CN211374374U - Soil embodiment field direct shear test device - Google Patents

Abstract

The utility model relates to a soil embodiment direct shear test device, the device include sample safety cover, vertical loading mechanism and counter-force subassembly and tangential loading mechanism, and the safety cover is transparent safety cover (2), is equipped with horizontal scale mark (27) and equipartition has a plurality of water injection holes (3) above the horizontal scale mark apart from a top surface segment distance department on its lateral wall. The transparent protective cover further integrates transparency and cutting. When the device is used, the whole process of sample damage can be observed and recorded; the water content of the sample can be simply and effectively adjusted, and the shear strength indexes of the sample under different water contents can be obtained. In addition, for landslide soil, the influence of errors caused by the fact that an existing sample is located at different positions on a plane can be solved by respectively testing the three different positions of a sliding body soil layer, a sliding zone soil layer and a sliding bed soil layer in the same slide-resistant pile drilling hole, and the obtained test result meets the requirements of actual engineering better.

Description

Soil embodiment field direct shear test device

Technical Field

The utility model relates to a geotechnical engineering technical field especially relates to a geotechnical engineering direct shear test device.

Background

Landslide is a geological phenomenon that occurs along a through shear failure plane in a slope rock-soil mass. The fundamental reason is that the shear stress on a certain sliding surface exceeds the shear strength of the surface and is mainly influenced by factors such as river scouring, underground water movement, rainwater soaking, earthquake, artificial slope cutting and the like. Landslide often causes great loss to industrial and agricultural production and life and property of people, and even a devastating disaster occurs. According to the generation reason and characteristics of landslide, the accurate acquisition of the shear strength index of the landslide soil body is the key point for preventing and treating landslide. The shear strength index is an important condition for landslide stability calculation and treatment engineering, and plays a role in determining the treatment cost of large landslides and the engineering reliability. Therefore, obtaining accurate shear strength index is very important for effective prevention and treatment of landslide.

At present, the shear strength index is mainly obtained by an indoor direct shear test, a triaxial test and an on-site direct shear test. The test conditions of the indoor test are good, but the natural state of the soil body is easily disturbed in the sampling, transporting and preparing processes of the sample, the distortion of the test result is caused, and the size effect is achieved.

Although the existing field direct shear test technology (such as the field direct shear test device for the shear strength of the landslide rock mass disclosed in the patent application No. 201520235289.5) effectively solves the defects of the indoor test, the condition for accurately obtaining the test parameters still cannot be met. One of the problems is that the preparation time of shearing box-woven steel bars, pouring concrete and maintaining is long, and the development rule of the recorded cracks cannot be observed. Secondly, the shear strength indexes of the samples under different water contents cannot be obtained, and the influence of water content changes such as underground water, rainwater and the like on the shear strength of the rock-soil mass cannot be reflected visually. Thirdly, the shear strength index of the surface soil body of the landslide is tested in the prior test, and the test for testing the shear strength index of the slip strip soil based on the hole digging process of the anti-slide pile is not seen, so that the requirements of the actual engineering can not be met. Fourthly, the manual sample cutting is time-consuming and labor-intensive, the sample is still greatly disturbed, the apparent size of the sample is not easily controlled accurately, and the deviation of the test result is easily caused. Therefore, aiming at the defects of the prior art, a complete set of on-site direct shear test device and test method are provided, and the on-site direct shear test device and the test method have great engineering significance and social and economic benefits.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a can observe in detail and take notes the crack development, can acquire the on-spot direct shear test device of soil body of sample shear strength index under the different moisture content.

For solving the problem, a soil embodiment direct shear test device, include the sample safety cover, establish the vertical loading mechanism and the counter-force subassembly at safety cover top and establishing the tangential loading mechanism of safety cover side, a serial communication port, the safety cover is transparent safety cover, on its lateral wall apart from a top surface segment distance department be equipped with horizontal scale mark and the equipartition has a plurality of water injection holes above the horizontal scale mark, the device still including during the use with the water injection hole intercommunication provides the water tank at water source.

Preferably, the bottom of the transparent protective cover is provided with a cutting part extending downwards.

Preferably, the cutting part is detachably connected with the transparent protection cover and the distance of the cutting part exceeding the bottom of the transparent protection cover is equal to the distance from the horizontal scale mark to the inner wall of the top surface of the transparent protection cover.

Preferably, the transparent protection cover comprises an iron frame and five pieces of transparent organic glass arranged on the iron frame except the bottom surface.

Preferably, the water tank is provided with capacity graduation lines.

Preferably, the device also comprises an automatic loading control mechanism connected with the vertical loading mechanism and the tangential loading mechanism.

Preferably, the device further comprises a vertical displacement sensor arranged at the top of the transparent protection cover, a tangential displacement sensor arranged at the top of the transparent protection cover, and data acquisition and processing equipment connected with the vertical displacement sensor and the tangential displacement sensor.

