CN204694600U - A kind of large scale city solid waste skeleton and pore water volume change coefficient measuring device - Google Patents

Abstract

The utility model discloses a kind of large scale city solid waste skeleton and pore water volume change coefficient measuring device.By sample bucket floor installation on loading system base, the conduit pipe on sample bucket base with hang hole, bucket bottom first and be connected, hang hole, bucket bottom second and be connected with moisturizing bucket bottom; The outflow port of hanging in the middle part of bucket is connected with water storage barrel upper surface; Hang bucket upper surface and open two holes, the first hole is connected with air-extractor by three-way rubber pipe joint, and the three-way rubber pipe joint other end installs vacuum table, and the second hole is connected with moisturizing bucket top; External tapping is established in moisturizing bucket upper surface.Select high air-entry value pottery clay plates, realize the test of large scale city solid waste; Water column method is hung in application, realizes low matric suction and accurately controls; Take out negative pressure by air-extractor hanging on water column liquid level, matric suction test specification is increased; Loading system is set, the clean normal stress of sample is controlled in real time; Dial gauge be set and store water charging system, measuring sample skeleton compression deformation and water yield change in real time.

Description

A kind of large scale city solid waste skeleton and pore water volume change coefficient measuring device

Technical field

The utility model relates to a kind of unsaturated soil volume change constitutive parameter measurement mechanism, particularly relates to a kind of large scale city solid waste skeleton and pore water volume change coefficient measuring device.

Background technology

The city solid waste of landfill yard is in unsaturated state usually, and its solid skeleton and pore water volume change play crucial effect in the problem such as simultaneous transport of landfill yard sedimentation and deformation, percolate and landfill gas.Based on unsaturated soils theory, for the determination of city solid waste skeleton and pore water volume change coefficient, can obtain with the variation factor of clean normal stress and matric suction by measuring city solid waste sample (sample of indication all refers to city solid waste sample) void ratio and mass water content (hereinafter referred to as water cut) herein: under normal clean normal stress effect, carry out soil-water characteristic curve test, measure the void ratio under different substrates suction and water cut, void ratio and the water cut variation factor with matric suction can be determined a _m with b _m ; Under normal matric suction effect, carry out compression test, measure the void ratio under different clean normal stress and water cut, void ratio and the water cut variation factor with clean normal stress can be determined a _t with b _t .

At present, the measurement of city solid waste soil-water characteristic curve generally adopts two kinds of methods: one uses axial translation technology, adopts pressure plate apparatus or Tempe instrument to test, by keeping sample hydraulic pressure u _w be 0, apply air pressure u _a make sample mesostroma suction sfor u _a -u _w , and measure the change of sample water cut.In process of the test, sample is using cutting ring as container, and specimen size is less, and diameter is generally within 10cm; Air pressure controls to be realized by tensimeter and air pressure regulator, and precision is not high, generally at about 10kPa.City solid waste particle size is larger, aliquot part is in requisition for possessing large-size, and it is rapid to bend down change of moisture content within the scope of matric suction at 10kPa, applying pressure plate instrument and Tempe instrument accurately cannot record the change of moisture content of sample within the scope of low matric suction.Another kind hangs water column method, keeps sample air pressure u _a be 0, by changing the head difference of hanging water column liquid level and high air-entry value pottery clay plates upper surface Δ h, make the matric suction of sample sfor ρ _w g Δ h, and record the water yield change of sample.In process of the test, head difference Δ hoften change 10cm, matric suction only changes 1kPa, and Super matrix suction force range is measured needs larger operating space.The matric suction that on the solid waste soil-water characteristic curve of city, residual volume water cut is corresponding reaches 90kPa, and adopt and hang water column method requirement laboratory clear height at more than 9m, Routine Test Lab cannot meet, and operation inconvenience.In addition, the clean normal stress of the general not Control Assay of above two kinds of soil-water characteristic curve measuring methods.At present, city solid waste compression test generally adopts two kinds of methods: one is for unsaturation sample, does not measure its matric suction, adopts total stress criterion; Another kind is for saturated sample, measures the hydraulic pressure in consolidation process, and adopt EFFECTIVE STRESS CRITERION, these two kinds of methods all do not adopt clean normal stress criterion.Therefore, how to realize the large scale of city solid waste soil-water characteristic curve test, high precision and wide-measuring range requirement, and the real-time control of clean normal stress and matric suction in soil-water characteristic curve and compression test, the real-time measurement of sample void ratio and water cut, becomes the difficult point that landfill yard city solid waste skeleton and pore water volume change constitutive parameter are determined.

