CN204343123U - A kind of structure of preventing and treating highway soft rock engineering sedimentation and deformation disease - Google Patents

Abstract

The utility model discloses a kind of structure of preventing and treating highway soft rock engineering sedimentation and deformation disease, one deck gravel is filled bottom embankment, the dank materials such as gravel or hard rock rock ballast overlay one deck two cloth one film composite geo-membrane, again by weak rock placement in layers in roadbed corresponding site, last one deck weak rock embankment top overlays one deck two cloth one film composite geo-membrane; III class weak rock of commute humidifying disintegration, IV class weak rock, gravel, modified soft rock, the hard rock rock ballast interlayer of a layer thickness are filled in interval, after often filling weak rock, and side slope of embankment place adopts the geosynthetics of geo-grid to carry out side slope of embankment reinforcement, the qualified filler of roadbed or unsized hard rock rubble making are on top layer two cloth one film composite geo-membrane.Structure is simple, can prevent outside moisture from infiltrating subgrade soil, prevents and treats settlement of subgrade distortion, improves the long-time stability of weak rock embankment, easy construction, cheap.

Description

A kind of structure of preventing and treating highway soft rock engineering sedimentation and deformation disease

Technical field

The utility model relates to roadbed filling and road disease Prevention Technique field, more specifically relates to a kind of typical structure preventing and treating highway soft rock engineering sedimentation and deformation disease.According to subgrade construction environmental quality and Soft Rock Filling Materials engineering properties.Dank material is set in embankment structure, composite earthwork impervious material, interval fill modification soil layer and punish soft rock embankment, prevent outside moisture from infiltrating subgrade soil, prevent and treat settlement of subgrade distortion, ensure soft rock embankment structure long-time stability.

Background technology

Weak rock is that a kind of rock matter is softer, easy-weathering, and the natural materials that water stability is poor has certain dilatancy, slaking and slaking deformation characteristic simultaneously, and after material meets water or weathering, its intensity can sharply reduce.Weak rock has a large amount of distribution in areas such as China Sichuan, Chongqing, Guizhou, Hunan, Hubei, Northeast Yunnan, Chinas, particularly high roadbed road in mountain area is reduce foreign material cost of transportation, the minimizing side of abandoning to the impact of road surrounding environment, many employings are gathered materials on the spot, and are main roadbed filling with the gravelly soil that excavation zone Blasting Excavation produces.According to investigations, past is owing to limiting weak rock Weathered Material engineering properties understanding deficiency and condition of technology and economy, the High Grade Highway in Mountain Area that the whole nation is built, substantially all there is Embankment Subsidence problem, wherein make use of Soft Rock Filling Materials, particularly the weak rock of easy-weathering and humidifying and the railway embankment using of waste thereof are risen soil repeatedly producing roadbed under traffic loading and natural environmental condition for many years, settlement of subgrade, the serious plant disease such as slope failure, cause road structure state deteriorating, maintenance works amount increases, cause this type of filler to be applied in highway engineering to be restricted.This patent proposes a kind of typical structure preventing and treating highway soft rock engineering sedimentation and deformation disease; make full use of excavation weak rock along the line as roadbed filling; and adopt modification soil layer and composite geotextile material to carry out the punishment of waterproof clad in bottom surface, weak rock embankment top and middle part; play and prevent Infiltration; control For Embankment Settlements, the effect of protection subgrade stability.

Summary of the invention

In order to make full use of the weak rock of local excavation zone Blasting Excavation generation as embankment fill material, reduce engineering cost, and prevent and treat soft rock embankment Differential Settlement Disease, the purpose of this utility model there are provided a kind of structure of preventing and treating highway soft rock engineering sedimentation and deformation disease, it carries out pre-disintegration to weak rock or rolls in advance, judge to select the relatively good gravelly soil of lithology to carry out embankment, adopt dank material, composite earthwork impervious material, interval is filled modification soil layer and is punished weak rock embankment, prevent outside moisture from infiltrating subgrade soil, prevent and treat settlement of subgrade distortion, improve the overall performance of weak rock embankment, ensure embankment long-time stability, easy construction, cheap.

