KR101224018B1 - Sleeve for steel reinforcing connection and prestressed concrete beam - Google Patents

Abstract

PURPOSE: A sleeve for connecting reinforcing bars and a PC beam with the same are provided to prevent the position of the sleeve from being changed when a form to be filled with concrete is installed. CONSTITUTION: A sleeve(30) for connecting reinforcing bars comprises a body(32) and a lock member(34). The body is formed in a pipe shape with open top and bottom and has an injection port(31) and a discharge port(33) arranged in the same direction. The lock member binds the body to maintain the set direction of the injection port and the discharge port and comprises a rib(35) and a strap(37). The rib has a lock hole(36). The strap is inserted into the lock hole and to bind multiple bodies together.

Description

SLEEVE FOR STEEL REINFORCING CONNECTION AND PRESTRESSED CONCRETE BEAM}

The present invention relates to a sleeve for connecting the reinforcing bar and the PC beam having the same, and more particularly, when installing the formwork for the concrete filling by constraining by connecting the sleeve for connecting the reinforcing bars arranged along a certain trajectory inside the PC beam with a strap. The present invention relates to a sleeve for connecting reinforcing bars and a PC beam having the same, which can prevent the sleeve from being changed.

In general, grout-filled reinforcing bars are easy to construct by absorbing the error of the reinforcing bar position, and is also a very effective means for the reinforcing bar joint method of the precast method because of the good adhesion to large diameter reinforcing bars recently used.

Conventionally, a split sleeve for reinforcing bar connections used in grout-filled rebar joints has been developed, and by adopting the force test by adopting the type of filling filling, the length of fixation in the sleeve of the rebar, the cross-sectional area of the splice sleeve, the force method, etc. As a result of evaluating the structural performance, it is confirmed that the structural performance is equivalent to the existing one.

A sleeve for reinforcing bar connections has been proposed in Korean Utility Model Registration No. 20-0193343.

Existing reinforcing bar sleeves may be incorrectly set in the direction of the inlet and outlet according to the movement by hitting the formwork when the formwork is covered after the arrangement along the set trajectory. Therefore, the inlet and outlet of the sleeve is embedded in the concrete structure filled in the formwork, there is a problem that the filling of mortar into the sleeve is difficult.

Therefore, there is a need to improve this.

The present invention has been made in order to improve the above problems, by restraining by connecting the sleeve for connecting the reinforcing bars arranged along a certain trajectory inside the PC beam with a strap to prevent the change of the position of the sleeve when installing the formwork for concrete filling It is an object of the present invention to provide a sleeve for connecting reinforcing bars and a PC beam having the same.

Reinforcing bar connecting sleeve according to the present invention: a tubular shape is opened up and down to connect the reinforcing bar inserted into the upper side and the lower side is arranged in plurality along a set trajectory and provided to face the inlet and outlet in the same direction, respectively along the axial direction And a locking member for engaging the bodies so as to maintain the injection hole and the discharge hole setting direction.

The lock members may be provided with one or more ribs in the circumferential surface of each of the bodies in the axial direction and inserted through the lock holes and inserted into the lock holes at the same height to bind the entire body to the body. And a strap to fix the position.

In addition, the PC beam according to the present invention includes: concrete poured to allow the first communication hole and the second communication hole connected to each of the insertion holes to pass through the up and down communication holes along the set trajectory on the plane Reinforcing bars inserted in each of the insertion holes so that the injection hole provided in the pillar and the circumferential surface thereof coincide with the first communication hole, and the discharge hole coincides with the second communication hole, and the filling liquid is filled therein. Including a sleeve for connecting the reinforcing bar, The reinforcing bar connecting sleeve, the tubular shape is opened up and down to connect the reinforcing bars inserted into the upper side and the lower side is arranged in plurality along the set trajectory and each injection hole along the axial direction And a body provided to face the discharge port in the same direction, and to maintain the injection hole and the discharge hole setting direction of each of the bodies. And a locking member for binding together the DI.

Preferably, the injection hole and the discharge hole have connection pipes, and each of the connection pipes further connects a foam member exposed to the corresponding first communication hole and the second communication hole of the concrete pillar.

The connection pipe is preferably provided with a separation prevention member on the peripheral surface of the portion inserted into the injection port and the discharge port.

The body is preferably provided with an upper cap on the upper side open to fix the inserted rebar.

The body is preferably provided with a lower cap detachable to the lower side.

The lower cap is inserted into the lower side of the body and is detachably inserted and the stopper of the expandable material, the shaft is fixed in the state inserted into the shaft, and the shaft is provided to be eccentrically rotatable to the shaft to press the circumference It includes an eccentric rotary member in close contact with the inside of the lower body by expanding in the plane direction.

