KR100783009B1 - Precast culvert assembly for fastening insert - Google Patents

Abstract

A precast culvert assembly for fastening an insert is provided to increase the speed of construction by applying prestress on culvert units and installing an anchorage on joint planes of culvert units, and to reduce the loss rate of prestress after tensing by arranging tension members in a row and anchoring in two directions. A precast culvert assembly for fastening an insert contains a culvert unit(10) for connection formed in the type of a box having a common duct at the center, coupled in the longitudinal direction to make two joint planes in contact with each other and provided with a primary insertion hole(12a) and a secondary insertion hole(12b) to insert tension members, a culvert unit(20) for fixation formed in the type of a box having a common duct at the center and provided with joint planes to couple with adjacent culvert units and a primary insertion hole and a secondary insertion hole to install an insert nut(21) to be exposed at one end, a tension member(30) connecting the connecting culvert unit and the fixing culvert unit in the longitudinal direction via the primary insertion hole or the secondary insertion hole formed on the fixing culvert unit and the connecting culvert unit, and an anchorage(40) coupled to the thread of the insert nut and installed to two ends of the tension member to fix the tension member tensed by a tension device to the culvert units.

Description

PC culvert assembly for insert fastening {Precast culvert assembly for fastening insert}

The present invention relates to a PC culvert assembly for insert fastening, and more particularly, after the introduction of the prestress to the culvert unit, so that the anchorage is installed on the joint surface between the culvert units to increase the construction speed, the tension member is arranged in parallel and bidirectional The present invention relates to an insert fastening PC culvert assembly for reducing the loss rate of prestress after completion of tension.

In general, culverts are used to form waterways such as rainwater, sewage and agricultural industrial water, or to create passageways such as sidewalks and roadways, and also vary in the production of underground joints or agricultural and fishery storage warehouses for laying telecommunications and hot and cold pipelines. Is being used.

As such box culverts, precast culverts (PC culverts), which are prefabricated in large quantities at a factory in a box-shaped culvert unit having a cavity inside therein and are assembled by being assembled in the field, are widely used.

In addition, a fixing structure using prestressed steel wires, which is applied by tensioning uniform steel wires on upper and lower slabs, is widely used as a complementary method to the connection portion of the culverts so that the binding of precast culverts can be made stronger.

As described above, when the prestressed steel wire is installed, the anchorage is formed inside the culvert as shown in FIG. 1 to fix the tensioned steel wire, and the tensioner is secured by fixing the tensioned steel wire using the anchorage in the fixing groove. Connected.

The PC culverts used as assembled above have very weak connection strength between culverts, so when the ground is weak and unequal settlement occurs, the downward moment of moment is generated at the joints between the culverts. There is a problem that the separation is easily separated and separated so that the watertightness is lowered.

In addition, when the culvert is connected by tensioning and fixing the prestressed steel wire, since the prestressed steel wires are installed and tensioned in series, there is a problem in that the loss ratio for the prestressed wire is large.

On the other hand, when the steel wire is fixed to the fixing groove of the culvert, the finishing operation of filling the fastener or the non-shrink mortar to each fixing groove was performed, but the joining rate is lowered according to the new joint between the existing culvert and the fastener or the non-shrink mortar. It is not watertight, the infiltration water is introduced through the fixing groove, the steel wire is corroded by the infiltration water introduced there is a problem that whitening phenomenon occurs.

In addition, there is a problem that the work is cumbersome and the work time is increased because the work to fill the non-shrink mortar or rapid payment for each fixing groove as described above.

The present invention is to solve the conventional problems as described above, in the culvert assembly consisting of a plurality of culvert units are connected to each other, the cavity is formed in the center and the box-shaped connection is coupled in the longitudinal direction so that the joining surfaces of both sides abut Culvert unit; A fixing culvert unit, which is installed between the culvert units for connection, in which a cavity is formed in the center and an insert nut is embedded so that one end is exposed to the joint surface of one side; A tension member having one end connected to the fixing culvert unit and the other end connected to the fixing culvert unit penetrating through the fixing culvert unit adjacent to the connecting culvert unit; It is installed on both ends of the tension member so that one end of the tension member is fixed to the insert nut of the fixing culvert unit, the other end of the tension member is configured to be fixed to the joint surface of the other fixing culvert unit adjacent, to the insert nut It comprises a fixing unit which is detachably coupled; The insert nut installed on the fixing culvert unit of the one side is installed to be stepped with the insert nut installed on the other fixing culvert unit adjacent to each other, characterized in that the tension member is installed in parallel to step.