The utility model solves the technical scheme that its technical problem adopts:

A kind of structure of preventing and treating highway soft rock engineering sedimentation and deformation disease, it chooses its single shaft saturation limit compressive strength of better weak rock sample testing, according to weak rock sample single shaft saturation limit compressive strength, the disintegration of rock humidifying and roll result in advance and be divided into I class weak rock, II class weak rock, III class weak rock, IV class weak rock, four classifications, carry out soft rock engineering typical structure and fill.The feature that typical subgrade fills structure is: bottom embankment, fill the dank material such as gravel or hard rock rock ballast that a layer thickness is not less than 50cm, again by weak rock placement in layers above the dank materials such as gravel or hard rock rock ballast, geo-grid, gravel/modified soft rock/hard rock rock ballast or other satisfactory good interlayer filler are positioned at weak rock inside, second liang of cloth one film composite geo-membrane is layered on weak rock end face, and the qualified filler of roadbed or unsized hard rock rubble making are on second liang of cloth one film composite geo-membrane.When I class weak rock, II class weak rock railway embankment using height are less than 6m, adopt direct filling method, on gravel or hard rock rock ballast dank material, direct filling weak rock is to designing roadbed (embankment) design elevation; When depth of fill is greater than 6m, adopt spacer interlayers to fill method, after every filling-up thickness 3.0-4.0m weak rock, fill a layer thickness and be no less than the satisfactory good fillers such as the gravel of 30cm, modified soft rock or hard rock rock ballast.When adopting III class weak rock of easy humidifying disintegration, when IV class weak rock is as filler, consider that its side slope of embankment affects slaking deformation by climatic factors such as rainfalls larger, interval (interlayer) is filled spacing and should be reduced, when depth of fill is more than 3m, namely spacer interlayers is adopted to fill method, after every filling-up thickness 1.0-2.0m weak rock, fill the gravel that a layer thickness is no less than 30cm, modified soft rock, hard rock rock ballast or other satisfactory good interlayer filler, and side slope of embankment place adopts the good integrity such as geo-grid, intensity is high, be out of shape little geosynthetics and carry out side slope of embankment reinforcement.If soft rock engineering is in seasonal frost region, also first liang of cloth one film composite geo-membrane should be overlayed on the dank materials such as gravel or hard rock rock ballast.

Described weak rock identification and classification method is, first carry out just sentencing to engineering site weak rock state, select state weak rock relatively preferably except residual soil state and completely decomposed state, according to sample single shaft saturation limit compressive strength and the disintegration of rock humidifying and roll result in advance and carry out identification and classification to weak rock: single shaft saturation limit compressive strength is at 25 ~ 30Mpa, coefficient of softening is 0.75-0.6, disintegration is there is not in 24 hours or after one or two drying and watering cycle, or only have a small amount of disintegration at some arris edge place, and disintegration amount is not more than the weak rock of total amount 1%, it is I class weak rock, single shaft saturation limit compressive strength is at 15 ~ 25Mpa, and coefficient of softening is 0.6-0.45, and in 24 hours or through one or two drying and watering cycle and disintegratable, become block, the block particle diameter of avalanche is much in the weak rock of 10mm, is II class weak rock, single shaft saturation limit compressive strength is at 5 ~ 15Mpa, and coefficient of softening is 0.45-0.3, in 24 hours or through one or two drying and watering cycle and disintegratable, become chunky shape, and disintegration thing in the weak rock that 5 ~ 10 mm chunky shapes are piled up, is mostly III class weak rock, single shaft saturation limit compressive strength is being less than 5Mpa, and coefficient of softening is less than or equal to 0.3, and in 24 hours or after one or two drying and watering cycle, disintegration becomes the weak rock of scoriform, slag particle shape, is IV class weak rock.

It is under weak rock meets the condition of roadbed filling requirement of strength that described weak rock fills position, is considered as Stone Filled Embankment during I class weak rock railway embankment using, and filler can be used for embankment, lower roadbed position; Be considered as soil-stone mixture filler when II class weak rock, III class weak rock railway embankment using, can be used for embankment position; IV grade of weak rock be used for railway embankment using time be considered as soil embankment, can be used for lower embankment.

