CN201137110Y - Impact force resistant club-footed pile for high-rise building - Google Patents
Impact force resistant club-footed pile for high-rise building Download PDFInfo
- Publication number
- CN201137110Y CN201137110Y CNU2007201849942U CN200720184994U CN201137110Y CN 201137110 Y CN201137110 Y CN 201137110Y CN U2007201849942 U CNU2007201849942 U CN U2007201849942U CN 200720184994 U CN200720184994 U CN 200720184994U CN 201137110 Y CN201137110 Y CN 201137110Y
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- steel pipe
- pile
- cast
- pile body
- place concrete
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Abstract
The utility model discloses an belled pile used in foundation engineering of high-rise buildings, which is structurally characterized in that an upper segment employs a steel pipe which is internally provided with a prefabricated pile body and lower inserted reinforcements, a lower segment prefabricated pile body is internally provided with upper inserted reinforcements and embedded lower inserted reinforcements of the lower segment prefabricated pile body, the upper inserted reinforcements of the lower segment prefabricated pile body are in lap joint with the lower inserted reinforcements of the upper segment steel pipe, the upper steel pipe and the lower segment prefabricated pile body are anchored integrally by an upper cast-in-place concrete base, the connection position of the upper segment steel pipe and the lower segment prefabricated pile body is equipped with stabilizing reinforcements, the lower end of the lower segment prefabricated pile body is provided with a cast-in-place concrete base, the cross section of the upper segment steel pipe and the lower segment prefabricated pile body is rectangular, and the cast-in-place concrete base is internally provided with radial reinforcements. The belled pile has wide application scope, obviously increases stability and utilization rate of material strength, and enhances bearing capacity and anti-impact force.
Description
Technical field
The utility model relates to a kind of expanded bore pile for building, and particularly relating to a kind of being applicable to is anti-impact force highrise building expanded bore pile in the highrise building foundation engineering.
Background technology
The pile foundation engineering that is used for the high building lot of highrise building and requirement for bearing capacity at present generally adopts three kinds of ram-expanded pile, preformed pile and large diameter bored piles.Wherein the large diameter bored pile bearing capacity is the highest, but its involve great expense, work efficiency is low, and is and seriously polluted during construction; The quality of preformed pile is good, bearing capacity is also higher, but the cost of preformed pile is also high at present, generally is used for the higher building of safe class.What wherein be most widely used is ram-expanded pile, and this pile body is a cast-in-situ steel concrete, and pile crown is prefabricated; When executing, earlier the prefabricated pile crown of immersed tube is imbedded the hardpan in the ground, irritate concrete cast pile then; But because the soil property age difference that the earth's crust forms, soft foundation is soft usually with the increase of the crust layer degree of depth, hardpan is alternately state, like this when continuous piling construction, after execute stake and can produce extruding soil layer, the stake that will have influence on perfusion formerly and not solidify fully as yet, especially especially serious at the intersection of weak soil layer and hardpan, broken pile often appears, necking, thereby cause having approximately can't meet the quality requirement of tube-sinking cast-in-situ pile about 20%, force the designer to reduce the standard of bearing capacity of single pile, cause down stake to be gathered, cause soil body gross distortion, even jeopardize the quality of pile body; This another shortcoming is that bearing capacity is low, be to increase bearing capacity, the general way that adopts at the bottom of after irritating concrete cast pile body, adding companding, but because of its utilization add companding at the bottom of mode make the uncertain and standard of its shape size, its application is limited to.Though the utility model patent of the anti-impact force highrise building expanded bore pile that the inventor has applied for has solved the problems referred to above, find that in actual use the junction of pile body exists bearing capacity and anti-impact force is weak, the problem of steadiness difference.
The utility model content
The problem that the utility model exists at prior art, and provide a kind of scope of application wide, obviously improve strength of materials utilization rate, bearing capacity of single pile is higher and reach the anti-impact force highrise building expanded bore pile of the Expected Results of design, has solved in the prior art that the junction of pile body exists bearing capacity and anti-impact force is weak, the problem of steadiness difference.
The technical scheme that the utility model technical solution problem is adopted is: the highrise building expanded bore pile, it is to be made of following structure: epimere adopts steel pipe, be provided with precast pile and following joint bar in the steel pipe, hypomere adopts precast pile, be provided with the last joint bar of hypomere precast pile in the hypomere precast pile and bury joint bar in advance, the last joint bar of hypomere precast pile overlaps mutually with the following joint bar of epimere steel pipe, by last Cast-in-place concrete base epimere steel pipe and the anchoring of hypomere precast pile are fused again, the internal connection of epimere steel pipe and hypomere precast pile is provided with the firm muscle of chiasma type, the lower end of hypomere precast pile is provided with the Cast-in-place concrete base, the cross section of epimere steel pipe and hypomere precast pile is a rectangle, is provided with the radiation muscle in last Cast-in-place concrete base and the Cast-in-place concrete base.
