CN205116197U - Structure for it does groundwater separation to dredge underground works - Google Patents

Abstract

The utility model provides a structure for it does groundwater separation to dredge underground works which characterized in that: including water conservancy diversion subsystem and water level automatic monitoring subsystem, the water conservancy diversion subsystem includes by outlet, honeycomb duct, self -restraint hole and filter screen, water level automatic monitoring subsystem is constituteed including probe, data pick -up and dial plate, be equipped with the immersible pump in the honeycomb duct, wherein honeycomb duct one end is the outlet, and the other end is the self -restraint hole, be equipped with the filter screen outside outlet and the self -restraint hole. This structure provides to be suitable for current internal underground works construction technology level, can be to the characteristic adjustment that blocks water of various underground structure things to protectorate offal seepage flow environment, the installation that is suitable for the open cut and secretly digs construction underground works.

Description

A kind of underground construction of dredging is to the structure of underground water resistance every effect

Technical field

The utility model relates to a kind of underground construction of dredging to the structure of underground water resistance every effect, is applicable to the underground construction of all open cuts and boring construction, has wide application prospect in fields such as water conservancy, traffic, building, municipal administration, underground rails.

Background technology

When Large Underground Structure engineering is through some relatively thin aquifers, and when underground structure moves towards and Groundwater Flow direction is intersect with large-angle, the flowing of underground water may be hindered, the seepage field in certain area coverage is caused to change, main manifestations is the depth rise of underground structure upstream face, the groundwater level of back side reduces and the reduction of side direction runoff volume in influence basin, and finally can bring out a series of secondary engineering and environmental problem thus, such as: (1) upper pond level is stopped up high, engineering near inconsiderate to structural anti-buoyancy is caused adverse effect, the level of tail water reduces and causes effective stress increase in soil, thus cause ground settlement problem, (2) near underground structure, local hydraulic gradient increases and causes soil body penetration destruction problem, (3) because side direction run-off and groundwater velocity reduce, also can cause the water quality deterioration of upstream, downstream water resource exhaustion, and then pollution problem of resident's water supply problem, ecological problem and underground water etc. can be caused.

" the Groundwater Flow preservation measures " of Japan be at present in the world comparatively early and comparatively comprehensively underground construction to the water conservancy diversion measure of seepage field iris action, and be used widely in Japan, but this system is installed and is implemented relative at present domestic technique level and there is certain difficulty, also lack corresponding monitoring and maintenance measure easily simultaneously, be not easy to correlation experience sum up and technical level raising, and the defining method also Shortcomings of some technical datas (as water conservancy diversion subsystem spacing and size etc.), is not easy to practical application.

Therefore, in the urgent need to a kind of Present Domestic construction technology level that can be applicable to, the dredging scheme that underground structure intercepts underground seepage field, adjust the water resistance characteristic of various underground structure, reaches the object of protection groundwater environment.

Utility model content

Given this; the utility model proposes a kind of structural measure dredged underground construction and seepage field is intercepted being suitable for Present Domestic Construction Technique of Underground Works level; can adjust the water resistance characteristic of various underground structure; thus protection underground water seepage environment, be suitable for the installation of open cut and boring construction underground construction.

Dredge underground construction to the structure of underground water resistance every effect, it is characterized in that: comprise water conservancy diversion subsystem and the automatic monitoring subsystem of water level; Water conservancy diversion subsystem comprises by spilled water hole, mozzle, self-restraint hole and screen pack; The automatic monitoring subsystem of water level, comprises probe, data pick-up and dial plate composition; Submersible pump is provided with in mozzle;

Wherein mozzle one end is spilled water hole, and the other end is self-restraint hole; Screen pack is provided with outside spilled water hole and self-restraint hole.

Further, spilled water hole and self-restraint hole are equipped with manhole and access door.