Utility model content

Effectively cannot measure the shortcoming of city solid waste skeleton and pore water volume change constitutive parameter for overcoming existing instrument, the purpose of this utility model there are provided a kind of large scale city solid waste skeleton and pore water volume change coefficient measuring device.

The technical scheme that the utility model adopts is:

The utility model comprises sample chamber, loading system, and air-extractor hangs bucket, moisturizing bucket and water storage barrel; By the sample bucket floor installation of sample chamber on loading system base, the conduit pipe on sample bucket base by the first valve with hang hole, bucket bottom first and be connected, hang hole, bucket bottom second and be connected with moisturizing bucket bottom by the second valve; Hang in the middle part of bucket and be provided with outflow port, be connected with water storage barrel upper surface by the 3rd valve; Hang bucket upper surface and have two holes, upper surface first hole is connected with air-extractor with the 4th valve by three-way rubber pipe joint, and the three-way rubber pipe joint other end installs vacuum table; Hole, upper surface second is connected with moisturizing bucket top by the 5th valve; The external tapping of moisturizing bucket upper surface is connected with the 6th valve.

Described sample chamber, comprises flange, eight nuts, eight pads, eight screw rods, sample bucket, filter paper, silicone gasket, structure glue, sample bucket base, annular groove, conduit pipe and sample bucket floor installation are on loading system base, the annular groove be interconnected is had in the groove at sample bucket base center, high air-entry value pottery clay plates is arranged in the groove at sample bucket base center, and surrounding structure glue seals, and high air-entry value pottery clay plates upper surface installs filter paper, silicone gasket and sample bucket from bottom to up successively; Be looped around on the sample bucket base outside sample bucket and be evenly equipped with eight screw rods, after flange is each passed through respective screw rod by the perforate on it, compacting is on sample bucket, screw tip installs nut and is pressed on flange.

Described loading system, comprises four dial gauges, counterweight, heap support plate, transmission rod, four guide poles, porous load plate and loading system base; Loading system base corner is equipped with a guide pole respectively; Hole on heap support plate corner is each passed through respective guide pole; Heap corner, support plate upper surface is equipped with a dial gauge respectively, and counterweight is equipped with in heap support plate upper end; Transmission rod upper end is fixed on heap center, support plate lower surface, and center, porous load plate upper surface is fixed on transmission rod lower end, and porous load plate lower surface is pressed on the sample in sample bucket.

The described material hanging bucket, moisturizing bucket, water storage barrel, sample bucket and sample bucket base is pmma material.

Described high air-entry value pottery clay plates is the diameter that Soil Moisture company of the U.S. produces is 27.6cm, and thickness is 1.0cm, and saturation permeability coefficient is 8.6 × 10 ^-6cm/s, air-entry value is the pottery clay plates of 1bar.

The beneficial effect that the utility model has is:

1) this device has selected diameter to be the high air-entry value pottery clay plates of 27.6cm, is equipped with the sample bucket that internal diameter is 27cm, realizes the test to large scale city solid waste sample.

2) water column method is hung in application, by controlling the head difference of hanging water column liquid level and high air-entry value pottery clay plates upper surface Δ h, realize 10kPa and accurately control to bend down matric suction; Relative atmospheric pressure is formed hanging on water column liquid level by air-extractor p _g , make the matric suction test specification of this device increase to 90kPa.

