CN201707328U - Low-path-embankment waterproof and drainage test device - Google Patents

Abstract

The utility model discloses a low-path embankment waterproof and drainage test device, which belongs to the technical field of tests for detecting the low-path embankment waterproof and drainage effect of highway fine grained soil. The utility model is formed by connecting a permeable glass pipe at the bottom parts of an organic glass model tank and a graduated water tank, the water level of the water tank is used for simulating the ascending and descending of the underground water level, and the work condition of waterproof and drainage materials in actual engineering can be simulated through paving waterproof and drainage facilities in model grooves and filling and building the path embankment in layers. The utility model can intuitively obtain the variation rules of the water content, the pore water pressure and the suction force before and after the pavement of various waterproof and drainage materials on the low path embankment, so the use effect of different waterproof and drainage facilities can be detected, and the utility model has the advantages of actual engineering approximation, reasonable scale, multiple simulated work conditions and the like, and can provide the scientific technology assurance for the waterproof and drainage design and construction of the low path embankment.

Description

A kind of low path dyke drainage test device

Technical field

The utility model belongs to the experimental technique field of check highway fine grained soil low path dyke drainage effect, is specifically related to a kind of low path dyke drainage test device.

Background technology

Highway in China land used index is higher at present, the express highway roadbed average depth of fill 3.7m in plains region～5m, the too high quantity of earth work that will cause of roadbed increases, bridges and culverts, draining and protection works quantity increase, the highway land area increases, project scale is big, and the cost height also has a negative impact to physical environment on every side.Along with implementing in full of national freeway net and Country Road Construction, the contradiction of environment and resource constraint is more outstanding.Saving the soil is that highway construction must top-priority problem.The express highway roadbed average depth of fill in China plains region is bigger, can not adapt to the requirement of building resource-conserving and friendly environment society.Reduce the roadbed height, adopting low embankment scheme is the effective measures that realize that the soil is saved.

Though low embankment scheme has the advantage of " save the soil, reduce project scale, save construction investment, the trackside security is good, harmonious with nature, humanistic environment "; But also there is the draining difficult problem in low embankment, climatic environment, underground water etc. can produce appreciable impact to roadbed soil nature, not only cause the decay of subgrade soils long-term strength, and the higher roadbed of water cut will produce bigger plastic yield under the effect of heavy-duty car dynamic load, and the sedimentation and deformation of aggravation soft soil foundation, cause subgrade and pavement to produce too early deformation failure.Therefore, guarantee that low embankment has enough intensity at opposing environmental impact and carload as the time spent, just must take highly effective anti-water discharge technology measure, but still not have ripe low path dyke Drainage Design method and technical measures at present.For this reason, seek a kind of test method and equipment of scientific and effective check low path dyke drainage effect, become problem demanding prompt solution in low path dyke Drainage Design and even the whole low embankment engineering construction.

Summary of the invention

The purpose of this utility model provides a kind of low path dyke drainage test device, is used to check highway fine grained soil low path dyke drainage effect, and the foundation of science is provided for low path dyke Drainage Design and construction.

The purpose of this utility model is achieved in that

The type of underground water table, soil and environmental factor are the principal elements of the low roadbed humidity of influence, and roadbed humidity has significant effects to subgrade resilient modulus.Along with the increase subgrade resilient modulus of humidity will reduce, the ability of its resistance to deformation can weaken greatly, thereby influences the serviceable life of roadbed.For general clayey soil and slity soil roadbed, capillary water height is the above 0.5～1.0m of phreatic line, and this part subgrade moisture content is too high in the capillary water altitude range usually.If certain thickness sandstone bed course is set in roadbed inside, because sandstone bed course aperture is bigger, is difficult for forming zone of capillarity, thereby can stops the rising of capillary water, play good waterproof effect; If water permeability PVC flexible porous tube or three-dimensional composite drainage network etc. preferably are set in roadbed inside, the respective row aquaporin is set again, then the day water and the part underground water that infiltrate roadbed can be discharged, thus lowering of watertable, the purpose of arrival draining.Yet, how to check the effect of preventing pumping equipment in the roadbed, instruct low path dyke Drainage Design to seem very important conversely.

