CN212658586U - Indoor survey device of soil body osmotic coefficient - Google Patents

Abstract

The utility model relates to an indoor survey device of soil body osmotic coefficient, including moisturizing bottle, water level control bottle, connecting pipe, soil appearance box, play water receiving flask, support, soil body sample cutting ring. The indoor soil permeability coefficient measuring device is provided with the automatic water replenishing bottle, can automatically ensure that a water head is stabilized at a set value, can measure the water loss in the device at the upper part of a soil sample, and verifies the reliability of a test; the water yield measuring bottle is arranged, so that the water yield flowing out of the soil sample can be measured; set up cutting ring fixing device, can guarantee at the survey in-process of osmotic coefficient, water can not follow the path loss outside the soil sample.

Description

Indoor survey device of soil body osmotic coefficient

Technical Field

The utility model belongs to ground osmotic coefficient survey field, in particular to indoor survey device of soil body osmotic coefficient.

Background

The permeability coefficient is an important physical and mechanical index of soil, and is widely concerned in the fields of geotechnical engineering design and construction. The accuracy of the determination relates to engineering safety and normal use, so that a set of accurate and convenient permeability coefficient determination device is needed to avoid engineering accidents.

The indoor measuring method of permeability coefficient is that firstly, a certain water head height and the length of the permeation path of water passing through the soil sample are set, the water head gradient in the soil sample is calculated, then the water naturally passes through the soil sample to carry out seepage under the condition of ensuring the water head height to be certain, after a preset time length, the water head applied on the soil sample is removed, the seepage of the soil sample is stopped, the water quantity of the seepage passing through the soil sample at the moment is measured, and the permeability coefficient of the soil sample can be obtained through calculation. At present, in the measuring process of the permeability coefficient, the problems of unstable water head height, inaccurate water quantity measurement, complicated operation of measuring equipment and the like exist, so that the difference between the measured value and the actual value of the permeability coefficient of the soil body is large.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an indoor survey device of soil body osmotic coefficient to solve the technical problem that the above-mentioned exists. The indoor accurate measuring device for the permeability coefficient of the soil body is provided with the automatic water replenishing bottle, can automatically ensure that the water head is stabilized at a set value, can measure the water loss in the device at the upper part of the soil sample, and verifies the reliability of the test; the water yield measuring bottle is arranged, so that the water yield flowing out of the soil sample can be measured; set up cutting ring fixing device, can guarantee at the survey in-process of osmotic coefficient, water can not follow the path loss outside the soil sample.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an indoor soil permeability coefficient measuring device, comprising: the soil sample box is characterized by comprising six parts, namely a water replenishing bottle, a water level control bottle, a connecting pipe, a soil sample box, a water outlet collecting bottle, a bracket and the like. The water replenishing bottle is used for replenishing the water loss in the osmotic coefficient measuring process, the bottle body is provided with a water level reading pipe, the top of the bottle body is provided with a water filling port and an air suction pipe, the lower part of the bottle body is provided with a water outlet pipe, the upper part of the water outlet pipe is provided with a valve and an automatic water level control device, and the outside of the pipe body of the water outlet pipe is provided with a. The water level control bottle is installed in the moisturizing bottle below, and the water inlet at top links to each other with the delivery port of moisturizing bottle, and there is the screw thread that matches with the outlet pipe of moisturizing bottle inside the water inlet, and there is the blast pipe on water level control bottle body upper portion, has the valve on the blast pipe, and there is the outlet pipe water level control bottle lower part, has the valve on the outlet pipe, and there is the screw thread inside the outlet pipe shaft. The lower part of the water level control bottle is connected with a connecting pipe, the upper part of the connecting pipe is provided with a waterproof groove and a thread which can be connected with a water outlet pipe of the water level control bottle, and the lower part of the connecting pipe is provided with a water outlet pipe and a valve. Connect soil sample box below the outlet pipe, soil sample box comprises two semi-cylindrical cavities, the skin is the organic glass preparation, the inlayer is by soft rubber preparation, the soil sample that a plurality of cutting rings held can be stacked to the intracavity, there is the inlet opening on upper portion, there is the recess outside the hole, be used for connecting two semi-cylindrical cavities, there is the connecting hole respectively in the top and the bottom of two semi-cylindrical cavities, be used for fixing two semi-cylindrical cavities, the protruding side seepage that is used for preventing water of rubber layer in the cavity, there is the delivery port soil sample box lower part. The top water inlet of the water outlet collecting bottle is connected with the water outlet of the soil sample box, the top of the water outlet collecting bottle is provided with an evaporation-proof exhaust hole, and the body of the water outlet collecting bottle is provided with a water level reading tube. The lower part of the bracket is a cross support, the rod body of the reading round rod which is vertically arranged in the middle is provided with scales, and the rod body is sleeved with a fixing ring which can slide and be fixed up and down along the reading round rod.

