KR970011596B1 - Pipe floating device - Google Patents

Abstract

A system having hollows(150)(250) in the inner side of both crescents(100)(200), preventing water from entering the hollow, the air cavity is sealed which is formed by the joint ends(120)(220). As the inner side of the buoyage is formed in the shape of space, for reinforcing the structural weakness, a fastening belt groove is provided. Further toward the longitudinal direction on the surface of the outer shell, it includes slits(152)(252) which resist the force of moment from the outside, and prevent against all deformation of the buoyage.

Description

Pipe buoyancy

1 is a perspective view showing a pipe buoyancy apparatus of the present invention.

2 is a side cross-sectional view of FIG.

3 is an exploded perspective view of the unit buoyancy body.

4 is a side view of one body portion.

5 is another embodiment of a unit buoyancy body.

* Explanation of symbols for main parts of the drawings

1: buoyancy body 100: one body part

110, 210: outer surface 111, 211: bolt hole

112, 212: belt fastening groove 120, 220: butt face

121, 221: coupling groove 122, 222: coupling protrusion

124, 224: air hole 130, 230: inner side

131, 231: fitting groove 200: the other side body

300: fastening belt 400: retainer

The present invention relates to a buoyancy device that floats a pipe on water when transporting dredged soil under water through a pipe. In particular, the present invention relates to a pipe buoyancy device that facilitates assembly and disassembly of a buoyancy device to increase overall work efficiency. It is about.

In general, at the sea port construction, the pipe was floated on the water, and the dredged soil under the water was transferred with the water. However, the use of several hundred kilometers of transport pipes at sea can take into account the various adverse conditions of the marine environment. That is, they must be prepared for collisions with waves and winds and also with objects such as other structures and work lines around the pipelines.

Accordingly, in order to increase the efficiency of the work, a pipe buoyancy device that can be easily assembled and dismantled under various adverse conditions has been developed.

It is an object of the present invention to provide a pipe buoyancy device that simplifies assembly and disassembly even under various adverse conditions in order to increase the efficiency of the overall work.

Hereinafter, the technical configuration of the present invention in detail.

Pipe buoyancy apparatus of the present invention, as shown in Figures 1 to 3, the cross-sectional shape is made of a semi-circular arc and buoyancy body, the outer surface 110, the bolt holes 111 are formed and formed of a flat plate One side body portion 100 is formed by the inner surface 130 is formed by the abutment surface 120 and the fitting groove 131, the transport pipe 2 is fitted; Made of the same cross-sectional shape and buoyancy body as the one side body portion 100, the outer surface 210, the bolt holes 211 are formed, the butting surface 220 formed of a flat plate and the transport pipe (2) And the other body portion 200 is formed by the inner surface 230 is formed by the fitting groove 231 to be fitted; A binding belt (300) for binding along the circumference of the one body portion (100) and the other body portion (200); The buoyant body is connected to the longitudinal direction by the retainer (Retainers) (400) for fixing both of them is a basic feature in the technical configuration.

Here, one side body portion 100 and the other body portion 200 is formed in a semi-circular cross-section is combined to form one buoyancy body to facilitate the disassembly of the assembly. That is, since the one body portion 100 and the other body portion 200 are manufactured separately, the transport pipe 2 can be easily fitted into the fitting grooves 131 and 231.

In the present invention configured as described above, the transport pipe 2 is inserted into the fitting grooves 131 and 231 formed on the inner surfaces 130 and 230 of the one body portion 100 and the other body portion 200. Matching facing surfaces 120 and 220 facing each other, bolting the bolt holes 111 and 211 formed in the outer surface 110 and 210, one body portion 100 and the other body portion 200 Fasten the binding belt 300 along the circumference of each body to prevent distortion and separation of the.

Thus, in the present invention, as shown in FIG. 1 and FIG. 2, two buoyancy bodies 1 are assembled in a set so that a plurality of buoyancy bodies are continuously connected in the longitudinal direction to prevent separation between the buoyancy bodies. Firmly fixing the monkeys with retainers 400 serves as a pipe buoyancy device as a unit.

In the above embodiment, six pairs of buoyancy bodies constitute a pipe buoyancy device as one unit, but it is clear that the necessary number can be selected and used.

When one buoyant body is continuously connected in the longitudinal direction on one side cross section and the other cross section of the semicircular arc of the one body portion 100 and the other body portion 200, as shown in FIGS. 3 and 4, between each buoyancy body In order to prevent distortion, it is preferable to form concave grooves 141 and 241 and convex pieces 142, respectively.

Belt fastening grooves 112 and 212 are preferably formed along the circumference of the outer side surfaces 110 and 210 of the one body portion 100 and the other body portion 200, which is the binding belt 300 By binding to the belt fastening grooves (112, 212) serves to prevent the separation of the binding belt (300).

