CN114215040A - Vacuum preloading construction method for coastal soft foundation - Google Patents

Abstract

The invention relates to a coastal soft foundation vacuum preloading construction method, belonging to the technical field of soft foundation construction.

Description

Vacuum preloading construction method for coastal soft foundation

Technical Field

The invention belongs to the technical field of soft foundation construction, and particularly relates to a coastal soft foundation vacuum preloading construction method.

Background

With the arrival of the large building era, the engineering technology is changed day by day and rapidly developed. Different treatment modes also appear in the foundation treatment technology, and the traditional soft foundation treatment construction process cannot completely meet the design requirements, the construction period requirements and the benefit requirements under specific working conditions.

When the development and construction of the great bay area in Guangdong, Hongkong and Australia are vigorously carried out in China, most of the areas are silt and a mud layer due to poor geological conditions, the areas belong to soft foundations, and the problem of soft foundation treatment of the soft foundations in coastal areas needs to be solved firstly. Common soft foundation treatment technologies include preloading, vacuum preloading and the like, and when the construction period is required to be tight, the construction cost is not sufficient, and the requirements on bearing capacity and settlement are high, the vacuum preloading can be adopted. The construction quality and the under-film vacuum degree control of the soft soil foundation treated by vacuum preloading are relatively complex and have relatively high technical properties.

And the current weak foundation construction technology needs larger mound earth volume and has long construction period.

Disclosure of Invention

In order to overcome the problems in the background technology, the invention provides a coastal soft foundation vacuum preloading construction method, which forms pressure difference between the interior of a soil body and a drainage channel and a cushion layer under the action of vacuum negative pressure through vacuum preloading. Under the action of the pressure difference, pore water in the soil body is continuously discharged from the drainage channel, so that the soil body is solidified; the invention uses the mud stirring pile, uses the mud as the curing agent, forcibly stirs the soft soil and the curing agent in the deep part of the foundation, and uses a series of physical and chemical reactions generated between the curing agent and the soft soil to harden the soft soil into a high-quality foundation with integrity, water stability and certain strength, thereby enabling the soft soil foundation to have the design bearing capacity of Olympic generation more quickly.

In order to realize the purpose, the invention is realized by the following technical scheme:

the coastal soft foundation vacuum preloading construction method comprises the following steps:

(1) the method for pouring the mud sealing wall comprises the following steps

The sealing wall adopts a construction process of four-spraying four-stirring double-row meshing slurry stirring piles, and the meshing of pile positions is ensured to be more than 200 mm;

when the pile length is more than 12m, a construction process of six-spraying six-stirring double-row occluded slurry stirring pile is adopted, and the occlusion of the pile position is ensured to be more than 200 mm;

the pile forming time interval of adjacent piles is required to be controlled within 16 hours so as to ensure effective overlapping;

the pile bottom of the slurry stirring pile exceeds the air-permeable and water-permeable layer within the prepressing influence depth and enters the air-impermeable and water-impermeable layer, and the depth is not less than 0.5 m;

the weight of the pile building mud used for the mud mixing pile is 1.35-1.42g/cm3, before pile building, the mud is pumped into a mud preparation pool, and sodium bentonite is added to improve the mud performance.

(2) And (3) backfilling coarse sand in the bottom layer: backfilling to a designed elevation, wherein the permeability coefficient is not less than 5 multiplied by 10 < -3 > cm/s, the mud content is not more than 5 percent, and the construction adopts a backfill process of a 'fill-in method';

(3) laying geotextile and RNG geogrid;

(4) punching and inserting a drainage plate;

(5) backfilling coarse sand in the second layer; the coefficient of permeability after backfilling is not less than 5 multiplied by 10 < -3 > cm/s, the mud content is not more than 5 percent, and the construction adopts a backfill process of a' fill method

(6) Embedding a vacuum pipeline, wherein the vacuum pipeline is communicated with a vacuum jet pump outside the vacuum loading area;

(7) backfilling the medium fine sand;

(8) laying geotextile and sealing film; excavating an inverted trapezoidal sealing ditch at the upper part of the sealing wall, paving geotextile firstly, paving a sealing film secondly, and burying the periphery of the sealing film into the sealing ditch; 2-4 layers of sealing films are arranged, the next layer is buried after the first burying, and then the sealing ditch is filled and leveled.