Furthermore, the moisturizing bottle adopts transparent organic glass to make, can observe the interior liquid level height of bottle, and the main function is the loss of replenishment at the coefficient of permeability survey test in-process flood peak, and the water inlet on upper portion is hourglass hopper-shaped, is used for to the interior water injection of bottle, and the inlet port is used for guaranteeing that the inside and outside atmospheric pressure of bottle is balanced, guarantees that the hydroenergy in the bottle can be followed the delivery port smoothly and flow out. The water level reading tube of the bottle body can measure the using amount of water in the water replenishing bottle from the beginning to the end of the test. The outside of outlet pipe is carved with the screw thread, when being connected with water level control bottle, can be through rotatory moisturizing bottle for the moisturizing bottle reciprocates, adjusts the water level height in the water level control bottle. The upper portion of outlet pipe has the valve, can open or close the outlet pipe at any time, and during the water injection in the moisturizing bottle before the experiment, this valve need be closed. The lower end of the water outlet pipe is provided with a soft foam floating ball limited at the pipe orifice, so that the water in the water replenishing bottle can be controlled to flow in and out by utilizing buoyancy according to the change of the water level in the bottle.

Furthermore, the water level control bottle is made of transparent organic glass and is mainly used for ensuring that the water head height is kept unchanged in the whole process of the experiment. The air inlet hole at the upper part of the water level control bottle is mainly used for maintaining the balance of air pressure inside and outside the bottle and ensuring that water in the water level control bottle can continuously flow downwards, and the hole is internally provided with threads which are matched with the threads of the water outlet pipe of the water replenishing bottle. The valve of the water outlet pipe is used for controlling the water in the bottle to flow out, and the inner part of the water outlet at the lower end is carved with threads which can be connected with the connecting pipe, thus achieving the purpose of preventing water overflow. When the water level in the water level control bottle descends, the soft foam floating ball at the water outlet of the water replenishing bottle descends along with the water level in the water level control bottle, the water outlet of the water replenishing bottle cannot be plugged, at the moment, the water outlet of the water replenishing bottle begins to flow downwards, so that the water level in the water level control bottle rises again, the soft foam floating ball also rises along with the water level, after the set height is reached, the buckle is propped, the water outlet of the water replenishing bottle is plugged again, the motion limiting cap connected with the soft foam floating ball can limit the swing of the soft foam floating ball, the soft foam floating ball can only move up and down, and the reciprocating operation is carried.

Furthermore, the connecting pipe is used for connecting the water level control bottle and the soil sample box, threads are carved on the upper portion of the connecting pipe, a fixing groove is formed in the connecting pipe, and a rubber gasket is arranged in the groove. During the use, the thread through the connecting pipe and the thread in the water outlet of the water level control bottle are rotatably connected, and the rubber gasket is extruded to achieve the purpose of preventing water overflow. The lower part of connecting pipe is equipped with a drainage valve, can get rid of intraductal air when experimental beginning water injection to can be when experimental the end, the water in the test device of can simple and convenient quick emission.