3) be provided with axial stress loading system, can control in real time the clean normal stress of sample.

4) be provided with dial gauge, can measure in real time the skeleton compression deformation of sample in process of the test; Be provided with and store water charging system, determined the water yield change of sample by the water yield change of measuring in water storage barrel and moisturizing bucket.

Accompanying drawing explanation

Fig. 1 is structural principle schematic diagram of the present utility model.

Fig. 2 is sample bucket of the present utility model, flange, screw rod, nut and pad assembly structure schematic diagram.

Fig. 3 is sample bucket understructure vertical view of the present utility model.

Fig. 4 is loading system structural perspective of the present utility model.

In figure: 1-1, flange, 1-2, eight nuts, 1-3, eight pads, 1-4, eight screw rods, 1-5, sample bucket, 1-6, filter paper, 1-7, silicone gasket, 1-8, structure glue, 1-9, sample bucket base, 1-10, annular groove, 1-11, conduit pipe, 1-12, high air-entry value pottery clay plates, 1-13, film, 2-1, four dial gauges, 2-2, four groups of counterweights, 2-3, heap support plate, 2-4, transmission rod, 2-5, four guide poles, 2-6, porous load plate, 2-7, loading system base, 3-1, air-extractor, 3-2, hang bucket, 3-3, outflow port, 3-4, vacuum table, 4-1, moisturizing bucket, 4-2, water storage barrel, 4-3, external tapping, 5-1 ~ 5-6, six valves, 6-1 ~ 6-5, five sebific ducts, 7-1, three-way rubber pipe joint.

Embodiment

Below in conjunction with drawings and Examples, the utility model is described in further detail.

As shown in Figure 1, comprise sample chamber, loading system, matric suction control system, store water charging system and link.Sample chamber comprises: flange 1-1, eight nut 1-2, eight pad 1-3, eight screw rod 1-4, sample bucket 1-5, filter paper 1-6, silicone gasket 1-7, structure glue 1-8, sample bucket base 1-9, annular groove 1-10, conduit pipe 1-11 and high air-entry value pottery clay plates 1-12; Loading system comprises: four dial gauge 2-1, four groups of counterweight 2-2, heap support plate 2-3, transmission rod 2-4, four guide pole 2-5, porous load plate 2-6 and loading system base 2-7; Matric suction control system comprises: air-extractor 3-1, hangs bucket 3-2, outflow port 3-3 and vacuum table 3-4; Store water charging system to comprise: moisturizing bucket 4-1 and water storage barrel 4-2; Link comprises: six valve 5-1 ~ 5-6, five sebific duct 6-1 ~ 6-5 and three-way rubber pipe joint 7-1.

As shown in Figure 1, the utility model comprises sample chamber, loading system, air-extractor 3-1, hangs bucket 3-2, moisturizing bucket 4-1 and water storage barrel 4-2; The sample bucket base 1-9 of sample chamber is arranged on loading system base 2-7, conduit pipe 1-11 on sample bucket base 1-9 by the first valve 5-1 and the first sebific duct 6-1 with hang hole, bucket 3-2 bottom first and be connected, hang hole, bucket 3-2 bottom second and be connected with moisturizing bucket 4-1 bottom with the second valve 5-2 by the second sebific duct 6-2; Hang in the middle part of bucket 3-2 and be provided with outflow port 3-3, be connected with water storage barrel 4-2 upper surface with the 3rd valve 5-3 by the 3rd sebific duct 6-3; Hang bucket 3-2 upper surface and have two holes, hole, upper surface first is connected with air-extractor 3-1 with three-way rubber pipe joint 7-1 and the 4th valve 5-4 by the 4th sebific duct 6-4, the three-way rubber pipe joint 7-1 other end installs vacuum table 3-4, in order to measure the negative pressure value of hanging in bucket pg; Upper surface second hole is connected with moisturizing bucket 4-1 top with the 5th valve 5-5 by the 5th sebific duct 6-5; The external tapping 4-3 of moisturizing bucket 4-1 upper surface is connected with the 6th valve 5-6.