Further, described structure, is characterized in that:

The number of water conservancy diversion subsystem n is:

$n\≥max(\frac{10B}{L}+1,3)---\left(1\right)$

L---percolation path length under underground water natural conditions, B---the length of the effective water blockoff of underground construction;

Water conservancy diversion subsystem diameter d is that following formula is determined, wherein spilled water hole, mozzle and self-restraint Kong Jun are by isometrical consideration;

$A\·K=\frac{{\mathrm{n\πd}}^4{\mathrm{\γ}}_W}{128\mathrm{\μ}}---\left(2\right)$

A-underground construction builds the discharge area at front position place; K-underground construction builds the average permeate coefficient at front position place; γ _wthe severe of-water; The coefficient of dynamic viscosity of μ-water.

Apply the method for described structure, it is characterized in that:

1. by the water level of the underground structure both sides of water level automatic monitoring system Real-Time Monitoring, analyze water conservancy diversion effect according to monitored data, if the water-head of both sides meets the requirements, then water conservancy diversion effect is normal; If both sides water-head is undesirable, then strengthen water conservancy diversion effect, till both sides water-head meets the demands by starting submersible pump;

2. regularly check relevant device by access door, if stopping state appears in the filter screen in spilled water hole and self-restraint hole, pressure sensor occurs that damaged condition should be changed in time; Regularly should start submersible pump and carry out cleaning mozzle, prevent silting up of mozzle.

The technical scheme that the utility model adopts is: a kind of water conservancy diversion measure that underground construction intercepts seepage field, comprising: (1) water conservancy diversion subsystem, is made up of spilled water hole, mozzle, self-restraint hole, screen pack and submersible pump (if desired) etc.; (2) the automatic monitoring subsystem of water level, is made up of probe, data wire and dial plate; (3) overhaul subsystem, be made up of manhole and access door.

Beneficial effect

The utility model advantage is: can by the water resistance characteristic of the various underground structure of adjustment; improve seepage field situation; and finally reach the object of protection groundwater environment; compare with Japanese at present " Groundwater Flow safety system "; determine at technical data, equipment is installed, all have larger improvement in monitoring and maintenance etc.; ensure that stability and the reliability of whole system to a great extent; and it is less to take Underground Space Resource; more meet domestic construction technology Current Level and relevant policies requirement, be applicable to the underground construction of open cut and boring construction.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is further illustrated.

Fig. 1 is the flow-guiding structure of spilled water hole-self-restraint hole Groundwater Flow

Wherein: 1-water barrier, 2-aquifer, 3-upstream water line, 4-downstream water bit line, 5-underground structure, the 6-underground space, 7-screen pack, 8-spilled water hole, 9-mozzle, 10-conserves hole, and 11-water level automatic monitor is popped one's head in, 12-water level automatic monitor sensor, 13-water level automatic monitor dash board, 14-manhole, 15-access door, 16-submersible pump, the obturator during work of 17-submersible pump.

Fig. 2 is that water conservancy diversion subsystem affects schematic diagram to Groundwater Flow rule

Fig. 3 is that underground construction builds front underground water background mobility status (in figure, dotted line is the underground construction position intending building, lower same)

Fig. 4 is that underground construction is built rear nothing and dredged groundwater table distribution map under measure condition

Fig. 5 be after water conservancy diversion subsystem is set with underground engineering construction before water level contrast situation (situations of n >=6)

Fig. 6 be after water conservancy diversion subsystem is set with underground engineering construction before water level contrast situation (situation of n=3)

Detailed description of the invention

The detailed description of the invention of system:

(1) determination of water conservancy diversion subsystem technology parameter

For Study of The Underground structure builds the impact intercepted Groundwater Flow, introduce the physical quantity of a reflection discharge capacity, i.e. run-off Q under specific potential gradient _eq.

Before underground engineering construction, the natural discharge capacity Q of underground water _eq1for

Q _eq1＝A·K(1)

In formula: Q _eq1-underground construction builds the discharge capacity (m at front position place ³/ d); A-underground construction builds the discharge area (m at front position place ²); K-underground construction builds the average permeate coefficient (m/d) at front position place.

