CN213625559U - Anti-freezing-pulling anti-seismic sleeve pile - Google Patents

Abstract

The utility model discloses a freeze-drawing-resistant anti-seismic sleeve pile, which comprises a steel pipe concrete pile, an outer sleeve which is a hollow cylinder, is coaxially arranged with the steel pipe concrete pile and sleeved on the periphery of the steel pipe concrete pile, and is formed by assembling at least two sleeve units, and a waterstop is clamped at the assembling position of the adjacent sleeve units; the damping device is arranged between the steel pipe concrete pile and the outer sleeve and comprises a clamp, a bearing and a damping rod, the clamp comprises a main body and a first hinged support, and the first hinged support is fixedly arranged on a main body cross beam; the bearings are pivoted on the main body through a hinged shaft, one end of each damping rod is provided with a second hinged support, and the other end of each damping rod is fixedly connected to the two bearings; the first hinged support is fixed with the inner circumferential surface of the outer sleeve, and the second hinged support is fixed with the outer circumferential surface of the steel pipe concrete pile; this scheme damping rod is along vertical and radial flexible deformation, has and to alleviate frozen pulling force that frozen swelling arouses around the frozen soil district pile foundation and melt the destruction effect and improvement antidetonation effect of sinking phenomenon to the pile foundation.

Description

Anti-freezing-pulling anti-seismic sleeve pile

Technical Field

The utility model belongs to pile foundation engineering field, concretely relates to frost-resistant antidetonation sleeve pile of pulling out.

Background

In recent years, the construction scale of infrastructure in China is gradually increased, more and more pile foundation projects are inevitably generated in permafrost regions, and a Qinghai-Tibet plateau in Alps-Himalayas volcanic seismic zones which are main distribution regions of permafrost in China belongs to high-intensity seismic regions. Because the phenomenon of frost heaving and thaw collapse of the movable layer of the permafrost region along with the seasonal change occurs, frost heaving of the movable layer can generate a frozen-out effect on the pile foundation of the permafrost region, negative friction resistance generated by thaw collapse of the movable layer can increase the settlement of the pile, the operation and maintenance cost of infrastructure is increased, safety accidents such as inclination and cracking of the upper structure of the pile foundation can be caused in severe cases, and the use safety of upper buildings is seriously influenced. In addition, pile foundation engineering in the earthquake region can be damaged by earthquake, researches on underground structures such as pile foundations are less, and once the pile foundations generate serious earthquake damage, the pile foundations are difficult to repair and expensive to repair, and harm can be caused to upper buildings. How to eliminate the freezing and pulling and the thawing and sinking functions of the pile foundation in the permafrost region and ensure that the pile foundation is not damaged or slightly damaged after the earthquake action becomes a problem to be researched and solved urgently.

At present, the design of anti-freezing and anti-seismic measures for pile foundations at home and abroad mainly comprises: (1) non-frost-heaving soft materials such as inorganic fillers and foams are laid around the pile, and the non-frost-heaving soft materials adopted by the design can play a role in energy consumption and resistance reduction under the action of an earthquake, so that the earthquake reaction of the pile foundation is reduced, but the non-frost-heaving soft materials are easy to corrode and lose efficacy under the field condition, and are not beneficial to playing the roles of preventing frost heaving and resisting earthquake for a long time; (2) the sleeve pile is arranged, and a gap between the sleeve and the foundation pile is provided with a rolling structure such as a pulley, a strut and the like to eliminate the frozen-drawing effect of frost heaving around the pile on the foundation pile; (3) at present, the earthquake resistance of a pile foundation is enhanced by improving the strength and rigidity of a pile body, the deformation of surrounding soil bodies is resisted through the rigidity of the pile body under the action of an earthquake, but the rigidity difference between the pile body and the soil bodies surrounding the pile is large, and the stratum is easily deformed greatly due to the rigidity difference during the earthquake, so that the pile foundation is damaged.

Patent document CN108867714A provides a pile structure who sets up self-refrigerating plant at pile lateral wall, including pile lateral wall self-refrigerating freezing structure and hasp, pile lateral wall self-refrigerating freezing knot structure locates the periphery of pile foundation, and it includes temperature sensor, temperature control device, control switch, liquid nitrogen storage tank, serpentine pipe and vacuum generator, and temperature sensor is used for establishing the lateral wall at the pile foundation, and temperature sensor connects temperature control device, temperature control device connect and control switch, and control switch connects the one end of liquid nitrogen storage tank and serpentine pipe, and the liquid nitrogen storage tank is close to the pile foundation setting, and the periphery of pile foundation is located to the serpentine pipe, and vacuum generator is connected to the other end of serpentine pipe, and the air generator is close to the pile foundation setting, and the pile foundation is located to the hasp. The device makes the effectual produced uplift power of resistance frozen soil expansibility of pile foundation and melt the effect of sinking, but this kind of way can lead to engineering cost to increase, and buries in the more difficult self refrigeration plant maintenance of soil, leads to later stage operation cost to further increase, can't satisfy economic nature requirement, hardly popularizes and applies.

