阅读说明：本技术 一种真空预压排水系统及排水方法 (Vacuum preloading drainage system and drainage method ) 是由 刘景锦 李建楷 雷华阳 郑刚 加瑞 于 2021-09-08 设计创作，主要内容包括：本发明涉及一种真空预压排水系统及排水方法,排水板包括排水板,抽水主管,单手板接头和真空泵。所述的排水板由多个长度不同的板芯拼合而成,每个板芯的首部和尾部均开口,位于中部的板芯最长,设其首部开口处为首端,越靠外侧的板芯,首部开口处距离首端越远；露在最外侧的板芯部分均包裹滤布,其余板芯部分侧向密封,使得整个排水板内形成长条形排水通道,首尾开口；各个板芯在尾部分开,分别连接有单手板接头,并通过管路连接到抽水主管。本发明可避免“二次加固”,缩短施工工期,实现各深度土体同步有效加固。(The invention relates to a vacuum preloading drainage system and a drainage method. The drainage plate is formed by splicing a plurality of plate cores with different lengths, the head part and the tail part of each plate core are both provided with openings, the plate core positioned in the middle part is the longest, the head part opening is set as the head end, and the farther the plate core is close to the outer side, the farther the head part opening is away from the head end; the filter cloth is wrapped on the plate core part exposed on the outermost side, and the other plate core parts are sealed laterally, so that a long-strip-shaped drainage channel is formed in the whole drainage plate and is opened from head to tail; each plate core is separated at the tail part, is respectively connected with a single-hand plate joint and is connected to a main water pumping pipe through a pipeline. The invention can avoid secondary reinforcement, shorten construction period and realize synchronous and effective reinforcement of soil bodies in various depths.)

1. A vacuum preloading drainage system comprises a drainage plate, a water pumping main pipe, a single-hand plate joint and a vacuum pump, and is characterized in that the drainage plate is formed by splicing a plurality of plate cores with different lengths, the head part and the tail part of each plate core are both opened, the plate core positioned in the middle is the longest, the opening of the head part is set as the head end, the plate core closer to the outer side is, and the opening of the head part is farther from the head end; the filter cloth is wrapped on the plate core part exposed on the outermost side, and the other plate core parts are sealed laterally, so that a long-strip-shaped drainage channel is formed in the whole drainage plate and is opened from head to tail; each plate core is separated at the tail part, is respectively connected with a single-hand plate joint and is connected to a main water pumping pipe through a pipeline.

2. The vacuum preloading drainage system of claim 1, wherein the lengths of the respective core plates after the tail portions are separated are different, and the length of the core plate after the tail portions are separated is longest at the outermost side and shortest at the middle and second sides.

3. The vacuum preloading drainage system of any one of claims 1-2, wherein a drainage plate is formed by splicing five plate cores, the length of the plate core in the middle part is determined according to the soft soil stratum to be treated, and the distance between the head parts of two plate cores at both sides of the middle plate core is one third of the length of the middle plate core; the distance between the head parts of the two outermost plate cores and the head end is two thirds of the length of the middle plate core.

4. A drainage method using the vacuum preloading drainage system as claimed in claims 1-3, characterized by comprising the steps of:

(1) before construction, acquiring the average total thickness S of a soft soil stratum to be treated;

(2) dividing S by 3 to obtain L, wherein L is the length of each section of filter cloth;

(3) processing the drainage plate according to the value of L;

(4) inserting the drainage plate into the S-deep soil layer through a plate inserting machine;

(5) the tail part of the drainage plate is arranged according to a figure 6, and a single-hand plate joint is inserted;

(6) the tail parts of the drainage plate cores are respectively connected to a main water pumping pipe;

(7) the water pumping main pipe is connected with the water-vapor separation tank, and the water-vapor separation tank is vacuumized by using a vacuum pump to perform drainage consolidation.

Technical Field

The invention relates to a drainage system capable of synchronously reinforcing a deep soil body in a vacuum preloading process.

Background

With the increasing economic development level of China, the problem of land resource shortage in coastal regions is more serious, and the land reclamation from sea is widely used as an important means for relieving the land resource shortage. Reclamation of land from sea is generally accomplished by hydraulically filling the silt directly from the sea floor by a dredger to the target area to form the land. This sludge that is hydraulically blown down to the target circle to form land is generally referred to as dredger fill. The dredger fill has the characteristics of high water content, high compressibility, high porosity ratio, low shear strength and low permeability coefficient, and cannot be directly constructed. The consolidation is generally performed by a vacuum preloading method.

