KR20010001192A - Device for connecting concrete reinforcements - Google Patents

Abstract

The present invention relates to a joint structure of concrete reinforcing rods connecting two concrete reinforcing rods to each other by using a screwed coupler, and particularly, an outer reinforcement surface of an annular concrete reinforcing rod is formed to reinforce the rigidity of the concrete reinforcing rods. Threads are formed on the outer circumferential surface of the reinforcing rod and the concrete reinforcing rods by screwing at least one end of the concrete reinforcing rods, and the ends of the concrete reinforcing rods are connected to the ends of the other concrete reinforcing rods by threaded couplers. By providing a joint structure, the inherent elongation of the ends of the concrete reinforcing rods is maintained as it is, and the processing operation of the concrete reinforcing rods is simplified, thereby improving the quality and productivity of the concrete reinforcing rods.

Description

Joint structure of concrete reinforcing rods {Device for connecting concrete reinforcements}

The present invention relates to a joint structure of concrete reinforcing rods connecting two concrete reinforcing rods to each other using a threaded coupler.

Recently, quality problems due to the enlargement of structures have been raised in civil engineering and construction sites, and various types of joints for connecting concrete reinforcing rods, that is, reinforcing bars, have been developed and used to solve such problems.

1 is a block diagram showing the end structure of the concrete reinforcing rods according to the first embodiment of the prior art, Figure 2 is a block diagram showing the end structure of the concrete reinforcing rods according to the second embodiment of the prior art, Figure 3 Is a configuration diagram showing a processing sequence of the concrete reinforcing rods according to the second embodiment of the prior art.

Referring to Figure 1, the joint structure of the concrete reinforcing rods according to the first embodiment of the prior art upsetting the cross-sectional area is enlarged by upsetting (Upsetting) to at least one end of the concrete reinforcing rods 11 formed in an annular shape A portion 12 is formed, and the upsetting portion 12 has a thread 13 formed in a cylindrical shape and connected to an upsetting portion of another concrete reinforcing rod by a coupler having an inner circumferential surface threaded therein.

However, according to the first embodiment of the prior art as described above, in order to form the upsetting portion 12 at the end of the concrete reinforcing rod 11, the external force by upsetting is provided at the end of the reinforcing bar in this process. The strength of the upsetting part 12 becomes rather unstable, such as an excessive change in inherent properties and structure, leaving a significant residual stress, and the time and effort required to make the upsetting part 12 is increased to M There was a problem that the loss of / H (Money per Hour).

In addition, the joint structure according to the first exemplary embodiment uses cutting or rolling to form the thread 13 on the upsetting portion 12 of the concrete reinforcing rod 11, wherein the cutting If the thread 13 is formed, brittle brittleness of the thread 13 is increased, and the risk of breakage of the upsetting part 12 is increased. On the contrary, when the thread 13 is formed by using a roll, the thread 13 is upset. As a result, the first compressed portion is secondarily compressed by rolling, and thus, the elongation of the reinforcing bars is remarkably decreased, thereby weakening the strength of the upsetting part 12.

In order to solve this problem, the joint structure of the concrete reinforcing rods according to the second embodiment of the prior art shown in Figures 2 and 3 has been developed.

Referring to Figure 2, the joint structure of the concrete reinforcing rods according to the second embodiment of the prior art reinforcement for reinforcing the rigidity of the concrete reinforcing rods 21 on the outer peripheral surface except the end of the concrete reinforcing rods 21 formed in an annular shape A thread 25 is formed at an end of the concrete reinforcing rod 21 in which the reinforcing rod 25 is not formed, and the outer peripheral surface of the end of the concrete reinforcing rod 21 is not formed, and an end of the concrete reinforcing rod 21 is formed. Are connected to one another at the ends of the other concrete reinforcement rods by threaded couplers.

Referring to Figure 3 the processing operation of the concrete reinforcing rods 21 applied to the joint structure configured as described above, first to form a reinforcing rod 25 on the outer peripheral surface of the concrete reinforcing rod 21 (a). Subsequently, the end of the concrete reinforcing rod 21 is swissed by applying a hydraulic force or the like to form the thread 23 to the reinforcing rod 25 from the end of the concrete reinforcing rod 21. Pressing and removing the resulting protruding portion makes the end portion of the flat circular rod (b). Thereafter, the thread 23 is formed on the end of the concrete reinforcing rod 21 by rolling.