As shown in Figure 1, Figure 2, Figure 3 shows, described sample chamber, comprising: flange 1-1, eight nut 1-2, eight pad 1-3, eight screw rod 1-4, sample bucket 1-5, filter paper 1-6, silicone gasket 1-7, structure glue 1-8, sample bucket base 1-9, annular groove 1-10, conduit pipe 1-11 and high air-entry value pottery clay plates 1-12; Sample bucket base 1-9 is arranged on loading system base 2-7, the annular groove 1-10 be interconnected is had in the groove at sample bucket base 1-9 center, high air-entry value pottery clay plates 1-12 is arranged in the groove at sample bucket base 1-9 center, surrounding structure glue 1-8 seals, high air-entry value pottery clay plates 1-12 upper surface is installed filter paper 1-6, silicone gasket 1-7 and sample bucket 1-5, filter paper 1-6 from bottom to up successively and is blocked hole in high air-entry value pottery clay plates 3-1 in order to prevent the molecule in process of the test in sample; Be looped around on the sample bucket base 1-9 outside sample bucket 1-5 and be evenly equipped with eight screw rod 1-4, after flange 1-1 is each passed through respective screw rod 1-4 by the perforate on it, compacting is on sample bucket 1-5, nut 1-2 installed on screw rod 1-4 top and is pressed on flange 1-1, realizing at the bottom of sample bucket 1-5 and sealing between sample bucket base 1-9.

As Figure 1 and Figure 4, described loading system, comprises four dial gauge 2-1, counterweight 2-2, heap support plate 2-3, transmission rod 2-4, four guide pole 2-5, porous load plate 2-6 and loading system base 2-7; Loading system base 2-7 tetra-jiaos is equipped with a guide pole 2-4 respectively; Hole on heap support plate 2-3 tetra-jiaos is each passed through respective guide pole 2-4; Heap corner, support plate 2-3 upper surface is equipped with a dial gauge 2-1 respectively, and for measuring sample compress variation, counterweight 2-2 is equipped with in heap support plate 2-3 upper end; Transmission rod 2-4 upper end is fixed on heap center, support plate 2-3 lower surface, and center, porous load plate 2-6 upper surface is fixed on transmission rod 2-4 lower end, and porous load plate 2-6 lower surface is pressed on the sample in sample bucket 1-5.Porous load plate 2-6 perforate, makes sample and atmosphere, keeps sample internal gas pressure to be atmospheric pressure p _atm .Clean normal stress in sample is the load sum of counterweight 2-2, heap support plate 2-3, transmission rod 2-4 and porous load plate 2-6, is realized the real-time control of clean normal stress by the weight changing counterweight 2-2.

Described hang bucket 3-2, moisturizing bucket 4-1, water storage barrel 4-2, sample bucket 1-5 and sample bucket base 1-9 material be pmma material.Moisturizing bucket 4-1 when on-test, for saturated high air-entry value pottery clay plates 1-12 and sample.Store water charging system in process of the test, the water yield of hanging in bucket 3-2 can be maintained constant, determine the water yield change in sample by the water yield change of measuring in water storage barrel 4-2 and moisturizing bucket 4-1.

Described high air-entry value pottery clay plates 1-12 is the diameter that Soil Moisture company of the U.S. produces is 27.6cm, and thickness is 1.0cm, and saturation permeability coefficient is 8.6 × 10 ^-6cm/s, air-entry value is the pottery clay plates of 1bar.