Furthermore, the soil sample box mainly comprises two semi-cylindrical cavities, the box body is made of two layers of materials, the outer layer is made of stainless steel materials, the inner layer is made of rubber materials, and the two layers of materials are tightly attached. The inner diameter of the rubber layer is slightly smaller than the outer diameter of the soil taking cutting ring, so that after the two cavities are combined, the two cavities can be tightly attached to the inner cutting ring through extrusion, and water is prevented from leaking out of the cutting ring. The lower part of the rubber layer is arranged to be annular funnel-shaped, so that the water seeped from the soil sample can be ensured to flow into the water outlet collecting bottle completely. The upper portion of soil sample box has the water inlet, with connecting pipe sub-unit connection, is equipped with the recess in soil sample box's water inlet department, through the tightening up of fixed snap ring, can reach the purpose that waterproof spills over. The lower part delivery port of soil sample box is equipped with the exhaust hole, can carry out the water injection after equipment connection, with unnecessary gas outgoing, guarantees being full of water. The inside of the water outlet of the soil sample box is provided with threads. Scales are carved on the stainless steel shell outside the soil sample box, and the positions of the scales and the top surface placing position of each internal cutting ring are on the same horizontal plane and are used for setting the water head height. The upper and lower parts of the soil sample box are provided with fixing holes for firmly combining the two half boxes of the soil sample box.

Furthermore, the water outlet collecting bottle is made of transparent organic glass, and the top of the water outlet collecting bottle is provided with a water inlet connecting pipe which is connected with a water outlet of the soil sample box. The upper part of the water inlet connecting pipe is carved with threads and is provided with a fixed groove, and a rubber gasket is arranged in the groove. During the use, the screw thread through the water inlet connecting pipe and the screw thread in the soil sample box water outlet are rotationally connected, and the rubber gasket is extruded to achieve the purpose of preventing water overflow. The top of the water outlet collecting bottle is provided with an evaporation-proof bent pipe for ensuring the balance of air pressure inside and outside the bottle, so that the seeping water can smoothly enter the water outlet collecting bottle, and the evaporation loss of the water is reduced as much as possible. The water outlet collecting bottle body is provided with a water level reading tube, so that the actual seepage water amount of the soil sample can be obtained.

Furthermore, the whole body of the support is made of stainless steel, the cross support at the lower part plays a role in stabilizing, scale marks are marked on the rod body of the vertical rod, and the rod body is sleeved with four sliding fixing devices which are used for fixing parts such as a water replenishing bottle and the like, can slide up and down along the vertical rod and can be fixed on the vertical rod at any time through fixing bolts of the sliding rings. The desired head height can be set by adjusting the position of the slip ring. The water replenishing bottle and the like are fixed by tightening bolts on the rotary fixing ring.

Through the utility model discloses an indoor survey device of soil body osmotic coefficient, when experimental when beginning, the water yield in the water receiving flask is once taken notes every 2 minutes, and the data size of record equals up to adjacent twice, and the stopping test is as a test, and the repetition is carried out the cubic, and the arithmetic mean value is regarded as final result. The calculation procedure for each experiment was as follows:

the following relevant data can be obtained by experimentation:

t-percolation time(s);

Q₁the amount of water (m) permeated when the amount of water in the water collecting bottle is stable during time T³)；

Q₂-water loss from the refill bottle (m) at a steady water level in the water collection bottle during time T³)；

A-inner cross-sectional area of cutting ring (m)²) Can be determined according to the basic parameters of the adopted cutting ring;

H₁the horizontal plane where the water level in the water level control bottle is located corresponds to the scale value on the vertical rod of the support.

H₂The horizontal plane of the bottom surface of the soil sample at the bottom layer in the soil sample box corresponds to the scale value on the vertical rod of the support.

Delta H is the height of water head, namely the vertical distance (m) from the height of the water level in the water level control bottle to the position of the bottom surface of the soil sample in the soil sample box, and Delta H is H₁-H₂；

I-water head gradient, namely the water head descending amount of the soil sample along the unit length of the seepage direction;

l is seepage path, namely the vertical distance (m) from the top surface of the uppermost soil sample to the bottom surface of the lowermost soil sample in the soil sample box;

the permeability coefficient of the soil sample can be obtained by the following calculation steps:

(1) if Q is₁And Q₂If the difference is large, the set of tests is invalid and discarded.

