KR101227015B1 - Reinforcing rod a coupling device - Google Patents

Abstract

PURPOSE: A steel reinforcement connection device is provided to connect steel reinforcements, to improve user convenience and the quality of a construction, and to prevent a safety accident by falling. CONSTITUTION: A steel reinforcement connection device(100) comprises a piece unit(150) and an outer container(160). The piece unit has a pair of steel reinforcements mounted in parallel with each other and a protrusion reception part(152), a hanging protrusion part(154), a falling prevention part and an escape groove. The protrusion reception parts are formed on the mutually faced surfaces to accommodate the articular protrusions(F') of a steel reinforcement(F). The hanging protrusion part is inserted into the inside of the outer container to be combined with one side of the outer container. The falling prevention part limits the longitudinal direction movement of the steel reinforcement when the steel reinforcement is mounted in the protrusion reception part. The escape groove forms the certain size of a space not to interfere the steel reinforcement mounted in the protrusion reception part. The outer container accommodates the piece on which a pair of steel reinforcements are mounted to interfere one end of the piece and to pressurize a pair of steel reinforcements for restriction.

Description

Reinforcing rod a coupling device}

The present invention relates to a reinforcing bar connector and a method for connecting a reinforcing bar using the same, and more particularly, it is possible to connect the reinforcing bar only by inserting a pair of rebars on both sides in parallel to the inside of the outer cylinder, thereby improving convenience of use. The present invention relates to a reinforcing bar connector and a method of connecting reinforcing bars using the same, thereby simplifying the number of components to reduce manufacturing costs.

The general reinforced concrete structure is constructed to integrate each of the advantages and disadvantages of the reinforcement and concrete to complement each other, it is a structure to be able to resist the external force by placing the reinforcement in the portion where the tensile stress acts.

That is, concrete has a weak resistance to tensile stress, that is, tensile strength, compared to the resistance to pressure and strength, so that even a slight tensile stress causes cracking and destruction. Therefore, when an external force acts on the reinforced concrete structure, the pressure stress acts on the concrete and the tensile stress acts on the reinforcement, thereby improving durability.

In recent years, the length of reinforcing bars in the concrete is relatively extended due to the increase in size and height of reinforced concrete structures. It is essential to connect the bars to each other.

On the other hand, the connection operation is carried out in a variety of ways, such as overlapping two bars and then tied to connect the reinforcing bars, gas pressure welding, and mechanical joints.

However, since the lap joint is inferior in durability, there is a risk in applying it when the structure is high, and thus there is a problem in that the length of the overlap is increased.

In addition, as the amount of the super high strength rebar is increased, the overlapped portion is not preferable because it will cause a loss of material.

Gas pressure points are not safe due to cracking due to thermal deformation of the heated part.

Therefore, in recent years, the durability of the above-mentioned joints and gas welding is secured and mechanical joints which are easy to construct are mainly used. Reinforcing bar connections, which are representative examples of mechanical joints, have been developed and researched in various ways. to be.

Hereinafter, with reference to the accompanying drawings the configuration of the reinforcing bar connection device according to the prior art.

1 is an exploded perspective view showing an internal configuration of a rebar connecting device according to the prior art, Figure 2 is a longitudinal cross-sectional view showing a state of connecting the reinforcing bars using the rebar connecting device according to the prior art.

Before briefly explaining the configuration of the reinforcing bar prior to the configuration of the reinforcing bar connecting device according to the prior art, the reinforcing bar 1, as shown in FIG.

The nodule 1 'is for improving the binding force between the concrete and the reinforcing bar 1, and the shape and separation distance are different for each company manufacturing the reinforcing bar 1. That is, the bar protrusion 1 'includes a reinforcing bar 1 having a zigzag shape, or a type having an outer circumferential surface as shown in FIG.

Therefore, the reinforcing bar connection device 10 according to the prior art performs the connection operation by applying the reinforcing bar connection device 10 according to the distance and shape of the nodal projection (1 ').

On the other hand, the reinforcing bar 10 is a plurality of parts are coupled to each other as shown in Figure 1 can perform a role.

