KR20110022124A - Connecting structure and connecting method of culvert - Google Patents

Abstract

PURPOSE: A connection structure of a culvert and a connection method thereof are provided to facilitate the connection of culverts, prevent the lowering of water-tightness due to differential settlement, and save material costs. CONSTITUTION: A connection structure of a culvert comprises a buried member(40), a fixing member(50), a wedge cone member(60), a wedge(70), and a connecting bar(30). The buried member are buried under both sides of the culvert and formed with a hollow(41) and a flange(42). The fixing member is inserted into the front end of the buried member. The fixing member has a female thread(51), a through-hole, and a support(53). The wedge cone member is combined with the fixing member. The wedge cone member has a male thread(61), a flange(62), and a wedge hole(63). The wedge is inserted into the wedge hole and has a fastening hole(71). The connecting bar is inserted into the side of the culvert.

Description

Connecting structure and connecting method of culvert

The present invention relates to a connection structure and a connection method of the culvert, and more particularly, it is possible to connect the culvert more easily, and effectively prevent the degradation of the watertightness due to uneven settlement, and to reduce the material cost of the culvert It relates to a connection structure and a connection method.

Precast Concrete Box Culvert (hereinafter referred to as 'Culver'), which is generally used for facilities such as water supply and sewage, electric power, communication, and common areas, is referred to as 'prestress force' in its construction. In order to introduce), the tensioned wires (tendon) to a predetermined length and then fixed to the culvert in a tensioned state using a fixing device.

The specific configuration of such a prefabricated culvert is disclosed in detail in Utility Model No. 223229, Registration Utility Model No. 157899, and Registration Utility Model No. 157898.

However, since the general prefabricated culverts have very weak connection strengths between the culverts, there is a problem in that watertightness is deteriorated because the joints between the concrete box culverts are opened when the ground is soft and unequal settlement occurs.

As to solve the above problems, as shown in FIGS. 1 to 3, the Patent Publication No. 10-458951, "consisting of a box-shaped body, the tension wires (11, 11 ') is passed through Since the steel wire through holes 112 and 112 'are formed, when the plurality of steel wires are continuously installed, the steel wires 11 and 11' inserted into the steel wire through holes 112 and 112 'are settled at the end face of the joint and thus the prestress force is increased. As the assembly structure of the prefabricated PC culvert to be applied,

At the same time, the bidirectional steel wire fixing device 100 is sequentially installed at a number to be tensioned and is connected to the end faces of the plurality of prefabricated PC culverts 201, 202, and 203 having one end of the steel wire 11 fixed to one surface of the PC culvert. Concave portion 110 is provided, the steel wire 11 is tensioned and fixed at one side of the prefabricated PC culvert;

The bidirectional steel wire fixing device 100, the hollow coupling member 101, the coupling member 101 is detachably coupled to both ends of the cone-shaped wedge holes 104, 104 'is formed in the center A pair of wedge-con members 102 and 102 'and end portions of the steel wires 10 and 10' are inserted into each of the wedge holes 104 and 104 'of the wedge-con members 102 and 102'. Wedges (103, 103 ') for fixing the steel wire (10, 10'), the steel wire (10, 10 ') is connected to each other by the coupling member 101 while being fixed in both directions;

The steel wire 11 exposed to the end surface of the junction of the outer assembled PC culvert 203 is fixed by one side wedge-con member 102 and the wedge 103 of the bidirectional steel wire fixing device 100;

A plurality of prefabricated PC culverts 204 and 205 subsequently installed in a state in which the one side wedge-con member 102 and the coupling member 101 and the other side wedge-con member 102 'where the steel wire 11 is fixed are coupled. , 206 of the steel wire 11 'exposed to the outside through the joint end surface of the prefabricated PC culvert 204 having a joint end surface facing the joint end surface of the assembled PC culvert 203 is The steel wires 11 and 11 'into which the prestresses are introduced are fixed by being inserted into the other wedge cone member 102' of the bidirectional steel wire fixing device 100 and being bitten by a wedge 103 'positioned therein. The assembly structure of the prefabricated PC culvert, characterized in that the neighboring prefabricated PC culvert (203, 204) is integrally assembled while being connected.

However, the assembly structure of the conventional PC culvert as described above has to form a steel wire through hole 112 in order to insert the steel wire in the culvert, and after the steel wire passes through the steel wire through hole to hold the steel wire using a wire fixing device The work was troublesome because it should be given.

In addition, not only need to cut the unnecessary portion of the steel wire passing through the wire passing hole 112, but also because the steel wire is consumed by a length similar to the length of the culvert to be connected, there is a problem that the material cost increases.

In addition, over time, the tensile strength of the steel wire is reduced by the load or external force of the culvert, there was a problem that can not effectively prevent the water-tightness due to uneven settlement.