(2) If Q is₁≈Q₂And then, calculating the soil sample permeability coefficient according to the formula (1):

wherein the head gradient

The number of experiments is indicated.

(3) Repeating the test for three times, taking the arithmetic mean value as the determination result of the permeability coefficient test, wherein the formula is as follows:

compared with the prior art, the utility model has the advantages of it is following:

the utility model discloses an indoor survey device of soil body osmotic coefficient, at first, water-supply bottle and water level control bottle mutually support, can be so that experimental whole in-process, what the flood peak can both be maintained is at a fixed value, has guaranteed the accuracy of test result to the process of the test need not continuously add water, laborsaving, practice thrift the water source. Secondly, the rubber material is adopted in the soil sample box, so that the phenomenon that water flowing down from a water inlet of the soil sample box flows out from the side surface of the cutting ring to cause that the water in the water outlet collecting bottle does not completely flow out from the soil sample seepage can be avoided, and the accuracy of a test result is ensured; and thirdly, the water head height can be randomly set through the slip ring of the bracket and the rotary lifting of the water replenishing bottle, so that the operation is convenient. Finally, the water loss in the water replenishing bottle and the water amount in the water outlet collecting bottle can be compared, test data with large errors can be eliminated, and the accuracy of the final test result can be ensured.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the overall structure of an indoor soil permeability coefficient measuring device according to the present invention;

FIG. 2 is a schematic diagram of a main structure of an indoor soil permeability coefficient measuring device according to the present invention;

FIG. 3 is a schematic structural view of a water replenishing bottle of the soil permeability indoor measuring device of the present invention;

FIG. 4 is a schematic view of a water level control bottle of the soil permeability indoor measuring device of the present invention;

FIG. 5 is a schematic view of a connecting pipe structure of the soil permeability indoor measuring device of the present invention;

FIG. 6 is a schematic view of a soil sample box of the measuring device of the indoor soil permeability coefficient measuring device of the present invention;

FIG. 7 is a schematic view of the structure of the effluent collecting bottle of the measuring device of the soil permeability indoor measuring device of the present invention;

FIG. 8 is a schematic view of a cutting ring structure of a measuring device of the soil permeability indoor measuring device of the present invention;

FIG. 9 is a schematic view showing a holder structure of a measuring device of an indoor soil permeability coefficient measuring device according to the present invention;

FIG. 10 is a schematic view of a slide holder of a measuring device of an indoor soil permeability coefficient measuring device according to the present invention;

in fig. 1 to 10, 1, a refill bottle; 2. a water level control bottle; 3. a connecting pipe; 4. a soil sample box; 5. a water outlet collecting bottle; 6. a support; 7. a soil sampling cutting ring; 1-1, a water inlet of a water replenishing bottle; 1-2, a water replenishing bottle exhaust hole; 1-3, a water replenishing bottle body; 1-4, a water level reading tube of a water replenishing bottle; 1-5, a valve of a water outlet pipe of the water replenishing bottle; 1-6, a water outlet pipe thread of a water replenishing bottle; 1-7, a water outlet pipe of a water replenishing bottle; 1-8, foam soft floating balls; 1-9, buckling; 1-10, a motion limiting cap; 2-1, a water inlet of a water level control bottle; 2-2, a water level control bottle vent pipe; 2-3, controlling the bottle body by the water level; 2-4, a water outlet pipe valve of the water level control bottle; 2-5, a water outlet pipe of the water level control bottle; 2-6, water level control bottle outlet pipe thread; 3-1, connecting pipe threads; 3-2, connecting the groove of the pipe; 3-3, connecting the pipe body with the pipe body; 3-4, connecting a water outlet valve of the pipe; 4-1, a soil sample box body; 4-2, a soil sample box rubber layer; 4-3, a soil sample box stainless steel layer; 4-4, making the soil sample box rubber layer protrude; 4-5, fixing a groove for a water inlet pipe of the soil sample box; 4-6, a soil sample box water inlet pipe; 4-7, soil sample box stainless steel shell scales; 4-8, a water outlet pipe of the soil sample box; 4-9, fixing holes; 4-10, fixing a circular ring; 4-11, tightening the bolts; 5-1, a water inlet pipe of a water outlet collecting bottle; 5-2, an exhaust pipe of the effluent collecting bottle; 5-3, collecting the bottle body of the effluent water; 5-4, a water level reading tube of the effluent collecting bottle; 5-5, a groove of a water inlet pipe of the water outlet collecting bottle; 6-1, a vertical rod; 6-2, a fixing ring; 6-3, fixing bolts; 6-4, a slip ring; 6-5, fixing bolt threads; 6-6, rubber pad; 6-7, tightening the long bolt; 6-8, cross stable support; 7. soil body sample cutting ring.