The vacuum preloading method is a reinforcing method which utilizes a drainage plate to go deep into the soil body, then generates vacuum negative pressure through a vacuum pump, and transmits the vacuum negative pressure to the drainage plate through a pipeline to enable the soil body to be drained and consolidated. Compared with other foundation treatment methods, the vacuum preloading method is widely used due to simple construction steps, low manufacturing cost and good treatment effect. The specific construction steps comprise the steps of laying woven cloth, inserting anti-clogging plastic drainage plates, connecting hand-shaped joints, connecting a vacuum pipe network, digging and filling a sealing ditch, laying the woven cloth and non-woven geotextile, laying a sealing film, constructing a vacuum preloading process, and dividing vacuum preloading constant load and unloading.

Although vacuum preloading is widely used for soft soil foundation treatment, the conventional vacuum preloading method has some disadvantages and drawbacks, so that the reinforcing effect is greatly reduced. For example, in the construction process of reinforcing a soft soil foundation by a vacuum preloading method, if the depth of a processed soil layer is large and is influenced by factors such as smearing, well resistance and drainage plate blockage, vacuum negative pressure is difficult to transmit into a deep soil body, and compared with a shallow soil body, the vacuum negative pressure is obviously reduced in the deep soil body and even approaches to zero, so that the reinforcing effect of the deep soil body is poor, secondary reinforcement is often required in the engineering, but the solution is time-consuming and energy-consuming.

Therefore, a new method and a mode which can transmit vacuum pressure to the deep soil body are lacked in the prior art to increase the reinforcing effect of the deep soil body in the vacuum preloading method.

Disclosure of Invention

Aiming at the problems, the invention overcomes the defects of the prior art and develops a drainage system capable of synchronously reinforcing soil bodies with various depths through vacuum preloading, the system can avoid secondary reinforcement, shorten the construction period, realize synchronous effective reinforcement of the soil bodies with various depths and avoid the problem of different degrees of damage of upper buildings (structures) caused by post-construction settlement due to inconsistent treatment effects of the soil bodies with various depths. The technical scheme of the invention is as follows:

a vacuum preloading drainage system comprises a drainage plate, a water pumping main pipe, a single-hand plate joint and a vacuum pump, and is characterized in that the drainage plate is formed by splicing a plurality of plate cores with different lengths, the head part and the tail part of each plate core are both opened, the plate core positioned in the middle is the longest, the opening of the head part is set as the head end, the plate core closer to the outer side is, and the opening of the head part is farther from the head end; the filter cloth is wrapped on the plate core part exposed on the outermost side, and the other plate core parts are sealed laterally, so that a long-strip-shaped drainage channel is formed in the whole drainage plate and is opened from head to tail; each plate core is separated at the tail part, is respectively connected with a single-hand plate joint and is connected to a main water pumping pipe through a pipeline.

Preferably, the lengths of the core plates after the tail parts are separated are different, and the length of the tail part of the middle core plate separated from the outermost side is longest and the length of the tail part of the middle core plate separated from the outermost side is shortest.

Preferably, one drainage plate is formed by splicing five plate cores, the length of the plate core positioned in the middle is determined according to a soft soil stratum to be treated, and the distance between the head parts of the two plate cores on the two sides of the middle plate core is one third of the length of the middle plate core; the distance between the head parts of the two outermost plate cores and the head end is two thirds of the length of the middle plate core.

The invention also provides a drainage method realized by the vacuum preloading drainage system, which is characterized by comprising the following steps: (1) before construction, acquiring the average total thickness S of a soft soil stratum to be treated;

(2) dividing S by 3 to obtain L, wherein L is the length of each section of filter cloth;

(3) processing the drainage plate according to the value of L;

(4) inserting the drainage plate into the S-deep soil layer through a plate inserting machine;

(5) the tail part of the drainage plate is arranged according to a figure 6, and a single-hand plate joint is inserted;

(6) the tail parts of the drainage plate cores are respectively connected to a main water pumping pipe;

(7) the water pumping main pipe is connected with the water-vapor separation tank, and the water-vapor separation tank is vacuumized by using a vacuum pump to perform drainage consolidation.

The drainage system taking the novel drainage plate as the main body has the following advantages:

1. compared with the traditional drainage plate, the novel drainage plate has small thickness increase, and is convenient for the construction of a plate inserting machine;

2. after the whole drainage system is arranged before construction, depth adjustment is not needed in the construction process, and the defects of air leakage of a sealing film, complicated construction steps and the like are effectively avoided;

3. when the foundation is treated, vacuum pressure can be simultaneously applied to various depths for drainage consolidation, so that the treatment effect of the vacuum preloading method on the deep soft soil foundation can be greatly improved.