The present invention with respect to the above problems is to provide a connection structure and connection method of the culvert can be more easily connected to the culvert, effectively prevent the watertightness due to uneven settlement, and further reduce the material cost It is done.

The above purpose, in the structure for connecting the culverts to each other,

In the culvert,

A plurality of embedding members having hollows and having flanges at rear ends thereof, which are embedded in both sides of the culvert;

A fixing member which is inserted into and coupled to the distal end of the buried member, one side of which is opened, a female screw portion is formed on an inner circumferential surface thereof, a through hole is formed on the other side thereof, and a support portion is formed outside the through hole;

A wedge cone member having a male screw portion formed on one side, a flange formed on the other side, and a wedge hole formed therein as being screwed to the fixing member;

As the wedge hole is inserted into the wedge is provided with a tightening hole therein,

A connecting bar is inserted into the culverts of the culverts adjacent to each other, and the connecting bar is fixed by the wedge so that the culverts are connected to each other.

In addition, a plurality of embedding member having a hollow as a buried on both sides of the culvert, the flange is formed at the rear end;

A fixing member which is inserted into and coupled to the distal end of the buried member, one side of which is opened, a female screw portion is formed on an inner circumferential surface thereof, a through hole is formed on the other side thereof, and a support portion is formed outside the through hole;

A wedge cone member having a male screw portion formed on one side, a flange formed on the other side, and a wedge hole formed therein as being screwed to the fixing member;

The culvert including a wedge having a fastening hole formed therein as being inserted into the wedge hole,

As a method for connecting to each other using a connecting bar,

An arranging step of arranging sides of the culverts to be connected close to each other;

A connecting bar inserting step of inserting one end of the connecting bar into a tightening hole of one side of the side of the culvert facing each other;

It is achieved by the connecting method of the culvert, characterized in that it comprises a coupling step of bringing the culvert close to each other such that the other end of the connecting bar is inserted into the tightening hole of the other side of the culvert facing each other.

According to the configuration as described above, by inserting the connecting bar between the culverts to be connected, and then simply to close the culverts in close contact with each other, the culvert can be easily connected, and by having the individual connection structure using the connecting bar, there is no loss of tensile force, so as to settle There is provided a connection structure and a connection method of the culvert which can effectively prevent the water-tightness due to the reduction, and the material bar can be reduced by having a short length.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 4 is a perspective view showing a connection structure of the culvert according to the present invention, Figure 5 is a cross-sectional view showing a connection structure of the culvert according to the present invention, Figure 6 is an exploded view showing the main components of the connection structure of the culvert according to the present invention Perspective view. 7 is a cross-sectional view showing a connection structure of the culvert according to another embodiment of the present invention, Figure 8 is a cross-sectional view showing a connection structure of the culvert according to another embodiment of the present invention, Figure 9 is a culvert according to the present invention Flowchart showing the connection method.

4 to 6, the connecting structure of the culvert according to the embodiment of the present invention, the buried member 40, the fixing member 50 and the wedge cone on both sides (20a, 20b) of the culvert 20 The member 60 and the wedge 70 are provided, and the connecting bar 30 is inserted into the side surfaces 20'a and 20 "a of the culverts 20 'and 20" adjacent to each other.

The culvert 20 has a shape of a conventional culvert 20, as shown in the figure has a rectangular shape formed with a hollow 22, mortar groove 21 is formed on both sides (20a, 20b). . The mortar groove 21 is for forming a space in which mortar (M) is injected into the interior when the side (20'a, 20 "a) of the culverts (20 ', 20") to be connected are in close contact with each other will be.

The connecting bar 30 is for connecting the culverts 20 to each other and is formed in a rod shape and is inserted between the culverts 20 'and 20 "to be connected to each other.

The buried member 40 has a hollow 41 as being embedded in both sides of the culvert 20, the flange 42 is formed at the rear end is to be more firmly fixed to the culvert 20.

The buried member 40 is the number of buried according to the size of the culvert 20 or the load to be supported, as shown, four buried members 40 are embedded in each corner of the mortar groove 21 have.

The fixing member 50 is inserted into and coupled to the front end of the buried member 40, and a part of the fixing member 50 is inserted into the hollow 41 to be fixed by welding.

One side of the fixing member 50 is opened, the female screw portion 51 is formed on the inner circumferential surface thereof, and the through hole 52 is formed on the other side thereof. The through hole 52 is for allowing the end of the connection bar 30 to pass through, and a support 53 is formed at the outside thereof to support the end of the connection bar 30. The support part 53 is integrally formed with the fixing member 50 or coupled by welding, and an air pressure discharge hole 54 is formed at an end thereof so that an end of the connection bar 30 is easily inserted. .

The wedge-con member 60 is screwed to the fixing member 50, the male screw portion 61 is formed on one side, the flange 62 is formed on the other side, and the wedge hole 63 is formed therein. .