However, since the second embodiment of the related art removes the reinforcing bar 25 formed at the end of the concrete reinforcing rod 21 through pressing, the reinforcing bar tissue at the end of the concrete reinforcing rod 21 is dense. While the rigidity of the end is maintained as it is, the intrinsic elongation, which is an important mechanical property of the reinforcement, is reduced, which causes a problem that the quality of the concrete reinforcing rod 21 is reduced and the life of the structure is shortened.

In addition, since the joint structure according to the second embodiment of the prior art forms the reinforcing bar 25 on the concrete reinforcing bar 21 as a whole, the reinforcing bar 25 formed at the end of the concrete reinforcing bar 21 must be removed. The number of processing steps of the concrete reinforcing bar 21 is increased, which makes the working process cumbersome and increases the processing time, thereby resulting in a drop in productivity of the concrete reinforcing bar 21.

In addition, in the above-described first and second embodiments, both the threads 13 and 23 formed at the ends of the concrete reinforcing rods 11 and 21 are processed in one direction, so that the concrete reinforcing rods 11 and 21 are used. If this heavy and long or one end is fixed, there was a problem that the connection with other concrete reinforcing rods using a coupler is very difficult.

In order to solve the difficulty of the joint operation, one of the two concrete reinforcing rods to be connected to each other to form a thread by the length of the coupler and the other by forming a thread by half the length of the coupler, the first thread is formed by the length of the coupler After fully coupling the coupler to the concrete reinforcement rod, there is a method of performing the joint operation by rewinding the coupler toward the concrete reinforcement rod threaded by half of the coupler length.

However, the method of fastening the coupler to one concrete reinforcing rod first and then rewinding the coupler back to the other concrete reinforcing rod as described above is required to form a thread as long as the coupler length on one concrete reinforcing rod. Unnecessary time and effort are required, and since the number of rotations of the coupler required for the above-mentioned joint reinforcement of the concrete reinforcing rod is increased, the time taken for the jointing operation is lengthy and uneconomical, and there is no risk of the coupler loosening due to screwing in one direction. Because of its size, there was a problem that a separate anti-loosening mechanism such as a lock nut should be installed.

The present invention has been made to solve the above problems, by forming a reinforcing rod for reinforcing the rigidity of the concrete reinforcing rod on the outer circumferential surface of the concrete reinforcing rod by forming a screw thread immediately at the end of the concrete reinforcing rod without any other processing The first purpose is to provide a joint structure of the concrete reinforcing rods to maintain the inherent strength and elongation of the end of the concrete reinforcing rods while at the same time simplifying the processing of the concrete reinforcing rods to improve the quality and productivity of the concrete reinforcing rods.

In addition, the present invention is able to connect the concrete reinforcing rods by simple rotation of the coupler even when the concrete reinforcing rods are long and heavy or one end is fixed, so that the joint work of the concrete reinforcing rods through the coupler becomes simple and difficult in a difficult working environment. A second purpose is to provide a joint structure of concrete reinforcing rods that enables the joint operation.

1 is a block diagram showing the end structure of the concrete reinforcing rods according to the first embodiment of the prior art,

Figure 2 is a block diagram showing the end structure of the concrete reinforcing rods according to the second embodiment of the prior art,

3 is a configuration diagram showing a processing sequence of the concrete reinforcing rods according to the second embodiment of the prior art,

4 is a configuration diagram showing the joint structure of the concrete reinforcing rods according to the present invention,

5 is a block diagram showing the end structure of the concrete reinforcing rods according to the present invention,

6 is a cross-sectional view taken along the line A-A of FIG.

7 is a configuration diagram showing a processing sequence of the concrete reinforcing rods according to the present invention.

<Explanation of symbols for main parts of drawing>

51: concrete reinforcing rod 55: reinforcing rod

57: vertical reinforcement rib 59: horizontal reinforcement rib

61: coupler

Features of the joint structure of the concrete reinforcing rods according to the present invention for achieving the above object, the outer circumferential surface of the annular concrete reinforcing rod is formed with a reinforcing rod for reinforcing the rigidity of the concrete reinforcing rod, at least one end of the concrete reinforcing rod A thread is formed on the outer circumferential surface of the reinforcing rod and the concrete reinforcing rod through threading, and the ends of the concrete reinforcing rod are connected to each other with the ends of the other concrete reinforcing rods by threaded couplers.