Compared with the prior art, the utility model has the following advantage:

1. in the utility model, the sample protection cover is a transparent protection cover, compared with the prior reinforced concrete protection cover, the whole process of sample damage can be observed and recorded, and powerful evidence is provided for researching the crack development of rock-soil bodies; meanwhile, the transparent characteristic of the protective cover is combined with the horizontal scale lines, the water injection holes and the water tank, so that the moisture content of the sample can be simply, conveniently and effectively adjusted, the shear strength indexes of the sample under different moisture contents are obtained, and the influence of different moisture contents on the shear strength of the rock-soil body is visually reflected.

2. The transparent protective cover further integrates transparency and cutting into a whole, so that the size of the sample is more regular, the test time is shortened, and the disturbance of human factors to the sample is reduced; the cutting part is detachably mounted, and the length of the cutting part is matched with the position of the horizontal scale mark, so that the related test process is accurate and quick.

3. For landslide soil, in order to meet the conditions of test parameter acquisition during use, the whole test can be respectively tested at three different positions (a slide body soil layer, a sliding zone soil layer and a sliding bed soil layer) in the same anti-slide pile hole forming process, so that the shear strength indexes of rock and soil bodies on different layers of landslide can be obtained, the problem of the singleness of a sample in space can be solved, and the obtained test result is more in line with the requirements of actual engineering.

Drawings

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

Fig. 1 is an application scene diagram of the direct shear test apparatus provided by the embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a transparent protection cover according to an embodiment of the present invention.

Fig. 3 is a schematic view of the connection between the transparent protection cover and the water tank provided by the embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a data acquisition and processing device provided by an embodiment of the present invention.

In the figure: the device comprises a sample 1, a transparent protective cover 2, a water injection hole 3, a lower backing plate 4, a rolling row 5, an upper backing plate 6, a vertical automatic loading mechanism 7, a vertical displacement sensor 8, a force transmission steel column 9, a spherical hinge support 10, a counterforce steel beam 11, a rear backing plate 12, a tangential automatic loading mechanism 13, a front backing plate 14, a control cable 15, an automatic loading control mechanism 16, a tangential displacement sensor 17, a displacement sensor cable 18, a data acquisition mechanism 19, a USB (universal serial bus) cable 20, a data processing system 21, a fixing screw 22, a cutting part 23, a triangular reinforcing steel bar 24, a rubber guide pipe 25, a water tank 26, a horizontal scale line 27, a data acquisition processing device 28 and a pit wall reserved hole 29.

Detailed Description

Referring to fig. 1 and 3, the embodiment of the utility model provides a field direct shear test device of soil body mainly includes the sample safety cover, establish at the vertical loading mechanism and the counter-force subassembly at safety cover top and establish the tangential loading mechanism at the safety cover side, in particular, the safety cover is transparent safety cover 2, enclose on its lateral wall apart from a top surface minor segment distance department and be equipped with horizontal scale mark 27 and the equipartition has a plurality of water injection holes 3 above horizontal scale mark 27, the device is still including the water tank 26 that communicates and provide the water source through rubber pipe 25 and water injection hole 3 during the use.

When measuring the shear strength index under different water contents, in order to effectively and accurately control the water content of the sample 1, the water tank 26 has a capacity scale line for conveniently reading the water amount, or water of a set water amount is prepared in advance during operation and then poured into the empty water tank 26.

Referring to fig. 2, the bottom of the transparent protective cover 2 has a cutting portion 23 extending downward, integrating transparency and cutting. The cutting part 23 is detachably connected with the transparent protection cover 2 and the distance between the cutting part and the bottom of the transparent protection cover 2 exceeds the distance between the horizontal scale mark 27 and the inner wall of the top surface of the transparent protection cover 2, so that the top surface of the sample 1 can be accurately and quickly coincided with the inner wall of the top surface of the transparent protection cover 2 when the shear strength index under different water contents is measured.

In practical application, the transparent protective cover 2 may be composed of an iron frame and five pieces of transparent organic glass arranged on the iron frame except the bottom surface, for example, the iron frame is a hexahedral frame welded by angle iron, and the organic glass is adhered to five surfaces except the bottom surface; simple structure, convenient and quick manufacture and short time. Four iron cutting triangular prisms are installed at four corners of the lower end of the iron frame and serve as cutting portions, each cutting triangular prism is fixed on the transparent protection cover 2 through four fixing screw rods 22, and four triangular reinforcing steel bars 24 are welded between the iron frame and the cutting triangular prisms to reinforce the positions of the cutting portions.

Referring to fig. 1, the vertical loading mechanism is arranged on the top of the transparent protective cover 2 and comprises a lower backing plate 4, a rolling row 5, an upper backing plate 6, a vertical automatic loading mechanism 7, a force transmission steel column 9, a spherical hinge support 10 and a reaction steel beam 11 from bottom to top. For the application scene in the drilling of the anti-slide pile of the landslide soil body, two ends of the counter-force steel beam 11 can penetrate through the reserved hole 29 of the pit wall, local materials are obtained, and the method is simple and convenient. The reaction steel beam 11 is an I-shaped steel beam.