That is, the reinforcing bar connection device 10 is a guide coupler 20 for guiding the reinforcing bar (1) to be inserted in both directions, the male screw 22 is processed on the outer circumferential surface and the inside of the reinforcing bar (1) Covering the outer circumferential surface so that the inner surface interferes with the nodal projection (1 ') to accommodate the restraint coupler (30), which restrains the flow of the reinforcing bar 1, and the restraint coupler (30) therein and the restraint coupler (30) and Screw coupled is configured to include a cutting piece 40 for generating a pressure in the direction of the center of the restraint coupler (30).

The guide coupler 20 is configured to guide the reinforcing bars 1 to be placed on the same vertical line by accommodating the reinforcing bars 1 therein. Specifically, it is punched to have an inner diameter that is slightly larger than the outer diameter of the reinforcing bar 1 including the protruding height of the nodal protrusion 1 '.

Therefore, inside the guide coupler 20, the rebar 1 can be inserted in both directions as shown in FIG.

In addition, the above-mentioned external thread is processed and screwed to a pitch corresponding to the internal thread 42 formed in the cut piece 40, and the combination of the internal thread 42 and the external thread 22 is performed. The cut piece 40 is restricted from the guide coupler 20 is separated.

The restraint coupler 30 is provided at left and right sides of the guide coupler 20. The restraint coupler 30 is configured in pairs on the left and right sides of the guide coupler 20 and has a trapezoidal longitudinal section as shown in FIG.

More specifically, the upper surface of the restraint coupler 30 is formed to be inclined in one direction, and the receiving space 32 corresponding to the outer shape of the reinforcing bar 1 is recessed. Therefore, when the restraining coupler 30 is in contact with the outer circumferential surface of the reinforcing bar 1, the receiving space 32 wraps around the outer circumferential surface of the reinforcing bar 1 so that the restraining coupler 30 is formed on the outer circumferential surface of the bar 1 The flow is constrained in the left and right directions.

On the other hand, the cutting piece 40 is coupled to the left and right sides of the guide coupler 20 in a state in which the restraint coupler 30 is accommodated therein, and is configured to generate pressure in the center direction of the restraint coupler 30.

That is, the interference portion 44 is formed inside the cut piece 40 in a shape corresponding to the inclined appearance of the restraint coupler 30. The interference portion 44 has a length corresponding to the length of the restraint coupler 30.

Therefore, the reinforcing bar 1 is inserted into the cut piece 40 so that the end of the reinforcing bar 1 is exposed to the outside of the cut piece 40, and then the restraint coupler 30 is seated on the outer circumferential surface of the reinforcing bar 1. When the reinforcing bar 1 is pulled in the opposite direction to the insertion state, the inclined outer surface of the restraining coupler 30 is in surface contact with the interference part 44, so that the one-way flow of the reinforcing bar 1 is restricted.

As described above, when the cutting piece 40 is rotated to screw the female screw 42 and the male screw 22 of the guide coupler 20 to each other, the left and right ends of the guide coupler 20 have the restraining coupler ( A pressure in the outward direction is applied to the opposing surface of 30, and at the same time, the outer surface of the restraint coupler 30 receives a pressure in the center direction from the interference portion 44.

However, the rebar connection device according to the prior art having the configuration as described above has the following problems.

That is, since the reinforcing bar connection device 10 is composed of a plurality of parts, the process of connecting a pair of reinforcing bar (1) is complicated, the construction is not easy, it is not preferable because the time to be connected is long.

In addition, the restraining coupler 30 is in contact with the inner circumferential surface of the cutting piece 40 is subjected to a pressure in the center direction. Therefore, when the cutting piece 40 is rotated even in the opposite direction of the fastening, the reinforcing bar 1 has a problem that the restraining force is terminated.

In addition, when the reinforcing bar connection device 10 is disassembled due to the above problems, it is not preferable because a risk of safety accident occurs.