For checking the effect of anti-pumping equipment in the low roadbed, the utility model has designed three model grooves, simulates three kinds of operating modes respectively, in order to compare.Operating mode one, pumping equipment in the air; Operating mode two is provided with common sand cushion waterproof material; Operating mode three is provided with the anti-adrainage material of NEW TYPE OF COMPOSITE.

Underground water rises in clayey soil or slity soil compacted subgrade slowly, for accelerating test speed, lays the thick metalling of one deck 10cm as the water holding layer at the model trench bottom, lays the permeable geotextile of one deck on it, prevents that the ground fine grained soil from falling into the rubble hole.In the water inlet that feeds the model groove filter screen is set simultaneously, prevents that rubble from stopping up inlet channel.

In order to eliminate the influence of temperature to test findings, testing requirements is carried out in the constant temperature test chamber of (25 ± 2 ℃).

Specifically, the utility model comprises organic glass model case, band scale water tank, connects pipeline, inlet valve, water discharging valve, filter screen, tap water, rubble water holding layer, permeable geotextile, ground banket, the dividing plate and the comprehensive tester of embankment filled soil, infiltration geotextile, the anti-drainage facility of sand cushion, PVC sewer, the anti-drain bar of NEW TYPE OF COMPOSITE, pore pressure gauge, soil suction sensor, water percentage probe, band osculum;

Be in turn connected into an integral body before and after band scale water tank, connection pipeline and the organic glass model case;

In band scale water tank, fill tap water;

Connect pipeline and be provided with inlet valve and water discharging valve, the port that is inserted with in the machine glass molds molding box at the connection pipeline is connected with filter screen;

In the organic glass model case, be provided with the dividing plate of two band osculums, the organic glass model case is separated into three equirotal the 1st, 2,3 model grooves;

In the 1st model groove, rubble water holding layer and permeable geotextile are laid in the bottom, and the bottom is filled ground and banketed, and the top railway embankment using is banketed;

In the 2nd model groove, be equipped with rubble water holding layer, permeable geotextile, ground banket, seep water geotextile, the anti-drainage facility of sand cushion and railway embankment using from top to bottom successively and banket;

In the 3rd model groove, be equipped with successively from top to bottom that rubble water holding layer, permeable geotextile, ground banket, PVC sewer, the anti-drain bar of NEW TYPE OF COMPOSITE and railway embankment using banket;

In the 1st, 2,3 model grooves, bury sensor apparatus underground:

Sustained height in ground bankets is embedded with two groups of pore pressure gauges, soil suction sensor and water percentage probe;

In embankment filled soil, be embedded with two groups of pore pressure gauges, soil suction sensor and water percentage probe respectively in the differing heights up and down.

Draw pop one's head in comprehensive tester outside the organic glass model case of sensor apparatus such as pore pressure gauge, soil suction sensor and water percentage with lead.

The utlity model has following advantage and good effect:

1. can simulate actual engineering preferably, obtain low embankment intuitively at the Changing Pattern of laying various anti-adrainage materials front and back water cut, pore water pressure and suction, thus the result of use of check different preventing pumping equipment;

2. accurately the lifting of simulate formation water level for the roadbed performance impact;

3. provide scientific basis for formulating China's low path dyke Drainage Design and construction technique normalizing;

4. experimentation cost is low, and economic benefit is huge, helps saving the soil, reduces project scale, saves construction investment, the trackside security is good, with nature, humanistic environment harmony.

In a word, the utility model can obtain the Changing Pattern of low embankment at water cut, pore water pressure and the suction of laying various anti-adrainage materials front and back intuitively, thereby the result of use of check different preventing pumping equipment, have rationally and advantage such as the operating mode that can simulate is many, can be low path dyke Drainage Design and construction science and technology guarantee is provided near actual engineering, scale.