SUMMERY OF THE UTILITY MODEL

To the technical problem who exists, the utility model provides a frost-resistant antidetonation sleeve pile of pulling and construction method thereof.

In order to realize the purpose, the utility model discloses the technical scheme who takes is:

an anti-freeze-pull anti-seismic sleeve pile, comprising:

the steel pipe concrete pile is a cylinder;

the outer sleeve is a hollow cylinder, is coaxially arranged with the steel pipe concrete pile and is sleeved on the periphery of the steel pipe concrete pile, and is formed by assembling at least two sleeve units, and a water stop belt is clamped at the assembling position of the adjacent sleeve units;

the damping device is arranged between the outer peripheral surface of the steel pipe concrete pile and the inner peripheral surface of the outer sleeve and comprises a clamp, two bearings and two damping rods, the clamp comprises a main body and a first hinged support, the main body is a portal frame, and the first hinged support is fixedly arranged on a main body cross beam; the two bearings are pivoted on the main body through a hinged shaft, one ends of the two damping rods are respectively provided with a second hinged support, and the other ends of the two damping rods are respectively fixedly connected to the other bearing; the first hinged support is fixed with the inner circumferential surface of the outer sleeve, and the second hinged support is fixed with the outer circumferential surface of the steel pipe concrete pile.

Further, according to the anti-freeze-drawing anti-seismic sleeve pile, the inner peripheral surface of the outer sleeve is provided with the through hole A, the outer peripheral surface of the concrete filled steel tube pile is provided with the through hole B, the first hinged support is fixed in the through hole A, and the second hinged support is fixed in the through hole B.

Further, foretell frost-resistant antidetonation sleeve pile of pulling, first hinged-support and second hinged-support are spherical hinged-support, and the through-hole A and the through-hole B that correspond all set up to the hemisphere hole.

Furthermore, in the anti-freezing and anti-seismic sleeve pile, the damping devices are annularly arranged along the inner circumferential surface of the outer sleeve, and the distance between the damping devices and the inner circumferential surface of the outer sleeve is 10-20 cm.

Further, in the anti-freezing-pulling anti-seismic sleeve pile, the diameter of the outer sleeve is more than 2 times of the diameter of the steel pipe concrete pile.

The embodiment of the utility model provides a beneficial effect of scheme is: the damping device is arranged between the concrete steel pipe and the outer sleeve, and the damping rod can stretch and deform along the vertical direction, so that the damage effect of the freeze-drawing force and the thaw-sinking phenomenon on the pile foundation caused by frost heaving of the soil around the pile foundation in the frozen soil area can be reduced; the damping rod can also deform along the radial direction of the steel pipe concrete pile, most of seismic energy can be absorbed under the action of an earthquake, the impact shearing action of earthquake waves on the pile foundation is relieved, and the earthquake resistance grade of a building in an earthquake zone in a cold region is greatly improved.

Drawings

FIG. 1 is a schematic structural view of the anti-freezing-pulling anti-seismic sleeve pile of the present invention;

FIG. 2 is a perspective view of the sleeve unit;

FIG. 3 is a perspective view of a steel pipe concrete pile in half section;

FIG. 4 is a perspective view of the damping device;

FIG. 5 is a perspective view of the damping rod.

Reference numerals in the drawings of the specification include: the steel pipe concrete pile comprises a steel pipe concrete pile 1, an outer sleeve 2, a sleeve unit 20, a damping device 3, a clamp 30, a main body 301, a first hinged support 302, a bearing 31, a damping rod 32, a second hinged support 320, an elastic piece 321, a hinge shaft 4, a through hole A5, a through hole B6 and a water stop belt 7.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Example 1: refer to fig. 1 to 5

The scheme provides a freeze-drawing-resistant anti-seismic sleeve pile, which comprises a steel pipe concrete pile 1 which is a cylindrical body; the outer sleeve 2 is a hollow cylinder, for example, the diameter of the outer sleeve 2 is greater than 2 times of the diameter of the steel pipe concrete pile 1, the outer sleeve and the steel pipe concrete pile 1 are coaxially arranged and sleeved at the periphery of the steel pipe concrete pile 1, at least two sleeve units 20 are assembled to form the sleeve units 20 of two hollow semi-cylinders, a water stop 7 is clamped at the assembly position of the adjacent sleeve units 20, and two water stops 7 are specifically illustrated in the drawing; the damping device 3 is arranged between the outer peripheral surface of the steel pipe concrete pile 1 and the inner peripheral surface of the outer sleeve 2, and comprises a clamp 30, two bearings 31 and two damping rods 32, wherein the clamp 30 comprises a main body 301 and a first hinged support 302, the main body 301 is a portal frame, and the first hinged support 302 is fixedly arranged on a cross beam of the main body 301; the two bearings 31 are pivoted on the main body 301 through the hinge shaft 4, one ends of the two damping rods 32 are respectively provided with a second hinge support 320, the other ends are respectively fixedly connected to the two bearings 31 in a semi-cylindrical shape, and the middle parts are provided with elastic parts 321 for absorbing energy; the first hinge support 302 is fixed to the inner circumferential surface of the outer sleeve 2, the second hinge support 320 is fixed to the outer circumferential surface of the steel pipe concrete pile 1, and the first hinge support 302 and the second hinge support 320 may be fixed to the outer circumferential surface of the steel pipe concrete pile 1 and the inner circumferential surface of the outer sleeve 2 by welding, screwing, or hinging.

