100) for securing the covering thickness of reinforcing bars by maintaining a gap between the reinforcing bars and the form,
A support body (1) protruding from the front of the reinforcing bar and maintaining the distance between the reinforcing bar and the formwork;
Consisting of a pair of elastic members that have elasticity and are elongated, one end of each of the two sides of the support body 1 is extended in a fixedly coupled state, and the other end is configured to include a clip member that wraps the reinforcing bar;
A pair of elastic members constituting the club member consists of an A-side clip member (2A) and a B-side clip member (2B) extending long in opposite directions, and an A-side clip member (2A) and a B-side clip member ( 2B) Each other end has bent end bent portions (20a, 20b) to surround the reinforcing bar, the end bent portions (20a, 20b) are bent in opposite directions to wrap the reinforcing bar;
When the rear surface of the support body 1 is made to be in close contact with the front side of the reinforcing bar, and the end bent portions 20a and 20b positioned in front of the reinforcing bar are respectively positioned to the rear of the reinforcing bar, each end bent portion 20a, 20b Reinforcement spacer, characterized in that each is installed on the reinforcing bar by automatically wrapping the outer surface of the rear side of the reinforcing bar. According to claim 1,
A second concave groove 12 is formed on the rear surface of the support 1, extending in the same direction as the direction in which the A-side clip member 2A and the B-side clip member 2B are extended, and into which the reinforcing bar is inserted, The reinforcing bar is inserted into the second concave groove 12, and the end bent portions 20a and 20b formed at the other ends of the A-side clip member 2A and the B-side clip member 2B, respectively, are respectively a second concave groove 12. Reinforcement spacer, characterized in that it is fastened by wrapping the outer surface of the rear side of the reinforcing bar inserted in the round. According to claim 1,
A first concave groove 11 is formed on the rear surface of the support body 1, extending in a direction orthogonal to the direction in which the A-side clip member 2A and the B-side clip member 2B are extended, and into which the reinforcing bar is inserted. ;
When the front reinforcing bar and the rear reinforcing bar are installed at the intersection where they intersect each other, the front reinforcing bar is inserted into the first concave groove 11, and at the other end of each of the A-side clip member 2A and the B-side clip member 2B. Reinforcement spacer, characterized in that the formed end bent portion (20a, 20b) is fastened by rounding the outer surface of the rear side of each of the rear side reinforcement. 4. The method according to any one of claims 1 to 3,
The support 1 is a reinforcing bar spacer, characterized in that it has a truncated truncated cross section that decreases toward the front.

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