KR102056394B1 - Rebar Coupler for Confirmation of fastening - Google Patents

Abstract

The present invention relates to a coupler for connecting reinforcing bars, capable of checking tying. According to the present invention, the coupler for connecting reinforcing bars, capable of checking tying, individually has a clamping unit having a screw thread on the outer circumference on both sides of a cylindrical clamping body integrally formed. The clamping unit is individually connected to a sleeve having the screw thread on the inner circumference so that a pair of reinforcing bars inserted into the clamping unit is connected to each other. The cylindrical clamping body has a neck unit having a relatively small diameter on the both sides of a center unit having the widest diameter. The clamping unit in which the diameter becomes gradually narrower is formed on the outer side of the neck unit, and the diameter of a waveform screw thread is reduced. The center unit of the cylindrical clamping body, the neck unit, and the clamping unit are integrally formed by using a thin plate-shaped metal material. The waveform screw thread formed on the inner circumference of the sleeve has the diameter corresponding to the waveform screw thread on an end of the clamping unit, and the diameter of the center unit is expanded in screw connection. Therefore, the coupler for connecting reinforcing bars, capable of checking tying, enables a user to directly and visually check whether a predetermined clamping force required to connect the reinforcing bars to each other is applied.

Description

Rebar Coupler for Confirmation of fastening}

The present invention relates to a coupler for connecting the reinforcing bar can be confirmed in more detail, and more specifically, both sides of the outer peripheral surface of the cylindrical tightening body formed of a thin metal material is formed with a screw thread is formed integrally formed so that the diameter gradually narrowed toward the outside And a sleeve in which a thread having a constant diameter thread is screwed to the tightening part to press-bond the reinforcing bars through the deformation of the tightening part. will be.

In general, a large amount of reinforcing bars are used to reinforce the tensile stress of concrete, which is used as a compressive material. Since the reinforcing bar is limited to a certain length or less in the production process, various methods for binding the reinforcing bars in the longitudinal direction have been proposed to reinforce continuous bars.

The most basic method of binding reinforcing bars includes overlapping joints which overlap each other by overlapping reinforcing bars and winding the binding lines such as wires in a plurality of places. However, the overlapping joint is limited to the reinforcement joint of small diameter, there was a problem that the joint is separated by the concrete placing or the work load.

Alternatively, there is a gas pressure welding method in which cross sections of the reinforcing bars are heated with a flame or the like and mechanically pressurized to join each other. However, the gas welding method is sensitive to climatic conditions, and the operator's function has a great influence on the quality, which makes it difficult to expect homogeneity and constructability.

As another connection method, there is a method of performing a tapping process for forming a thread on a reinforcing bar, and for binding a thread formed at the end of a pair of reinforcing bars using a coupler having a female thread. However, such a screw joint has a limit that a loss occurs in the cross section of the rebar, a lot of time and cost in tapping.

In recent years, a number of products have been proposed that are manufactured to pressurize the reinforcing bar effectively in the coupler itself even without additional processing.

Related prior art documents are Republic of Korea Patent No. 10-1570867 "High Strength One Touch Rebar Coupler" (2015. 11. 16. Registered, referred to as 'prior art document 1'). The prior art document 1 is inserted into the reinforcing bar through the both sides of the hollow portion of the coupler body as shown in Figure 1a, the first and second tightening unit is provided on both sides of the inner peripheral surface of the coupler body is coupled to the coupler body and the tightening unit It is proposed to pressurize the reinforcing bar by applying a pressing force inwardly by the inclined portion formed in the tightening unit according to the screw coupling of.

The prior art document 1 was able to effectively bind the rebar based on the screw binding of the coupler itself, but it is difficult to visually check whether or not a secure fastening force is secured, the number and shape of the parts are complex, low productivity, There was a problem that mechanical defects are likely to occur.

In another prior art document, Korean Patent Registration No. 10-1918014, which is a pre-registered invention of the applicant, discloses "Coupling coupler device for reinforcing bar connection using a sleeve having a tapered female thread and a method of reinforcing bars using the same" (2018. 11. 07. 2018.) (Hereinafter referred to as 'prior art document 2') has been proposed. The prior art document 2, as shown in Figure 1b to bind the reinforcement based on the screw binding of the coupler itself, but when a predetermined torque is applied to the liquid capsule to be ejected so that it is possible to visually check whether sufficient tightening occurred. .