Detailed Description

Referring to fig. 1 to 10, the utility model discloses an indoor survey device of soil permeability coefficient, its survey device includes: water supplement bottle 1, water level control bottle 2, connecting pipe 3, soil sample box 4, play water receiving flask 5, support 6, soil body sample cutting ring 7.

Before the soil permeability coefficient measurement test is started, the test equipment is firstly assembled. Firstly, a support 6 is placed on a horizontal ground, a water replenishing bottle 1 is fixed on a vertical rod 6-1 through a tightening long bolt 6-7 and a fixing bolt 6-3, then a water level control bottle 2 is fixed below the water replenishing bottle 1 through the tightening long bolt 6-7 and the fixing bolt 6-3, then the tightening long bolt 6-7 for fixing the water level control bottle 2 is loosened, a water inlet 2-1 of the water level control bottle 2 and a water outlet pipe 1-7 of the water replenishing bottle 1 are connected through rotating the water level control bottle 2, so that the water outlet pipe 1-7 of the water replenishing bottle 1 extends into the water level control bottle 2 as completely as possible, and the water level control bottle 1 is fixed through rotating the tightening long bolt 6-7 after connection.

The threaded end of the connecting pipe 3-1 of the connecting pipe 3 is butted with the water outlet pipe 2-5 of the water level control bottle 2 and is rotated to be tightly connected, and the water outlet valve of the connecting pipe 3-4 is closed.

The cutting ring which is well taken soil is placed in the soil sample box 4 according to the placing position, the two soil sample boxes 4-1 are combined together and tightly fixed through the fixing rings 4-10, and water does not flow. Then the water inlet pipe 4-6 of the soil sample box is connected with the lower end of the connecting pipe 3, the fixing ring 4-10 is sleeved on the fixing groove 4-5 of the water inlet pipe of the soil sample box, and the tightening bolt 4-11 is used for tightly fixing. Then the height of the soil sample box 4 is adjusted, and the height value H of the lowest layer surface of the soil sample in the soil sample box 4 at the moment is read out through the scale on the vertical rod 6-1₂And the next group of tightening long bolts 6-7 and fixing bolts 6-3 are used for temporarily fixing the soil sample box 4.

And (3) butting and rotatably connecting a water inlet pipe 5-1 of the water outlet collecting bottle 5 with a water outlet pipe 4-8 of the soil sample box 4. The bottom surface of the water outlet pipe 4-8 of the soil sample box is propped against the groove 5-5 of the water inlet pipe of the water outlet collecting bottle, so that water leakage is prevented. Then the next group of tightening long bolts 6-7 and fixing bolts 6-3 are used for temporarily fixing the water outlet collecting bottle 5.