As described above, the reinforcing bar sleeve and the PC beam having the same according to the present invention, unlike the prior art by connecting and restraining the reinforcing bar connecting sleeve disposed along a certain trajectory in the interior of the PC beam with a strap to restrain the concrete filling In order to prevent the change of position of the sleeve when installing the formwork.

1 is a longitudinal sectional view of a PC beam having a sleeve for connecting bars according to an embodiment of the present invention.
2 is a cross-sectional view of a PC beam having a sleeve for connecting bars according to an embodiment of the present invention.
3 is a perspective view of the sleeve for connecting the reinforcement in the state restrained by the strap according to an embodiment of the present invention.
4 is an exploded perspective view of a strap and a sleeve for connecting reinforcing bars according to an exemplary embodiment of the present invention.
5 is a cross-sectional view of a sleeve for connecting reinforcing bars according to an embodiment of the present invention.
6 is a cross-sectional view of a connection pipe connected to a sleeve for connecting reinforcing bars according to an embodiment of the present invention.
Figure 7 is a cross-sectional view of the upper cap provided in the sleeve for connecting reinforcing bars according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the sleeve for connecting the reinforcing bar and the PC beam having the same. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

1 is a longitudinal sectional view of a PC beam having a reinforcing bar sleeve according to an embodiment of the present invention, Figure 2 is a cross-sectional view of a PC beam having a reinforcing bar sleeve according to an embodiment of the present invention.

3 is a perspective view of the sleeve for connecting the reinforcing bar in the state restrained by the strap according to an embodiment of the present invention, Figure 4 is an exploded perspective view of the strap and the sleeve for connecting the rebar according to an embodiment of the present invention, Figure 5 Cross section of a sleeve for connecting reinforcing bar according to an embodiment of the present invention.

6 is a cross-sectional view of a connection pipe connected to a sleeve for connecting reinforcing bars according to an embodiment of the present invention.

As shown in Figure 1 and 2, the Prestressed Concrete Beam (10) according to an embodiment of the present invention comprises a concrete pillar 20, and a sleeve 30 for connecting the reinforcing bar (2) .

Concrete pillar 20 is a pillar that is produced by pouring concrete into a formwork (not shown), the planar shape is determined by the formwork. Then, the concrete pillar 20 is through the insertion hole 22 communicates up and down along the set trajectory on the plane. The reinforcing bar 2 fixed to the bottom is inserted below the insertion hole 22 of the concrete pillar 20, and the other reinforcing bar 2 is inserted above the insertion hole 22. The other reinforcing bar 2 is inserted below the corresponding insertion hole 22 of the other concrete pillar (20).

For convenience, the insertion hole 22 is shown to be formed along the square trajectory on the plane of the concrete pillar 20.

In addition, the concrete pillar 20 is open through the first communication hole 24 and the second communication hole 26 connected to each insertion hole 22 to the circumferential surface. The first communication hole 24 is located below the second communication hole 26 along the direction of the central axis of each of the insertion holes 22.

And, the sleeve 30 is inserted into each insertion hole 22 serves to connect the reinforcing bars (2) which are respectively inserted into the upper and lower sides of the insertion hole (22).

In particular, the sleeve 30 has a tubular shape of a planar circular or polygonal tube for inserting the reinforcing bar 2 into the upper side and the lower side, and forms the inlet 31 and the outlet 33 in the circumferential surface so as to be connected to the hollow interior. .

When the sleeve 30 is embedded in each of the insertion holes 22 of the concrete column 20, the injection hole 31 is disposed to coincide with the first communication hole 24, and the discharge hole 33 is the second communication hole 26. ) To be aligned.

That is, when the filling liquid 4 is filled through the first communication hole 24 and the injection hole 31, the filling liquid 4 is discharged to the outside through the discharge hole 33 and the second communication hole 26. It is filled into the sleeve 30 until. As the filling liquid 4 hardens inside the sleeve 30, the reinforcing bars 2 inserted in different directions inside the sleeve 30 are fixed. Here, the filling liquid 4 is a mortar which hardens after a predetermined time in a state of fluidity.

At this time, the sleeve 30 is buried in the lower portion of the insertion hole 22 corresponding to the lower side of the concrete pillar (20). Thus, since the concrete pillar 20 is placed on the floor, the filling liquid 4 is not discharged to the lower side of the concrete pillar 20.

In particular, the sleeve 30 is placed on the floor along the set trajectory and then covered with the formwork, and then cast concrete to form the concrete pillar 20 is embedded in the sleeve (30).

In this case, the installation direction is changed in the process of covering the formwork, the sleeve 30 may not coincide with the first communication hole 24 and the second communication hole 26 corresponding to the injection port 31 and the discharge port 33. Will be.

Thus, as in FIGS. 3, 4, 5, 6 and 7, the sleeve 30 comprises a body 32 and a lock member 34.