In addition, the additional feature of the present invention, the concrete reinforcing rod and the coupler is that one end and the other end is screwed in the opposite direction so that the two concrete reinforcing rod can be inserted into the coupler at the same time when the coupler is rotated at the same time .

In addition, an additional feature of the present invention is that the threads formed on the concrete reinforcing rods and reinforcing bars are processed by rolling.

The present invention configured as described above, since the thread is formed directly on the end of the concrete reinforcing rod is formed without any other processing, the inherent elongation of the concrete reinforcing rod end is maintained as it is, while at the same time the operation of the concrete reinforcing rod is simplified There is an advantage that the quality and productivity of the concrete reinforcing rods are improved.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

Figure 4 is a block diagram showing the joint structure of the concrete reinforcing rods according to the present invention, Figure 5 is a block diagram showing the end structure of the concrete reinforcing rods according to the present invention, Figure 6 is a cross-sectional view taken along line AA of FIG. 7 is a configuration diagram showing a processing sequence of the concrete reinforcing rods according to the present invention.

4 and 5, the joint structure of the concrete reinforcing rods according to the present invention is a reinforcing table 55 for reinforcing the rigidity of the concrete reinforcing rods 51 is formed on the outer peripheral surface of the annular concrete reinforcing rods 51 At least one end of the concrete reinforcing rods 51 is formed with a thread 53 on the outer circumferential surface of the reinforcing rod 55 and the concrete reinforcing rods 51 through threading, and ends of the concrete reinforcing rods 51. Is connected to the ends of the other concrete reinforcing rods 51 by a threaded coupler 61.

Here, the reinforcing bar 55 is formed in the longitudinal direction of the concrete reinforcing rods 51 as shown in Figures 5 and 6 and two vertical reinforcing ribs 57 respectively installed in opposite directions, respectively, It is composed of a plurality of horizontal reinforcing ribs 59 are connected along the circumference of the concrete reinforcing rod 51 at the same time connecting the vertical reinforcing ribs (57).

In addition, the horizontal reinforcing rib 59 is divided into a left horizontal reinforcing rib 59a and a right horizontal reinforcing rib 59b around the vertical reinforcing rib 57 as shown in FIG. The ribs 59a and the right horizontal reinforcing ribs 59b may be formed at the same positions to form one ring shape, or may be formed to form a zigzag shape with each other although not shown in the drawing.

In addition, when the coupler 61 is rotated, the concrete reinforcing rod 51 and the coupler 61 have one end and the other end so that two concrete reinforcing rods 51 can be inserted into and coupled to the inside of the coupler 61 at the same time. Threaded in opposite directions.

That is, the concrete reinforcing rods 51 are formed so that threads 53 formed at respective ends connected by the coupler 61 are formed in opposite directions to each other, and the coupler 61 is formed in a cylindrical shape to have an inner circumferential surface thereof. The thread 61a is formed in the right direction at half and the thread 61b is formed in the left half at the other half thereof so that the concrete reinforcing rods are formed on the respective threads 61a and 61b formed on the inner circumferential surface by only one rotation of the coupler 61. End portions 51 are correspondingly joined.

In addition, in the case where the threads 53 are formed at both ends of the concrete reinforcing rods 51, if the threads in the right direction are formed at one end, the threads in the left direction are formed at the other end.

According to another embodiment, the concrete reinforcing rods 51 and the coupler 61 may be formed in the same direction all the threads formed at one end and the other end.

In addition, according to another embodiment shown in Figure 7, one of the two concrete reinforcing rods (51a, 51a ') to form a screw thread (53a) the length of the coupler (61a) and the other coupler (61a) The thread 53a 'is formed by half the length so that the coupler 61a is completely fastened to the concrete reinforcing rod 51a on which the thread 53a is formed by the length of the coupler 61a, and then half the length of the coupler 61a. As described above, the joint of the concrete reinforcing rods 51a and 51a 'may be performed by rewinding the coupler 61a toward the concrete reinforcing rod 51a' formed with the thread 53a '.

In addition, the thread 53 formed at the end of the concrete reinforcing rod 51 is processed by rolling in order to increase the tensile force of the end.