Furthermore, monitoring equipment comprising a settling plate, an inclined side pipe and a settling ring is buried before the step (4).

Further, after the step (8) is completed, performing vacuum preloading, wherein the vacuum preloading comprises:

debugging the vacuum jet pump in no load, trying to vacuumize when the vacuum degree on the vacuum jet pump reaches more than 96KPa, trying to vacuumize by 4-10, carefully checking whether air leakage positions exist on the membrane surface and the pressing die groove, and timely supplementing after finding;

starting half vacuum pumps, gradually increasing the number of vacuum pump working stations, starting to seal the membrane surface to store water after checking that no air leakage occurs when the vacuum degree reaches 60KPa, and starting all the pumps to increase the vacuum degree under the membrane to more than 85 KPa.

Further, unloading is carried out after vacuum preloading, and specifically, unloading is carried out when the average total strain consolidation degree of the ground in the vacuum preloading area is not less than 90%, the actually measured ground settlement rate is 5 d-10 d, the average settlement amount is less than 2mm/d, and the full-load preloading time is not less than 90 d.

Further, the step of inserting the drain board in the step (4) comprises the following steps:

lofting: the position of the plastic drainage board is measured and released (the measurement and release error is controlled within +/-50 mm), and the drainage board at the corner is properly adjusted inwards according to the actual condition in consideration of the irregularity of the road site, and the drainage board core and the like are inserted into the sand cushion layer to be used as a mark, so that the drainage board at the corner is constructed in advance.

Positioning: and (5) moving the plate machine to position, aligning the mark and installing the drainage plate pile shoe. When the pile shoe is used for driving, the pile shoe of the board inserting machine is positioned in a floor mode and controlled indoors by a driver of the board inserting machine, and the error of the pile shoe is controlled within a range of +/-50 mm. The drainage plates are all arranged in a regular triangle. The construction operating personnel can be according to the safetyThe depth automatic recorder, the metal movable vertical needle and the dial which are arranged on the plate inserting machine control the verticality deviation of the lower inserting of the pile pipe not to be more than +/-1.5 percent, and ensure the construction depth of each drainage plate.

Boot wearing: and (3) enabling the end part of the plastic drainage plate to penetrate through the prefabricated boot head fixing frame, folding the belt to be about 10cm long, and fixedly connecting. The prefabricated boot head is made of iron. The boot head is sleeved on the end part of the hollow sleeve, and the plastic drainage plate is fixed and can prevent silt from entering the sleeve in the sinking process.

Pulling out the sleeve: and starting the winch, pulling out the sleeve, when the lower opening is exposed to 6cm of the ground and the pile pipe is pulled out, constructors need to carefully observe whether the drainage plate is brought back or not, and if the brought back length is more than 50cm, a root is supplemented at 20cm beside the plate position. And the displacement can be realized after one construction is finished. And meanwhile, the belt is cut off, and the top of the plastic drainage plate is required to be embedded into the sand cushion layer by 50cm, so that the plastic drainage plate is communicated with the sand cushion layer, and the smooth drainage is ensured. The plastic drainage plate coils stacked on the construction site should be properly covered to prevent degradation by exposure to air. The guide rail is vertical in the inserting process, the steel sleeve is not bent, and the water-permeable filter tube is not torn and polluted; the bottom of the drainage plate should be provided with a reliable anchoring measure so as to prevent the core plate from being pulled out when the sleeve is pulled out. The plastic drainage plate should be lapped by adopting a method of inner butt joint of filter sleeves, the core plates are buckled, the convex and concave parts are aligned, and the lapping length is not less than 20 cm; the filter sleeve is wrapped and fixed by reliable measures. During construction, impurities such as mud and the like are strictly prevented from entering the casing, and once the impurities are found, the impurities need to be removed in time. The deviation of the hole position of the plastic drainage plate in the drilling process is controlled within 5cm, the hole position must be kept in a vertical state, and the allowable deviation of the verticality is within 1.5 percent; the vacuum prepressing vertical drainage channel should penetrate soft soil layer, but should not enter the lower lying permeable layer, and the distance from the lower lying permeable layer is not less than 100 cm. And (4) pulling the pile pipe upwards until the lower end of the pile pipe is 6cm higher than the sand cushion layer.