Description of drawings

Fig. 1 is a low path dyke drainage test device front view;

Fig. 2 is the I-I cut-open view of Fig. 1;

Fig. 3 is the II-II cut-open view of Fig. 1.

Wherein:

1-organic glass model case; The water tank of 2-band scale; 3-connects pipeline;

The 4-inlet valve; The 5-water discharging valve; The 6-filter screen;

The 7-tap water; 8-rubble water holding layer; The permeable geotextile of 9-;

The 10-ground bankets; The 11-embankment filled soil; The 12-geotextile that seeps water;

The 13-sand cushion is prevented drainage facility; The 14-PVC sewer; The 15-NEW TYPE OF COMPOSITE is prevented drain bar;

The 16-pore pressure gauge; 17-soil suction sensor; 18-water percentage probe;

The dividing plate of 19-band osculum;

A, B, C-the 1st, 2,3 model grooves.

Embodiment

Describe in detail below in conjunction with drawings and Examples:

One, device

1, overall

As Fig. 1,2,3, native system comprises organic glass model case 1, band scale water tank 2, connects pipeline 3, inlet valve 4, water discharging valve 5, filter screen 6, tap water 7, rubble water holding layer 8, permeable geotextile 9, ground banket 10, the dividing plate 19 and the comprehensive tester of embankment filled soil 11, infiltration geotextile 12, the anti-drainage facility 13 of sand cushion, PVC sewer 14, the anti-drain bar 15 of NEW TYPE OF COMPOSITE, pore pressure gauge 16, soil suction sensor 17, water percentage probe 18, band osculum;

Band scale water tank 2, connection pipeline 3 and organic glass model case 1 front and back are in turn connected into an integral body;

In band scale water tank 2, fill tap water 7;

Connect pipeline 3 and be provided with inlet valve 4 and water discharging valve 5, the port in connecting pipeline 3 insertion organic glass model casees 1 is connected with filter screen 6;

In organic glass model case 1, be provided with the dividing plate of two band osculums, organic glass model case 1 is separated into three equirotal the 1st, 2,3 model groove A, B, C;

In the 1st model groove A, rubble water holding layer 8 and permeable geotextile 9 are laid in the bottom, and the bottom is filled ground and banketed 10, and the top railway embankment using bankets 11;

In the 2nd model groove B, be equipped with successively from top to bottom that rubble water holding layer 8, permeable geotextile 9, ground banket 10, infiltration geotextile 12, the anti-drainage facility 13 of sand cushion and railway embankment using banket 11;

In the 3rd model groove C, be equipped with successively from top to bottom that rubble water holding layer 8, permeable geotextile 9, ground banket 10, PVC sewer 14, the anti-drain bar 15 of NEW TYPE OF COMPOSITE and railway embankment using banket 11;

In the 1st, 2,3 model groove A, B, C, bury sensor apparatus underground:

The sustained heights that ground bankets in 10 are embedded with two groups of pore pressure gauges 16, soil suction sensor 17 and water percentage probe 18;

In embankment filled soil 11, be embedded with two groups of pore pressure gauges 16, soil suction sensor 17 and water percentage probe 18 respectively in the differing heights up and down.

Draw sensor apparatus such as pore pressure gauge 16, soil suction sensor 17 and water percentage probe 18 to the outer comprehensive testers of organic glass model case 1 with lead.

Principle of work:

