JP2011241950A - Embedded pipe - Google Patents

Abstract

PROBLEM TO BE SOLVED: To eliminate a fault of each pipe by improving the strength thereof and combining several kinds of pipes.SOLUTION: This embedded pipe 10 has a triple-pipe structure including: a steel pipe 12; a concrete pipe 14 concentrically and integrally formed with the steel pipe 12 outside of the steel pipe 12; and a vinyl chloride pipe 16 concentrically and integrally formed with the steel pipe 12 inside of the steel pipe 12. An end surface 16a of the vinyl chloride pipe 16 is drawn in comparison with a general end surface 12a of the steel pipe 12, and the other end surface 16b of the vinyl chloride pipe 16 is protruded in comparison with the other general end surface 12b of the steel pipe 12. The steel pipe 12 has a protruding piece 12c in an end thereof, and has a recessed part 12d in the other end thereof.

Description

  The present invention relates to a buried pipe used by being buried in the ground such as a water and sewage pipe.

  Conventionally, concrete pipes or vinyl chloride pipes called fume pipes are known as buried pipes such as water and sewage pipes. A concrete pipe has a drawback that it is easily cracked and easily cracked, and the ground may be depressed when cracked. In addition, there is a drawback that defects and erosion occur due to friction with the substance flowing in the pipe.

  Therefore, at present, vinyl chloride pipes are mainly used as buried pipes. However, the vinyl chloride pipe has a disadvantage that it deforms and shifts in the joint portion when there is a change in temperature as in the four seasons of Japan.

  Moreover, as shown in Patent Document 1, in the fume tube, a synthetic resin layer is also coated on the inner peripheral surface, but simply covering the synthetic resin layer is not sufficient to strengthen the strength. It is.

JP-A-8-47915

  In general, a large amount of money is recorded in the public budget for sewerage work as a rebuilding work for aging sewers, which means that wasteful conventional pipes that are less durable are wasted.

  The present invention has been made in view of the problems of such a conventional buried pipe, and is intended to improve the strength and eliminate the disadvantages of each pipe by combining a plurality of types of pipes to provide a buried pipe having excellent durability. Its purpose is to provide.

In order to achieve the above-mentioned object, the invention according to claim 1 is provided with a steel pipe, a concrete pipe provided concentrically and integrally on the outside of the steel pipe, and provided concentrically and integrally on the inside of the steel pipe. A buried pipe having a triple pipe structure with a vinyl chloride pipe,
At least a part of one end face of the vinyl chloride pipe is drawn from one general end face of the steel pipe, and at least a part of the other end face of the vinyl chloride pipe protrudes from the other general end face of the steel pipe; A first fitting portion at one end of the second, and a second fitting portion at the other end of the steel pipe,
When the buried pipe is connected, at least part of the end face of the polyvinyl chloride pipe of the other buried pipe protrudes from the side where the end face of at least part of the polyvinyl chloride pipe of one buried pipe is drawn. The first fitting part of the steel pipe of one buried pipe and the second fitting part of the steel pipe of the other buried pipe can be fitted to each other. It is characterized by.

  According to a second aspect of the present invention, in the buried pipe according to the first aspect, the first fitting portion or the second fitting portion of the concrete pipe is matched with a position where the first fitting portion or the second fitting portion is formed. A notch for exposing the fitting portion is formed.

  According to a third aspect of the present invention, in the buried pipe according to the first or second aspect, an anchor member embedded in the vinyl chloride pipe and the concrete pipe is provided on the inner side and the outer side of the steel pipe, respectively.

  According to a fourth aspect of the present invention, in the buried pipe according to any one of the first to third aspects, any one of the first fitting portion and the second fitting portion protrudes from the general end surface of the steel pipe. It is a protruding piece, and the other one of the first fitting and the second fitting part is a recessed part drawn in from the general end face of the steel pipe.

  According to a fifth aspect of the present invention, in the buried pipe according to the fourth aspect, alignment grooves are respectively formed on the peripheral surface of the projecting piece and the peripheral surface of the recess, and the projecting piece of one of the buried pipes and the other When the recessed portion of the buried pipe is fitted, the alignment groove is aligned.