After the above-described assembling work is completed, the head height is set. Firstly, opening a vent pipe 2-2 of a water level control bottle 2, adding water into a water replenishing bottle 1 through a water inlet 1-1 of the water replenishing bottle, starting to rise the water level in the water level control bottle 2 until a foam soft floating ball 1-8 is submerged, stopping adding water when the water in the water replenishing bottle 1 cannot enter the water level control bottle 2, continuing to add water, starting to rise the water level in the water replenishing bottle 1, and adding the water to about two thirds of the volume of the water replenishing bottle 1. At the moment, the water outlet valve 3-4 of the connecting pipe is opened to carry out proper air release, the air in the connecting pipe 3 is released, so that the water in the water level control bottle 2 continuously flows downwards, when the water outlet valve 3-4 of the connecting pipe starts to discharge water, the lower part of the water level control bottle 2 is indicated to be completely filled with water, and the water outlet valve 3-4 of the connecting pipe is immediately closed at the moment. At the moment, water can be properly added into the water replenishing bottle 1 according to actual conditions, so that the water level in the water level control bottle 2 is slightly higher than the soft foam floating ball 1-8. At the moment, the valve 2-4 of the water outlet pipe of the water level control bottle is closed, water is prevented from flowing downwards, and the penetration test is not started for a while.

Then the fixing ring 6-2 sleeved on the water replenishing bottle 1 is loosened, the water replenishing bottle 1 is rotated, the water replenishing bottle 1 rises, water in the water replenishing bottle 1 gradually flows into the water level control bottle 2, and the water level height in the water level control bottle 2 is adjusted to reach delta H-H by referring to the scales on the vertical rod 6-1₂Where Δ H is a value preset before the test. At this time, an appropriate amount of water may be appropriately added to the 1-water replenishment bottle. And opening a water outlet pipe valve 2-4 of the water level control bottle, and starting the permeability coefficient measuring test.

First, the amount of water Q in the 1-fluid bottle was recorded₂₁And the scale on the vertical rod 6-1 is used for reading the corresponding scale value H of the horizontal plane of the water surface in the water level control bottle 2 on the vertical rod of the bracket₁The scale value H corresponding to the horizontal plane of the bottommost soil sample bottom surface in the soil sample box 4 on the vertical rod of the support₂。

The water quantity Q in the water outlet collecting bottle 5 is recorded every 2 minutes according to the time from opening the water level control bottle water outlet pipe valve 2-4_2j(j-1, 2,3 …) until the recorded water level control bottle 2 has two consecutive readings of the same water level, at which time the permeation is stoppedAnd (4) a coefficient determination test is completed, and a permeability coefficient determination test is completed. Closing the water level control bottle water outlet pipe valve 2-4, and simultaneously recording the water quantity Q in the water replenishing bottle 1₂₂Obtaining the water loss Q of the water replenishing bottle when the water quantity in the water collecting bottle is stable within the seepage time T₂＝Q₂₁-Q₂₂。

Then loosening the fixing ring 6-2 for fixing the soil sample box 4 and the water outlet collecting bottle 5, replacing the soil sample in the soil sample box 4 with another group of soil samples, pouring out all the water in the water outlet collecting bottle 5, then reinstalling the fixed soil sample box 4 and the water outlet collecting bottle 5, opening the water level control bottle water outlet pipe valve 2-4, and carrying out a second group of tests.

When the three groups of tests are completely finished and qualified, the test device is dismantled: according to the sequence of firstly discharging water and then removing water, firstly opening the water outlet valve 3-4 of the connecting pipe, and discharging all the water above the valve. Then the fixing rings 6-2 for fixing the water replenishing bottle 1 and the water level control bottle 2 are loosened, the water replenishing bottle 1 and the water level control bottle 2 are taken down, then the fixing rings 6-2 for fixing the soil sample box 4 and the water outlet collecting bottle 5 are loosened, the soil sample box 4 and the water outlet collecting bottle 5 are taken down, the soil sample and the water in the testing device are thoroughly removed, and the instrument is well stored. And then data processing and permeability coefficient calculation are carried out.