This system mainly is made up of organic glass model case 1 and 2 liang of big parts of band scale water tank.Two big parts are interconnected by connecting pipeline 3, in order to control the 1 interior fluctuation in stage of organic glass model case and to guarantee that scale water tank 2 drain operation are convenient, on connection pipeline 3 inlet valve 4 and water discharging valve 5 have been installed.Do not produce excessive deformation in the process and destroy for guaranteeing that organic glass model case 1 fills at embankment, around organic glass model case 1, utilize angle steel to reinforce.Underground water rises in clayey soil or slity soil compacted subgrade slowly, for accelerating test speed, lays certain thickness rubble water holding layer 8 in organic glass model case 1 bottom, lays the permeable geotextile 9 of one deck on it, prevents that the foundation soil particle from falling into the rubble hole.Because of being provided with the dividing plate 19 of band osculum, guaranteed that rubble water holding layer 8 bottom water flow are unobstructed; In the water inlet that feeds organic glass model case 1 filter screen 6 is set simultaneously, prevents that rubble from stopping up inlet channel.In order to form airtight condition, organic glass model case 1 is water-tight in the warranty test process, coats glass cement or vacuum grease at organic glass model case 1 and connection pipeline 3 interfaces.For highway subgrade situation that is virtually reality like reality, in organic glass model case 1, banket 10 and embankment filled soil 11 by different compactness placement in layers grounds.

For comparing the anti-drainage effect under the different preventing pumping equipment, test time-division three kinds of operating modes:

Operating mode one, in the 1st model groove A, pumping equipment in the air;

Operating mode two in the 2nd model groove B, is provided with the anti-drainage facility 13 of sand cushion;

Operating mode three in the 3rd model groove C, is provided with the anti-drain bar 15 of NEW TYPE OF COMPOSITE.

Anti-pumping equipment be laid on ground banket 10 and embankment filled soil 11 between, to simulate actual project situation.For guaranteeing that the anti-drainage facility 13 of sand cushion intercepts the effect that capillary water rises, and wraps up one deck infiltration geotextile 12 around the anti-drainage facility 13 of sand cushion.For the anti-drain bar 15 of NEW TYPE OF COMPOSITE, drainage channel need be set, promptly the PVC sewer 14, and with the fine sand parcel, effect is to guarantee that in the embankment compacting process PVC sewer 14 is not destroyed around the PVC sewer 14.Model fills in the process, buries sensor apparatus such as pore pressure gauge 16, soil suction sensor 17 and water percentage probe 18 as required underground at the different depth place.Sensor apparatus is buried underground in anti-pumping equipment upper and lower layering respectively, with water cut, pore water pressure and the matric suction of observation differing heights place subgrade soil, thus the anti-drainage effect of the anti-pumping equipment of check.

2, functional part

The functional part of native system is part commonly used.

1, the organic glass model case 1

Organic glass model case 1 is a model casing that is formed by the thick organic glass bonding of 10mm, and size is about 240cm * 80cm * 160cm, can make adjustment according to the size of test capacity.Utilize the framework that 30mm * 30mm * the 4mm angle steel is welded in addition, be used to reinforce organic glass model case 1, guarantee that model casing is not destroyed in the roadbed filling process, angle iron frame size and angle steel specification can be done suitably to adjust according to the glass molds molding box.

In the middle of organic glass model case 1, utilize the dividing plate 19 of the thick band osculum of two 10mm to separate, forms the equal model groove of three volumes.The circular hole that it is 3cm that 3～5 diameters are offered in dividing plate 19 its bottoms of every band osculum is as osculum.

2, band scale water tank 2

Band scale water tank 2 is band scale water tanks that formed by the thick organic glass bonding of 5mm.The draining circular hole that it is 3cm that 1 diameter is offered in the bottom, the water tank size is about 30cm * 30cm * 120cm, can make adjustment according to the size of test capacity.

3, connect pipeline 3

Connecting pipeline 3 is organic glass water pipes that a diameter is 3cm, is used to connect organic glass model case 1 and band scale water tank 2.Seal up filter screen 6 at the port that saturating connection pipeline 3 is connected with organic glass model case 1, prevent that rubble from stopping up.

4, rubble water holding layer 8

Rubble water holding layer 8 is by rubble or the cobble even thickness about 10cm one deck metalling laid of diameter between 1cm～3cm, is used for accelerating the seepage velocity of underground water at roadbed.

5, ground bankets 10

It 10 is the thick compactness of one deck 80cm compacting clays about 85% that ground bankets, and is used for simulating the ground of actual low embankment engineering, and its concrete thickness can be made adjustment according to the capacity of organic glass model case 1.