Hanging the height of bucket 3-2 by regulating, making to hang bucket 3-2 liquid level (namely hanging water column liquid level) lower than high air-entry value pottery clay plates 1-12 upper surface and forming head difference Δ h, realizing matric suction is in the sample ρ _w g Δ h, realize 10kPa to bend down the control of matric suction, precision is 0.01kPa; Negative pressure is taken out hanging on water column liquid level by air-extractor 3-1 p _g , sample mesostroma suction is increased to ρ _w g Δ h- p _g , realize the control to 10kPa ~ 90kPa matric suction scope, precision is 0.4kPa.Hang bucket 3-2 for maintaining the constant level hanging water column, to maintain the normal matric suction of sample: increase when hanging the water yield in bucket 3-2, the water yield of increase flows into water storage barrel 4-2 from outflow port 3-3; When hanging the discharge reduction in bucket 3-2, by moisturizing bucket 4-2 to its moisturizing, thus the liquid level hanging bucket 3-2 is made to be positioned at outflow port 3-3 place all the time.

The course of work of this device is as follows:

1, for the test of the city solid waste soil-water characteristic curve under normal clean normal stress, four steps are divided into: saturated high air-entry value pottery clay plates 1-12, saturated sample, sample dehumidification and sample moisture absorption.

(1) saturated high air-entry value pottery clay plates 1-12.Shown in Fig. 1, each parts of coupling arrangement, raise heap support plate 2-3 and porous load plate 2-6 and make porous load plate 2-6 bottom surface higher than sample bucket 1-5 surface more than 30cm, and fixing porous load plate 2-6.High air-entry value pottery clay plates 1-12 is drying regime time initial.First bottom high air-entry value pottery clay plates 1-12, injecting air free water by hanging bucket 3-2 and moisturizing bucket 4-1, after air free water complete submergence height air-entry value pottery clay plates 1-12, leaving standstill 1 day; Air free water needle tubing in sample bucket 1-5 is pumped (this part air free water is air inlet in process of the test), and again to pour into be highly the brand-new air free water of 5cm, and go up kerosene on its surface, prevent air from entering wherein; Air-extractor 3-1 is utilized to take out negative pressure hanging in bucket 3-2, control negative pressure is about-40kPa, the air free water in sample bucket 1-5 is made to flow through high air-entry value pottery clay plates 1-12, until without obvious bubble the water flowed out in conduit pipe 1-11, completely saturated depending on high air-entry value pottery clay plates 1-12, stop taking out negative pressure, make to hang bucket 3-2 and lead to air, and pump kerosene with needle tubing.

(2) saturated sample.First pump the air free water on high air-entry value pottery clay plates 1-12 surface with needle tubing, in sample bucket 1-5, load sample; By on heap support plate 2-3 equably heap add counterweight 2-2 and make sample reach predetermined clean normal stress; After sample settlement stability, bottom sample bucket 1-5, inject air free water exceed specimen surface by hanging bucket 3-2 and moisturizing bucket 4-1 to height of water level, leave standstill 24h backsight sample completely saturated, the moisture pumping specimen surface with needle tubing makes liquid level be down to specimen surface, add the film 1-13 of one deck permeable watertight on flange 1-1 surface, reduce the moisture evaporation of sample in process of the test.The volume measuring now sample is the initial volume of sample soil-water characteristic curve test; The saturated front and back of sample keep the liquid level hung in bucket 3-2 all at its outflow port 3-3 place by storing water charging system, and the water yield cheek of the specimen surface that the change of the sample water yield changes according to the water yield of moisturizing bucket 4-1 and water storage barrel 4-2 and pumps obtains.

(3) sample dehumidification.Matric suction hangs the position of bucket 3-2 in the control of below 10kPa by reducing step by step, makes the upper surface of its liquid level and high air-entry value pottery clay plates 1-12 form head difference Δ h; Under matric suction at different levels, after sample water balance, determined the water yield change of sample by the water yield change of water storage barrel 4-2, according to the mean value of four dial gauge reading 2-1, determine the decrement of sample.Matric suction controls by keeping at more than 10kPa that to hang bucket 3-2 liquid level constant, utilizes air-extractor 3-1 water column liquid level takes out negative pressure step by step to reach hanging, the change of moisture content of sample with compress measure method for testing and low matric suction under identical.