Meanwhile, the conventional reinforcing bar joint disclosed in Korean Patent Registration No. 1036594 and Korean Patent Registration No. 0650376 also includes a large number of parts, thereby increasing the price of the rebar connector, which takes a lot of time when connecting, Difficulty in managing materials such as loss and damage.

An object of the present invention is to solve the above problems, and more specifically, it is configured to enable the connection of the reinforcement only by inserting the inside of the outer cylinder in a state in which a pair of rebars in parallel on both sides to improve the ease of use The present invention provides a reinforcing bar connector and a reinforcing bar connection method using the same.

Another object of the present invention is to provide a reinforcing bar connector designed to reduce the manufacturing cost by simplifying the number of components, and to minimize the overlapping length of the reinforcing bar so that economic efficiency is improved.

Still another object of the present invention is to provide a reinforcing bar connector and a reinforcing bar connection method using the same by providing a drop preventing unit for preventing falling when connecting a pair of reinforcing bars upright.

Another object of the present invention, after connecting a pair of reinforcing bar through the fastening force check unit configured to check the coupling state and the bonding strength with the naked eye to improve the construction quality and reinforcing bar connection method using the same It is to offer.

Reinforcing bar connector according to the present invention, the projection receiving portion for accommodating the reinforcing bar of the reinforcing bar on the surface facing each other is formed in which the pair of rebar is seated in parallel, and the pair on which the pair of rebar is seated at the same time It is characterized in that it is configured to include an outer cylinder that is accommodated inside in one direction to interfere with one side of the knitting body, and presses and restrains a pair of reinforcing bars.

The knitting body is characterized in that it has an asymmetrical shape with respect to the center of each of the length and width.

The protrusion accommodating part may be formed in a plurality of recesses in the upper and lower parts, and the plurality of the protrusion accommodating parts may be positioned on different vertical lines.

One side of the knitting body, characterized in that the locking projections for engaging with one side of the outer cylinder when the inner cylinder is inserted.

Both ends of the piece, characterized in that the projection receiving portion is provided with a drop preventing portion for limiting the longitudinal movement of the reinforcing bar when the rebar is seated, and the escape groove formed recessed to allow the rest of the reinforcing bar.

One side of the knitting body, characterized in that the fastening force confirmation unit for measuring the coupling degree of the outer cylinder and the knitting body is provided.

One side of the outer cylinder, characterized in that provided with an elastic restraining portion engaging with the locking projection by the elastic restoring force.

One side of the outer cylinder, characterized in that provided with a reinforcement for protruding outward to reinforce the strength of the outer cylinder.

The drop preventing portion and the locking projection is characterized in that formed integrally on the knitting body.

Reinforcing bar connection method using a reinforcing bar connector according to the present invention, the width of the knitting body is characterized in that it corresponds to the width of the receiving space of the outer cylinder. Reinforcing step of seating a pair of rebar in parallel on both sides of the knitting formed in the projection receiving portion for receiving the reinforcing bar projection of the rebar on the surface facing each other, and the pair of the reinforcing bar connecting the pair of the reinforcing bar The outer cylinder coupling step of accommodating the inside of the outer cylinder at the same time to interfere with the outer cylinder and one side by pressing the pair of reinforcing bars, and the inspection step to visually check the fastening state through the fastening force check unit formed on one side of the knitted body Characterized in that made.

In the rebar mounting step, the pair of reinforcing bar is characterized in that a part overlap.

The outer cylinder coupling step, the blow process of pressing the one end of the outer cylinder to the inner circumferential surface of the outer cylinder, and the elastic restraint and the engaging projection formed on one side of the outer cylinder and the body is engaged in the opposite direction of the blow Characterized in that the departure prevention process to limit the.

Reinforcing bar connection method using a reinforcing bar connector according to the present invention as described above, it is possible to connect the reinforcing bar only by inserting the inside of the outer cylinder in a state in which a pair of rebar in parallel on both sides.

Therefore, there is an advantage that the rebar connection work is easy.

In addition, since the reinforcing connector according to the present invention is provided with one knitting body and one outer cylinder, the number of components is simplified, easy to store and maintain, and can minimize the overlap length of the reinforcement, thereby reducing the material construction cost can be significantly lower There is an advantage.