Described direct filling method is: when I class weak rock, II class weak rock railway embankment using height are less than 6m, adopt direct filling method, directly on gravel or hard rock rock ballast dank material, filling weak rock to designing roadbed (embankment) design elevation, overlaying one deck two cloth one film impermeable composite geomembrane at weak rock embankment top;

The described spacer interlayers method of filling is: on gravel or hard rock rock ballast dank material, fill weak rock, the I class weak rock of every filling-up thickness 3.0-4.0m, II class weak rock, or every filling-up thickness 1.0 ~ 2.0m III class weak rock, after IV class weak rock, fill a layer thickness and be no less than the gravel of 30cm, modified soft rock, hard rock rock ballast or other satisfactory good interlayer filler.

Two described cloth one film composite geo-membranes comprise first liang of cloth one film composite geo-membrane, second liang of cloth one film composite geo-membrane; First liang of cloth one film composite geo-membrane is laid on above the dank material such as gravel or hard rock rock ballast, is connected, for seasonal frost region soft rock engineering, prevents underground from freezing the road structure that rises to waterborne with top weak rock; Second liang of cloth one film composite geo-membrane is layered on weak rock end face, is connected, oozes under preventing top Free water with the qualified filler of top roadbed or unsized hard rock rubble.

Described side slope of embankment reinforcement is when III class weak rock, IV class weak rock railway embankment using height are more than 3m, consider that its side slope of embankment affects slaking deformation by climatic factors such as rainfalls larger, adopt at side slope of embankment place the good integrity such as geo-grid, intensity high, be out of shape little geosynthetics and carry out Reinforced embankment punishment, reinforcement material interlamellar spacing is 60-80cm, and reinforcement material length is 3.0-5.0m.

Described gravel, modified soft rock, hard rock rock ballast or other satisfactory good interlayer filler, fill the I class weak rock in being highly greater than 6m, II class weak rock soft rock embankment, or be highly greater than the III class weak rock of 3m, when IV class weak rock soft rock embankment is inner, the I class weak rock of every filling-up thickness 3.0-4.0m, II class weak rock, or every filling-up thickness 1.0-2.0m III class weak rock, after IV class weak rock, fill the gravel that a layer thickness is no less than 30cm, modified soft rock, hard rock rock ballast or other satisfactory good interlayer filler.

Described geo-grid 6 comprises the first geo-grid 6a, the second geo-grid 6b, the 3rd geo-grid 6c, the 4th geo-grid 6d, the 5th geo-grid 6e, the 6th geo-grid 6f, geo-grid 6 making is inner more than the weak rock 1 of 3m in III class weak rock 1C, IV class weak rock 1D railway embankment using height, and length is 3.0 ~ 5.0m.First geo-grid 6a and the second geo-grid 1b making are in embankment bottom, and interlamellar spacing is 60 ~ 80cm, is connected respectively with weak rock 1, plays side slope bottom Study on Reinforced Embankments Using; After III class weak rock 1C, IV class weak rock 1D filling-up thickness reach 1.0 ~ 2.0m, fill a layer thickness and be no less than first gravel of 30cm, modified soft rock, hard rock rock ballast 3a or other satisfactory good interlayer filler, continue to fill III class weak rock 1C, IV class weak rock 1D, and making the 3rd geo-grid 6c and the 4th geo-grid spread 6d successively; 3rd geo-grid 6c is connected with weak rock 1 respectively with the 4th geo-grid 6d, and interlamellar spacing is 60 ~ 80cm, plays side slope in the middle part of Study on Reinforced Embankments Using; After III class weak rock 1C, IV class weak rock 1D filling-up thickness reach 1.0 ~ 2.0m again, fill a layer thickness and be no less than second gravel of 30cm, modified soft rock, hard rock rock ballast 3b or other satisfactory good interlayer filler, continue the III class weak rock 1C filling 60 ~ 80cm, and making the 5th geo-grid 6e and the 6th geo-grid spread 6f successively; 5th geo-grid 6e is connected with weak rock 1 respectively with the 6th geo-grid 6f, and interlamellar spacing is 60 ~ 80cm, plays Study on Reinforced Embankments Using top side slope; Continue to fill III class weak rock 1C to embankment top.