Body 32 is an outer shape of the sleeve 30, the tubular shape is opened up and down to connect the reinforcing bar (2) inserted into the upper side and the lower side, are arranged in plurality along the set trajectory, each along the axial direction The injection port 31 and the discharge port 33 are directed in the same direction. That is, one sleeve 30 arranges the injection port 31 and the discharge port 33 in a straight line along the axial direction. This is for easily manufacturing the concrete column 20 so that the injection hole 31 and the discharge hole 33 correspond to the corresponding first communication hole 24 and the second communication hole 26.

In addition, the lock member 34 serves to bind the bodies 32 to each other so as to maintain the inlet 31 and the outlet 33 set directions of the bodies 32. Thus, the plurality of bodies 32 are maintained in the set position even if they hit the formwork by the lock member 34.

The lock member 34 includes a rib 35 and a strap 37.

One or more ribs 35 are provided on the circumferential surface of each of the bodies 32 along the axial direction. At this time, the rib 35 is preferably provided at a position that is in line with the injection port 31 and the discharge port 33 protruding on the circumferential surface in the axial direction of each of the body (32). This is to facilitate the manufacture by making the rib 35, the injection hole 31 and the discharge port 33 to protrude in the same direction, and to facilitate storage compared to being produced to protrude in various directions. to be. Rib 35 may be provided only on the upper circumferential surface or the lower circumferential surface of one body 32, it may be provided at the same time on the upper and lower sides.

The rib 35 passes through the lock hole 36. Of course, the rib 35 can be modified in various shapes.

In addition, the strap 37 is inserted into the lock holes 36 located at the same height of the erect body 32 serves to bind the entire body 32 arranged in plurality along a predetermined trajectory. Thus, the strap 37 fixes the position of the sleeve 30 so that the inlet 31 and the outlet 33 face the setting direction. The strap 37 can be applied in various ways such as a band reinforcing bar or a wire.

On the other hand, the injection hole 31 and the discharge port 33 provided on the circumferential surface of the body 32, when the filling liquid 4 injected or discharged flows into the insertion hole 22, as the material cost rises, the injection hole It is preferable that the 31 and the discharge port 33 protrude from the circumferential surface of the body 32 so as to extend to the first communication hole 24 and the second communication hole 26. However, as the sleeve 30 is made of a metal material, it is relatively expensive. Thus, the connection pipe 40 extending to the first communication hole 24 and the second communication hole 26 is inserted into the injection hole 31 and the discharge hole 33. The connection pipe 40 is made of a relatively inexpensive plastic material.

 The body 32 has an open lower diameter larger than an open upper diameter. That is, the body 32 gradually decreases in diameter toward the upper side along the axial direction. This is to reduce the amount of the filling liquid 4 filled therein.

In addition, the diameter of the injection hole 31 provided on the lower circumferential surface of the body 32 is larger than the diameter of the discharge hole 33 provided on the upper circumferential surface of the body 32. This is to fill the filling liquid 4 into the body 32 in a short time by making the diameter of the injection hole 31 larger than the diameter of the discharge hole 33.

Therefore, the diameter of the connection pipe 40 inserted into the injection hole 31 becomes larger than the diameter of the connection pipe 40 inserted into the discharge hole 33.

In addition, each of the connection pipes 40 includes a separation preventing member 42 on a portion circumferential surface inserted into the corresponding injection hole 31 and the discharge hole 33. The separation preventing member 42 serves to prevent the connection pipe 40 from being naturally separated from the injection hole 31 or the discharge hole 33, and protrudes on the circumferential surface of the connection pipe 40 in an inverted triangle shape in cross section. Is formed.

Meanwhile, each of the connection pipes 40 further connects the foam material 50 exposed to the corresponding first communication hole 24 and the second communication hole 26 of the concrete pillar 20. The foam material 50 is connected to the edge of each of the connection pipes 40 by taping or the like. The foam material 50 is inserted into the first communication hole 24 and the second communication hole 26 so that the filling liquid 4 injected into the injection hole 31 or discharged into the discharge hole 33 is inside the concrete pillar 20. Prevents penetration into Foam material 50 is applicable to a variety of materials, such as nonwoven fabric.

When the filling liquid 4 is discharged to the discharge port 33 and the second communication hole 26, the first communication hole 24 and the second communication hole 26 are sealed by a cover or the like.

In addition, although the lower side of the body 32 is a photosphere side, the reinforcing bar 2 fixed to the bottom is inserted and blocked by the filling liquid 4 filled therein, thereby maintaining the open state.

By the way, the upper side of the body 32 is provided with an upper cap 60 to fix the reinforcing bar (2) inserted from the top. The upper cap 60 covers the upper side of the body 32 and serves to prevent the upper outflow of the filling liquid 4 by forcibly inserting the rebar 2. Upper cap 60 is made of a rubber material to prevent damage due to the movement of the reinforcing bar (2) during construction. Of course, the upper cap 60 can be applied in a variety of shapes.