In addition, the connecting culvert unit, the first insertion hole and the second insertion hole is formed at a predetermined interval along the joining surface and penetrates the longitudinal direction so that the tension member can be inserted is inserted into the tension member, the first The installation groove is formed to be concavely formed in the inlet and the outlet of the insertion hole and the second insertion hole, the fixing culvert unit is disposed at regular intervals along the joining surface and penetrates the longitudinal direction to insert the first tension member An insertion hole and a second insertion hole are formed, and an installation groove is formed concavely in the inlet and the outlet of the first insertion hole and the second insertion hole, and in one insertion hole selected from the first insertion hole and the second insertion hole. Insert nut is embedded so that one end is exposed.

In addition, the first insertion hole and the second insertion hole is characterized in that the spaced apart in the vertical direction or left or right or inclined direction.

In addition, the culvert unit is characterized in that the reinforcement is made of a reinforced concrete structure is reinforced.

In addition, the insert nut is to be formed so that the inside is hollow, one end of the fixing unit is coupled, the other end is characterized in that the reinforcement is arranged in the culvert unit is coupled.

In addition, the fixing unit is coupled to the inside of the insert nut detachably coupled to the wedge cap formed a cone-shaped wedge hole therein; A wedge inserted into the wedge hole of the wedge cap to fix the tension member; Characterized in that comprises a.

The effect of the present invention by the configuration and action as described above, by fixing the tension member in both directions at the bonding surface of the culvert unit, there is no need to form a separate fixing groove for fixing the tension member in the culvert unit, the tension is completed There is no risk of leakage in the process of filling the fixing grooves of the fixing member to prevent corrosion of the tensioning member, and inserting the insert nut inside the culvert unit allows easy installation of the fixing unit, which improves the workability, and the tensioning member is inserted by the fixing unit. Since the nut is firmly bitten, there is no fear that the tension member may fall out of the insert nut. It is a very useful invention.

1 is a perspective view showing the assembly structure of the culvert unit of the present invention, Figure 2 is a side view showing the assembly structure of the culvert unit of the present invention, Figure 3a is a perspective view of the connecting culvert unit of the present invention from one side, Figure 3b is 4 is a perspective view of the fixing culvert unit of the present invention as viewed from the other side,

PC culvert assembly of the present invention as shown in the longitudinal length of the coupling culvert unit 10 and the fixing culvert unit 20 and the connecting culvert unit 10 and the fixing culvert unit 20 is coupled in the longitudinal direction It comprises a tension member 30 for connecting in the direction and the fixing member 40 is fixed to the tension member 30.

The connecting culvert unit 10 is configured in the form of a box formed with a hollow sphere 11 in the center, the hollow sphere 11 is in communication with each other in the longitudinal direction so that the bonding surface 14 of both sides abut, the tension A first insertion hole 12a and a second insertion hole 12b are formed at regular intervals along the joint surface 14 and penetrate in the longitudinal direction so that the member 30 can be inserted therein, and the first insertion hole is formed. It is comprised so that the installation groove 13 may be formed in concave inlet and outlet of 12a and the 2nd insertion hole 12b.

The fixing culvert unit 20 is configured in the form of a box having a hollow sphere 11 formed in the center, the joining surface 14 is formed so as to be in contact with the other culvert units adjacent to both sides, the tension member A first insertion hole 12a and a second insertion hole 12b through which the tension member 40 is inserted are formed at regular intervals along the joint surface 14 and penetrate the longitudinal direction so that the 30 can be inserted therein. And an installation groove 13 is formed concavely in the inlet and the outlet of the first insertion hole 12a and the second insertion hole 12b, and the first insertion hole 12a and the second insertion hole 12b. Insert nut 21 is embedded so that one end is exposed to the selected one of the insertion hole.