And after the construction of each block plastic drainage plate is completed, self-checking is carried out, and after the self-checking is qualified, the inspection and acceptance of a supervision engineer are reported. After the plastic drainage plate of one section is qualified, holes formed around the drainage plate during drilling need to be timely backfilled by sand, and the head of the drainage plate is embedded in a sand cushion.

Furthermore, a vacuum pipeline is buried in the step (6), the main pipe and the water suction pipe are made of PVC pipes, the branch filter pipes are made of PVC pipes with the pipe diameters smaller than those of the main pipe and the water suction pipe, holes are drilled in the pipe walls of the main pipe and the branch filter pipes to form a perforated pipe, non-woven geotextile is wrapped outside the perforated pipe, and the pipes are connected by a tee joint and a cross joint; the main pipe is connected with a water suction pipe after film discharging, the water suction pipe is connected with a vacuum pump, and the filter pipe connecting piece is firmly connected with the filter pipe.

The invention has the beneficial effects that:

the invention forms pressure difference between the interior of the soil body and the drainage channel and the cushion layer under the action of vacuum negative pressure through vacuum preloading. Under the action of the pressure difference, pore water in the soil body is continuously discharged from the drainage channel, so that the soil body is solidified;

the invention uses the mud mixing pile, uses the mud as the firming agent, forcibly mixes the soft soil and the firming agent in the deep part of the foundation, and uses a series of physical and chemical reactions generated between the firming agent and the soft soil to harden the soft soil into the high-quality foundation with integrity, water stability and certain strength.

Drawings

FIG. 1 is a flow chart of the construction of the present invention;

figure 2 is a vacuum line plan view of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, preferred embodiments of the present invention will be described in detail below to facilitate understanding of the skilled person.

A vacuum preloading construction method for coastal soft foundation comprises the following steps:

(1) pouring slurry sealing wall

Survey lofting

And (4) lofting a middle point of the sealing wall every 50m by using RTK, and releasing the central point of the pile through a stay wire according to a released control point.

Positioning

And drawing a pile position diagram of the sealing wall according to the construction drawing, determining the pile position by using a bamboo stick or a drainage plate core every 50cm according to the pile position diagram, controlling the positioning deviation within the range of +/-50 mm, and controlling the verticality deviation not to be larger than +/-1.5% when the pile pipe is inserted downwards.

Making slurry

And excavating a 4X 2m mud pit and a 3X 2m mud preparation pit, wherein a 7.5Kw mud pump is arranged in the mud pit to prepare mud, and a 3.5Kw mud pressing pump is arranged beside the mud preparation pit and connected to a mud mixing pile machine.

The raw material for preparing the slurry adopts clay excavated from the original ground. When in pulping, a mud pump is used for washing clay in a mud pit, when the mud weight in the mud pit meets 1.35-1.42g/cm3, the mud is pumped into a mud preparing pit, and sodium bentonite is added to improve the mud performance.

Slurry mixing pile driving

The construction time and the construction of the drainage plate are carried out simultaneously, the construction of the plastic drainage plate is firstly carried out on the boundary part, and then the construction of the mixing wall is carried out. The construction process adopts four-spraying and four-stirring, and six-spraying and six-stirring are adopted when the depth of less than 12m is necessary. The stirring wall is of a double-row pile structure, the pile diameter of a single pile is 700 mm, and the pile-to-pile lap joint is 200 mm.

The lower stirring speed is less than 1.2 m/min, and the lifting speed is less than 0.8 m/min; the pile position error is less than 20mm, and the pile perpendicularity error is less than 5%. The pile forming time interval of adjacent piles is required to be controlled within 16 hours.

(2) And leveling the ground, wherein the leveled ground has certain foundation bearing capacity.

(3) Laying a bottom sand cushion layer: and backfilling medium coarse sand with the height of 0.3m, and burying monitoring equipment such as a settling plate, an inclined side pipe, a settling ring and the like.