The beneficial effects of the utility model are:

The utility model is a kind of typical structure preventing and treating highway soft rock engineering sedimentation and deformation disease, foundation weak rock humidifying disintegration and weathering characteristic are to weak rock filler identification and classification, according to the different classes of placement in layers of roadbed filling requirement of strength, weak rock filler in roadbed corresponding site, the weak rock class gravelly soil that can make full use of the Blasting Excavation generation of on-the-spot excavation zone, as embankment fill material, saves construction costs.The utility model by arranging dank material bottom roadbed, and top arranges composite earthwork impervious material and prevents outside moisture on the impact of infiltrating of subgrade soil; The impact of underground water frost heave is considered in Seasonal freezing areas, bottom embankment, dank material overlays composite earthwork impervious material, on the one hand for the underground water risen under frost-heave force effect provides drainage channel, cut off the elevated path of underground water on the other hand, ensure roadbed moisture condition; Employing spacer interlayers fills modification soil layer or good roadbed filling is prevented and treated the distortion of weak rock embankment differential settlement, improves resistance to overturning and the local stability of weak rock embankment structure, reduces sedimentation and deformation, ensures embankment structure long-time stability.The utility model easy construction, cheap, China Sichuan, Chongqing, Guizhou can be widely used in, the mountain area weak rock roadbed filling that the weak rocks such as Hunan, Hubei, Northeast Yunnan, China distribute more.

Accompanying drawing explanation

Fig. 1 is the weak rock road structure schematic diagram that a kind of height is greater than the easy humidifying disintegration of 3m;

Fig. 2 is the weak rock road structure schematic diagram that a kind of height is greater than 6m not easily humidifying disintegration;

Fig. 3 is the weak rock road structure schematic diagram that a kind of height is less than 6m not easily humidifying disintegration;

Fig. 4 is the weak rock road structure schematic diagram that a kind of seasonal frost region height is greater than the easy humidifying disintegration of 3m;

Fig. 5 is the weak rock road structure schematic diagram that a kind of seasonal frost region height is greater than 6m not easily humidifying disintegration;

Fig. 6 is the weak rock road structure schematic diagram that a kind of seasonal frost region height is less than 6m not easily humidifying disintegration;

Wherein, 1-weak rock; 1A-I class weak rock; 1B-II class weak rock; 1C-III class weak rock; 1D-IV class weak rock; The dank materials such as 2-gravel or hard rock rock ballast; 3-gravel or modified soft rock or ragstone cinder ladle are drawn together (3a-first gravel or modified soft rock or hard rock rock ballast; 3b-second gravel or modified soft rock or hard rock rock ballast); 4-two cloth one film composite geo-membrane comprises (4a-first liang of cloth one film composite geo-membrane, 4b-first liang of cloth one film composite geo-membrane); The qualified filler of 5-roadbed or unsized hard rock rubble; (6a-first geo-grid that 6-geo-grid comprises; 6b-second geo-grid; 6c-the 3rd geo-grid, 6d-the 4th geo-grid, 6e-the 5th geo-grid, 6f-the 6th geo-grid).

Detailed description of the invention

embodiment 1:

According to Fig. 1, Fig. 2, Fig. 3, prevent and treat a typical structure for highway soft rock engineering sedimentation and deformation disease, it is made up of dank material 2, gravel, modified soft rock, hard rock rock ballast 3 or other satisfactory good interlayer fillers such as weak rock 1, I class weak rock 1A, II class weak rock 1B, III class weak rock 1C, IV class weak rock 1D, gravel or hard rock rock ballast, two cloth one film composite geo-membranes 4, the qualified filler of roadbed or unsized hard rock rubble 5, geo-grid 6.It is characterized in that: bottom embankment, fill the dank material 2 such as gravel or hard rock rock ballast that a layer thickness is not less than 50cm, again by weak rock 1 placement in layers above the dank materials 2 such as gravel or hard rock rock ballast, it is inner that geo-grid 6, gravel/modified soft rock/hard rock rock ballast or other satisfactory good interlayer filler 3 are positioned at weak rock 1, second liang of cloth one film composite geo-membrane 4b is layered on weak rock 1 end face, and the qualified filler of roadbed or unsized hard rock rubble 5 making are on second liang of cloth one film composite geo-membrane 4b.I class weak rock 1A, when II class weak rock 1B railway embankment using height is less than 6m, adopt direct filling method, direct filling weak rock on gravel or hard rock rock ballast dank material, I class weak rock 1A, when II class weak rock 1B railway embankment using height is more than 6m, spacer interlayers is adopted to fill method, after often filling 3.0 ~ 4.0m weak rock 1, fill the gravel that a layer thickness is not more than 30cm, modified soft rock, hard rock rock ballast 3, to III class weak rock 1C, when IV class weak rock 1D filled height is greater than 3m, after often filling 1.0 ~ 2.0m weak rock 1, fill the gravel that a layer thickness is not more than 30cm, modified soft rock, hard rock rock ballast 3, side slope of embankment place adopts the geosynthetics of geo-grid 6 to carry out side slope of embankment reinforcement, the qualified filler of roadbed or unsized hard rock rubble 5 making are on second liang of cloth one film composite geo-membrane 4b.When soft rock engineering is positioned at seasonal frost region, also should overlay first liang of cloth one film composite geo-membrane 4a on the dank materials 2 such as gravel or hard rock rock ballast, as shown in Fig. 4, Fig. 5, Fig. 6.