The damping device 3 is arranged between the concrete steel pipe and the outer sleeve 2, and the damping rod 32 of the damping device 3 is connected on the bearing 31 and can be deformed in a vertical telescopic way, so that the damage to the pile foundation caused by the frozen pulling force and the thawing and sinking phenomenon caused by the frozen swelling of the soil around the pile foundation in the frozen soil area can be reduced; the damping rods 32 can also deform along the radial direction of the steel pipe concrete pile 1, can absorb most of seismic energy under the action of an earthquake, reduce the impact shearing action of seismic waves on the pile foundation and greatly improve the seismic grade of buildings in earthquake zones in cold regions.

Example 2: with reference to fig. 2 and 3

Compared with the embodiment 1, the difference is that a through hole A5 is arranged on the inner circumference of the outer sleeve 2, a through hole B6 is arranged on the outer circumference of the steel pipe concrete pile 1, the first hinge support 302 is fixed in the through hole A5, and the second hinge support 320 is fixed in the through hole B6; compared with other fixing modes such as welding or threaded connection, the hole type fixing mode has the advantages that when the requirement on fixing tightness is met, the hole type fixing mode is more convenient and faster to fix, the construction progress is improved beneficially, and the phenomenon that fixing is unstable due to operation deviation of workers can be avoided.

Example 3: with reference to fig. 2 and 3

Compared with the embodiment 2, the difference is that the first hinge support 302 and the second hinge support 320 are both spherical hinge supports, and the corresponding through hole a5 and the corresponding through hole B6 are both provided as hemispherical holes; the first hinge supports 302 and the second hinge supports 320 can be quickly hinged to the outer circumferential surface of the concrete steel pipe and the inner circumferential surface of the outer sleeve 2.

Example 4: with reference to FIG. 1

Compared with the embodiment, the difference is that the damping devices 3 are annularly arranged along the inner circumferential surface of the outer sleeve 2 at intervals of 10-20 cm, and the intensive damping devices 3 can further reduce the damage effect of the frost-out force and the thaw settlement phenomenon caused by frost heaving around the pile foundation in the frozen soil area to the pile foundation and improve the anti-seismic effect.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It should be understood, however, that the detailed description herein of specific embodiments of the invention and the accompanying drawings are not intended to limit the invention to the particular forms disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

Claims (5)

1. The utility model provides a frost-resistant antidetonation sleeve pile that pulls out which characterized in that: comprises the steps of (a) preparing a mixture of,

the steel pipe concrete pile (1) is a cylindrical body;

the outer sleeve (2) is a hollow cylinder, is coaxially arranged with the steel pipe concrete pile (1), is sleeved on the periphery of the steel pipe concrete pile (1), is formed by assembling at least two sleeve units (20), and a water stop (7) is clamped at the assembling position of the adjacent sleeve units (20);

the damping device (3) is arranged between the outer peripheral surface of the steel pipe concrete pile (1) and the inner peripheral surface of the outer sleeve (2) and comprises a clamp (30), two bearings (31) and two damping rods (32), the clamp (30) comprises a main body (301) and a first hinged support (302), the main body (301) is a portal frame, and the first hinged support (302) is fixedly arranged on a cross beam of the main body (301); the two bearings (31) are pivoted on the main body (301) through a hinge shaft (4), one ends of the two damping rods (32) are respectively provided with a second hinge support (320), and the other ends of the two damping rods are respectively fixedly connected to the two bearings (31); the first hinged support (302) is fixed with the inner circumferential surface of the outer sleeve (2), and the second hinged support (320) is fixed with the outer circumferential surface of the steel pipe concrete pile (1).

2. The anti-freeze-drawing anti-seismic sleeve pile according to claim 1, characterized in that: the inner circumferential surface of the outer sleeve (2) is provided with a through hole A (5), the outer circumferential surface of the concrete-filled steel tube pile (1) is provided with a through hole B (6), the first hinged support (302) is fixed in the through hole A (5), and the second hinged support (320) is fixed in the through hole B (6).

3. The anti-freeze-drawing anti-seismic sleeve pile according to claim 2, characterized in that: the first hinged support (302) and the second hinged support (320) are both spherical hinged supports, and the corresponding through hole A (5) and the corresponding through hole B (6) are both semi-spherical holes.

4. The anti-freeze anti-seismic sleeve pile according to any one of claims 1 to 3, characterized in that: and multiple groups of damping devices (3) are annularly arranged along the inner peripheral surface of the outer sleeve (2), and the distance between the groups is 10-20 cm.

5. The anti-freeze-drawing anti-seismic sleeve pile according to claim 4, characterized in that: the diameter of the outer sleeve (2) is more than 2 times of the diameter of the steel pipe concrete pile (1).

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