After underground construction is built, after n water conservancy diversion subsystem is installed, discharge capacity Q in underground structure section _eq2for

$Q_{eq2}=\frac{{\mathrm{n\πd}}^2{K}_{Pe}}{4}---\left(2\right)$

$K_{Pe}=\frac{d^2{\mathrm{\γ}}_W}{32\mathrm{\μ}}---\left(3\right)$

In formula: Q _eq2-underground construction builds the discharge capacity (m at front position place ³/ d); K _pethe equivalent coefficient of permeability (m/d) of-each perveance; The diameter (spilled water hole, mozzle and self-restraint Kong Jun are by isometrical consideration) (m) of d-water conservancy diversion subsystem; γ _wsevere (the kN/m of-water ³); The coefficient of dynamic viscosity (kPad) of μ-water

For make underground construction build after with build before discharge capacity equal, then

Q _eq2＝Q _eq1(4)

Can be obtained by formula (1) ~ (4)

$A\·K=\frac{{\mathrm{n\πd}}^4{\mathrm{\γ}}_W}{128\mathrm{\μ}}---\left(5\right)$

Meanwhile, even if installed water conservancy diversion subsystem, permeable owing to being local, therefore also can have an impact (see Fig. 2) to Background Flow Field.For ensure water conservancy diversion subsystem install after Groundwater Flow even, water conservancy diversion subsystem is arranged will as much as possible all even symmetry, and water conservancy diversion subsystem quantity is also unsuitable too small (or the spacing of water conservancy diversion subsystem is unsuitable excessive).For Fig. 2, appoint and get 3 adjacent water conservancy diversion subsystem A, B and C, for ensureing that underground water is after water conservancy diversion subsystem B, underground water still keeps good horizontal flow to rule, not anti-hypothesis by the groundwater flowline of A and C in horizontal direction, determines the zone of reasonableness value of water conservancy diversion subsystem spacing a in this, as condition.

Be not difficult to find out from Fig. 2, the longest flow path of underground water flowing through water conservancy diversion subsystem B is

L _max＝(L ₁+a)+(a+L ₂)＝2a+L(6)

In formula: L _max---due to the longest percolation path of underground water under the effect of water conservancy diversion subsystem; L---percolation path length under underground water natural conditions, i.e. coboundary S ₁with lower boundary S ₂between horizontal range; A---water conservancy diversion subsystem spacing; L ₁---coboundary S ₁the horizontal range of distance underground construction T; L ₂---lower boundary S ₂the horizontal range of distance underground construction T.

For make the percolation path grown most and normal percolation path difference very little, according to Groundwater Flow universal law, do following regulation

$\frac{L_{max}-L}{L}\≤0.2---\left(7\right)$

Simultaneous formula (6) and formula (7), solve

a≤0.1L(8)

And the relation of water conservancy diversion subsystem number n and spacing a meets following formula

$n=\frac{B}{a}+1---\left(9\right)$

In formula: B---the length of the effective water blockoff of underground construction.

Consider uniformity and the symmetry of water conservancy diversion subsystem plane figure, its number should not be less than 3, namely simultaneously

n≥3(10)

Simultaneous formula (8), formula (9) and (10), can obtain water conservancy diversion subsystem number n and meet

$n\≥max(\frac{10B}{L}+1,3)---\left(11\right)$

Utilize formula (11), in conjunction with concrete engineering actual conditions, condition of technology and economy, the quantity n (or spacing of water conservancy diversion subsystem) of water conservancy diversion subsystem can be determined, and according to n, utilize formula (5) that the diameter d of corresponding water conservancy diversion subsystem can be calculated, thus complete the design work of water conservancy diversion subsystem.

For the reliability of verification expression (11) and formula (7), carry out following numerical simulation experiment.Certain rectangle artesian water flow region, long 20km, wide 10km, west side and east side are given head boundary, water level elevation is respectively 45m and 25m, north and south is water proof border, and aquifer floor elevation absolute altitude is 10m, and top elevation is 20m, aquifer lithology is based on boulder and cobble, transmission coefficient is about 100m/d, and under background, Groundwater Flow state is from West to East (Fig. 2), underground water background yielding flow Q ₀for 10022m ³/ d.

Now intend building a underground structure at the middle part of flow region, structure height is 12m, and length is 10km (see Fig. 3), and form artesian aquifer and block completely, underground water can not flow (Fig. 4) completely.