The sand cushion layer adopts clean medium coarse sand, the permeability coefficient is not less than 5x10-3 cm/s, the mud content is not more than 5%, the fineness modulus is not less than 2.7, the construction adopts a 'fill-in method' backfill process, the medium coarse sand is transported to a construction site by a dumper and laid, and the specific construction sequence is as follows:

in the sand cushion layer laying area, inserting a small bamboo pole according to every 500 square meters (or using wooden cross-fence type support with the height of 50 cm) to mark the thickness of the sand cushion layer by using red paint, and ensuring that the thickness of the laid sand cushion layer meets the design requirement.

The dump truck is transported to the site.

Using a light bulldozer to level the medium grit and to a design thickness

During construction, the bulldozer is strictly prohibited from rolling the geotextile without a sand cushion.

And (4) paving the sand cushion layer in the step (6).

(4) And laying geotextile and RNG geogrid.

The width of the geotextile is generally 2-3 m when leaving a factory, the geotextile with the width of 6m is required to be processed by the engineering so as to reduce the field workload and accelerate the construction speed, the geotextile is firstly sewn into a laying shape according to the area to be laid, an industrial sewing machine and nylon threads with the strength of more than or equal to 150N are adopted for sewing the geotextile, and the seam is sewn in an overlock or a T-seam. And (4) after the geotextile is sewn and processed, rolling the geotextile into a roll, and covering the geotextile to prevent the geotextile from being aged and reduced in strength due to the irradiation of solar ultraviolet rays and influencing the laying quality of the geotextile, wherein the step (9) is the same.

(5) Punching and inserting a plastic drainage plate; the method comprises the following specific steps:

lofting: the position of the plastic drainage board is measured and released (the measurement and release error is controlled within +/-50 mm), and the drainage board at the corner is properly adjusted inwards according to the actual condition in consideration of the irregularity of the road site, and the drainage board core and the like are inserted into the sand cushion layer to be used as a mark, so that the drainage board at the corner is constructed in advance.

Positioning: and (5) moving the plate machine to position, aligning the mark and installing the drainage plate pile shoe. When the pile shoe is used for driving, the pile shoe of the board inserting machine is positioned in a floor mode and controlled indoors by a driver of the board inserting machine, and the error of the pile shoe is controlled within a range of +/-50 mm. The drainage plates are all arranged in a regular triangle. The construction operator controls the verticality deviation of the pile pipe during downward insertion not to be more than +/-1.5% according to the automatic depth recorder, the metal movable vertical needle and the dial which are installed on the plate inserting machine, and the construction depth of each drainage plate is guaranteed.

Boot wearing: and (3) enabling the end part of the plastic drainage plate to penetrate through the prefabricated boot head fixing frame, folding the belt to be about 10cm long, and fixedly connecting. The prefabricated boot head is made of iron. The boot head is sleeved on the end part of the hollow sleeve, and the plastic drainage plate is fixed and can prevent silt from entering the sleeve in the sinking process.

Pulling out the sleeve: and starting the winch, pulling out the sleeve, when the lower opening is exposed to 6cm of the ground and the pile pipe is pulled out, constructors need to carefully observe whether the drainage plate is brought back or not, and if the brought back length is more than 50cm, a root is supplemented at 20cm beside the plate position. And the displacement can be realized after one construction is finished. And meanwhile, the belt is cut off, and the top of the plastic drainage plate is required to be embedded into the sand cushion layer by 50cm, so that the plastic drainage plate is communicated with the sand cushion layer, and the smooth drainage is ensured. The plastic drainage plate coils stacked on the construction site should be properly covered to prevent degradation by exposure to air. The guide rail is vertical in the inserting process, the steel sleeve is not bent, and the water-permeable filter tube is not torn and polluted; the bottom of the drainage plate should be provided with a reliable anchoring measure so as to prevent the core plate from being pulled out when the sleeve is pulled out. The plastic drainage plate should be lapped by adopting a method of inner butt joint of filter sleeves, the core plates are buckled, the convex and concave parts are aligned, and the lapping length is not less than 20 cm; the filter sleeve is wrapped and fixed by reliable measures. During construction, impurities such as mud and the like are strictly prevented from entering the casing, and once the impurities are found, the impurities need to be removed in time. The deviation of the hole position of the plastic drainage plate in the drilling process is controlled within 5cm, the hole position must be kept in a vertical state, and the allowable deviation of the verticality is within 1.5 percent; the vacuum prepressing vertical drainage channel should penetrate soft soil layer, but should not enter the lower lying permeable layer, and the distance from the lower lying permeable layer is not less than 100 cm. And (4) pulling the pile pipe upwards until the lower end of the pile pipe is 6cm higher than the sand cushion layer.

