KR100345656B1 - 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. In particular, an end of a concrete reinforcing rod having a circular cross section is formed to be inclined in a conical shape and a thread is formed at the end of the conical. In the joint structure of the concrete reinforcing rod is formed and the end is screwed to the coupler and connected to the other concrete reinforcing rod, the concrete reinforcing rod is the central axis of the reinforcing rod and the boundary portion between the portion where the thread is formed and the thread is not formed; The first screw formed at the end of the concrete reinforcing rod by providing a joint structure of the concrete reinforcing rod, characterized in that an annular protrusion is formed in an orthogonal direction so that the end of the reinforcing rod from the top of the protrusion is cut in a conical shape to form a thread. As the notch phenomenon decreases the cross-sectional area of the one end is overcome by the excessive external force by preventing a phenomenon that the nature and organization of the reinforcing bar so that a specific change to the stiffness of the concrete reinforcing rod end as much as possible increases.

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.

In the joint structure of the concrete reinforcing rods according to the first embodiment of the prior art, as shown in FIG. 1, a thread 13 is formed at at least one end of the concrete reinforcing rods 11 formed in an annular shape so that the concrete reinforcing rods ( 11) the end is formed in a cylindrical shape so that the inner circumferential surface is connected to the end of another concrete reinforcing rod by a screwed coupler.

According to the second embodiment of the prior art, the concrete reinforcing rods 21 may be formed in a conical shape as shown in FIG.

By the way, the conventional concrete reinforcement rods 11 and 21 configured as described above are immediately threaded without a separate process for reinforcing the strength of the concrete reinforcement rods 11 and 21 at its ends.

Therefore, the joint structure of the concrete reinforcing rods according to the first and second embodiments of the related art has a smaller cross-sectional area of the end portions in which the threads 13 and 23 are formed among the concrete reinforcing rods 11 and 21 than the cross-sectional areas of other portions. At the same time, the threads 13 and 23 act as notches, so that the strength of the ends of the concrete reinforcing rods 11 and 21 is weakened, so that the joint structure is weak and easily broken.

In order to solve this problem, the joint structure of the concrete reinforcing rod according to the third embodiment of the prior art shown in FIG.

Referring to FIG. 3, the joint structure of the concrete reinforcing rods according to the third exemplary embodiment is an upsetting portion whose cross-sectional area is enlarged by upsetting at least one end of the concrete reinforcing rods 31 formed in an annular shape. (32) is formed, the upsetting portion 32 is formed with a thread (33) is formed in a cylindrical shape and the inner circumferential surface is screwed up coupler 35 of the other concrete reinforcing rod 31 ' It is intended to be connected to each other.

However, according to the third embodiment of the prior art as described above, in order to form the upsetting portion 32 at the end of the concrete reinforcing rod 31, the external force by upsetting is provided at the end of the reinforcing bar in this process. The inherent properties and tissues are excessively changed to leave a fairly large residual stress, such that the strength of the upsetting part 32 is rather unstable, and the time and effort required to make the upsetting part 32 is increased to M There was a problem that the loss of / H (Money per Hour).

In addition, the joint structure according to the third exemplary embodiment uses cutting or rolling to form the thread 33 on the upsetting portion 32 of the concrete reinforcing rod 31, wherein the cutting If the thread 33 is formed, there is a problem that the brittle brittleness of the thread 33 is increased, and the risk of breakage of the upsetting part 32 is increased. On the contrary, when the thread 33 is formed by using rolling, the thread 33 is used for upsetting. As a result, the first compressed portion is second-compressed again by rolling, and thus the elongation of the reinforcing bar is remarkably decreased, thereby weakening the strength of the upsetting part 32.

In addition, in the first, second, and third embodiments described above, all of the threads 13, 23, and 33 formed at the ends of the concrete reinforcing rods 11, 21, and 31 are machined in one direction. (11, 21, 31) is long and heavy, or if one end is fixed, there was a problem that the connection with other concrete reinforcing rods using a coupler is very difficult.

The present invention has been made to solve the above problems, by the first screw bone formed on the end of the concrete reinforcing rods to overcome the notch phenomenon that the cross-sectional area of the end is reduced sufficiently by excessive external force while the intrinsic properties and structure of the reinforcement It is a first object to provide a joint structure of the concrete reinforcing rods which can prevent the phenomenon of change so that the rigidity of the end of the concrete reinforcing rods is increased as much as possible and the risk of breakage of the end is minimized.

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 the end structure of the concrete reinforcing rods according to the third 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 cross-sectional view taken along the line A-A of FIG.

Figure 6 is a block diagram showing the processing sequence for the end of the concrete reinforcing rods according to the present invention.

<Explanation of symbols for the main parts of the drawings>

51: concrete reinforcing rod 52: protrusion

55: reinforcement 61: coupler

The joint structure of the concrete reinforcing rods according to the present invention for achieving the above object, the end of the concrete reinforcing rods having a circular cross section is formed to be inclined in a conical shape and the thread is formed on the end of the conical shape so that the end is screwed to the coupler In the joint structure of the concrete reinforcing rods connected to the concrete reinforcing rods, the concrete reinforcing rods are formed in an annular protrusion in a direction orthogonal to the central axis of the reinforcing rods at the boundary between the portions where the threads are formed and the portions where the threads are not formed. From the highest point of the projection to the end of the reinforcing rod is characterized in that the thread is formed by cutting the cone.

In addition, an additional feature of the present invention is that the thread of the concrete reinforcing rod is formed by rolling.