Described weak rock 1 carries out identification and classification according to weak rock humidifying disintegration state, weathering characteristic and sample single shaft saturation limit compressive strength difference: single shaft saturation limit compressive strength is at 25 ~ 30Mpa, coefficient of softening is 0.75 ~ 0.6, disintegration is there is not in 24 hours or after one or two drying and watering cycle, or only have a small amount of disintegration at some arris edge place, and disintegration amount is not more than the weak rock of total amount 1%, it is I class weak rock; Single shaft saturation limit compressive strength is at 15 ~ 25Mpa, and coefficient of softening is 0.6 ~ 0.45, and in 24 hours or through one or two drying and watering cycle and disintegratable, become block, the block particle diameter of avalanche is much in the weak rock of 10mm, is II class weak rock; Single shaft saturation limit compressive strength is at 5 ~ 15Mpa, and coefficient of softening is 0.45 ~ 0.3, in 24 hours or through one or two drying and watering cycle and disintegratable, become chunky shape, and disintegration thing in the weak rock that 5 ~ 10 mm chunky shapes are piled up, is mostly III class weak rock; Single shaft saturation limit compressive strength is being less than 5Mpa, and coefficient of softening is less than or equal to 0.3, and in 24 hours or after one or two drying and watering cycle, disintegration becomes the weak rock of scoriform, slag particle shape, is IV class weak rock.I class weak rock 1A can be used for embankment, lower roadbed position, is considered as Stone Filled Embankment filler; II class weak rock 1B, III class weak rock 1C can be used for embankment position, are considered as soil-stone mixture filler; IV class weak rock 1D can be used for lower embankment, is considered as soil embankment filler.

Two described cloth one film composite geo-membranes 4 comprise first liang of cloth one film composite geo-membrane 4a, second liang of cloth one film composite geo-membrane 4b; First liang of cloth one film composite geo-membrane 4a is laid on above the dank material 2 such as gravel or hard rock rock ballast, is connected, for seasonal frost region soft rock engineering, prevents underground from freezing liter waterborne with weak rock 1; Second liang of cloth one film composite geo-membrane 4b is layered on weak rock 1 end face, is connected, oozes under preventing top Free water with the qualified filler of top roadbed or unsized hard rock rubble 5.

Described gravel, modified soft rock, hard rock rock ballast 3 comprise the first gravel, modified soft rock, hard rock rock ballast 3a, the second gravel, modified soft rock, hard rock rock ballast 3b, be positioned at weak rock 1 inner, specifically fill in the I class weak rock 1A being highly greater than 6m, II class weak rock 1B soft rock embankment, or be highly greater than III class weak rock 1C, the IV class weak rock 1D soft rock embankment inside of 3m.As I class weak rock 1A, the II class weak rock 1B of filling-up thickness 3.0 ~ 4.0m, or after every filling-up thickness 1.0 ~ 2.0m III class weak rock 1C, IV class weak rock 1D, fill the first gravel, modified soft rock, hard rock rock ballast 3a that a layer thickness is no less than 30cm, continue I class weak rock 1A, the II class weak rock 1B of filling-up thickness 3.0 ~ 4.0m, or after every filling-up thickness 1.0 ~ 2.0m III class weak rock 1C, IV class weak rock 1D, then fill the second gravel, modified soft rock, the hard rock rock ballast 3b that a layer thickness is no less than 30cm.