6, embankment filled soil 11

Embankment filled soil 11 is the thick compactness of one deck 100cm compacting clays about 93%, is used for simulating the embankment of actual low embankment engineering, and its concrete thickness can be made adjustment according to the capacity of organic glass model case 1.

7, the anti-drainage facility 13 of sand cushion

The anti-drainage facility 13 of sand cushion is particulate sand beds that a layer thickness is about 10cm, is used to intercept the rising of capillary water, thereby reaches waterproof effect.

8, permeable geotextile 9, infiltration geotextile 12, PVC sewer 14, the anti-drain bar 15 of NEW TYPE OF COMPOSITE, pore pressure gauge 16, soil suction sensor 17 and water percentage probe 18 etc. all have the listing product.

9, comprehensive tester

Comprehensive tester has the listing product.

Two, test method

This method may further comprise the steps based on above-mentioned drainage test system by low-path embankment:

1. be control criterion with the optimum moisture content in the actual engineering, carry out the roadbed placement in layers respectively, can simulate three kinds of different preventing pumping equipment situations simultaneously with three model grooves;

2. utilize the lifting of band scale water tank control underground water table;

3. draw sensor apparatus such as pore pressure gauge, soil suction sensor and water percentage with lead and pop one's head in that comprehensive tester outside the organic glass model case carries out water cut, press in the hole and the data observation and the record of suction reading;

4. provide scientific basis for low path dyke Drainage Design and construction with observation data after by the relevant analyzing and processing of mechanics.

Step 1. in:

1, instrument and equipment

1) compaction test apparatus: be made up of compaction cylinder, hammer and casing, its size should meet the regulation of " earthwork test rule SL237-1999 ";

2) standard sieve: the aperture is round-hole mesh and the 5mm standard sieve of 20mm;

3) baking oven: can adopt Electric heat oven or temperature can remain on other energy baking ovens under 105～110 ℃, also available infrared-ray oven;

4) balance: the heavy 0.1g of sense;

5) soil moisture sensor: range 0～100%, precision 1%;

6) pore water pressure probe: range 0～4MPa, precision 0.1KPa;

7) soil suction sensor: range 0～500KPa, precision 0.1KPa;

8) comprehensive tester: can carry out water cut, hole pressure and suction reading by connecting each sensor;

9) other: grind indigenous equipment, soil filling device, sprinkler, repair the native cutter and the equipment etc. of preserving moisture.

2, test procedure

1. get the air-dry soil sample of a certain amount of representativeness, carry out indoor Proctor compaction test, determine the optimum moisture content and the maximum dry density of banketing according to the requirement of " earthwork test rule SL237-1999 ";

2. selecting diameter is that the rubble of 5mm～20mm is laid on organic glass model case 1 bottom equably and is used to do rubble water holding layer 8, and rubble thickness is 10cm;

3. after rubble water holding layer 8 is laid and finished, spread the permeable geotextile 9 of one deck thereon;

4. the optimum moisture content of utilizing compaction test to obtain is carried out placement in layers for control criterion to embankment, for embankment that can simulated field fills, reach the compactness of site operation as far as possible, when placement in layers, the loose laying depth that strict control is every layer, filling-up thickness adopt the method control of sidewall setting-out, utilize hammer to tamp, the thickness that bankets after the compacting is 10～15cm, and the native face of each layer interface should dig hair;

In the 2nd, 3 model groove B, C, lay anti-drainage facility 13 of the thick sand cushion of 20cm and the anti-drain bar 15 of NEW TYPE OF COMPOSITE when 5. filling specified altitude assignment respectively, in the time of placement in layers, carrying out sensor apparatus in the position of needs observation buries underground, the sensor apparatus line is outside model groove madial wall lead-out groove, with the convenient comprehensive tester that connects;

6. fill and close inlet valve 4 and water discharging valve 5 after finishing, in band scale water tank 2, inject tap water 7, take reading to certain altitude.Open inlet valve 4 then, allow tap water 7 be full of water holding metalling 8, wait to be with 2 li heads of scale water tank stable, writing down at this moment, reading is simulate formation water level height;

7. carry out water cut, pore water pressure and suction observation, observing frequency is 1 time/12 hours;

8. determine the observation date as required, simulate before next underground water table height, open water discharging valve 5, allow the tap water 7 of band scale water tank 2 the insides all discharge, meanwhile, continue each sensor apparatus reading of observation, treat that reading is stable, close water discharging valve 5, continue next underground water table of simulation, each above-mentioned steps that repeats is till test is finished.