However, the prior art document 2 also has a low productivity due to the combination of the number of appendages, which is likely to cause mechanical defects, the torque value applied to the liquid capsule is not constant, there was a limit that is difficult to secure accurate tightening force.

The present invention has been made to solve the above problems, it can be visually confirmed whether a predetermined tightening force required to interconnect the reinforcing bar is applied, and can increase the productivity by simplifying the number and shape of parts, the overall coupler The purpose of the present invention is to provide a coupler for reinforcing bar connections that can be secured by forming a thin thickness and ensuring sufficient coating thickness, and preventing loosening under mechanical vibration loads, thereby ensuring a stable tightening force.

In order to solve the above technical problem, the coupler (RC) for reinforcing connection of the present invention, which can be confirmed with the tightness of the present invention, has a tightening portion (13) having threads (13a) formed on both outer peripheral surfaces of the cylindrical tightening body (10) integrally formed. Respectively provided, the fastening part 13 is coupled to each other by a pair of reinforcing bars (R) inserted into the fastening part 13 is coupled to the sleeve 20 is formed with a thread 21 formed on the inner peripheral surface, the cylinder The type tightening body 10 has a neck portion 12 having a relatively small diameter formed on both sides of the central portion 11 having the widest diameter, and is gradually tightened to the outside of the neck portion 12. A recess 13 is formed to reduce the diameter of the corrugated thread 13a, but the central portion 11, the neck portion 12, and the tightening portion 13 of the cylindrical tightening body 10 are integrally formed using a thin metal material. Is formed in, the tightening portion 13 to be radially spaced apart a predetermined interval A plurality of divided slits 13b are formed in this direction to provide a plurality of divided pieces 13c, and the outer peripheral portion of the inner circumferential surface of the tightening portion 13 has a waveform 16a having a shape corresponding to the thread 13a. It is provided with a thin plate-shaped pressing sleeve 16 is gradually narrowed toward the outside, the outer end of the pressing sleeve 16 is located inward of the outer end of the tightening portion 13, a plurality in the longitudinal direction so as to be spaced radially spaced apart Divided slits 16b are formed to provide a plurality of divided pieces 16c, and the corrugated thread 21 formed on the inner circumferential surface of the sleeve 20 is formed on the corrugated thread 13a at the end side of the tightening part 13. It is formed to have a corresponding diameter so that the diameter of the central portion 11 is expanded and deformed when screwing the sleeve 20, the outer end of the tightening portion 13 leverages the end of the pressing sleeve 16 as a lever To be deformed outwardly It shall be.

In addition, the neck portion 12 of the cylindrical tightening body 10 is expanded to the outside again, the stepped portion 14 is provided with a tightening portion gradually narrowed toward the outside of the stepped portion 14 ( 13) is formed, the neck portion 12 is provided with a ring-shaped liquid capsule 15 is a liquid may be ejected when a certain torque is reached by screwing the sleeve 20.

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In addition, a fracture groove 13d is formed at an inner circumferential surface or an outer circumferential surface of the tightening portion 13 at a position corresponding to an outer end of the pressing sleeve 16 so that the screwing portion of the tightening portion 13 is screwed into the sleeve 20. The outer end can be broken apart by the breaking groove 13d.

According to the reinforcing bar connecting coupler (RC) of the present invention, the cylindrical tightening body is made of a thin metal material, and the sleeve is screwed to the tightening part of the cylindrical tightening body, so that the diameter of the center portion is expanded and deformed. It can be directly confirmed by the naked eye whether a predetermined tightening force required for interconnection is applied.

In addition, since the central portion, the neck portion and the tightening portion of the cylindrical tightening body are integrally formed using a thin metal material, the number and shape of the parts may be simplified to increase productivity.

Furthermore, since the thin plate-like metal is used, the thickness of the entire coupler may be formed to be thin, thereby ensuring a sufficient concrete coating thickness during subsequent construction.

In addition, the neck portion of the cylindrical tightening body is provided with a ring-shaped liquid capsule is reached when a certain torque by the screw coupling of the sleeve there is an effect that the additional tightness can be confirmed by ejecting the liquid.

In addition, once the fastening is made by screwing the sleeve, the shape of the tightening unit is irreversibly deformed to exhibit a strong tightening force, there is an advantage that the loosening is prevented even in mechanical vibration load.

In addition, since the inner circumferential surface of the tightening part may be provided with a thin plate-type sleeve, it is possible to expect a more robust mechanical coupling in connecting the reinforcing bar.