Described vertical section of going up Cast-in-place concrete base and Cast-in-place concrete base be big down little trapezoidal.
The utility model adopts the more piece pile body and expands base more than two, because the performance to the lower bottom base bearing capacity of upper bed-plate produces good influence, being provided with the performance of each section pile body frictional resistance of each base is favourable, make stake be in the state work down of economical rationality all the time, obviously improve the bearing capacity of single pile and the utilization rate of the strength of materials, strengthened steadiness, reach the Expected Results of design easily, satisfy the needs of construction work better, in the Cast-in-place concrete base, establish the radiation muscle, be more suitable for the model highrise building and use, its safe class and ground soil property situation can both be combined into the immersed tube prefabricated multistage under-reamed pile that is complementary with it.
Description of drawings
Fig. 1 is the utility model anti-impact force highrise building expanded bore pile master TV structure schematic diagram.
Among the figure: 1, Cast-in-place concrete base; 2, go up the Cast-in-place concrete base; 3, hypomere precast pile; 4, epimere steel pipe; 6, the following joint bar of epimere steel pipe; 8, radiation muscle; 9, the last joint bar of hypomere precast pile; 10, bury joint bar in advance, 11, firm muscle.
The specific embodiment
Embodiment of the present utility model is described in detail in conjunction with the accompanying drawings, but protection domain of the present utility model is not limit by embodiment.
Embodiment
As shown in Figure 1 be the main TV structure schematic diagram of the utility model precast pile Cast-in-place concrete base, at least two sections precast piles, epimere adopts steel pipe 4, be provided with precast pile and following joint bar 6 in the steel pipe 4, be provided with the last joint bar 9 of hypomere precast pile in the hypomere precast pile 3 and bury joint bar 10 in advance, the last joint bar 9 of hypomere precast pile overlaps mutually with the following joint bar 6 of epimere steel pipe, by last Cast-in-place concrete base 2 epimere steel pipe 4 and 3 anchorings of hypomere precast pile are fused again, the internal connection of epimere steel pipe 4 and hypomere precast pile 3 is provided with the firm muscle 11 of chiasma type, the lower end of hypomere precast pile 3 is provided with Cast-in-place concrete base 1, and the cross section of epimere steel pipe 4 and hypomere precast pile 3 is a rectangle.The vertical section of last Cast-in-place concrete base 2 and Cast-in-place concrete base 1 is down big and little trapezoidally, is provided with radiation muscle 8 in Cast-in-place concrete base 1 and the last Cast-in-place concrete base 2.The job practices of present embodiment can be constructed according to common process.
Claims (3)
1, anti-impact force highrise building expanded bore pile, it is characterized in that it is to be made of following structure: epimere adopts steel pipe (4), be provided with precast pile and following joint bar (6) in the steel pipe (4), be provided with the last joint bar (9) of hypomere precast pile in the hypomere precast pile (3) and bury joint bar (10) in advance, the last joint bar (9) of hypomere precast pile overlaps mutually with the following joint bar (6) of epimere steel pipe, by last Cast-in-place concrete base (2) epimere steel pipe (4) and hypomere precast pile (3) anchoring are fused again, the inside of epimere steel pipe (4) and hypomere precast pile (3) is provided with the firm muscle of chiasma type (11), the lower end of hypomere precast pile (3) is provided with Cast-in-place concrete base (1), the cross section of epimere steel pipe (4) and hypomere precast pile (3) is a rectangle, is provided with radiation muscle 8 in Cast-in-place concrete base (1) and the last Cast-in-place concrete base (2).
2, anti-impact force highrise building expanded bore pile according to claim 1 is characterized in that described precast pile is filled to rectangle or sharpening triangle.
3, anti-impact force highrise building expanded bore pile according to claim 1 is characterized in that being provided with at least two sections precast piles.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNU2007201849942U CN201137110Y (en) | 2007-12-20 | 2007-12-20 | Impact force resistant club-footed pile for high-rise building |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNU2007201849942U CN201137110Y (en) | 2007-12-20 | 2007-12-20 | Impact force resistant club-footed pile for high-rise building |
Publications (1)
Publication Number | Publication Date |
---|---|
CN201137110Y true CN201137110Y (en) | 2008-10-22 |
Family
ID=40037796
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CNU2007201849942U Expired - Fee Related CN201137110Y (en) | 2007-12-20 | 2007-12-20 | Impact force resistant club-footed pile for high-rise building |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN201137110Y (en) |
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2007
- 2007-12-20 CN CNU2007201849942U patent/CN201137110Y/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20081022 Termination date: 20100120 |