Claims (7)

1. The utility model provides an indoor survey device of soil body osmotic coefficient, includes moisturizing bottle (1), water level control bottle (2), connecting pipe (3), soil appearance box (4), goes out water receiving flask (5), support (6), soil body sample cutting ring (7), its characterized in that: the soil sample box is characterized in that a water supplement bottle body of the water supplement bottle (1) is provided with a water supplement bottle water level reading tube (1-4), a water level control bottle (2) is installed below the water supplement bottle (1), the lower portion of the water level control bottle (2) is connected with a connecting pipe (3), the lower portion of the connecting pipe (3) is provided with a water outlet pipe and a connecting pipe water outlet valve (3-4), the lower portion of the connecting pipe (3) is connected with the soil sample box (4), the lower portion of the soil sample box is connected with a water outlet collecting bottle (5), and the whole device is supported by a support (.

2. The indoor soil permeability coefficient measuring device of claim 1, wherein: the body of the water replenishing bottle (1) is provided with a water level reading tube, the upper part of the water outlet pipe is provided with a water outlet pipe valve (1-5) of the water replenishing bottle and an automatic water level control device, and the lower part of the water outlet pipe is connected with a water level control bottle (2).

3. The indoor soil permeability coefficient measuring device of claim 2, wherein: the water level control bottle (2) is installed below the water replenishing bottle (1), a water inlet at the top is connected with a water outlet pipe valve (1-5) of the water replenishing bottle (1), threads matched with a water outlet pipe of the water replenishing bottle (1) are arranged in the water inlet, an exhaust pipe (2-2) is arranged at the upper part of a bottle body of the water level control bottle (2), a valve is arranged on the exhaust pipe (2-2), a water level control bottle water outlet pipe (2-5) is arranged at the lower part of the water level control bottle (2), a water level control bottle water outlet pipe valve (2-4) is arranged on the water level control bottle water outlet pipe (2-5), and a water level control bottle water outlet pipe thread (2-6) is arranged in a pipe body of the water level control bottle water outlet pipe (2-5) and is connected with a connecting.

4. The indoor soil permeability coefficient measuring device of claim 3, wherein: the upper part of the connecting pipe (3) is provided with a connecting pipe groove (3-2) and a connecting pipe thread (3-1) which can be connected with a water outlet pipe (2-5) of the water level control bottle (2), the lower part of the connecting pipe (3) is provided with a connecting pipe water outlet valve (3-4), and a soil sample box (4) is connected below the connecting pipe (3).

5. The indoor soil permeability coefficient measuring device of claim 4, wherein: the soil sample box (4) is composed of two semi-cylindrical soil sample box body bodies (4-1), the outer layer is a soil sample box stainless steel layer (4-3), the inner layer is a soil sample box rubber layer (4-2), soil samples contained in a plurality of soil sample cutting rings (7) can be stacked in the cavity, a soil sample box water inlet pipe (4-6) is arranged at the upper part, a groove (4-5) is fixed on the soil sample box water inlet pipe and used for connecting the two semi-cylindrical soil sample box bodies (4-1), fixing holes (4-9) are respectively arranged at the top and the bottom of the two semi-cylindrical soil sample box bodies (4-1) and used for fixing the two semi-cylindrical soil sample box bodies (4-1), and a soil sample box water outlet pipe (4-8) is arranged at the lower part of the soil sample box (4) and is connected with a water outlet collecting bottle (5).

6. The indoor soil permeability coefficient measuring device of claim 5, wherein: the top of the water outlet collecting bottle (5) is provided with a water outlet collecting bottle water inlet pipe (5-1) connected with a soil sample box water outlet pipe (4-8), the top of the water outlet collecting bottle (5) is provided with an evaporation-proof water outlet collecting bottle exhaust pipe (5-2), and the body of the water outlet collecting bottle (5) is provided with a water outlet collecting bottle water level reading pipe (5-4).

7. The indoor soil permeability coefficient measuring device of claim 6, wherein: the lower part of the support (6) is provided with a cross stable support (6-8), the rod body of the vertical rod (6-1) which is vertically arranged in the middle is provided with scales, and the rod body is sleeved with a fixing ring (6-2) and can slide and be fixed up and down along the vertical rod (6-1).

Images