And according to the embodiment by forming an annular fracture groove in the tightening part to induce breakage of the tightening part, there is an advantage that can be confirmed additional tightening by tightening.

Figure 1a and 1b is a cross-sectional view showing a coupler for reinforcing bars of the prior art documents.
Figure 2 is an exploded perspective view showing a coupler for connecting bars according to an embodiment of the present invention.
Figure 3 is a perspective view showing a coupler for connecting bars according to an embodiment of the present invention.
4A and 4B are cross-sectional views illustrating before and after binding of a coupler for connecting reinforcing bars according to an embodiment of the present invention.
Figure 5 is a cross-sectional view showing a fracture process of the coupler for connecting bars according to another embodiment of the present invention.

Hereinafter will be described in detail with reference to the accompanying drawings, a preferred embodiment of the coupler (RC) for reinforcing bar connection can be confirmed in the present invention.

As shown in FIGS. 2 and 3, the coupler RC for connecting the reinforcement of the present invention can be connected to each other to bind a pair of reinforcing bars R arranged in the longitudinal direction, and are formed in a cylindrical shape. The sleeve 20 is screwed to both sides of the tightening body 10 to mutually bind the reinforcing bars R inserted into both sides of the tightening body 10.

Rebar coupler (RC) of the present invention is also provided with a fastening portion 13, each of which has a thread (13a) formed on both outer peripheral surfaces of the cylindrical tightening body (10) integrally formed as in the conventional coupler, the tightening portion ( 13 is coupled to each of the sleeve (20) formed with the thread 21 on the inner circumferential surface to connect a pair of reinforcing bars (R) inserted into the tightening portion (13).

However, in the reinforcing bar coupler RC of the present invention, the central portion 11, the neck portion 12, and the tightening portion 13 constituting the cylindrical tightening body 10 are integrally formed using a thin plate-like metal material. . Specifically, the cylindrical tightening body 10 has a relatively small neck portion 12 formed on both sides of the central portion 11 having the widest diameter, and gradually outwardly of the neck portion 12. This narrowing fastening part 13 is formed.

Accordingly, the cylindrical tightening body 10 is integrally formed in a cylindrical shape of a thin thin plate-shaped metal material as a whole, but by partially changing the diameter thereof, the central portion 11, the neck portion 12, and the tightening portion 13. Is prepared.

Thus, the central portion 11, the neck portion 12 and the tightening portion 13 of the cylindrical tightening body 10 is formed integrally by using a thin metal material, so even in producing a product by simplifying the number and shape of parts. Productivity can be increased.

The sheet metal material may be made of a metal material of about 0.5 to 1 mm and may be made of galvanized steel, and may be formed in a plate shape so that its shape may be deformed when an external force of a predetermined size or more is applied.

On the other hand, the screw thread formed in the tightening portion 13 of the cylindrical tightening body 10 is formed of a corrugated screw thread 13a having a predetermined curvature, and the tightening portion 13 is also formed of a thin plate-like metal material, so Not only the thread 13a is formed but also the corrugated structure of the same shape is formed in the inner peripheral surface.

At this time, since the tightening portion 13 is formed in a shape that gradually decreases in diameter toward the outside, the diameter of the corrugated screw thread 13a also has a tapered cross section that is reduced as a whole.

In addition, the thread formed on the inner circumferential surface of the sleeve 20 is also made of a corrugated thread 21 having a corresponding shape similarly to the corrugated thread 13a of the tightening part 13. However, the inner circumferential surface of the sleeve 20 is formed to have a constant diameter, the corrugated thread 21 is formed to have a diameter corresponding to the corrugated thread 13a of the outer end of the tightening portion (13).

Therefore, as the sleeve 20 is screwed into the corrugated thread 13a of the tightening part 13 via the corrugated thread 21 having a constant diameter, the tightening part 13 is fastened to the inside thereof. 20 is elastically deformed to a shape corresponding to the inner circumferential surface, and when the sleeve 20 reaches the central portion 11 by being fastened for a predetermined time, the diameter of the central portion 11 is gradually expanded and deformed by a fastening force, and the tightening portion Rather, 13 is dependent on the inner circumferential surface diameter of the sleeve 20 and presses the reinforcing bars R toward the center, thereby achieving tightness.

At this time, the reinforcing bars (R) is irreversibly deformed so that the diameter of the central portion (11) is expanded due to the characteristics of the tightening body (10) made of a thin metal material in the process of being pressed and tightened by the cylindrical tightening body (10), There is an advantage that can be confirmed directly with the naked eye whether a predetermined tightening force required to interconnect the.