Drawings

Fig. 1 is an overall effect diagram of the novel drain board of the invention.

Fig. 2 is a schematic view of the novel drain board of the invention, which is disassembled.

Fig. 3 is a schematic diagram of the filter cloth after the novel drainage plate is spliced.

Fig. 4 is a schematic view of the transition of the novel drain board of the present invention.

Fig. 5 is a schematic view of the tail of the novel drain board of the invention.

Fig. 6 is a schematic rear view of the novel drain plate of the present invention when attached to a water extraction fitting.

Fig. 7 is a schematic plan view of the novel drain board of the present invention connected to a pumping pipe.

The reference numbers in the figures illustrate: l is the length of each segment (the value is one third of the total thickness of the stratum obtained by the geological survey data); firstly, the surface indicated by an arrow is filter cloth; indicating that the surface indicated by the arrow is made of the plate core material; indicating the position of the novel drain board plugboard; fourthly, representing a three-way joint; the four-way joint is represented; sixthly, showing a single-handle plate joint; and the seventh represents a main water pumping pipe.

Detailed Description

The present invention will be described with reference to the accompanying drawings.

The overall effect of the novel drainage plate is shown in figure 1, and the novel drainage plate is integrally formed by splicing five conventional anti-clogging drainage plates with different lengths in a staggered mode at a distance L. The structure of the novel drainage plate after disassembly is shown in figure 2, wherein the surface indicated by the arrow is filter cloth, the surface indicated by the arrow is plate core material, and the plate core on the surface is hermetically covered with the inner plate core, and only has an upper opening and a lower opening, and the side edges are watertight and airtight. After the five split parts are produced as shown in figure 2, the surfaces II are mutually bonded to form the whole body shown in figure 3, and the whole body is completely wrapped by filter cloth and used for vacuum preloading drainage.

The structure of the tail of the novel drainage plate is shown in figure 5, five drainage plates are separated at the tail and are respectively connected with a single-hand plate joint, and the mode can ensure that the inside of each drainage plate can generate enough vacuum pressure. The length of the tail part after separation is shown in figure 5, the two outer sides are longest, the middle part is next, and the protruding length of the middle plate core is shortest, so that the drainage plate can be tightly arranged when the drainage plate is connected with the water pumping pipe under the sealing membrane. The arrangement of the tail part when the water pumping pipe joint is connected is shown in figure 6, and the arrangement can ensure that the upper part of the drainage plate is covered with the sealing membrane and does not protrude too much to burst the sealing membrane. The layout of the water pumping pipe in the vacuum preloading construction site is shown in fig. 7. In fig. 7, the third is the position of the novel water discharging plate inserting plate, the fourth is a three-way joint, the fifth is a four-way joint, the sixth is a single-hand plate joint, and the seventh is a water pumping main pipe. Such an arrangement may allow each suction tube to generate sufficient vacuum pressure to promote drainage consolidation.

The invention has the working principle that a novel synchronous reinforced progressive thickening drainage plate (hereinafter referred to as a novel drainage plate) is used in a drainage system, the tail part of the drainage system is separated and is respectively connected with different drainage pipelines, so that each filter cloth surface of the novel drainage plate can generate enough vacuum pressure. The novel drainage plate is formed by splicing five conventional anti-clogging drainage plates with different lengths. Five conventional drain boards cover the filter cloth at different length respectively and pump water, and the rest part is directly covered and sealed by the board core. The part directly covered by the plate core is equivalent to a strip-shaped drainage channel, only the upper opening and the lower opening can pump water and air, and the side edges are sealed, so that the vacuum pressure cannot be reduced in advance before reaching the position of the filter cloth. After the five drainage plates are attached in a staggered mode, the five drainage plates are equivalently directly deeply arranged in soil bodies of different depths to be treated, the side space is fully utilized, and therefore the shallow, medium and deep soil bodies can be simultaneously drained and consolidated.

The method comprises the following specific using steps:

1. before construction, acquiring the average total thickness S of a soft soil stratum to be treated according to geological survey data;

2. dividing S by 3 to obtain L, wherein L is the length of each section of filter cloth;

3. according to the value of L, a novel drainage plate is produced and processed by a factory;

4. the novel drainage plate is inserted into an S-deep soil layer through a plate inserting machine after being transported to a site;

5. the tail part of the novel drainage plate is arranged according to a figure 6, is inserted with a single-hand plate joint and is connected to a water pumping pipe;

6. the other end of the water pumping pipe is connected with a water pumping main pipe according to a figure 7; the main pipe is connected with the water-vapor separation tank, and then the water-vapor separation tank is vacuumized by using a vacuum pump to start drainage consolidation.