Described geo-grid 6 comprises the first geo-grid 6a, the second geo-grid 6b, the 3rd geo-grid 6c, the 4th geo-grid 6d, the 5th geo-grid 6e, the 6th geo-grid 6f, geo-grid 6 making is inner more than the weak rock 1 of 3m in III class weak rock 1C, IV class weak rock 1D railway embankment using height, and length is 3.0 ~ 5.0m.First geo-grid 6a and the second geo-grid 1b making are in embankment bottom, and interlamellar spacing is 60 ~ 80cm, is connected respectively with weak rock 1, plays side slope bottom Study on Reinforced Embankments Using; After III class weak rock 1C, IV class weak rock 1D filling-up thickness reach 1.0 ~ 2.0m, fill a layer thickness and be no less than first gravel of 30cm, modified soft rock, hard rock rock ballast 3a or other satisfactory good interlayer filler, continue to fill III class weak rock 1C, IV class weak rock 1D, and making the 3rd geo-grid 6c and the 4th geo-grid spread 6d successively; 3rd geo-grid 6c is connected with weak rock 1 respectively with the 4th geo-grid 6d, and interlamellar spacing is 60 ~ 80cm, plays side slope in the middle part of Study on Reinforced Embankments Using; After III class weak rock 1C, IV class weak rock 1D filling-up thickness reach 1.0 ~ 2.0m again, fill a layer thickness and be no less than second gravel of 30cm, modified soft rock, hard rock rock ballast 3b or other satisfactory good interlayer filler, continue the III class weak rock 1C filling 60 ~ 80cm, and making the 5th geo-grid 6e and the 6th geo-grid spread 6f successively; 5th geo-grid 6e is connected with weak rock 1 respectively with the 6th geo-grid 6f, and interlamellar spacing is 60 ~ 80cm, plays Study on Reinforced Embankments Using top side slope; Continue to fill III class weak rock 1C to embankment top.

In Fig. 1, to be greater than the weak rock roadbed typical structure form of construction work of 3m easy humidifying disintegration as follows for a kind of height:

Test section should be applied before roadbed filling; determine the material-uploading style of the roadbed filling be applicable to, paving thickness, compacting machinary, travel speed, number of rolling, detection method, finished product roadbed safeguard measure; and carry out constructing and controlling construction quality according to the experience of test section and data; notice that in work progress, select large-scale rolling compaction machine to construct carries out abundant fragmentation to weak rock 1; and select rational loose laying depth; guarantee to meet the requirements of porosity, in case because filler is softening or disintegration and excessive sedimentation occurs.III class weak rock 1C, IV class weak rock 1D should first carry out pre-moistened disintegration in stock ground and roll process (pretreatment) in advance, play except or broken bulk hard rock, and then transport building site to and fill.Before filling, first on the ground handled well, fill one deck is not less than the dank materials 2 such as the thick gravel of 50cm or hard rock rock ballast, by the weak rock 1(III class weak rock 1C of same type good for pretreatment, IV class weak rock 1D) be discharged on roadbed by grid homogeneous reactor, layer-by-layer rolling is shaping, fill 60 ~ 80cm thick time respectively to spread one deck length in side slope of embankment both sides be 3.0 ~ 5.0m first geo-grid 6a, fill again weak rock 1 to 60 ~ 80cm thick time, respectively spreading one deck length in side slope of embankment both sides is 3.0 ~ 5.0m second geo-grid 6b, improve lower side slope of embankment stability, fill III class weak rock 1C again, IV class weak rock 1D, when being 1.0 ~ 2.0m to side slope of embankment height, fill the first gravel that a layer thickness is no less than 30cm, modified soft rock, hard rock rock ballast 3a or other satisfactory good interlayer filler, continue to fill III class weak rock 1C, IV class weak rock 1D, and making the 3rd geo-grid 6c and the 4th geo-grid spread 6d successively, 3rd geo-grid 6c is connected with weak rock 1 respectively with the 4th geo-grid 6d, and interlamellar spacing is 60 ~ 80cm, plays side slope in the middle part of Study on Reinforced Embankments Using, after III class weak rock 1C, IV class weak rock 1D filling-up thickness reach 1.0 ~ 2.0m again, fill a layer thickness and be no less than second gravel of 30cm, modified soft rock, hard rock rock ballast 3b or other satisfactory good interlayer filler, continue the III class weak rock 1C filling 60 ~ 80cm, and making the 5th geo-grid 6e and the 6th geo-grid spread 6f successively, 5th geo-grid 6e is connected with weak rock 1 respectively with the 6th geo-grid 6f, and interlamellar spacing is 60 ~ 80cm, plays Study on Reinforced Embankments Using top side slope, continue to fill III class weak rock 1C to embankment top.In the end one deck second liang of cloth one film composite geo-membrane 4b is laid at one deck weak rock 1 top, and between adjacent two width earth working materials, lap width is not less than 20cm, then fills the qualified filler of roadbed or unsized hard rock rubble 5, completes subgrade construction.