  According to a sixth aspect of the present invention, in the buried pipe according to the fifth aspect, an alignment member can be inserted into the alignment groove.

  The invention according to claim 7 comprises a triple pipe comprising a steel pipe, a concrete pipe concentrically and integrally provided on the outside of the steel pipe, and a vinyl chloride pipe provided concentrically and integrally on the inside of the steel pipe. It features a buried pipe connection structure in which buried pipes having a structure are continuously connected.

  The invention according to claim 8 is characterized in that a buried pipe connection structure is formed by connecting the buried pipe according to any one of claims 1 to 6.

  The invention described in claim 9 is an embedded pipe coupling structure formed by connecting the embedded pipes described in claim 2, wherein the notch is filled with a filler.

  According to the present invention, since the buried pipe is a triple pipe composed of a steel pipe, a concrete pipe outside the steel pipe, and a vinyl chloride pipe inside the steel pipe, the strength can be improved by the steel pipe. In addition, the outer concrete pipe can be well adapted to the soil and can have an internal heat insulating effect. Therefore, deformation of the vinyl chloride pipe can be prevented, and the connection of the vinyl chloride pipe can be maintained. In addition, the inner vinyl chloride pipe can suppress wear and corrosion with the substance flowing in the pipe.

  Thus, it is possible to make a buried pipe having excellent durability by taking advantage of the pipe made of different kinds of materials.

It is a longitudinal cross-sectional view of the buried pipe by 1st Embodiment of this invention. 1 is a perspective view of a buried pipe according to a first embodiment of the present invention. It is a partial fracture perspective view of an embedding pipe by a 1st embodiment of the present invention. It is a partial expanded sectional view of an embedded pipe by a 1st embodiment of the present invention. It is a partial side view showing the connection procedure of the buried pipe by 1st Embodiment of this invention. It is a fragmentary longitudinal cross-section showing the connection procedure of the buried pipe by 1st Embodiment of this invention. It is a perspective view of a buried pipe according to a second embodiment of the present invention. It is a fragmentary longitudinal cross-section showing the connection procedure of the buried pipe by 2nd Embodiment of this invention.

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

  1-3 is a figure showing the buried pipe by 1st Embodiment of this invention. In the figure, the buried pipe 10 has a triple pipe structure composed of a steel pipe 12, a concrete pipe 14 outside the steel pipe 12, and a vinyl chloride pipe 16 inside the steel pipe 12, and has one end opening 10a and the other. And an end opening 10b. The steel pipe 12 is preferably about 10 mm thick.

  The steel pipe 12, the concrete pipe 14 and the vinyl chloride pipe 16 constituting the triple pipe basically overlap each other in the radial direction with the same axial length, but only the vinyl chloride pipe 16 is in the axial direction. It is fixed so as to be shifted by a predetermined distance. That is, at one end opening 10 a of the buried pipe 10, at least a part (all in the example in the figure) of the end face 16 a of the vinyl chloride pipe 16 is drawn from the general end face 12 a of the steel pipe 12. In the end opening 10 b, at least a part (all in the illustrated example) of the end face 16 b of the vinyl chloride pipe 16 protrudes from the one end face 12 b of the steel pipe 12. The protruding amount can be about 50 mm.

  Further, in the one end opening 10a of the buried pipe 10, the steel pipe 12 is provided with a protruding piece 12c as a fitting portion that protrudes from the general end face 12a, and in the other end opening 10b of the buried pipe 10, from the general end face 12b. A recessed portion 12d is also provided as a fitting portion that is also drawn. A plurality of the projecting pieces 12c and the recessed portions 12d can be provided apart from each other in the circumferential direction, but it is preferable to provide two at least 180 degrees apart. Alignment grooves 12e and 12f are formed around the outer peripheral surface of the protruding piece 12c and the recess 12d, respectively. The general end faces 12a and 12b are main end faces excluding a portion where the protruding piece 12c and the recess 12d of the steel pipe 12 are formed.

  On the end surface of the concrete pipe 14, a notch 14 a is provided at a position corresponding to the recess 12 d of the steel pipe 12.