In addition, since the waveform of the shape corresponding to the corrugated screw thread 13a is formed on the inner circumferential surface of the tightening portion 13, a more secure fastening can be expected by further increasing the frictional force with the rib formed on the outer circumferential surface of the reinforcing bar R. .

Furthermore, the reinforcing connection coupler (RC) capable of confirming the tightness of the present invention uses a thin plate-like metal material, so that the overall thickness of the coupler is made thin so that the additional concrete can be secured at the time of placing concrete. Exerted.

On the other hand, the neck portion 12 of the cylindrical tightening body 10 may be provided with a stepped portion 14 by expanding the diameter again to the outside. At this time, the tightening portion 13 is formed to gradually narrow the diameter toward the outer side from the outer end of the step portion (14).

The stepped portion 14 may be deformed to gradually decrease in diameter when the sleeve 20 is fastened according to the shape thereof, or may be deformed to expand in diameter. In detail, when the shape of the step portion 14 is formed to have a gentle inclination, as the sleeve 20 is fastened inward, the tightening portion 13 is gradually deformed in the direction of decreasing diameter, and The stepped portion 14 also has a gradual deformation in a direction of decreasing diameter, but when the shape of the stepped portion 14 is formed to have a steep inclination, as the sleeve 20 is fastened inwardly, the fastening portion (13) also a gradual deformation can be made in the direction in which the diameter extends.

However, when the step portion 14 is formed, a predetermined groove is formed in the neck portion 12, and a ring-shaped liquid capsule 15 is provided to reach a predetermined torque by screwing the sleeve 20. If the liquid can be produced to be ejected.

At this time, the stepped portion 14 may be reduced in diameter according to the inclination according to the shape of the stepped portion 14 such that the sleeve 20 may directly contact the liquid capsule 15, and the stepped portion 14 may have a diameter. As it expands, the stepped portion 14 may directly press the liquid capsule 15. As a result, it is possible to check the tightness through expansion and deformation of the central portion of the cylindrical tightening body as well as to check the tightness through the liquid ejection of the liquid capsule 15.

On the other hand, the tightening portion 13 of the cylindrical tightening body 10 may be provided with a plurality of split pieces 13c by forming a plurality of split slits 13b in the longitudinal direction so as to be spaced apart at regular intervals radially.

When the tightening part 13 is formed in an integral cylinder structure, the shape deformation may not be smoothly performed by the fastening of the sleeve 20, but the plurality of split pieces 13c are formed by the split slit 13b. When provided, since the elastic deformation may be made more smoothly according to the fastening of the sleeve 20, it is possible to more effectively press-fix the rebar R provided on the inner circumferential surface.

In addition, as shown in FIG. 4A, the inner circumferential surface of the tightening portion 13 of the cylindrical tightening body 10 gradually decreases in diameter toward the outside to have a waveform 16a having a shape corresponding to the thread 13a. A thin pressurized sleeve 16 may be provided.

The pressure sleeve 16 is to be further modified in addition to the deformation of the tightening portion 13, so as to secure a more robust mechanical coupling in connecting a large diameter reinforcing bar (R) that is not secure enough fastening force only by the thin plate-shaped tightening portion (13) Function. That is, like the tightening portion 13, the shape of the pressing sleeve 16 is also irreversibly deformed to exhibit a strong tightening force, so there is an advantage that the loosening is prevented even in the mechanical vibration load.

Therefore, the pressure sleeve 16 is also preferably made of a thin plate-like structure, it can be made of a metal or synthetic resin material of about 0.5 to 1 mm.

In particular, as shown in FIG. 4B, the pressing sleeve 16 has a waveform 16a formed in a shape corresponding to the corrugated thread 13a of the tightening part 13, and is uniformly fastened by the sleeve 20. In this case, the shape of the corrugated screw thread 13a and the corrugation 16a is organically deformed to ensure a more secure fastening force.

In this case, similarly to the tightening part 13, the plurality of divided slits 16b are formed in the longitudinal direction so that the plurality of divided pieces 16c are provided in the pressing sleeve 16, so that the sleeve 20 is provided. Elastic deformation can be made more smoothly according to the fastening of the) can be more effectively pressure-fixed rebar (R) provided on the inner peripheral surface.