As shown in FIGS. 3 and 4, the mating surfaces 120 and 220 of the one body part 100 and the other body part 200 are coupled to each body part to prevent twisting. The coupling grooves 121 and 221 and the coupling grooves 122 and 222 are formed. This has the effect that the one body portion 100 and the other body portion 200 is bound without distortion even in the sea or rivers with severe waves and external pressure.

As shown in FIG. 3, the inner side surfaces 130 and 230 of the one body portion 100 and the other body portion 200 are formed by fitting grooves 131 and 231 into which the transport pipe is fitted. It is noted that ribs 132 and 232 may be formed on the surface to increase the strength when engaged with the outer surface of the transport pipe.

As shown in FIG. 1, the binding belt 300 surrounds one side and the other body by surrounding the circumference to firmly couple the one side and the other body 100 and 200. After examining the structural strength sufficiently, it is preferable to select a material especially resistant to salt water.

The retainers 400 connect the buoyancy bodies in the longitudinal direction as shown in FIGS. 1 and 2, and then remove both of them to prevent slipping of each buoyancy body on the transport pipe 2. It is clamped and fixed. At this time, the retainer 400 is a semi-circular one side retainer and the other two retainers are assembled in pairs and fastened with bolts.

Referring to the assembly sequence of the present invention configured as described above; First, after marking in advance at a predetermined interval in the place to assemble the buoyancy body, the binding belt 300 is placed. Second, install the unit body one by one in the body portion 100 displayed in the indicated position. At this time, the outer surface 110 of the one side body portion 100 is good to make the inner surface 130 to face upwards. Third, the transport pipe 2 is lifted by a crane to be positioned in the fitting groove 131 of the inner side of the one body portion 100. Fourth, the other body portion 200 on the upper portion of the transport pipe 2 is obtained to match the one body portion 100. Fifth, the fixing belt 300 is filled and fixed by bolting the bolt hole 111 formed on the outer surface. Sixth, when the retainer 400 is filled in both buoyancy bodies to be units, a pipe buoyancy device of one unit is completed.

Since the disassembly order of the present invention assembled as described above is in reverse order, detailed description is omitted.

As described above, the pipe buoyancy device of the present invention inserts the pipe into the inner surface fitting groove in which the one side body portion and the other side body portion formed by the semicircular cross section are separated by a binding belt, and the buoyancy body portion which becomes each unit unit. Since it is fixed with a retainer, the required construction site can be easily assembled and dismantled anywhere, while increasing the overall work efficiency.

Meanwhile, as shown in FIG. 5, in order to reduce the specific gravity of the buoyancy body, empty spaces 150 and 250 are formed inside the one body part 100 and the other body part 200, and the space. The air holes 251 formed on the mating surfaces 120 and 220 are tightly sealed to prevent air or water from entering the 150 and 250 so that water does not penetrate. The present invention thus formed has an effect of performing the function of the buoyancy body more effectively since the specific gravity is relatively small.

In addition, because the interior is formed into a space, the self-weight is relatively light. Therefore, it is easy to transport and increases the efficiency of the overall work.

At this time, since the inner structure is formed into a space, the structural strength of the buoyancy body may be reinforced by the belt fastening grooves 110 and 210, and the grooves 152 (the bending side in the longitudinal direction of the outer surface 110) 252) to have a structural strength corresponding to the moment of force applied from the outside to prevent the buoyancy body from being deformed as a whole.

As described above, the present invention facilitates the assembly and disassembly of the buoyancy device because the one side body portion and the other body portion formed in a semicircular cross section are easily manufactured, and the specific gravity is relatively small since the air cylinder is formed inside the buoyancy body. In addition, the coupling grooves and the coupling protrusions at the butting surface firmly bind the respective body parts, which is very useful for increasing the overall work efficiency.

Claims (3)

Cross-sectional shape is a semi-circular arc and made of a buoyancy body, one side body portion formed of the outer surface formed with bolt holes, the mating surfaces formed by the flat plate, the inner surface formed by the fitting groove to which the pipe is fitted; Made of the same cross-sectional shape and buoyancy body as the one side body portion, the outer surface formed with bolt holes, the mating surfaces formed by coupling grooves and coupling projections, and the inner surface formed by the fitting groove to which the pipe is fitted Other body parts formed; A binding belt for binding the periphery of the one body portion and the other body portion; Pipe buoyancy device characterized in that consisting of retainers (Retainers) for connecting the buoyancy body in the longitudinal direction to fix the two bills. The pipe buoyancy device according to claim 1, wherein the pipe buoyancy device is formed of coupling grooves and coupling protrusions to prevent distortion when the one body part and the other body part are coupled at a predetermined position of the mating surface. The pipe buoyancy device according to claim 1, wherein the one body portion and the other body portion have an empty space and air holes are formed at a predetermined position on the mating surface.