The first insertion hole 12a and the second insertion hole 12b of the connection culvert unit 10 and the fixing culvert unit 20 are formed to be spaced apart in a left and right direction or an inclined direction as shown in FIG. 5.

The connecting culvert unit 10 and the fixing culvert unit 20 configured as described above are made of a reinforced concrete structure in which the rebar 60 is reinforced therein.

The insert nut 21 is formed to be hollow, and threaded portions 21a are formed at both ends of the insert nut 21, and the fixing unit 40 is coupled to one end of the threaded portion 21a.

Meanwhile, as shown in FIG. 7, the other end of the insert nut 21 is coupled to the reinforcing bar 60 inside the fixing culvert unit 20 to insert the insert nut 21 into the fixing culvert unit 20. Allow it to be fixed stably.

This is the insert nut 21 is installed by coupling the insert nut 21 to the reinforcing bar 60 to be reinforcement to the fixing culvert unit 20 in the manufacture of the fixing culvert unit 20.

At this time, the reinforcing bar 60 is preferably coupled to the main reinforcement to prevent and withstand the insert nut 21 is separated from the concrete when the tension member 30 is tensioned. When the main reinforcing bar is coupled to form a screw portion at one end of the main reinforcing bar, the main reinforcing bar is connected to the insert nut 21 by screwing the screw formed on the other end of the insert nut 21.

As the insert nut 21 is coupled to the main reinforcing bar, the insert nut is more stably coupled to the inside of the fixing culvert unit, and the insert nut 21 is used even when the tension member 30 is tensioned using the tension device 70. It will be able to be stably supported in the interior of the fixing culvert unit (20).

Meanwhile, the tension member 30 passes through the first insertion hole 12a or the second insertion hole 12b formed in the fixing culvert unit 20 and the connecting culvert unit 10 to fix the culvert unit 20. ) And connecting the culvert unit 10 for connection.

The tension member 30 is configured to withstand strong tensile force, using a steel bar, steel wire or the like.

The fixing device 40 is installed at both ends of the tension member 30 to fix the tension member 30 tensioned by the tension device 70 to the culvert units, the screw coupling to the insert nut 21 The wedge cap 41 is formed on the outside to enable the wedge cap 41 having a cone shaped wedge hole 42, and is inserted into the wedge hole 42 of the wedge cap 41 to the inside. It comprises a wedge 44 for fixing the tension member 30 is inserted.

On the other hand, the connecting protrusion of the culvert unit 10 and the fixing culvert unit 20, the socket protrusion 15 and the socket recess 16 corresponding to each other is formed to reinforce the connection between the culvert unit. To this end, a protruding socket protrusion 15 is formed along the joint surface 14 on the joint surface of one of the culvert units adjacent to the culvert unit, and the socket protrusion 15 on the joint surface 14 of the other culvert unit. The recess recess 16 is formed long along the joining surface 14 so as to have a width and a depth for accommodating the contact without contact.

As described above, the socket protrusion 15 is accommodated in the socket recess 16 while the joint surface 14 is in contact with each other, and a gap for filling the mortar between the socket protrusion 15 and the socket recess 16 is provided. Is formed.

Since the socket protrusion 15 and the socket recess 16 formed as described above have portions facing each other in the lateral direction with mortar interposed therebetween, the resistance against the lateral force applied to the connecting portion between the culvert units, that is, the shear force. Provide a structure to do this.

Meanwhile, the socket protrusion 15 of the fixing culvert unit 20 and the connecting culvert unit 10 may be continuously formed, but the side surface of the socket protrusion 15 may be formed to be resistant to shear force. It can be formed along the joining surface discontinuously to have.

In more detail, the socket protrusion 15 is not formed at the central portion 17 at each side of the joint surface.

Accordingly, the joint surface 14 faces each other in the longitudinal direction of the joint surface 14 between the socket protrusion 15 and the mortar filled in the space adjacent to the central portion 17 where the socket protrusion 15 is not formed. It has a surface, the surface facing each other is a surface that resists the shear force applied in the longitudinal direction of the bonding surface 14 to the connection between the neighboring culvert unit.