In addition, when the body 32 is embedded in the concrete pillar 20 in which the lower side is opened, the concrete in the flow state can be introduced into the body 32. As a result, the reinforcing bar 2 cannot be inserted downward.

Therefore, when pouring the concrete pillar 20, the body 32 is preferably provided with a lower cap 70 that is detachable to the lower side.

The lower cap 70 includes a stopper 72, a shaft 74, and an eccentric rotary member 76.

The stopper 72 is removably inserted into the lower side of the body 32. In particular, the stopper 72 is made of a material that can contract and expand. As an example, the stopper 72 is made of rubber. Of course, the stopper 72 can be modified in various shapes.

And the shaft 74 is inserted in the stopper 72 shaft. At this time, the shaft 74 is inserted into the stopper 72 to be parallel or coincident with the axial direction of the body 32. In addition, the shaft 74 is fixed in the state inserted into the stopper 72. That is, the stopper 72 is prevented from escaping above the shaft 74. As an example, the shaft 74 screws the nut member 75 to the upper side. The nut member 75 is in contact with the upper side of the stopper 72.

In addition, the eccentric rotary member 76 is provided on the shaft 74 so as to be eccentrically rotatable. That is, the eccentric rotary member 74 is eccentrically rotated by the hinge pin 77. The hinge pin 77 is connected to the shaft 74.

Therefore, after the stopper 22 is inserted below the body 32, the eccentric rotary member 76 is rotated and when the stopper 22 is pressed in the direction of the body 32, the stopper 22 expands and the body ( 32) It will be sealed inside.

Then, when the concrete pillar 20 is completed, the eccentric rotary member 76 releases the pressing force of the stopper 22 when rotating in the opposite direction. Then, the stopper 22 is retracted and returned to the initial state and is detachable from the body 32.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand. Therefore, the true technical protection scope of the present invention will be defined by the claims below.

2: rebar 4: filling liquid
10: PC beam 20: concrete pillar
22: insertion hole 24, 26: first and second communication hole
30: sleeve 31: injection hole
32: body 33: discharge port
34: lock member 35: rib
36: lockhole 37: strap
40: connection pipe 42: separation prevention member
50: foam 60: upper cap
70: lower cap

Claims (8)

A body having a tubular shape which is opened up and down to connect the reinforcing bars inserted into the upper side and the lower side, and arranged in plurality along a set trajectory, each having an inlet and an outlet toward the same direction along an axial direction; And
It includes a lock member for binding the bodies to maintain the injection port and the discharge port setting direction,
The lock member may include one or a plurality of ribs provided in the circumferential surface of each of the bodies along the axial direction and through the lock hole; And
And a strap inserted into the lock holes located at the same height to bind the whole body to fix the position of the body.
delete Concrete pillars are formed through the concrete hole through the insertion hole which communicates up and down along the set trajectory on the plane, the first communication hole and the second communication hole connected to each of the insertion hole in the circumferential surface; And
The injection hole provided on the circumferential surface is embedded in each of the insertion holes so that the discharge hole is coincident with the second communication hole, and fills the filling liquid therein to connect the reinforcing bars inserted into the upper side and the lower side. A sleeve for reinforcing bar connections,
The rebar connecting sleeve has a tubular shape which is opened up and down to connect the reinforcing bars inserted into the upper side and the lower side, and is disposed in plural along a set trajectory, so that the inlet and the discharge port face the same direction along the axial direction. Body having; And
It includes a lock member for binding the bodies to maintain the injection port and the discharge port setting direction of each of the body,
The lock member may include one or a plurality of ribs provided in the circumferential surface of each of the bodies along the axial direction and through the lock hole; And
And a strap which is inserted into the lock holes at the same height and binds the whole body to fix the position of the body.
The method of claim 3,
The injection port and the discharge port each have a connecting pipe;
Each of the connection pipes further comprises connecting a foam member exposed to the corresponding first communication hole and the second communication hole of the concrete pillar.
5. The method of claim 4,
The connection pipe is a PC beam, characterized in that provided with a separation prevention member on the peripheral surface of the portion inserted into the injection port and the discharge port.
The method of claim 3,
The body beam is characterized in that it has an upper cap on the upper side open to fix the inserted rebar.
The method of claim 3,
The body beam is characterized in that it has a lower cap detachable on the lower side.
The method of claim 7, wherein the lower cap,
A stopper made of a material that is removably inserted into the lower side of the body and that is contractable and expandable;
A shaft fixed to the plug in a state in which the shaft is inserted; And
And an eccentric rotary member provided in the shaft so as to be eccentrically rotatable and in close contact with the inside of the lower body by pressing the stopper to expand in the circumferential direction.

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