In addition, the reinforcing bar connector according to the present invention is provided with a drop preventing unit, so that when the pair of reinforcing bars are connected in an upright state, there is an advantage of preventing a safety accident in advance.

In addition, in the present invention, it is possible to check the coupling state and the bonding strength visually through the fastening force check unit after connecting a pair of reinforcing bar can improve the construction quality, there is an advantage that the construction period can be shortened.

1 is a perspective view showing an appearance configuration of a reinforcing bar connector according to the prior art.
Figure 2 is a use state showing the appearance configuration of the reinforcing bar connector according to the present invention.
Figure 3 is an exploded perspective view showing a detailed configuration of the rebar connector according to the present invention.
Figure 4 is a perspective view of the part showing the configuration of the knitting as one component in the reinforcing connector according to the present invention.
Figure 5 is a longitudinal cross-sectional view showing the internal configuration of the knitted fabric of one configuration in the reinforcing connector according to the present invention.
Figure 6 is a perspective view of the part showing the configuration of the outer cylinder as one configuration in the reinforcing connector according to the present invention.
7 is a process flow chart showing a reinforcing bar connection method using a reinforcing bar connector according to the present invention.
Figure 8 is a flow chart showing in detail the external coupling step of a step in the reinforcing bar connection method using a reinforcing connector according to the present invention.
Figure 9 is a perspective view showing the state at the completion of the reinforcing step of the step in the reinforcing bar connection method using a reinforcing bar connector according to the present invention.
10 is a longitudinal cross-sectional view of FIG. 9;

Hereinafter, with reference to the accompanying drawings the configuration of the reinforcing bar connector according to the present invention will be described in detail.

Prior to this, terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor may appropriately define the concept of the term in order to describe its invention in the best possible way It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely preferred embodiments of the present invention, and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

2 is a state diagram showing the appearance configuration of the reinforcing bar connector according to the present invention, Figure 3 is an exploded perspective view showing a detailed configuration of the reinforcing bar connector according to the present invention.

As shown in these figures, the reinforcing bar connector 100 according to the present invention has a shape in which an approximately elliptical cross section extends by a predetermined length.

In addition, an accommodation space 110 is formed therein so that a portion of the end portion of the reinforcing bars F is overlapped in a spaced apart state, and the outer portion of the reinforcing bars F is coupled to protrude.

In addition, the reinforcing connector 100 is a reinforcing bar only by inserting a pair of reinforcing bars (F) in the upper and lower surfaces of the knitted body (reference numeral 150 of FIG. (F) is configured to complete the connection.

That is, the reinforcing bar connector 100, the projection receiving portion 152 for accommodating the nodal projection (F ') of the reinforcing bars (F) on the surface facing each other is formed in a pair of reinforcing bars (F) in parallel The knitted body 150 to be seated and the pair of reinforcing bars F are simultaneously accommodated therein in one direction, interfering with one side of the knitting body 150, and pressing a pair of reinforcing bars F. It is configured to include an outer cylinder 160 to restrain.

Accordingly, the knitting body 150 is recessed in the upper and lower surfaces so that a pair of reinforcing bars F can be seated, and the knitting body 150 in which the pair of reinforcing bars F is placed in parallel is slightly smaller than the outer cylinder 160. It has a height can be inserted to the left through the right side of the outer cylinder (160).

Hereinafter, a detailed configuration of the knitting body 150 will be described with reference to FIGS. 4 and 5.

Figure 4 is a perspective view of the part showing the configuration of the one-piece knitted fabric in the reinforcing connector according to the present invention, Figure 5 is a longitudinal cross-sectional view showing the internal configuration of the knitted fabric in one configuration in the reinforcing connector according to the present invention. .