On the other hand, the sealing member 18 for waterproofing is interposed between the mating surface 14 of the neighboring culvert unit butted with each other. Referring to the drawings, the sealing member 18 is installed along both sides of the gap formed between the socket protrusion 15 and the socket recess 16 of the neighboring culvert unit.

Each of the sealing members 18 is provided along each of both side portions of the socket protrusion 15, that is, the inner and outer portions of the socket protrusion 15, at the joint surface on which the socket protrusion 15 is formed, and the sealing member ( 18) Each of the socket recesses 16 is in close contact with both sides of the socket recesses 16, that is, inner and outer portions of the socket recesses 16, respectively.

As a result, the gap between the socket protrusion 15 and the socket recess 16 is sealed.

Mortar is filled and cured in the gap formed between the socket recess 16 and the socket protrusion 15. In order to charge the mortar, an end portion is cut in at least one or more positions at an upper side of the joining surface 14 of the fixing culvert unit 20 and the connecting culvert unit 10 in which the socket recess 16 is formed, and thus the injection hole 19 ) Is formed.

The construction method in the case of forming the culvert structure by connecting the connecting culvert unit 10 and the fixing culvert unit 20 of the present invention configured as described above through the tension member 30 and the fixing device 40 As follows.

First, the trench is formed and the ground is formed to form a foundation ground on which the connecting culvert unit 10 and the fixing culvert unit 20 can be installed.

When the base ground is formed as described above, the socket protrusion 15 and the socket recess 16 of the connecting culvert unit 10 and the fixing culvert unit 20 are coupled to the base ground to be coupled in the longitudinal direction.

When the connecting culvert unit 10 and the fixing culvert unit 20 are combined in this way, the tension member 30 is inserted into the first insertion hole 12a of the connecting culvert unit 10 and the fixing culvert unit 20. And fixing fixtures 40 at both ends of the tension member 30 to fix them in the installation groove 13 of the connecting culvert unit 10 and the fixing culvert unit 20, and then using the tensioning device 70. Prestress is introduced by tensioning the 30 so that the connecting culvert unit 10 and the fixing culvert unit 20 are bound together.

When the connecting culvert unit 10 and the fixing culvert unit 20 is connected as described above, another connection culvert unit 10 and the fixing culvert unit 20 to be connected to the fixing culvert unit 20 Reconnect in turn and bind to the tension member 30 and the fixing unit (40).

At this time, one end of the tension member 30 is fixed by a fixing unit 40 screwed into the insert nut 21 of the fixing culvert unit 20 on one side into which the prestress is introduced as described above, and the other end thereof is Mounting hole fixed to the installation groove 14 of the fixing culvert unit 20 for penetrating through the second insertion hole 12b of the connecting culvert unit 10 and the fixing culvert unit 20 to be connected It is fixed by 40 and prestress is introduced.

That is, one side end of the tension member 30 of the present invention is fixed to the insert nut 21 of the fixing culvert unit 20 is a pre-stress is introduced by the fixing unit 40, the other end is connected to the culvert to be connected Prestress is applied to the culvert units to be connected continuously by being fixed by the fixing holes 40 in the installation grooves 13 of the culvert unit for fixing 20 penetrating through the unit 10 and the fixing culvert unit 20. We will connect as we introduce.

When the connecting culvert unit 10 and the fixing culvert unit 20 are continuously connected in the same manner as described above, the tension member 30 installed alternately between the first insertion hole 12a and the second insertion hole 12b. ) Are located so as to step apart from each other, the loss rate is reduced after completion of tension of the tension member 30 by being connected in parallel in the fixing culvert unit 20 to ensure that the culvert unit is stably coupled and leak to the joint surface (13) Will be prevented.

On the other hand, the connecting culvert unit 10 is coupled to the culvert unit 20 for fixing after continuously connecting a plurality of one or more in accordance with the ground structure of the construction site, the tensile strength of the binding force tension device 70 between the culvert units, etc. It can be installed and connected to the tension member 30 and the anchorage (40).