The flange 62 is formed in a hexagonal shape so that the flange 62 can be easily coupled by using a tool such as a spanner when the male screw portion 61 and the female screw portion 51 are coupled to each other. The closer to the flange 62 is formed to be inclined so that the circumference becomes smaller.

In addition, the male screw portion 61 is formed shorter than the female screw portion 51 so that the wedge cone member 60 and the fixing member 50 are coupled, the wedge 70 to be described later is the wedge hole 63 It is desirable to be able to flow along).

The wedge 70 is inserted into the wedge hole 63 to fix the connection bar 30.

The wedge 70 has a tightening hole 71 formed therein, and the tightening hole 71 is opened according to a position split radially from the center of the tightening hole 71 to contact the wedge hole 63. It is supposed to be tightened.

As a result, when the connecting bar 30 is inserted into the tightening hole 71, the wedge 70 is pushed out while the tightening hole 71 is opened, and thus, the connecting bar 30 can be easily inserted. 30, the tightening hole 71 is tightened by the wedge hole 63, so that the fixing member 50 and the wedgecon member 60 cannot be removed unless they are separated.

On the other hand, according to another embodiment of the present invention shown in Figure 7, a plurality of engaging projections 72 are formed on the surface of the tightening hole (71).

The locking protrusion 72 is for preventing the connection bar 30 from slipping due to excessive load. In this case, the locking protrusion 72 corresponds to the locking protrusion 72 at both ends of the connection bar 30. It is preferable to form a plurality of locking grooves 31 so that the locking projections 72 and the locking grooves 31 are fitted to each other, and the locking protrusions 72 and the locking grooves 31 are in contact with each other. It is preferable to form inclined surfaces 31a and 72a so that the connection bar 30 can be easily inserted.

In addition, according to another embodiment of the present invention shown in Figure 8, the support portion 53 is provided with a locking means (80).

The locking means 80 is to prevent the connecting bar 30 from slipping due to excessive load, and a through hole 81 penetrating the circumference of the support part 53 is formed, and the through A step 82 is formed at the bottom of the ball 81 so that the stopper 83 is inserted, and the bolt 84 is coupled to the upper portion, and a spring 85 is disposed between the bolt 84 and the stopper 83. It is inserted and configured. In addition, the lower portion of the stopper 83 is formed with a locking projection (83a) protruding inward of the support portion 53.

In this case, it is preferable to form a plurality of locking grooves 32 corresponding to the locking protrusions 83a at both side ends of the connection bar 30 so that the locking protrusions 83a are fitted into the locking grooves 32. The inclined surfaces 32a and 83b may be formed at portions where the locking protrusion 83a and the locking groove 32 are in contact so that the connection bar 30 can be easily inserted.

Hereinafter, a method of connecting a culvert having a connection structure as described above with reference to FIG. 9 will be described.

As shown, the method of connecting the culvert according to an embodiment of the present invention is the culvert arrangement step (S1), wedge coupling step (S2), connecting bar insertion step (S3), culvert adhesion step (S4), mortar filling step (S5) It consists of

The culvert arrangement step S1 is a step of arranging the side surfaces 20'a and 20 "a of the culverts 20 'and 20" to be connected close to each other. At this time, according to the connecting structure of the culvert according to the embodiment of the present invention, both side surfaces (20a, 20b) of the culvert 20 has the same configuration can be easily disposed regardless of the front and rear direction of the side.

The wedge coupling step (S2) is a step of coupling the wedge cone member 60 into which the wedge 70 is inserted into the female thread part 51 formed on the side surfaces 20′a and 20 ″ a of the culverts facing each other.

Inserting the connecting bar (S3) inserts one end of the connecting bar 30 into the tightening hole 71 of one side 20'a of the side 20'a, 20 "a of the culvert facing each other Step.

The culvert adhesion step (S4) is such that the other end of the connecting bar 30 is inserted into the fastening hole 71 of the other side 20 "a of the side (20'a, 20" a) of the culvert facing each other The culvert 20 is in close contact with each other. In this case, by using a device such as a hydraulic tensioner or a hydraulic cylinder, the culverts 20 'and 20 "may be brought into close contact with each other by pushing the side surfaces 20'b and 20" b of the culvert where the connecting bar 30 is not inserted. have.

The mortar filling step (S5) is a step of filling the mortar (M) in the mortar groove 21 formed in the side (20'a, 20 "a) of the culvert in close contact with each other. Side 20'a, 20 "a of the close culvert is bonded to the culvert (20 ', 20") is to be more firmly connected.

1 is an exploded perspective view showing a conventional bidirectional steel wire fixing device.

Figure 2 is a cross-sectional view showing a state in which a conventional bidirectional steel wire fixing apparatus is combined with a steel wire.