Be 5 kinds of situations such as 1,3,6,11 and 21 for mozzle number respectively, formula (5) is utilized to determine draft-tube diameter d, then carry out dredging structural facilities design with this, and utilize technology of numerical simulation evaluation by the groundwater flow amount after this design, with water level distribution compared with the background value before underground engineering construction.

Dredge diameter, the transmission coefficient of pipe under utilizing formula (5) that varying number water conservancy diversion subsystem prerequisite can be calculated, and utilize the corresponding run-off Q (see table 1) of Numerical modelling.

Table 1 water conservancy diversion subsystem quantity is on the impact of run-off

n	1	3	6	11	21
						d(m)	0.20	0.15	0.12	0.11	0.09
K ep(m/d)	1156887471	667929293	54272181	346314201	250643817
						Q(m 3/d)	7967	7966	10024	10024	10024
Q/Q 0	0.79	0.79	1.00	1.00	1.00

As can be seen from the table, along with water conservancy diversion subsystem quantity increases, required diameter is less, and groundwater flow amount recovery extent is also higher.When water conservancy diversion subsystem quantity reaches more than 6, run-off and background run-off are very close.And utilize formula (10), can calculate required minimum water conservancy diversion subsystem quantity is

$n\≥max(\frac{10\×10000}{20000}+1,3)=6$

Also very close with the result of numerical computations in table 1, utilize numerical experimentation simultaneously, can to obtain under Groundwater Flow rule under this condition and background condition also very identical (see Fig. 5).

And as n<6, for n=3, not only run-off is smaller, be 0.79, also there is certain difference (Fig. 6) under the water level regularity of distribution and background condition, main cause is that water conservancy diversion subsystem quantity is less than normal simultaneously, causes local Groundwater Flow to occur streaming phenomenon.

(2) installation of each subsystem

1. water conservancy diversion subsystem is installed

For the underground construction of open-cut, before doing bed course, mozzle can be installed, then punching respectively as spilled water hole and self-restraint hole at side wall; For the underground construction of boring construction, before just lining construction, mozzle can be installed, and spilled water hole and self-restraint hole can be implemented after two linings have been constructed.

2. monitoring subsystem is installed

No matter be open cut engineering or project dug underground, monitoring subsystem can be installed after water conservancy diversion subsystem and maintenance subsystem complete.

3. overhaul subsystem to install

Maintenance subsystem can complete in the lump with spilled water hole, self-restraint hole.The size of manhole need meet the requirement of personnel's turnover, and access door adopts the good flange of obturation effect.

(3) enforcement of the operation and maintenance of whole persuasion system

1. automatically monitored the water level of the underground structure both sides from system Real-Time Monitoring by water level, analyze water conservancy diversion effect according to monitored data, if the water-head of both sides meets the requirements, then water conservancy diversion effect is normal; If both sides water-head is undesirable, then by access door installing submersible pump, and start submersible pump to strengthen water conservancy diversion effect, till both sides water-head meets the demands.

2. regularly check relevant device by access door, if stopping state appears in the filter screen in spilled water hole and self-restraint hole, pressure sensor occurs that damaged condition should be changed in time; Regularly should start submersible pump to carry out cleaning the fine grained that may exist in mozzle, prevent silting up of mozzle.

Claims (2)

1. dredge underground construction to the structure of underground water resistance every effect, it is characterized in that: comprise water conservancy diversion subsystem and the automatic monitoring subsystem of water level; Water conservancy diversion subsystem comprises by spilled water hole, mozzle, self-restraint hole and screen pack; The automatic monitoring subsystem of water level, comprises probe, data pick-up and dial plate composition; Submersible pump is provided with in mozzle;

Wherein mozzle one end is spilled water hole, and the other end is self-restraint hole; Screen pack is provided with outside spilled water hole and self-restraint hole.

2. a kind of underground construction of dredging according to claim 1 is to the structure of underground water resistance every effect, it is characterized in that: spilled water hole and self-restraint hole are equipped with manhole and access door.