  As shown in FIG. 4, a plurality of anchor members 12g and 12h are fixed to the inner and outer peripheral surfaces of the steel pipe 12 by any means such as welding.

  A plurality of anchor members 12g inside the steel pipe 12 are embedded in the vinyl chloride pipe 16 so that the vinyl chloride pipe 16 is integrated with the inner peripheral surface of the steel pipe 12 without being displaced. It is fixed.

  In addition, a plurality of anchor members 12 h outside the steel pipe 12 are embedded in the concrete pipe 14, whereby the concrete pipe 14 is integrally fixed without being displaced with respect to the outer peripheral surface of the steel pipe 12. Yes.

  The vinyl chloride pipe 16 can be formed inside the steel pipe 12 by molding, and the concrete pipe 14 can be formed outside the steel pipe 12 by molding.

  To connect the buried pipe 10 configured as described above, as shown in FIGS. 5 and 6, the other side adjacent to the side on which the end face 16 a of the vinyl chloride pipe 16 of one buried pipe 10 is drawn. The side where the end face 16b of the vinyl chloride pipe 16 of the buried pipe 10 protrudes is inserted, and the outer peripheral surface and the end face 16b of the one buried pipe 10 projecting from that side are opposed to the other buried pipe 10. Adhesive 18 is applied to the inner peripheral surface of the steel pipe 12 and the end face 16 a of the vinyl chloride pipe 16, and the adjacent vinyl chloride pipes 16 are fixed together with the adhesive 18. At this time, the end face 16a of one vinyl chloride pipe 16 and the end face 16b of the other vinyl chloride pipe 16 are brought into contact with each other.

  Further, the end face 12a of one steel pipe 12 and the end face 12b of the other steel pipe 12 are brought into contact with each other, and the protruding piece 12c of the steel pipe 12 and the concave portion 12d of the steel pipe 12 of the adjacent buried pipe 10 are fitted together. The alignment grooves 12e and 12f are set to align when the protruding piece 12c and the recess 12d are fitted together. Therefore, the alignment member 20 matching the groove shape is inserted into the aligned alignment grooves 12e and 12f. The alignment member 20 may be fixed to the alignment grooves 12e and 12f by press-fitting or welding. This operation is performed through the notch 14a of the concrete pipe 14. The end faces of the concrete pipe 14 are also applied.

  Next, the notch portion 14 a is filled with a filler such as mortar 22 to finish the same outer surface as the concrete pipe 14.

  Thus, the connection with the adjacent buried pipe 10 is completed. Since the connection is made between the vinyl chloride pipe 16 and the steel pipe 12, respectively, the connection is ensured. That is, the end faces 16a and 16b of the adjacent vinyl chloride pipes 16 are fixed by the adhesive 18 in the vinyl chloride pipe 16, and the steel pipe 12 is fitted by the fitting of the projecting piece 12c and the recess 12d and the alignment member 20. Adjacent steel pipes 12 are fixed. Further, since the steel pipe 12 and the concrete pipe 14 are integrated, the concrete pipes 14 are also connected without a gap.

  Since the buried pipe 10 thus connected has the steel pipe 12 as a core, the strength is improved. Moreover, since the concrete pipe 14 is on the outside, it is possible to have a good familiarity with the soil and to have an internal heat insulating effect. Therefore, deformation of the vinyl chloride tube 16 can be prevented. Further, the inner vinyl chloride pipe 16 can suppress wear and corrosion with the substance flowing in the pipe. In this way, it is possible to obtain a buried pipe having excellent durability that can be used semipermanently.

  FIG. 7 is a diagram showing a buried pipe according to the second embodiment of the present invention. In 2nd Embodiment, the same code | symbol is attached | subjected to the member and part similar to 1st Embodiment.