(4) sample moisture absorption.After completing sample soil-water characteristic curve dehumidification section surveying work, carry out soil-water characteristic curve moisture absorption section and measure.When matric suction is greater than 10kPa, remove air-extractor 3-1, by opening valve 5-3 slowly toward the mode of hanging air inlet in bucket 3-2, the negative pressure absolute value reducing step by step to hang on water column liquid level is to control matric suction; In process of the test by moisturizing bucket 4-1 to hanging bucket 1-12 moisturizing to maintain its constant level; After sample water balance, determined the water yield change of sample by the water yield change of moisturizing bucket 4-1 and water storage barrel 4-2, according to the decrement of the mean value determination sample according to four dial gauge 2-1 readings.Matric suction, lower than after 10kPa, makes to hang water column liquid level and is connected with air, progressively improves and hangs bucket 3-2, reduces the head difference Δ hanging water column liquid level and high air-entry value pottery clay plates 1-12 upper surface h, to reduce the matric suction of sample further; The water yield change of sample with compress that to measure under method for testing and Super matrix suction identical.

After sample moisture absorption step completes, removal load, take out sample, pore water quality and the solid phase quality of now sample is measured by oven drying method, its water cut under matric suction at different levels is determined in conjunction with sample water yield change under matric suction at different levels, draw soil-water characteristic curve, to obtain the variation factor of sample water cut with matric suction b _m ; The volume of sample under matric suction at different levels is obtained by the decrement under the initial volume of sample and matric suction at different levels, and utilize rubbish solid phase quality to carry out three-phase index to convert and obtain the void ratio of sample under matric suction at different levels, draw the change curve of sample void ratio with matric suction, to obtain the change acquisition coefficient of sample void ratio with matric suction a _m .

For the garbage-compressing test under normal matric suction, be divided into four steps: saturated high air-entry value pottery clay plates 1-12, saturated sample, the pre-permanent matric suction of applying and sample compress.

(1) saturated high air-entry value pottery clay plates 1-12.Identical with the method that soil-water characteristic curve tests saturated high air-entry value pottery clay plates 1-12.

(2) saturated sample.Compression test test with soil-water characteristic curve in the saturation process of sample substantially identical, but the clean normal stress that only need apply 5kPa to sample during compression test saturated sample is out of shape in saturation history to prevent sample, and need not be loaded on certain predetermined clean normal stress.

(3) pre-permanent matric suction is applied.The control mode of consolidation test mesostroma suction is identical with soil-water characteristic curve dehumidification testing experiment.After sample water balance, determined the water yield change of sample by the water yield change of water storage barrel 4-2, and measure the initial volume of sample.

(4) sample consolidation.Under normal matric suction, by the mode increasing counterweight 2-2, multistage loadings is carried out to sample.Under clean normal stress at different levels, after sample settlement stability, determined the water yield change of sample by the water yield change of water storage barrel 4-2, according to the decrement of the mean value determination sample of four dial gauge 2-1 readings.

After compression test completes, removal load, takes out sample, measures pore water quality and the solid phase quality of now sample by oven drying method.Under clean normal stress at different levels, the water cut of sample is tested identical with void ratio computing method with soil-water characteristic curve.Draw the change curve of sample water cut with clean normal stress, obtain sample water cut with clean normal stress variation factor b _t ; Draw the change curve of sample void ratio with clean normal stress, obtain sample void ratio with clean normal stress variation factor a _t .

In soil-water characteristic curve test and compression test, matric suction control system and store between water charging system and keep gas phase identical, to ensure two intrasystem air pressure balances.

Above-mentioned embodiment is used for explaining and the utility model is described; instead of the utility model is limited; in the protection domain of spirit of the present utility model and claim, any amendment make the utility model and change, all fall into protection domain of the present utility model.