As shown in these figures, the knitting body 150 is asymmetrical in the center of the length and height direction, is configured to have a symmetrical shape with respect to the center in the width direction, similar to the manner in which the pair of reinforcing bars (F) To be connected to

That is, the knitted fabric 150 is mounted so that only a part of the pair of reinforcing bars (F) protrude in opposite directions to each other so as to be seated on the upper side and the right end protrudes outward, and the upper side from the upper side. The protrusion accommodating part 152 is provided so that the reinforcing bars F which are seated in the direction and protrude outward from the left end may be seated in parallel with each other.

A plurality of protrusion receiving parts 152 are formed on the upper and lower surfaces of the knitting body 150, and the protrusion receiving parts 152 formed on the upper surface and the protrusion receiving parts 152 formed on the lower surface thereof are different from each other as shown in FIG. It is preferably formed on a vertical line.

This is to prevent the breakage of the knitted fabric 150 due to the shearing force, since the protruding portion 152 is formed on the same vertical line, so that a weakened portion whose thickness is rapidly reduced can be formed.

A locking protrusion 154 is provided on the side surface of the knitting body 150. The locking protrusion 154 is configured to be engaged with one side of the outer cylinder 160 is inserted into the outer cylinder 160 when a pair of reinforcing bars (F) is seated 150, the more toward the right A plurality of protrusions formed obliquely at equal intervals are arranged to allow elastic restraint by the elastic restraining unit (reference numeral 162 of FIG. 6) to be described below.

In addition, the locking protrusion 154 is configured to increase the locking coupling force with the elastic restraint portion 162. That is, the locking protrusion 154 is formed on the lower left front and rear of the knitting body 150, the width of the knitting body 150 is formed to correspond to or slightly smaller than the width of the receiving space 110 of the outer cylinder 160. .

In more detail, the knitted fabric 150 is formed in a flat front / rear surface, and is configured to gradually increase in width toward the right direction.

And, the knitting body 150 is configured to increase in size of the cross-sectional area toward the right direction.

Correspondingly, the receiving space 110 of the outer cylinder 160 is also formed to be wider toward the right side, and is configured to be fitted into a close fitting gradually as the receiving depth for the knitting body 150 deepens.

The fastening force check unit 156 is provided on the front right side of the knitting body 150. The fastening force checking unit 156 is a straight line stamped at a predetermined interval on the outer surface of the knitting body 150, in the state that the coupling with the outer cylinder 160 is completed by counting the number exposed to the outside of the outer cylinder 160 to determine the fastening force. This is to make it possible.

For example, as the number of lines of the fastening force checking unit 156 exposed to the outside of the outer cylinder 160 increases, the fastening force of the knitting body 150 and the outer cylinder 160 decreases, and as the number of lines decreases, the fastening force increases.

On the other hand, the right end of the knitted body 150 is provided with a drop preventing portion 158. The fall prevention portion 158 is configured to limit the one-way movement by selectively contacting the end of the reinforcing bar (F) seated on the projection receiving portion (152).

That is, when the fall prevention unit 158 is intended to connect a pair of reinforcing bars (F) in an upright state, by interfering with the lower end of the reinforcing bars (F) located on the upper side to prevent the fall in the downward direction of the safety accident It is a configuration to eliminate the risk.

Therefore, the lower end portion of the fall prevention portion 158 is preferably formed at a position lower than the protrusion accommodating portion 152 (as seen in FIG. 5).

An escape groove 159 is provided on the left side (as seen in FIG. 5) of the drop preventing unit 158. The escape groove 159 is formed to have a predetermined space so as not to interfere with the reinforcing bar (F) seated on the projection receiving portion 152, is formed to have a shape corresponding to the outer shape of the reinforcing bar (F), nodal projection ( If it is in the range that does not interfere with F ') it can be formed in various recesses.

Hereinafter, a detailed configuration of the outer cylinder 160 will be described with reference to FIG. 6.

The outer cylinder 160 is configured to join two parts having the same shape to have a hollow cylindrical shape, in the embodiment of the present invention, the outer cylinder 160, such as welding a semi-circular hollow parts inside Joined by the method is formed to have a substantially circular cross section.