Figure 3 is a side view showing the assembly structure of a prefabricated PC culvert using a conventional bidirectional steel wire fixing device.

Figure 4 is a perspective view showing a connection structure of the culvert according to the present invention.

5 is a cross-sectional view showing a connection structure of the culvert according to the present invention.

Figure 6 is an exploded perspective view showing the main components of the connecting structure of the culvert according to the present invention.

Figure 7 is a cross-sectional view showing a connecting structure of the culvert according to another embodiment of the present invention.

8 is a cross-sectional view showing a connecting structure of the culvert according to another embodiment of the present invention.

9 is a flow chart showing a method of connecting a culvert according to the present invention.

Explanation of symbols on the main parts of the drawings

20: Culvert 21: Mortar Home

30: connecting bar 31, 32: locking groove

40: buried member 41: hollow

42: flange 50: holding member

51: female thread 52: through hole

53: support portion 54: pneumatic discharge hole

60: wedge cone member 61: male thread portion

62: flange 63: wedge hole

70: wedge 71: fastener

72: locking projection 80: locking means

81: through hole 83: stopper

84: bolt 85: spring

Claims (5)

In the structure for connecting the culverts 20 to each other, In the culvert 20, A plurality of embedding members 40 having hollows 41 and embedded in both side surfaces 20a and 20b of the culvert 20 and having flanges 42 formed at rear ends thereof; One side is opened and inserted into the front end of the buried member 40, the female screw portion 51 is formed on the inner peripheral surface, the through hole 52 is formed on the other side, the support portion 53 to the outside of the through hole 52 A fixing member 50 formed with; Wedge cone member 60, which is screwed to the fixing member 50, a male screw portion 61 is formed on one side, a flange 62 is formed on the other side, and a wedge hole 63 is formed therein; As the wedge hole 70 is inserted into the wedge hole 63, a wedge 70 having a fastening hole 71 formed therein is provided. The connecting bar 30 is inserted into the fastening hole 71 formed in the side surfaces 20'a and 20 "a of the culverts 20 'and 20" adjacent to each other, and the connecting bar 30 is the wedge 70. The culvert connection structure, characterized in that the culverts (20 ', 20 ") are connected to each other by being fixed so as not to fall out by). The method of claim 1, A plurality of locking projections 72 are formed on the surface of the fastening hole 71, and a plurality of locking grooves 31 corresponding to the locking protrusions 72 are formed at both end portions of the connection bar 30, respectively. Culvert connection structure, characterized in that the connection bar 30 is configured to prevent the slip (slip). The method of claim 1, The support portion 53 is provided with a locking means (80) for preventing the connection bar 30 is slip (slip), The locking means 80, A through hole (81) formed through the circumference of the support portion (53); A stopper 83 inserted into a lower portion of the through hole 81 and having a stopping portion 83a protruding inwardly of the support portion 53; A bolt screwed to an upper portion of the through hole; It is composed of a spring inserted between the bolt and the stopper, Culvert connection structure, characterized in that a plurality of engaging grooves (32) corresponding to the engaging protrusion (83a) is formed at both ends of the connection bar (30). A plurality of embedding members 40 having hollows 41 and embedded in both sides 20a and 20b of the culvert 20 and having flanges 42 formed at rear ends thereof; One side is opened and inserted into the front end of the buried member 40, the female screw portion 51 is formed on the inner peripheral surface, the through hole 52 is formed on the other side, the support portion 53 to the outside of the through hole 52 A fixing member 50 formed with; Wedge cone member 60, which is screwed to the fixing member 50, a male screw portion 61 is formed on one side, a flange 62 is formed on the other side, and a wedge hole 63 is formed therein; The culvert 20, which is inserted into the wedge hole 63, includes a wedge 70 having a fastening hole 71 formed therein, As a method for connecting to each other using the connection bar 30, A culvert arrangement step S1 for arranging side surfaces 20'a and 20 "a of the culverts 20 'and 20" to be connected to each other; Wedge coupling step (S2) for coupling the wedge cone member 60, the wedge 70 is inserted into the female screw portion 51 formed on the side (20'a, 20 "a) of the culvert facing each other; Connecting bar insertion step (S3) for inserting one end of the connecting bar 30 in the tightening hole 71 of one side (20 'a) of the side 20'a, 20 "a of the culvert facing each other and ; Culverts 20 ', 20 "such that the other end of the connecting bar 30 is inserted into the fastening hole 71 of the other side 20" a of the side 20'a, 20 "a of the culverts facing each other. The method of connecting the culvert, comprising a culvert adhesion step (S4) in close contact with each other. The method of claim 4, wherein After the culvert adhesion step (S4) further comprises a mortar filling step (S5) for filling the mortar (M) in the mortar groove 21 formed in the side (20'a, 20 "a) of the culvert in close contact with each other Culvert connection method characterized in that.

Images