As described above, when the connecting culvert unit 10 and the fixing culvert unit 20 are fixed by the tension member 30 and the fixing unit 40, the injection culvert unit 19 is formed on the joint surface 14 of the culvert units. The grout mortar is injected to make the culvert units more stable and then backfilled.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

1 is a perspective view showing the assembly structure of the culvert unit of the present invention,

Figure 2 is a side view showing the assembly structure of the culvert unit of the present invention,

Figure 3a is a perspective view of the culvert unit for connection of the present invention from one side,

Figure 3b is a perspective view of the culvert unit for connection of the present invention from the other side,

4 is a front view of the fixing culvert unit of the present invention,

5 is an exemplary view showing an arrangement state of the first insertion groove and the second insertion groove of the present invention;

Figure 6 is a perspective view showing a coupling structure of the insert nut and the fixing unit of the present invention,

7 is an exemplary view showing a state in which the reinforcing bar is coupled to the insert nut of the present invention,

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

(10): connecting culvert unit (11): hollow ball

(12a): first insertion hole (12b): second insertion hole

(13): mounting groove (14): joint surface

(15) Socket socket (16) Socket socket

(17): center part (18): sealing member

(19): inlet (20): fixed culvert unit

(21): Insert nut (21a): Threaded portion

30: tension member 40: anchorage

(41): Wedge Cap (42): Wedge Hole

(43): Thread 44: Wedge

(60): rebar (70): tensioning device

Claims (6)

In the culvert assembly is composed of a plurality of culvert units are bound to each other, Cavity unit is formed in the center and the box-shaped connecting culvert unit is coupled in the longitudinal direction so that the joining surfaces of both sides contact; A fixing culvert unit, which is installed between the culvert units for connection, in which a cavity is formed in the center and an insert nut is embedded so that one end is exposed to the joint surface of one side; A tension member having one end connected to the fixing culvert unit and the other end connected to the fixing culvert unit penetrating through the fixing culvert unit adjacent to the connecting culvert unit; It is installed on both ends of the tension member so that one end of the tension member is fixed to the insert nut of the fixing culvert unit, the other end of the tension member is configured to be fixed to the joint surface of the other fixing culvert unit adjacent, to the insert nut It comprises a fixing unit which is detachably coupled; The insert nut installed in the fixing culvert unit of the one side is installed to be stepped with the insert nut installed in the other fixing culvert unit adjacent to the insert fastening PC culvert assembly, characterized in that installed in parallel so as to step the tension member. The method of claim 1, The connecting culvert unit, the first insertion hole and the second insertion hole is formed at a predetermined interval along the joining surface and penetrates the longitudinal direction so that the tension member can be inserted is inserted into the tension member, the first insertion It is configured to form a recess groove in the inlet and outlet of the ball and the second insertion hole, The fixing culvert unit, the first insertion hole and the second insertion hole is formed at a predetermined interval along the joining surface and penetrates the longitudinal direction to insert the tension member, the inlet of the first insertion hole and the second insertion hole And an insertion groove is formed concave in the outlet, and the insert nut is embedded so that one end is exposed to the insertion hole selected from the first insertion hole and the second insertion hole. The method of claim 2, Wherein the first insertion hole and the second insertion hole PC culvert assembly for inserting, characterized in that formed spaced apart in the vertical direction or left or right or inclined direction. The method according to any one of claims 1 to 3, The culvert unit is a PC culvert assembly for insert fastening, characterized in that the reinforcement is made of reinforced concrete structure is reinforced inside. The method of claim 4, wherein The insert nut is formed so that the inside is hollow, one end of the fixing unit is coupled, the other end is a PC culvert assembly for insert fastening, characterized in that the reinforcement is arranged in the culvert unit is coupled. The method according to claim 1 or 5, The fixing unit is coupled to the inside of the insert nut to be detachable and a wedge cap having a cone-shaped wedge hole therein, Inserted into the wedge hole of the wedge cap PC culvert assembly for insert fastening, characterized in that it comprises a wedge for fixing the tension member.

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