In Fig. 2, a kind of height is greater than the weak rock roadbed typical structure of 6m not easily humidifying disintegration, form of construction work is the same, adopt indirect sandwich method, at gravel or hard rock rock ballast dank material 2 higher slice rolling and placement by the weak rock 1(I class weak rock 1A of same type good for pretreatment or II class weak rock 1B), often fill the weak rock 1 of thick 3.0 ~ 4.0m, fill the gravel that a layer thickness is no less than 30cm, the satisfactory good interlayer fillers 3 such as modified soft rock or hard rock rock ballast, until design height, in the end one deck second liang of cloth one film composite geo-membrane 4b is laid at one deck weak rock 1 top, fill the qualified filler of roadbed or unsized hard rock rubble 5 again, complete subgrade construction.

In Fig. 3, a kind of height is less than the weak rock roadbed typical structure of 6m not easily humidifying disintegration, form of construction work is the same, adopt direct filling method, directly at gravel or hard rock rock ballast dank material 2 higher slice rolling and placement by the weak rock 1(I class weak rock 1A of same type good for pretreatment or II class weak rock 1B) to roadbed/embankment design absolute altitude, in the end one deck weak rock 1 top overlays one deck second liang of cloth one film composite geo-membrane 4b antiseepage.If the embankment that II class weak rock 1B fills, then fill the qualified filler of roadbed or unsized hard rock rubble 5, complete subgrade construction.

A kind of seasonal frost region weak rock roadbed typical structure in Fig. 4, Fig. 5, Fig. 6, form of construction work is respectively shown in same Fig. 1, Fig. 2, Fig. 3, unlike, because considering that seasonal frost region underground water freezes the impact of rising on roadbed performance, one deck first liang of cloth one film composite geo-membrane 4a need be overlayed on the dank materials 2 such as gravel or hard rock rock ballast, then require according to road structure and filling intensity, weak rock filler rank does not coexist roadbed corresponding site.

Claims (8)

1. prevent and treat the structure of highway soft rock engineering sedimentation and deformation disease for one kind, it comprises weak rock (1), gravel or hard rock rock ballast dank material (2), gravel/modified soft rock/hard rock rock ballast (3), two cloth one films composite geo-membrane (4), the qualified filler of roadbed or unsized hard rock rubble (5), geo-grid (6), it is characterized in that: bottom embankment, fill gravel or hard rock rock ballast dank material (2) that a layer thickness is not less than 50cm, again by weak rock (1) placement in layers in the dank material (2) such as gravel or hard rock rock ballast top, geo-grid (6), it is inner that gravel/modified soft rock/hard rock rock ballast (3) is positioned at weak rock (1), second liang of cloth one film composite geo-membrane (4b) is layered on weak rock (1) end face, the qualified filler of roadbed or unsized hard rock rubble (5) making are on second liang of cloth one film composite geo-membrane (4b), I class weak rock (1A), when II class weak rock (1B) railway embankment using height is less than 6m, adopt direct filling method, at gravel or the upper direct filling weak rock (1) of hard rock rock ballast dank material (2), I class weak rock (1A), when II class weak rock (1B) railway embankment using height is more than 6m, spacer interlayers is adopted to fill method, after often filling 3.0-4.0m weak rock (1), fill the gravel that a layer thickness is not more than 30cm, modified soft rock, hard rock rock ballast (3), to III class weak rock (1C), when IV class weak rock (1D) filled height is greater than 3m, after often filling 1.0-2.0m weak rock (1), fill the gravel that a layer thickness is not more than 30cm, modified soft rock, hard rock rock ballast (3), side slope of embankment place adopts the geosynthetics of geo-grid (6) to carry out side slope of embankment reinforcement, the qualified filler of roadbed or unsized hard rock rubble (5) making are on second liang of cloth one film composite geo-membrane (4b).