  In this example, the end face 16a of the vinyl chloride pipe 16 protrudes from the general end face 12a of the steel pipe 12 at one end opening 10a of the buried pipe 10, and conversely, at the other end opening 10b of the buried pipe 10, vinyl chloride pipe. 16 is different from the first embodiment in that the end face 16b of the steel pipe 12 is drawn more than the one end face 12b of the steel pipe 12. Therefore, the end face 16a is similar to the protruding piece 12c of the steel pipe 12 from the general end face 12a of the steel pipe 12. It protrudes. Further, the end face 16 b is drawn from the general end face 12 b of the steel pipe 12 in the same manner as the recess 12 d of the steel pipe 12.

  Also in the buried pipe 10 configured as described above, as shown in FIG. 8, the connection work of the buried pipe 10 can be performed in the same manner as in the first embodiment.

  In the above example, the protruding piece 12c as one fitting portion and the recess 12d as the other fitting portion are provided at two positions apart from each other. It is also possible that the parts are comb-like ones in which protruding pieces and concave parts are alternately arranged, and can be fitted to each other.

  Further, in the illustrated example, the buried pipe extends on a straight line, but is not limited thereto, and may extend in a curved shape. In addition, the buried pipes are directly connected to each other. However, the present invention is not limited to this, and when it is necessary to bend the pipe joint part, a steel pipe in which a vinyl chloride pipe is integrally provided inside as a joint. The anchor member 12h may be provided on the outer peripheral surface of the steel pipe, and the outside of the steel pipe may be finished with mortar on site.

DESCRIPTION OF SYMBOLS 10 Embedded pipe 12 Steel pipe 12a General end surface 12b General end surface 12c Protruding piece (fitting part)
12d recess (fitting part)
12e Alignment groove 12f Alignment groove 12g Anchor member 12h Anchor member 14 Concrete pipe 14a Notch 16 Vinyl chloride pipe 16a End surface 16b End surface 18 Adhesive 20 Alignment member 22 Mortar (filler)

Claims (9)

A buried pipe having a triple pipe structure comprising a steel pipe, a concrete pipe provided concentrically and integrally on the outside of the steel pipe, and a vinyl chloride pipe provided concentrically and integrally on the inside of the steel pipe. And
At least a part of one end face of the vinyl chloride pipe is drawn from one general end face of the steel pipe, and at least a part of the other end face of the vinyl chloride pipe protrudes from the other general end face of the steel pipe; A first fitting portion at one end of the steel pipe, and a second fitting portion at the other end of the steel pipe,
When the buried pipe is connected, at least part of the end face of the polyvinyl chloride pipe of the other buried pipe protrudes from the side where the end face of at least part of the polyvinyl chloride pipe of one buried pipe is drawn. The first fitting part of the steel pipe of one buried pipe and the second fitting part of the steel pipe of the other buried pipe can be fitted to each other. A buried pipe characterized by   The concrete pipe is formed with a notch that exposes the first fitting portion or the second fitting portion in accordance with a position where the first fitting portion or the second fitting portion is formed. The buried pipe according to claim 1.   The embedded pipe according to claim 1 or 2, wherein an anchor member embedded in the vinyl chloride pipe and the concrete pipe is provided inside and outside the steel pipe, respectively.   Either one of the first fitting portion and the second fitting portion is a protruding piece protruding from the general end surface of the steel pipe, and either one of the first fitting and the second fitting portion is a general end surface of the steel pipe. The buried pipe according to any one of claims 1 to 3, wherein the recessed pipe is more retracted.   Alignment grooves are formed on the peripheral surface of the protruding piece and the peripheral surface of the recessed part, respectively, and the alignment groove is aligned when the protruding piece of one embedded pipe and the recessed part of the other embedded pipe are fitted together. The buried pipe according to claim 4, wherein the buried pipe is configured as follows.   The buried pipe according to claim 5, wherein an alignment member can be inserted into the alignment groove.   A buried pipe having a triple pipe structure comprising a steel pipe, a concrete pipe provided concentrically and integrally on the outside of the steel pipe, and a vinyl chloride pipe provided concentrically and integrally on the inside of the steel pipe, A buried pipe connection structure that is continuously connected.   A buried pipe connection structure formed by continuously connecting the buried pipes according to any one of claims 1 to 6.   3. An embedded pipe connection structure formed by continuously connecting the embedded pipes according to claim 2, wherein the notch is filled with a filler.