One side of the outer cylinder 160 is provided with an elastic restraining portion 162 engaging with the locking protrusion 154 by an elastic restoring force. More specifically, the front / rear surface of the outer cylinder 160 is formed to be bent in the inner direction of the outer cylinder 160 after slitting in a substantially "c" shape when viewed from the front to have an elastic restoring force when pushed outward. One elastic restraint portion 162 is provided.

The elastic restraining unit 162 is configured to engage with the above-described locking protrusion 154 so that the knitting body 150 is not separated from the outer cylinder 160 (the opposite direction of the coupling).

That is, the elastic restraint part 162 is in contact with the side surface of the knitting body 150 when the knitting body 150 is inserted into the outer cylinder 160, and the knitting body 150 further enters the left direction. Ride over the locking projection 154.

However, since the elastic restraint part 162 passes over the locking protrusion 154 and is elastically restored to be fitted between the locking protrusion 154, the outer cylinder 160 and the knitting body 150 are not separated from each other. do.

To this end, the elastic restraint part 162 is preferably formed at a height position where the locking protrusion 154 is formed.

A plurality of reinforcement parts 164 are formed on the outer surface of the outer cylinder 160. The reinforcement part 164 is configured to compensate for the bending stress generated in the outer cylinder 160, and is formed to protrude radially by a predetermined height when viewed from the left side of FIG. 6, and corresponds to the length of the outer cylinder 160. It is formed as long as the length.

Hereinafter, a method of connecting a pair of reinforcing bars F using the rebar connector 100 configured as described above with reference to FIGS. 7 to 10 will be described.

7 is a process flowchart showing a reinforcing bar connection method using a reinforcing bar connector according to the present invention, Figure 8 is a flow chart showing in detail the external coupling step, one step in the reinforcing bar connection method using a reinforcing bar connector according to the present invention, Figure 9 FIG. 10 is a perspective view showing a state at the completion of a reinforcing step of seating in a rebar connection method using a rebar connector according to the present invention, and FIG. 10 is a longitudinal cross-sectional view of FIG.

First, as shown in Figure 7, the reinforcing bar connection method using a reinforcing bar connector according to the present invention, the projection receiving portion 152 for receiving the projections (F ') of the reinforcing bars (F) on the surface facing each other formed recessed ( Reinforcing step (S100) for mounting a pair of reinforcing bars (F) in parallel on both sides of the 150 and the pair of reinforcing bars (150) seated on the pair of reinforcing bars (100) At the same time to accommodate the inside of the outer cylinder 160 and interfere with one side of the outer cylinder 160 and the knitting 150, the outer cylinder coupling step (S200) for pressing and fixing a pair of reinforcing bars (F), and one side of the knitting 150 It consists of a check step (S300) for visually confirming the fastening state through the fastening force check unit 156 formed in the.

The reinforcing step (S100) is a process to allow a pair of reinforcing bars (F) in parallel to the upper / lower surface of the knitted fabric 150, as shown in Figure 9, a part overlapped and spaced apart by the knitted fabric 150 to be.

At this time, the nodal protrusion (F ') is inserted into the protrusion receiving portion 152, the rib (F ") of the reinforcing bars (F) is to be placed on the upper / lower end of the knitting body 150. And the reinforcing bar located on the lower side The right end of (F) is located on the left side of the drop preventing unit 158 as shown in FIG.

If the pair of reinforcing bars (F) to be coupled in a standing state, even if the reinforcing bars (F) in the state where the projections (F ') accommodated in the protrusion receiving portion 152 falls by a load prevents the fall The part 158 is in contact with the end of the reinforcing bars (F) to prevent the downward movement to prevent the fall.

After the rebar mounting step (S100) is to perform the outer cylinder coupling step (S200).

In the outer cylinder coupling step (S200) as shown in Figure 9 pushes the outer cylinder 160 in the state accommodated inside the reinforcing bars (F) located on the left in the right direction to a pair of reinforcing bars (F) and knitted body 150 By accommodating at the same time it is a step to apply a pressure to the outer surface of the pair of reinforcing bars (F).

Looking at the outer coupling step (S200) in more detail, as shown in FIG.

