KR20100042748A - Pc pipe and pipeline structure using the same - Google Patents

Abstract

PURPOSE: A PC pipe and a pipeline structure using the same are provided to easily transfer and keep the PC pipe, and to simply and conveniently construct the PC pipe. CONSTITUTION: A PC pipe(100) comprise an upper member(110) a lower member(120), and vertical tension members. Upper tendon mounting grooves(111) are formed in the side parts of the upper member. Lower tendon mounting grooves(121) are formed in the side parts of the lower member. The vertical tension members are installed through a vertical through holes(131) of the upper and lower tendon mounting grooves when the upper member is coupled to the lower member.

Description

PC pipe and pipeline structure using same {PC PIPE AND PIPELINE STRUCTURE USING THE SAME}

The present invention relates to the field of civil engineering, and more particularly, to a pipeline structure buried underground.

Pipeline structures for transporting sewage such as sewage and rainwater are generally constructed in a factory by carrying a pre-cast (PC) member pre-fabricated in a factory and embedding it in the ground.

1 and 2 illustrate the prior art, schematically showing a process of connecting and transporting the PC pipe bodies 1 and 1a.

However, in the related art, as shown in FIG. 1, the PC pipe body 1 is manufactured and transported in a completed form, and thus, the weight is difficult to transport and store, and the construction is inconvenient. .

The present invention is derived to solve the above problems, it is an object of the present invention to present a PC pipe body and a pipe structure using the same to facilitate the transport and storage, easy construction.

The present invention in order to achieve the above object, the upper member 110, the upper tension member mounting groove 111 is formed on the side; A lower member 120 formed to form a tubular body by coupling with the upper member 110 and a lower tension member mounting groove 121 formed on a side thereof; In the state in which the upper member 110 and the lower member 120 are coupled, the upper and lower tension members fixed through the upper and lower through holes 131 of the upper tension member mounting groove 111 and the lower tension member mounting groove 121 ( 130) presenting the PC tube 100, including.

The upper member 110 is formed to be curved, the upper tension member mounting groove 111 is preferably a structure in which the top is opened upwards.

The bottom of the upper tension member mounting groove 111 is preferably a flat structure.

The upper tension member mounting groove 111 and the lower tension member mounting groove 121 are each formed in a plurality on both sides, a plurality of the formed by the plurality of upper tension member mounting groove 111 and the lower tension member mounting groove 121 It is preferable that the vertical tension members 130 are fixed to the vertical through holes 131, respectively.

It is preferable that the front and rear tension holes 140 are formed in the upper tension member mounting groove 111 and the lower tension member mounting groove 121 so that the front and rear tension members 140 penetrate and couple.

Two upper tension member mounting grooves 111 and two lower tension member mounting grooves 121 are formed at both sides, respectively, and the front of the two upper tension member mounting grooves 111a and 111b and the lower tension member mounting grooves 121a and 121b. The front tension member mounting groove 111a and the lower tension member mounting groove 121a of the front and rear through holes 141a facing forward are formed, and the two upper tension member mounting grooves 111a and 111b and the lower tension member mounting groove ( It is preferable that the front and rear through holes 141b facing rearward are formed in the upper tension member mounting groove 111b and the lower tension member mounting groove 121b at the rear of the 121a and 121b.

The upper tension member mounting groove 111 and the lower tension member mounting groove 121 are respectively formed on both sides, the three upper tension member mounting grooves (111a, 111b, 111c) and the lower tension member mounting grooves (121a, 121b, The front and rear through holes 141a facing forward are formed in the upper tension member mounting groove 111a and the lower tension member mounting groove 121a at the front of the 121c), and the three upper tension member mounting grooves 111a, 111b, and 111c are formed. And upper and lower through holes 131 are formed in the upper tension member mounting groove 111c and the lower tension member mounting groove 121c at the center of the lower tension member mounting grooves 121a, 121b, and 121c, and the three upper tension member mounting grooves. The front and rear through holes 141b facing the rear of the upper tension member mounting groove 111b and the lower tension member mounting groove 121b at the rear of the 111a, 111b, 111c and the lower tension member mounting grooves 121a, 121b, 121c are provided. It is preferable that it is formed.

The present invention is a pipe structure formed by a plurality of couplings of the PC tube body 100, the front and rear tension member 140 through the front and rear direction in the state in which the PC tube body 100a adjacent to the PC tube body 100 is coupled. Present along the pipeline structure, characterized in that settled through the ball 141.