And after the construction of each block plastic drainage plate is completed, self-checking is carried out, and after the self-checking is qualified, the inspection and acceptance of a supervision engineer are reported. After the plastic drainage plate of one section is qualified, holes formed around the drainage plate during drilling need to be timely backfilled by sand, and the head of the drainage plate is embedded in a sand cushion.

(6) Backfilling coarse sand in the second layer; the permeability coefficient is not less than 5x10-3 cm/s, the mud content is not more than 5%, the fineness modulus is not less than 2.7, and the construction adopts a backfill process of a 'fill-in method'.

(7) Burying the vacuum pipeline, specifically:

filter tube arrangement and manufacture

The main pipe and the water suction pipe are made of PVC pipes with the pipe diameter of 90mm, the branch filter pipes are made of PVC pipes with the pipe diameter of 75mm, small holes with the hole diameter of 8 mm are drilled in the pipe walls of the main pipe and the branch filter pipes every 4 cm to form the flower pipes, 90 g/square meter of non-woven geotextile is wrapped outside the flower pipes, and the non-woven fabric wrapping the filter pipes is free of damage and is tightly bound. The longitudinal distance between the main pipes is 20m, and the transverse distance between the main pipes is 20 m; the branch filter pipes are only arranged in the north-south direction and are connected with the east-west main pipes at intervals of 20mm, and all the pipes are connected by adopting a tee joint and a four-way joint; the main pipe is connected with a D90mm water suction pipe after film discharging, the water suction pipe is connected with a vacuum pump, and the filter pipe connecting piece is firmly connected with the filter pipe, and the connecting length is not less than 100 mm. The vacuum system plan layout is shown in figure 2.

Embedded vacuum pipeline

The filter tubes are arranged according to a lattice shape, the filter tubes are arranged and connected well, then filter tube ditches are dug in a sand cushion layer, the filter tubes are buried into the ditches while being dug, the filter tubes are filled with medium coarse sand, the thickness of sand coated on the tube tops is 20cm, the membrane outlet position extends out of the membrane surface by about 30 cm, and meanwhile, a measuring head (a vacuum degree measuring gas collection end) under the membrane is installed.

(8) And backfilling the medium fine sand, wherein the fineness modulus of the medium fine sand is not more than 2.6, and the mud content is not more than 10%.

(9) Laying geotextile and sealing film;

in order to prevent the vacuum membrane from being pierced by hard objects in the vacuum pumping process, after the vacuum tubes are buried, the exposed plastic drainage plate head is buried below the sand surface, holes formed in plate inserting are filled, silt blocks and all hard objects with edges and corners in the surface layer are removed, the sand surface is brushed and leveled by a shovel, and a layer of 200 g/square meter non-woven geotextile is laid.

And after the geotextile is laid, laying a sealing film, wherein the sealing film is made of three layers of polyethylene films, the sealing film is ordered by widening 1.5m on each side according to the actual length of the prepressing area, and the sealing film is subjected to heat sealing and one-step forming in a factory. Laying for three times in the absence of wind or in the time with small wind power. The sealing membrane is first stretched from one end to the other and after laying it is carefully checked for visible cracks. The cracks are usually generated at the seams of the sealing film, and the cracks are timely supplemented by polyethylene glue. And (4) after defect-free inspection, laying the second and third sealing films, wherein the bonding seams of the two sealing films are staggered as much as possible. The film outlet is provided with a shrinkable and redundant sealing film. All filming operators must either barefoot or wear soft-bottom shoes to prevent puncturing of the sealing membrane.