That is, the outer cylinder coupling step (S200) is a blow process (S220) for pressing the outer surface of the pair of reinforcing bars (F) to the inner peripheral surface of the outer cylinder 160 by hitting the left end of the outer cylinder 160, and the outer cylinder 160 The elastic member 162 and the locking protrusion 154 formed on one side of the knitting body 150 are coupled to each other to prevent the impact of the movement in the opposite direction, thereby limiting the movement in the opposite direction (S240).

As shown in FIG. 9, the knitted body 150 and the outer cylinder 160 on which a pair of reinforcing bars F are seated are inserted into the outer cylinder 160 in close proximity to each other.

At this time, the outer cylinder 160 is prepared in advance on the outside of the reinforcing bar (F) located on the left side, the operator hits the upper left of the outer cylinder 160 in the right direction by using a tool. )

Therefore, the reinforcing bar (F) of the left side is first penetrated through the outer cylinder 160, and the knitted fabric 150 is inserted into the outer cylinder 160 in a state in which the front / rear surface is in close proximity.

When the locking protrusion 154 meets the elastic restraint 162, the locking protrusion 154 is elastically restored to its original position while riding over the elastic restraint 162, and the pair of reinforcing bars F are The ceiling and the bottom of the receiving space 110 of the outer cylinder 160 is in close contact with each other gradually.

Therefore, the reinforcing bar (F) is subjected to the pressure by the outer cylinder 160 to increase the coupling force, the engaging projection 154 and the elastic restraint portion 162 is engaged with each other as shown in Figure 2 knit 150 And the separation of the outer cylinder 160 will be restricted. (Escape prevention process: S240)

At this time, the worker can measure the tightening force of the outer cylinder 160 and the knitting body 150 through the fastening force check unit 156 protruding to the outside of the outer cylinder 160. (Inspection step: S300)

Through the above process, the pair of reinforcing bars (F) is completed connection.

The scope of the present invention is not limited to the above-described embodiments, and many other modifications based on the present invention will be possible to those skilled in the art within the scope of the present invention.

100. Rebar connector 110. Storage space
150. Flat body 152. Protrusion receiving part
154. Engaging protrusions 156. Tightening force confirmation unit
158. Drop prevention unit 159. Escape groove
160. Outer cylinder 162. Elastic restraint
164. Reinforcement F. rebar
F '. Nodule F ". Rib

Claims (13)

delete delete delete delete A plurality of protrusions are formed on the surfaces facing each other, but are located on different vertical lines to receive the protrusions of the reinforcing bars, and have an asymmetrical shape with respect to the center of each length and width. A single knitting body located in the spaced apart parallel to each other a pair of reinforcement, and the pair of reinforcing bars and the body at the same time in one direction at the same time to engage and engage with one side of the knitting, simultaneously pressing a pair of reinforcement to the inner peripheral surface It consists of a single outer cylinder to restrain the
One side of the knitting body is provided with a locking projection for engaging with one side of the outer cylinder when inserted into the outer cylinder,
Reinforcing bar connector, characterized in that the both ends of the piece, the projection receiving portion is provided with a drop preventing portion for limiting the longitudinal movement of the reinforcing bar when the reinforcing bar is seated, and the recessed groove recessed to allow the rest of the reinforcing bar.
The method of claim 5, wherein one side of the knitted fabric,
Reinforcing bar connector, characterized in that provided with a fastening force check unit for measuring the coupling degree of the outer cylinder and the knitting body.
According to claim 6, On one side of the outer cylinder,
Reinforcing bar connector characterized in that the elastic restraining portion is provided to engage with the locking projection by the elastic restoring force.
According to claim 7, On one side of the outer cylinder,
Reinforcing bar connector characterized in that the reinforcement for protruding to the outside to reinforce the strength of the outer cylinder.
9. The reinforced connector according to claim 8, wherein the drop preventing part and the locking protrusion part are formed integrally with the knitting body.
10. The reinforced connector according to claim 9, wherein the width of the knitting body corresponds to the width of the receiving space of the outer cylinder.
delete delete delete

Images