The present invention proposes a PC pipe body and a pipe structure using the same, which is easy to transport and store, and easy to construct.

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

As shown in Figure 3, the PC tube 100 according to the present invention is basically, the upper member 110, the upper tension member mounting groove 111 is formed on the side; A lower member 120 formed to form a tubular body by coupling with the upper member 110 and a lower tension member mounting groove 121 formed on a side thereof; In the state in which the upper member 110 and the lower member 120 are coupled, the upper and lower tension members 130 are fixed through the upper and lower through holes 131 of the upper tension member mounting groove 111 and the lower tension member mounting groove 121. It is configured to include.

That is, instead of manufacturing and transporting the tubular body 1 in a completed state as in the prior art, and manufacturing and transporting it into the upper member 110 and the lower member 120, and then combining them in the field to the vertical tension material ( 130) is to be fixed.

Since the upper member 110 and the lower member 120 manufactured as described above can be stacked and stored in the same shape, there is less fear of damage during transportation and there is an advantage that the volume can be reduced.

In addition, since the upper member 110 and the lower member 120 are coupled by the prestress force by the tension member 130 such as the PC steel wire, it is possible to sufficiently prevent leakage between the members.

The upper member 110 may have the same 'c' shape as the lower member 120, but it is more preferable that the upper member 110 is formed to be curved like the 'U' shaped structure in terms of resistance to the upper earth pressure.

In this case, as shown in Figure 5, the upper tension member mounting groove 111, it is preferable in terms of having a structure in which the upper portion is opened upwards to facilitate the fixing operation of the tension member 130.

For the same purpose, it is preferable that the bottom of the upper tension member mounting groove 111 has a flat structure.

The upper tension member mounting groove 111 and the lower tension member mounting groove 121 may be formed in each of the two side portions, but as shown in FIGS. It is more preferable in terms of structural stability that the upper and lower tension members 130 are formed in the plurality of vertical through holes 131 formed by the 111 and the lower tension member mounting grooves 121, respectively.

In the structure according to the present invention, the upper tension member mounting groove 111 and the lower tension member mounting groove 121 are basically connected to the upper member 110 and the lower member 120 by the fixing of the upper and lower tension members 130, and the tubular body. Although it is for forming (100), the groove structure formed in the past can also be used for the coupling | bonding of the tubular body 100 and the adjacent tubular body 100a.

That is, as shown in Figure 6 or less, the upper tension member mounting groove 111 and the lower tension member mounting groove 121 is formed in the front and rear through holes 141, through this through the front and rear tension member 140 When fixing, it is more preferable at the point of using the same structure efficiently as versatile.

This may be specifically implemented by various embodiments as follows.

First, as shown in FIG. 6, the upper tension member mounting groove 111 and the lower tension member mounting groove 121 are formed at each side of the tubular body 100.

When the size of the structure is small, a method of fixing both the vertical tension member 130 and the front and rear tension member 140 in each of the grooves 111 and 121 may be used.

Second, as shown in FIG. 7, two upper tension member mounting grooves 111 and two lower tension member mounting grooves 121 are formed at both sides thereof.

Of the two upper tension member mounting grooves 111a and 111b and the lower tension member mounting grooves 121a and 121b, the front upper tension member mounting groove 111a and the lower tension member mounting groove 121a are forward and backward through holes 141a facing forward. Is formed, and the front tension member mounting groove 111b and the rear tension member mounting groove 121b at the rear are formed with forward and rearward through holes 141b facing rearward.

Therefore, the front tension member 140a and the front tension member 140a and the vertical tension member 130 facing forward are fixed to the upper tension member mounting groove 111a and the lower tension member mounting groove 121a at the front, and the upper tension member mounting groove 111b and the lower portion of the rear are fixed. In the tension member mounting groove 121b, the front and rear tension members 140b and the vertical tension members 130 facing rear are fixed.

Third, as illustrated in FIG. 8, three upper tension member mounting grooves 111 and three lower tension member mounting grooves 121 are formed at both sides.

Of the three upper tension member mounting grooves 111a, 111b and 111c and the lower tension member mounting grooves 121a, 121b and 121c, the front upper tension member mounting groove 111a and the lower tension member mounting groove 121a pass forward and backward in the forward direction. The ball 141a is formed, and the front and rear tension member 140a and the vertical tension member 130 facing forward are fixed.