In order to ensure sealing, an inverted trapezoidal sealing ditch is dug at the upper part of the sealing wall, the periphery of the sealing film is buried in the sealing ditch, during construction, a first layer of film is firstly stepped, the stepping depth is not less than 1m, and a second layer of film and a third layer of film are started to be stepped after the first layer of film is stepped. In the process of stepping on the membrane, the bonding part of the sealing membrane is firstly stepped on, and then other parts are stepped on, so that the sealing membrane is mainly prevented from being torn in the process of stepping on the membrane.

The sealing groove is positioned at the upper part of the sealing wall, the elevation of the groove bottom is 6.6m, the groove bottom is in an inverted trapezoid shape, and the excavation depth meets the design requirement; the inner slope and the outer slope of the sealing ditch are smooth, and no sand exists; clay backfilled in the sealing ditch does not contain impurities and is compacted in a layering manner; the plastic drainage plate in the film pressing groove extends into the horizontal drainage cushion layer in the reinforcing area by more than 20cm along the side slope.

(10) Manufacturing cofferdam

After the sealing membrane is laid, a bagged sand cofferdam is constructed along the periphery of the mud pile wall, the cofferdam is in a right-angled trapezoid shape, the lower bottom is 1.8m long, the upper bottom is 1m long, and the height is 0.7 m. The sand bag is made of polypropylene plastic materials, and is manually filled and stacked.

(11) The vacuum preloading specifically comprises the following steps:

vacuum preloading trial air exhaust

And after the bag sand construction is finished, starting vacuum preloading, trial air exhaust construction. The vacuum pump system is installed (the water pump, the water tank, the gate valve, the stop valve and the film outlet are connected), the vacuum jet pump is debugged in a no-load mode after a circuit from a power house distribution box → a vacuum pump electric leakage switch box → the vacuum pump is switched on, and when the vacuum degree of the vacuum jet pump reaches more than 96KPa, the vacuum pump is vacuumized in a trial mode for 4-10 d. Carefully checking whether the gas leakage position exists on the film surface and the pressing die groove, and timely repairing after finding.

The connection of the vacuum pump system is checked one by one, and the vacuum degree on the pump can reach 96KPa under the condition of closing the gate valve, so that the vacuum pump system can be ensured to play the best effect.

Vacuum prepressing

In the initial stage, in order to prevent the soil around the reinforced area from being instantaneously damaged by vacuum preloading, the vacuumizing speed must be strictly controlled, half of the vacuum pumps are started first, and then the number of the vacuum pump working stations is gradually increased. When the vacuum degree reaches 60KPa, the air leakage phenomenon is detected, the membrane surface is sealed to store water, all pumps are started, and the vacuum degree under the membrane is increased to more than 85 KPa.

In the vacuum preloading process, the surface sedimentation, the vacuum pressure under the membrane, the pore water pressure, the lateral displacement, the deep layered sedimentation, the underground water level, the vacuum pressure in the plastic drainage plate, the displacement and sedimentation of surrounding buildings and other items need to be monitored in the positive air exhaust process.

(12) Vacuum unloading

And when the average total strain consolidation degree of the foundation in the reinforcement depth range is not less than 90%, the actually measured ground settlement rate is 5 d-10 d, the average settlement is less than 2mm/d, and the full-load pre-pressing time is not less than 90d, the unloading is started.

And leveling the ground to a designed elevation by adopting equipment such as a bulldozer and the like, dismantling a vacuum pump and a peripheral power grid, excavating a sealing ditch and filling fine sand, wherein the compaction degree requirement reaches 93%.

The economic benefit evaluation of the invention:

by taking the construction of a public sports activity facility engineering hall as an example, the construction is carried out by the method, compared with the simple vacuum preloading method, the comprehensive cost (pumping and drainage, construction period, equipment investment and maintenance) of coastal soft foundation treatment can be saved by about 45.2 ten thousand yuan per ten thousand square meters compared with the vacuum preloading method due to the advantages of reduced equipment investment and maintenance cost and the same workload depreciation method.