On the other hand, as shown in Figure 5 the outer end of the pressing sleeve 16 is located inside the outer end of the tightening portion 13, the inner circumferential surface or outer peripheral surface of the tightening portion 13 of the pressing sleeve 16 Breaking groove 13d may be formed at a position corresponding to the outer end.

As the tightening portion 13 is formed to increase inward diameter, the sleeve 20 is pressed inward to gradually correspond to the diameter of the sleeve 20 when screwing, and in the process, the tightening portion 13 ), The outer end of the force is generated to force the outer end of the pressing sleeve 16 to leverage.

Accordingly, as the break groove 13d formed on the inner circumferential surface or the outer circumferential surface of the tightening portion 13 naturally breaks, the outer end of the tightening portion 13 may be separated and broken, and the breakage of the tightening portion 13 is based on the breakage separation. As a result, it is possible to further confirm the consolidation.

Reinforcing connection coupler (RC) capable of confirming the connection according to the present invention described above will be carried out in other specific forms without changing the technical spirit or essential features of the present invention by those skilled in the art to which the present invention pertains. I can understand that you can.

Therefore, the above-described embodiments are to be understood in all respects as illustrative and not restrictive, and the scope of the present invention is indicated by the appended claims rather than the foregoing detailed description, and the meaning and scope of the claims are as follows. And all changes or modifications derived from the equivalent concept should be construed as being included in the scope of the present invention.

RC: Coupler for Rebar Connection
R: Rebar 10: Cylinder type tightening body
11: center 12: neck
13: Tightening part 13a: Corrugated thread
13b: Split slit 13c: Split
14: step 15: liquid capsule
16: Pressure sleeve 16a: waveform
16b: Split slit 16c: Split
20: sleeve 21: waveform thread

Claims (6)

Tightening portions 13 having threaded portions 13a are provided on both outer circumferential surfaces of the integrally formed cylindrical tightening body 10, and the sleeves 20 having threaded portions 21 formed on the inner circumferential surfaces of the tightening portion 13 are provided. In the coupler (RC) for reinforcing bar connecting each pair of reinforcing bars (R) inserted into the tightening portion 13, respectively coupled to each other,
The cylindrical tightening body 10 has a relatively small neck portion 12 is formed on both sides of the central portion (11) having the widest diameter, the diameter gradually narrowed to the outside of the neck portion 12 The tightening portion 13 is formed to reduce the diameter of the corrugated thread 13a, but the center portion 11, the neck portion 12 and the tightening portion 13 of the cylindrical tightening body 10 are made of a thin metal material. Are formed integrally with each other, and the tightening part 13 is provided with a plurality of split slits 13b in the longitudinal direction to be radially spaced apart at regular intervals, and a plurality of split pieces 13c are provided.
The inner circumferential surface of the tightening portion 13 is provided with a plate-shaped pressure sleeve 16 which gradually decreases in diameter toward the outside so as to have a wave shape 16a having a shape corresponding to the thread 13a. The outer end is located inward of the outer end of the tightening portion 13, a plurality of divided slits 16b are formed in the longitudinal direction so as to be spaced apart at regular intervals in a radial direction, and a plurality of divided pieces 16c are provided.
The corrugated thread 21 formed on the inner circumferential surface of the sleeve 20 is formed to have a diameter corresponding to the end-side corrugated thread 13a of the tightening part 13 so that the center portion (when screwing the sleeve 20 is coupled) The diameter of 11) is expanded and deformed, the coupler for reinforcing reinforcement connection is characterized in that the outer end of the tightening portion (13) is deformed to open out using the end of the pressing sleeve (16) as a lever.
The method of claim 1,
The neck portion 12 of the cylindrical tightening body 10 is expanded to the outside again the step portion 14 is provided with a step portion 14 is gradually tightened toward the outside of the step portion 14, the tightening portion 13 Is formed, the neck portion 12 is provided with a ring-shaped liquid capsule 15 is connected to the coupler for reinforcing the reinforcement can be confirmed, characterized in that the liquid is ejected when a certain torque is reached by screwing the sleeve 20 .
delete delete delete The method of claim 1,
An inner circumferential surface or outer circumferential surface of the tightening portion 13 is formed with a fracture groove 13d at a position corresponding to the outer end of the pressing sleeve 16, so that the outer side of the tightening portion 13 when screwing the sleeve 20. Coupler for reinforcing reinforcing connections can be confirmed, characterized in that the end is broken by the break groove (13d).

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