Referring to Figure 8 the processing operation of the concrete reinforcing rods 51 applied to the joint structure configured as described above, first, the vertical reinforcing ribs 57 and the horizontal reinforcing ribs on the outer circumferential surface of the concrete reinforcing rods 51 formed in an annular shape A reinforcing bar 55 consisting of 59 is installed (a).

Then, the outer peripheral surface formed by the vertical reinforcing ribs 57 and the horizontal reinforcing ribs 59 is performed by pressing the reinforcing bar 55 to be completely circular, and the vertical reinforcing ribs 57 and the horizontal reinforcing ribs ( 59) broaden the surface area (b).

Thereafter, the thread 53 is formed by directly rolling on the end of the concrete reinforcing rod 51 without any other processing (c). Therefore, the thread 53 is formed on the concrete reinforcing rod 51 and the reinforcing rod 55 at the same time, the degree of threading of the outer peripheral surface of the concrete reinforcing rod 51 is the degree of threading of the reinforcing rod 55 It becomes somewhat smaller.

In addition, the end of the concrete reinforcing rod 51 is threaded over a section including at least three bars of horizontal reinforcing rib 59 is to be coupled to the coupler 61 at least three bars of horizontal reinforcing rib (59). At least three threads 53 are formed in each of the horizontal reinforcing ribs 59.

When the concrete reinforcing rods 51 are completed through the above process, the two concrete reinforcing rods 51 and 51 'are connected to each other through the coupler 61. As a result, the joint work of the concrete reinforcing rods 51 is completed.

The joint structure of the concrete reinforcing rods according to the present invention configured and operated as described above, after forming the reinforcing bar 55 for reinforcing the rigidity of the concrete reinforcing rods 51 on the outer circumferential surface of the concrete reinforcing rods 51 By forming a thread directly at the end of the concrete reinforcing rod without any other processing, the inherent strength and elongation of the end of the concrete reinforcing rod 51 is maintained as it is, and at the same time, the processing operation of the concrete reinforcing rod 51 is simplified and the concrete reinforcing rod ( The quality and productivity of 51) are improved and M / H loss is reduced.

In particular, while the existing concrete reinforcing rods were very weak against the lateral external force by upsetting or swaging and threading, the present invention provides the coupler 61 without applying any external force to the concrete reinforcing rods 51. Since the horizontal reinforcing ribs 59 in which three or more threads 53 are formed in the sections of the concrete reinforcing rods 51 fastened by each other are included at least three or more nodes, they are very strong in the lateral external force, and thus high structures There is an advantage to be more advantageous to the construction of the.

In addition, the joint structure of the concrete reinforcing rods according to the present invention, when the coupler 61 is rotated in one direction, the two concrete reinforcing rods 51 and 51 'are inserted into and coupled to the inside of the coupler 61. One end and the other end of the 51 and 51 'and the coupler 61 are threaded in opposite directions, so that the joint work of the concrete reinforcing rod 51 through the coupler 61 is simplified.

In particular, the present invention, even when the concrete reinforcing rods 51 are long and heavy or one end thereof is fixed, it is possible to connect the concrete reinforcing rods 51 to each other only by simple rotation of the coupler 61, so that the joint under difficult working environment There is an advantage to working.

In addition, the joint structure of the concrete reinforcing rod according to the present invention uses a roll to form the thread 53 at the end of the concrete reinforcing rod 51, so that the thread 53 is firm and sophisticated, as well as the tensile force of the end There is a further advantageous advantage to increase and secure the rigidity of the end.

Claims (3)

A reinforcing rod is formed on the outer circumferential surface of the annular concrete reinforcing rod, and a thread is formed on the outer circumferential surface of the reinforcing rod and the concrete reinforcing rod through threading on at least one end of the concrete reinforcing rod. The end of the rod is a joint structure of the concrete reinforcing rods, characterized in that connected to the end of the other concrete reinforcing rods by a threaded coupler. The method of claim 1, The concrete reinforcing rod and coupler is a joint structure of the concrete reinforcing rod, characterized in that the one end and the other end is screwed in the opposite direction so that the two concrete reinforcing rod can be inserted into the coupler at the same time when the coupler is rotated. The method of claim 1, Thread formed on the concrete reinforcing rods and reinforcing rod is a joint structure of the concrete reinforcing rods, characterized in that processed by rolling (Rolling).