If the preloading method is adopted, the volume of the earth for loading is large, the volume of the earth for transporting is large, a plurality of transport vehicles are provided, and the corresponding safe and civilized construction cost is greatly increased (road surface cleaning and vehicle washing) by about 20 ten thousand yuan. Meanwhile, a vacuum preloading method is adopted, the soft soil foundation can reach the designed bearing capacity more quickly, and the construction period is shortened by nearly 3 months.

Finally, it is noted that the above-mentioned preferred embodiments illustrate rather than limit the invention, and that, although the invention has been described in detail with reference to the above-mentioned preferred embodiments, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the scope of the invention as defined by the appended claims.

Claims (6)

1. A coastal soft foundation vacuum preloading construction method is characterized in that: the method comprises the following steps:

(1) the method for pouring the mud sealing wall comprises the following steps

The sealing wall adopts a construction process of four-spraying four-stirring double-row meshing slurry stirring piles, and the meshing of pile positions is ensured to be more than 200 mm;

when the pile length is more than 12m, a construction process of six-spraying six-stirring double-row occluded slurry stirring pile is adopted, and the occlusion of the pile position is ensured to be more than 200 mm;

the pile forming time interval of adjacent piles is required to be controlled within 16 hours so as to ensure effective overlapping;

the pile bottom of the slurry stirring pile exceeds the air-permeable and water-permeable layer within the prepressing influence depth and enters the air-impermeable and water-impermeable layer, and the depth is not less than 0.5 m;

the weight of the pile building mud used for the mud mixing pile is 1.35-1.42g/cm3, before pile building, the mud is pumped into a mud preparation pool, and sodium bentonite is added to improve the mud performance;

(2) and (3) backfilling coarse sand in the bottom layer: backfilling to a designed elevation, wherein the permeability coefficient is not less than 5 multiplied by 10 < -3 > cm/s, the mud content is not more than 5 percent, and the construction adopts a backfill process of a 'fill-in method';

(3) laying geotextile and RNG geogrid;

(4) punching and inserting a drainage plate;

(5) backfilling coarse sand in the second layer; after backfilling, the permeability coefficient is not less than 5 multiplied by 10 < -3 > cm/s, the mud content is not more than 5 percent, and the construction adopts a backfill process of a 'fill-in method';

(6) embedding a vacuum pipeline, wherein the vacuum pipeline is communicated with a vacuum jet pump outside the vacuum loading area;

(7) backfilling the medium fine sand;

(8) laying geotextile and sealing film; excavating an inverted trapezoidal sealing ditch at the upper part of the sealing wall, paving geotextile firstly, paving a sealing film secondly, and burying the periphery of the sealing film into the sealing ditch; 2-4 layers of sealing films are arranged, the next layer is buried after the first burying, and then the sealing ditch is filled and leveled.

2. The coastal soft foundation vacuum preloading construction method according to claim 1, characterized in that: and (4) burying monitoring equipment comprising a settling plate, an inclined side pipe and a settling ring before the step (4).

3. The coastal soft foundation vacuum preloading construction method according to claim 2, characterized in that: after the step (8) is finished, performing vacuum preloading, wherein the vacuum preloading comprises the following steps:

debugging the vacuum jet pump in no load, trying to vacuumize when the vacuum degree on the vacuum jet pump reaches more than 96KPa, trying to vacuumize by 4-10, carefully checking whether air leakage positions exist on the membrane surface and the pressing die groove, and timely supplementing after finding;

starting half vacuum pumps, gradually increasing the number of vacuum pump working stations, starting to seal the membrane surface to store water after checking that no air leakage occurs when the vacuum degree reaches 60KPa, and starting all the pumps to increase the vacuum degree under the membrane to more than 85 KPa.

4. The coastal soft foundation vacuum preloading construction method according to claim 4, characterized in that: and unloading after vacuum preloading, specifically, unloading when the average total strain consolidation degree of the foundation in the vacuum preloading area is not less than 90%, the actually measured average settlement amount of the ground settlement rate of 5 d-10 d is less than 2mm/d, and the full-load preloading time is not less than 90 d.

