RU2015251C1 - Earthquake-proof oil pipeline - Google Patents

Abstract

FIELD: construction of oil pipelines in seismic regions. SUBSTANCE: earthquake-proof oil pipeline has pipes 1, upper reinforced concrete plates 9, lower reinforced concrete plates 5 and 6 with recesses 7 accommodating pipes 8, and bellows 2 of flat disks with central hole. EFFECT: higher efficiency. 7 dwg

Description

 The invention relates to the construction and can be used in the construction of oil pipelines in seismic areas.

 A well-known oil pipeline, including a vertical element having a supporting platform, placed on a foundation plate mounted on a soil bed, in which the foundation is equipped with a perforated plate, placed in a pit pre-opened under a soil bed filled with non-porous soil, and the vertical element is made in the form of a pair of triangular trusses, located symmetrically to the longitudinal axis of the pipeline, the base plate is made in the form of pairs connected by rods and cords with a perforated plate elements mounted symmetrically about the transverse axis of the foundation under the lower end portions of the belt trusses.

 The disadvantage is the lack of seismic protection.

 The purpose of the invention is improving earthquake resistance.

 This goal is achieved by the fact that in an earthquake-resistant oil pipeline, including steel pipes, upper and lower reinforced concrete slabs, the connection of the slabs is made in the form of a harmonic, consisting of hollow circular disks with a hole in the middle, the harmonics are supported by the upper plate on a number of pipe sections installed at an angle to the axis of the pipeline and into the grooves of the lower plate with a gap, and each disk is made of two hollow shells in the form of a truncated cone.

 Figure 1 presents the earthquake-resistant oil pipeline in the plan; figure 2 is a section aa in figure 1; figure 3 - support for harmonics; figure 4 - a hollow shell in the form of a truncated cone; figure 5 is a General view of the shell; figure 6 - support for the angles of rotation of the pipeline; Fig.7 is a section bB in Fig.3 and 6.

 An earthquake-resistant oil pipeline includes steel pipes 1, harmonics 2, consisting of hollow circular disks made of two hollow steel shells 3, 4, lower reinforced concrete slabs 5, 6 with grooves 7, in which pipes 8 are placed, at an angle to the axis of the oil pipeline, upper reinforced concrete plates 9, limiters of displacements 10 of the upper plate, embedded parts 11, 12 of the grooves and upper plates, respectively, sheet 13 attached to the shell 4, electric welding 14 (Fig. 2), elastoplastic material 15, filling the inner space of the shells 3, 4.

 An earthquake-resistant oil pipeline is mounted like this. Prefabricated reinforced concrete slabs 5, 6 are installed. Pipes 8 are inserted into slots 7. The upper precast reinforced concrete slabs are installed 9. Steel pipes 1 are mounted.

 The pipe joints are connected by harmonics 2 by means of electric welding 14.

 Harmonics 2 are assembled at a metalwork factory by welding steel shells 3, 4 to each other using electric welding 14. Harmonics 2 (Fig. 1) must be installed after 40 ... 50 m.

 An earthquake-resistant oil pipeline works as follows.

 In an earthquake, seismic action will act on the lower plates 5, 6. The latter will transmit seismic forces to the pipes 8, which will roll, thereby reducing the magnitude of the seismic force. The upper plates 9 with pipe 1 will also ride along the pipes 8. Harmonics 2 serve as a damper and will absorb and absorb the energy of seismic waves. In the absence of seismic effects, harmonics 2 will protect the earthquake-resistant oil pipeline from temperature effects, as well as from the forces of frost heaving.

 The larger diameter of the sheath 4 should exceed the diameter of the pipe 1 by about 4.. . 5 times. This is determined by calculation in a real project so that harmonics can oscillate.

 Earthquake-resistant oil pipeline will be widely used all over the world.

Claims (1)

 A SEISMICALLY OIL PIPELINE containing a pipeline of interconnected pipe segments and a support in the form of upper and lower reinforced concrete slabs, characterized in that the connection of the pipe segments is made in the form of harmonics of flat disks with a central hole in communication with the pipe cavity, the harmonics being supported on the upper plate through tubular elements installed at an angle to the axis of the pipeline and in the grooves made in the bottom plate, and each disk is made of two shells in the form of a truncated cone.

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