3, this test can also be carried out different sand cushion thickness, different sand cushion is laid embankment soil water cut, pore water pressure and suction test under the operating modes such as height, different novel anti-adrainage material and laying height, is used for checking the result of use of the anti-pumping equipment under the different operating modes.

Claims (5)

1. low path dyke drainage test device is characterized in that:

Comprise organic glass model case (1), band scale water tank (2), connect pipeline (3), inlet valve (4), water discharging valve (5), filter screen (6), tap water (7), rubble water holding layer (8), permeable geotextile (9), ground banket (10), embankment filled soil (11), infiltration geotextile (12), sand cushion is prevented drainage facility (13), PVC sewer (14), NEW TYPE OF COMPOSITE is prevented drain bar (15), pore pressure gauge (16), soil suction sensor (17), water percentage probe (18), the dividing plate (19) and the comprehensive tester of band osculum;

Be in turn connected into an integral body before and after band scale water tank (2), connection pipeline (3) and the organic glass model case (1);

In band scale water tank (2), fill tap water (7);

Connect pipeline (3) and be provided with inlet valve (4) and water discharging valve (5), the port in connecting pipeline (3) insertion organic glass model case (1) is connected with filter screen (6);

In organic glass model case (1), be provided with the dividing plate 19 of two band osculums, organic glass model case (1) is separated into three equirotal the 1st, 2,3 model grooves (A, B, C);

In the 1st model groove (A), rubble water holding layer (8) and permeable geotextile (9) are laid in the bottom, and the bottom is filled ground and banketed (10), top railway embankment using banket (11);

In the 2nd model groove (B), be equipped with rubble water holding layer (8), permeable geotextile (9), ground banket (10), seep water geotextile (12), the anti-drainage facility (13) of sand cushion and railway embankment using banket (11) from top to bottom successively;

In the 3rd model groove (C), be equipped with successively from top to bottom that rubble water holding layer (8), permeable geotextile (9), ground banket (10), PVC sewer (14), the anti-drain bar (15) of NEW TYPE OF COMPOSITE and railway embankment using banket (11);

In the 1st, 2,3 model grooves (A, B, C), bury sensor apparatus underground:

The sustained height that bankets at ground in (10) is embedded with two groups of pore pressure gauges (16), soil suction sensor (17) and water percentage probe (18);

In embankment filled soil (11), be embedded with two groups of pore pressure gauges (16), soil suction sensor (17) and water percentage probe (18) respectively in the differing heights up and down;

Draw sensor apparatus such as pore pressure gauge (16), soil suction sensor (17) and water percentage probe (18) to the outer comprehensive tester of organic glass model case (1) with lead.

2. by the described a kind of low path dyke drainage test device of claim 1, it is characterized in that:

Described rubble water holding layer (8) is by rubble or the cobble even thickness about 10cm one deck metalling laid of diameter between 1cm～3cm.

3. by the described a kind of low path dyke drainage test device of claim 1, it is characterized in that:

Described ground banket (10) be the compacting clay of the thick compactness of one deck 80cm about 85%.

4. by the described a kind of low path dyke drainage test device of claim 1, it is characterized in that:

Described embankment filled soil (11) is the compacting clay of the thick compactness of one deck 100cm about 93%.

5. by the described a kind of low path dyke drainage test device of claim 1, it is characterized in that:

Described sand cushion prevents that drainage facility (13) is the particulate sand bed that a layer thickness is about 10cm.

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