5. The coastal soft foundation vacuum preloading construction method according to claim 1, characterized in that: the step (4) of inserting the drain board comprises the following steps:

(1) lofting: the position of the plastic drainage plate is measured and discharged (the measurement and discharge error is controlled within +/-50 mm), and the irregularity of the road site is considered, so that the drainage plate at the corner is properly adjusted inwards according to the actual condition, a sand cushion layer is inserted into the drainage plate core and the like for marking, and the drainage plate at the corner is constructed in advance;

(2) positioning: moving the plate machine to position, aligning the mark and installing the drainage plate pile shoe; when the pile shoe is used for driving, the pile shoe of the board inserting machine is fallen to the ground and positioned, and the error of the pile shoe is controlled within the range of +/-50 mm by a driver of the board inserting machine; the drainage plates are all arranged according to a regular triangle; the construction operator controls the verticality deviation of the pile pipe during downward insertion not to be more than +/-1.5% according to the automatic depth recorder, the metal movable vertical needle and the dial which are arranged on the plate inserting machine, and ensures the construction depth of each drainage plate;

(3) boot wearing: the end part of the plastic drainage plate penetrates through the prefabricated boot head fixing frame, the length of the belt is folded by about 10cm, and the plastic drainage plate and the prefabricated boot head fixing frame are fixedly connected; the prefabricated boot head is made of iron; sleeving the boot head on the end part of the hollow sleeve, fixing the plastic drainage plate, and preventing silt from entering the sleeve in the sinking process;

(4) pulling out the sleeve: starting a winch, pulling out a sleeve, carefully observing whether the drainage plate is brought back when a lower opening is exposed to 6cm of the ground and pulling out a pile pipe, and supplementing and printing one drainage plate at 20cm beside a plate position if the brought back length is more than 50 cm; the displacement can be realized after one construction is finished; meanwhile, the belt is cut off, and the top of the plastic drainage plate is required to be penetrated into the sand cushion layer by 50cm so as to be communicated with the sand cushion layer, thereby ensuring smooth drainage; the plastic drainage plate coil belt piled up on the construction site should be properly covered to prevent the aging of the plastic drainage plate coil belt exposed in the air; the guide rail is vertical in the inserting process, the steel sleeve is not bent, and the water-permeable filter tube is not torn and polluted; the bottom of the drainage plate should be provided with a reliable anchoring measure so as to prevent the core plate from being pulled out when the sleeve is pulled out; the plastic drainage plate should be lapped by adopting a method of inner butt joint of filter sleeves, the core plates are buckled, the convex and concave parts are aligned, and the lapping length is not less than 20 cm; wrapping the filter sleeve and fixing the filter sleeve by reliable measures; during construction, impurities such as mud and the like are strictly prevented from entering the casing, and once the impurities are found, the impurities need to be removed in time; the deviation of the hole position of the plastic drainage plate in the drilling process is controlled within 5cm, the hole position must be kept in a vertical state, and the allowable deviation of the verticality is within 1.5 percent; the vacuum prepressing vertical drainage channel should penetrate through the soft soil layer, but should not enter the lower horizontal permeable layer, and the distance from the lower horizontal permeable layer is not less than 100 cm; pulling the pile pipe upwards until the lower end of the pile pipe is 6cm higher than the sand cushion layer;

(5) after the construction of each block plastic drainage plate is completed, self-checking is carried out, and after the self-checking is qualified, a supervision engineer is reported for acceptance; after the plastic drainage plate of one section is qualified, holes formed around the drainage plate during drilling need to be timely backfilled by sand, and the head of the drainage plate is embedded in a sand cushion.

6. The coastal soft foundation vacuum preloading construction method according to claim 1, characterized in that: burying a vacuum pipeline in the step (6), wherein the main pipe and the water suction pipe are made of PVC pipes, the branch filter pipes are made of PVC pipes with the pipe diameters smaller than those of the main pipe and the water suction pipe, holes are drilled in the pipe walls of the main pipe and the branch filter pipes to form floral pipes, non-woven geotextile is wrapped outside the floral pipes, and all the pipes are connected by a tee joint and a cross joint; the main pipe is connected with a water suction pipe after film discharging, the water suction pipe is connected with a vacuum pump, and the filter pipe connecting piece is firmly connected with the filter pipe.

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