2. a kind of structure of preventing and treating highway soft rock engineering sedimentation and deformation disease according to claim 1, is characterized in that: described weak rock (1) is I class weak rock (1A), II class weak rock (1B), III class weak rock (1C), IV class weak rock (1D), four classifications.

3. a kind of structure of preventing and treating highway soft rock engineering sedimentation and deformation disease according to claim 1, is characterized in that: I described class weak rock (1A), for embankment, lower roadbed position, is Stone Filled Embankment filler; II class weak rock (1B), III class weak rock (1C), for embankment position, are soil-stone mixture filler; IV class weak rock (1D), for lower embankment, is soil embankment filler.

4. a kind of structure of preventing and treating highway soft rock engineering sedimentation and deformation disease according to claim 1, it is characterized in that: described direct filling method is I class weak rock (1A), II class weak rock (1B) railway embankment using height is less than 6m, directly fill weak rock (1) to design roadbed absolute altitude at gravel or hard rock rock ballast dank material (2) higher slice, overlay one deck second liang of cloth one film composite geo-membrane (4b) at weak rock embankment top.

5. a kind of structure of preventing and treating highway soft rock engineering sedimentation and deformation disease according to claim 1, it is characterized in that: the described spacer interlayers method of filling fills weak rock (1) on gravel or hard rock rock ballast dank material (2), the I class weak rock (1A) of every filling-up thickness 3.0-4.0m, II class weak rock (1B), or every filling-up thickness 1.0-2.0m III class weak rock (1C), after IV class weak rock (1D), fill gravel, modified soft rock, hard rock rock ballast (3) that a layer thickness is no less than 30cm.

6. a kind of structure of preventing and treating highway soft rock engineering sedimentation and deformation disease according to claim 1, is characterized in that: two described cloth one films composite geo-membrane (4) comprise first liang of cloth one film composite geo-membrane (4a), second liang of cloth one film composite geo-membrane (4b); First liang of cloth one film composite geo-membrane (4a) is laid on the dank material such as gravel or hard rock rock ballast, be connected with weak rock (1), second liang of cloth one film composite geo-membrane (4b) is laid on weak rock end face, is connected with the qualified filler of top roadbed or unsized hard rock rubble.

7. a kind of structure of preventing and treating highway soft rock engineering sedimentation and deformation disease according to claim 1, it is characterized in that: described side slope of embankment reinforcement is that III class weak rock (1C), IV class weak rock (1D) railway embankment using height are more than 3m, adopt the geosynthetics of geo-grid (6) to carry out Reinforced embankment at side slope of embankment place, reinforcement material interlamellar spacing is 60-80cm, and reinforcement material length is 3.0-5.0m.

8. a kind of structure of preventing and treating highway soft rock engineering sedimentation and deformation disease according to claim 1, it is characterized in that: described geo-grid (6) comprises the first geo-grid (6a), second geo-grid (6b), 3rd geo-grid (6c), 4th geo-grid (6d), 5th geo-grid (6e), 6th geo-grid (6f), geo-grid (6) making is in III class weak rock (1C), the weak rock (1) that IV class weak rock (1D) fills road is inner, length is 3.0-5.0m, first geo-grid (6a) and the second geo-grid (1b) making are in embankment bottom, interlamellar spacing is 60-80cm, be connected with weak rock (1) respectively, III class weak rock (1C), after IV class weak rock (1D) filling-up thickness reaches 1.0-2.0m, fill the first gravel that a layer thickness is no less than 30cm, modified soft rock, hard rock rock ballast (3a), continue to fill III class weak rock (1C), IV class weak rock (1D), and making the 3rd geo-grid (6c) and the 4th geo-grid spread (6d) successively, 3rd geo-grid (6c) is connected with weak rock (1) respectively with the 4th geo-grid (6d), interlamellar spacing is 60-80cm, after III class weak rock (1C), IV class weak rock (1D) filling-up thickness reach 1.0-2.0m, fill the second gravel, modified soft rock, hard rock rock ballast (3b) that a layer thickness is no less than 30cm, continue the III class weak rock (1C) filling 60-80cm, and making the 5th geo-grid (6e) and the 6th geo-grid spread (6f) successively, 5th geo-grid (6e) is connected with weak rock (1) respectively with the 6th geo-grid (6f), and interlamellar spacing is 60-80cm, continues to fill III class weak rock (1C).