Claims (5)

1. a large scale city solid waste skeleton and pore water volume change coefficient measuring device, it is characterized in that: comprise sample chamber, loading system, air-extractor (3-1), hang bucket (3-2), moisturizing bucket (4-1) and water storage barrel (4-2); The sample bucket base (1-9) of sample chamber is arranged on loading system base (2-7), conduit pipe (1-11) on sample bucket base (1-9) by the first valve (5-1) with hang hole, bucket (3-2) bottom first and be connected, hang hole, bucket (3-2) bottom second and be connected with moisturizing bucket (4-1) bottom by the second valve (5-2); Hang bucket (3-2) middle part and be provided with outflow port (3-3), be connected with water storage barrel (4-2) upper surface by the 3rd valve (5-3); Hang bucket (3-2) upper surface and have two holes, hole, upper surface first is connected with air-extractor (3-1) with the 4th valve (5-4) by three-way rubber pipe joint (7-1), three-way rubber pipe joint (7-1) other end is installed vacuum table (3-4); Hole, upper surface second is connected with moisturizing bucket (4-1) top by the 5th valve (5-5); The external tapping (4-3) of moisturizing bucket (4-1) upper surface is connected with the 6th valve (5-6).

2. a kind of large scale city solid waste skeleton according to claim 1 and pore water volume change coefficient measuring device, it is characterized in that: described sample chamber, comprise flange (1-1), eight nuts, eight pads, eight screw rods, sample bucket (1-5), filter paper (1-6), silicone gasket (1-7), structure glue (1-8), sample bucket base (1-9), annular groove (1-10), conduit pipe (1-11) and high air-entry value pottery clay plates (1-12); Sample bucket base (1-9) is arranged on loading system base (2-7), has the annular groove (1-10) be interconnected in the groove at sample bucket base (1-9) center; High air-entry value pottery clay plates (1-12) is arranged in the groove at sample bucket base (1-9) center, surrounding structure glue (1-8) sealing, high air-entry value pottery clay plates (1-12) upper surface installs filter paper (1-6), silicone gasket (1-7) and sample bucket (1-5) from bottom to up successively; Be looped around on sample bucket (1-5) sample bucket base (1-9) outward and be evenly equipped with eight screw rods, after flange (1-1) is each passed through respective screw rod by the perforate on it, compacting is on sample bucket (1-5), screw tip installs nut and is pressed on flange (1-1).

3. a kind of large scale city solid waste skeleton according to claim 1 and pore water volume change coefficient measuring device, it is characterized in that: described loading system, comprise four dial gauges, counterweight, heap support plate (2-3), transmission rod (2-4), four guide poles, porous load plate (2-6) and loading system base (2-7); Loading system base (2-7) corner is equipped with a guide pole respectively; Hole on heap support plate (2-3) corner is each passed through respective guide pole; Heap support plate (2-3) corner, upper surface is equipped with a dial gauge respectively, and counterweight is equipped with in heap support plate (2-3) upper end; Transmission rod (2-4) upper end is fixed on heap support plate (2-3) center, lower surface, porous load plate (2-6) center, upper surface is fixed on transmission rod (2-4) lower end, and porous load plate (2-6) lower surface is pressed on the sample in sample bucket (1-5).

4. a kind of large scale city solid waste skeleton according to claim 1 and 2 and pore water volume change coefficient measuring device, is characterized in that: described in hang bucket (3-2), moisturizing bucket (4-1), water storage barrel (4-2), sample bucket (1-5) and sample bucket base (1-9) material be pmma material.

5. a kind of large scale city solid waste skeleton according to claim 2 and pore water volume change coefficient measuring device, it is characterized in that: the diameter that described high air-entry value pottery clay plates (1-12) is produced for Soil Moisture company of the U.S. is 27.6cm, thickness is 1.0cm, and saturation permeability coefficient is 8.6 × 10 ^-6cm/s, air-entry value is the pottery clay plates of 1bar.