The present invention configured as described above, by overcoming the notch phenomenon that the cross-sectional area of the end is reduced by the first screw bone formed at the end of the concrete reinforcing rods, the phenomenon of changing the intrinsic properties and structure of the reinforcement by excessive external force is prevented The rigidity of the end of the reinforcing rod is increased to the maximum, the concrete reinforcing rods are connected to each other by a simple rotation of the coupler has the advantage of simplifying the joint work of the concrete reinforcing rods through the coupler.

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 cross-sectional view of the line AA of Figure 4, Figure 6 is a configuration diagram showing the processing sequence for the end of the concrete reinforcing rods according to the present invention to be.

4 to 6, the joint structure of the concrete reinforcing rods according to the present invention is the end of the concrete reinforcing rods 51 having a circular cross-section is formed to be inclined conical, the thread 53 is formed at the end of the conical The reinforcing rod 51 is connected to the ends of the other concrete reinforcing rods 51 'by a threaded coupler 61, and the reinforcing rods 51 are formed at the portion where the thread 53 is formed and the boundary portion at which the thread 53 is not formed. An annular protrusion 52 is formed to protrude outward from the outer circumferential surface of the reinforcing rod 51 in a direction orthogonal to the central axis of the reinforcing rod 51, and then ends of the reinforcing rod from the highest point of the protrusion 52. The cutting edge is cut in a conical shape to form a thread 53.

In addition, the thread 53 of the concrete reinforcing rod 51 may be processed by cutting or rolling, in order to increase the tensile force of the end of the concrete reinforcing rod 51, the thread 53 ) Is preferable.

In addition, the outer circumferential surface of the concrete reinforcing bar 51 is provided with a reinforcing bar 55 for reinforcing the rigidity of the concrete reinforcing bar 51 itself, the reinforcing bar 55 is shown in Figures 4 and 5 The concrete reinforcing rods 51 are formed long in the longitudinal direction of the concrete reinforcing rods 51 and are connected to the two vertical reinforcing ribs 57 respectively installed in opposite directions, and the respective vertical reinforcing ribs 57 are formed. Consists of a plurality of horizontal reinforcing ribs (59) provided along the perimeter of.

Here, 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 to form a zigzag shape with each other as shown in FIGS. 4 and 5, and may be formed at the same positions to form a single ring shape, although not shown in the drawing. .

The processing operation of the concrete reinforcing rod 51 as described above with reference to Figure 6 as follows.

First, a ring-shaped protrusion 52 protruding locally along the outer circumferential surface is formed by using upsetting at the end of the concrete reinforcing rod 51 formed in an annular shape and the reinforcing bar 55 is installed on the outer circumferential surface (a).

At this time, the protrusion 52 is formed at the position where the first screw bone of the thread 53 to be formed at the end of the concrete reinforcing rod 51 is processed, the diameter of the first screw bone is the concrete reinforcing rod 51 It is formed larger than the minimum diameter of.

In addition, the protrusion 52 is formed by cold working at room temperature or cold processing at a temperature of about 600 ± 50 ℃.

As such, when the protrusion 52 having the locally expanded cross-sectional area is formed at the end of the concrete reinforcing rod 51, the external force required for processing is significantly reduced than in the conventional case of expanding the cross-sectional area of the end as a whole. That is, if the conventional workability of the end of the concrete reinforcing rod 51 is about 10 to 30%, the workability of the end according to the present invention will be extremely small about 3 to 5%.

Therefore, the first screw bone formed at the end of the concrete reinforcing rod 51 can sufficiently prevent the phenomenon that the intrinsic properties and structure of the reinforcement by excessive external force while sufficiently overcoming the notch phenomenon that the cross-sectional area of the end is reduced. Thus, the rigidity of the end portion is secured as much as possible.

Thereafter, the end of the concrete reinforcing rod 51 is formed to be inclined by cutting from the highest point of the protrusion 52 to the end of the concrete reinforcing rod 51 so as to be conical (b).

Subsequently, a thread 53 is formed on the conical surface formed at the end of the concrete reinforcing rod 51 by rolling. As such, when the thread 53 is formed by using a roll, the thread 53 is not only firm and precise, but also the tensile force at the end is increased.

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 constructed and operated as described above can form a protrusion 52 locally at the end of the concrete reinforcing rod 51, thereby significantly reducing the external force applied to the end. The first screw bone formed at the end of the concrete reinforcing rod 51 can sufficiently overcome the notch phenomenon in which the cross-sectional area of the end is reduced while preventing the phenomenon of reinforcing the intrinsic properties and structure of the reinforcement due to excessive external force. The rigidity of the end of the reinforcing rod 51 is secured to the maximum, there is an advantage that the risk of damage to the end is minimized.

In addition, the present invention has the advantage that the time and effort required for the upsetting process for forming the protrusion 52 at the end of the concrete reinforcing rod 51 is reduced M / H loss is reduced.

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)

In the joint structure of the concrete reinforcing rod which is formed by the end of the concrete reinforcing rod of circular cross section is inclined in a conical shape and the thread is formed in the end of the conical shape is connected to the other concrete reinforcing rod by screwing the end to the coupler, the concrete reinforcing rod is the An annular protrusion is formed in a direction perpendicular to the central axis of the reinforcing rod at the boundary between the portion where the thread is formed and the portion where the thread is not formed, and from the highest point of the protrusion to the end of the reinforcing rod, the cone is cut to form a thread. The joint structure of the concrete reinforcement bar characterized by the above-mentioned. delete delete