Upper and lower through holes 131 are formed in the upper tension member mounting groove 111c and the lower tension member mounting groove 121c at the center thereof, so that only the upper and lower tension members 130 are fixed.

In the rear upper tension member mounting groove 111b and the lower tension member mounting groove 121b, a front and rear through hole 141b is formed to face the rear, and the front and rear tension member 140b and the vertical tension member 130 facing rear are fixed. do.

This is a suitable structure in the case of a large structure, there is an advantage that it is possible to effectively distribute the prestress force to prevent harmful stress concentration.

Since the above has been described only with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known, should not be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

1 is an exploded perspective view of a conventional pipeline structure.

2 is a side view of a conventional pipeline structure.

3 or less shows an embodiment of the present invention,

3 is an exploded perspective view of the PC tube;

4 is a perspective view of a PC tube;

5 is a partial perspective view of a PC tube;

6 is a side view of a first embodiment of a conduit structure;

7 is a side view of a second embodiment of a conduit structure.

8 is a side view of a third embodiment of a pipeline structure.

** Description of the symbols for the main parts of the drawings **

100: PC tube 110: upper member

111: upper tension member mounting groove 120: lower member

121: lower tension member mounting groove 130: vertical tension member

131: vertical through hole 140: front and rear tension material

141: front and rear through holes

Claims (8)

An upper member 110 having an upper tension member mounting groove 111 formed on a side thereof; A lower member 120 formed to form a tubular body by coupling with the upper member 110 and a lower tension member mounting groove 121 formed on a side thereof; In the state in which the upper member 110 and the lower member 120 are coupled, the upper and lower tension members fixed through the upper and lower through holes 131 of the upper tension member mounting groove 111 and the lower tension member mounting groove 121 ( 130); PC tube 100 including. The method of claim 1, The upper member 110 is formed to be curved, the upper tension member mounting groove 111 is a PC tube 100, characterized in that the upper structure is open to the upper side. The method of claim 2, PC tube 100, characterized in that the bottom surface of the upper tension member mounting groove 111 is a flat structure. The method of claim 1, The upper tension member mounting groove 111 and the lower tension member mounting groove 121 are each formed in a plurality on both sides, a plurality of the formed by the plurality of upper tension member mounting groove 111 and the lower tension member mounting groove 121 PC pipe 100, characterized in that the vertical tension member 130 is fixed to the vertical through hole 131, respectively. The method of claim 1, PC tube 100, characterized in that the front tension member mounting groove 111 and the lower tension member mounting groove 121 is formed in the front and rear direction through holes 141 so that the front and rear tension member 140 penetrates and engages. The method of claim 5, The upper tension member mounting groove 111 and the lower tension member mounting groove 121 are formed in each of two sides, Among the two upper tension member mounting grooves 111a and 111b and the lower tension member mounting grooves 121a and 121b, the front tension member mounting groove 111a and the lower tension member mounting groove 121a at the front face the front and rear direction through holes ( 141a) is formed, Of the two upper tension member mounting grooves 111a and 111b and the lower tension member mounting grooves 121a and 121b, the rear upper and lower tension member mounting grooves 111b and the lower tension member mounting grooves 121b have rearward and rearward facing holes ( 141b) PC body 100, characterized in that formed. The method of claim 5, The upper tension member mounting groove 111 and the lower tension member mounting groove 121 are formed in each of three sides, The front and rear of the three upper tension member mounting grooves (111a, 111b, 111c) and the lower tension member mounting grooves (121a, 121b, 121c) in the front upper tension member mounting groove (111a) and the lower tension member mounting groove (121a) toward the front and rear Directional through hole 141a is formed, Among the three upper tension member mounting grooves 111a, 111b, and 111c and the lower tension member mounting grooves 121a, 121b, and 121c, the upper tension member mounting groove 111c and the lower tension member mounting groove 121c are formed in the upper and lower direction through holes. 131 is formed, The front and rear of the three upper tension member mounting grooves (111a, 111b, 111c) and the lower tension member mounting grooves (121a, 121b, 121c) to the rear upper tension member mounting groove (111b) and the lower tension member mounting groove (121b) toward the front and rear PC tube 100, characterized in that the directional through-holes (141b) formed. As a pipe structure formed by a plurality of coupling of the PC pipe 100 of any one of claims 5 to 7, Pipeline structure, characterized in that the front and rear tension member 140 is fixed through the front and rear through holes (141) in a state in which the PC pipe 100 and the adjacent PC pipe (100a) is coupled.

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