The tangential loading mechanism is arranged on one side of the transparent protective cover 2 and comprises a front cushion plate 14, a tangential automatic loading mechanism 13 and a rear cushion plate 12 from inside to outside.

The vertical loading mechanism and the tangential loading mechanism are provided with a total automatic loading control mechanism 16, and are centralized in control and convenient to operate. The automatic loading control mechanism 16 is respectively connected with the vertical automatic loading mechanism 7 in the vertical loading mechanism and the tangential automatic loading mechanism 13 in the tangential loading mechanism through two control cables 15.

Referring to fig. 1, the utility model discloses on-spot direct shear test device of soil body is still including establishing the vertical displacement sensor 8 at transparent safety cover 2 top, establishing the tangential displacement sensor 17 at transparent safety cover 2 top and with the data acquisition and processing equipment 28 that both link to each other. Referring to fig. 4, the data acquisition and processing device 28 is composed of a data acquisition mechanism 19 and a data processing system 21, which are connected with each other through a USB cable 20, and the data acquisition mechanism 19 is connected with the vertical displacement sensor 8 and the tangential displacement sensor 17 through two displacement sensor cables 18.

Based on the on-spot direct shear test device of soil body that above-mentioned content disclosed, the embodiment of the utility model provides a corresponding use method that provides, to the condition that needs the shear strength index under the different moisture content of measurement, this method specifically includes:

(1) the soil sample including sample 1 was dug out in situ and the top of sample 1 was leveled.

Specifically, a prototype soil sample including sample 1 is dug out at a selected place of sample 1, the floating soil in the surrounding trench is removed, the top of sample 1 is leveled by a level meter, and the precise position of the required sample 1 is determined by paying out.

(2) The transparent protective cover 2 is pressed down until the top surface of the test sample 1 coincides with the horizontal graduation marks 27.

Specifically, the cut and transparent integrated protection cover shown in fig. 2 was placed on a pay-off line, and the transparent protection cover 1 was leveled by a level. Load is applied to the vertical automatic loading mechanism 7, the transparent protective cover 1 is pressed downwards to the top surface of the sample 1 to be coincided with the horizontal scale mark 27 through counter force, and the floating soil around the protective cover is removed.

(3) When the water content of the sample needs to be adjusted, the water tank 26 is used for injecting set water into the water injection hole 3, and the transparent protective cover 2 is stably pressed downwards when water completely permeates into the sample 1, so that the inner wall of the top surface of the transparent protective cover coincides with the top surface of the sample 1.

Specifically, referring to fig. 3, rubber guide pipes 25 are respectively inserted into water injection holes 3, a measuring cylinder is used for measuring the amount of water required for the test, the water is poured into a water tank 26 for injecting water into the sample 1, when all the water permeates into the sample, a cutting part 23 (cutting triangular prism) at the lower end of the transparent protection cover 1 is detached, the upper device is stably pressed to coincide with the basal surface (namely, the transparent protection cover 2 enables the inner wall of the top surface of the transparent protection cover to coincide with the top surface of the sample 1), and the vertical automatic loading mechanism 7 is pressed back and continuously connected with a force transmission steel column 9 to. Wherein, the cutting part 23 leaves the pit after being detached, and because the distance that the cutting part 23 surpasses the bottom of the transparent protection cover 2 is equal to the distance from the horizontal scale mark 27 to the inner wall of the top surface of the transparent protection cover 2, the required coinciding position can be accurately, smoothly and quickly reached in the process of pressing down the upper device.

(4) And (5) operating according to the contents of the conventional direct shear test.

Specifically, the automatic loading control mechanism 16 is started, a vertical load is applied to the sample 1, a tangential load is applied after the soil body is stabilized for a period of time, the soil body is observed and the crack development condition is recorded in the load application process, and loading is stopped and test data is recorded when the soil body is damaged.

It can be understood that, for the case that the shear strength index under different water content does not need to be measured, the transparent protection cover 2 is directly pressed down in the step (2) until the top surface of the sample 1 is overlapped with the inner wall of the top surface of the transparent protection cover 2, and then the step (4) is executed.

Aiming at the accurate acquisition of the shear strength index of the landslide soil body, the problem of the spatial unicity of the sample can be solved by respectively carrying out direct shear tests on three different positions of a gliding mass soil layer, a gliding zone soil layer and a sliding bed soil layer from top to bottom in the same drilled hole of the anti-slide pile, and the obtained test result is more in line with the requirement of actual engineering. The test procedure is as described above.

The technical scheme provided by the utility model is introduced in detail above. The principles and embodiments of the present invention have been explained herein using specific examples, and the above descriptions of the embodiments are only used to help understand the method and its core ideas of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (7)

1. The utility model provides a soil embodiment field direct shear test device, includes the sample safety cover, establishes the vertical loading mechanism and the counter-force subassembly at safety cover top and establishing the tangential loading mechanism of safety cover side, a serial communication port, the safety cover is transparent safety cover (2), on its lateral wall apart from a top surface short distance department be equipped with horizontal scale mark (27) and the equipartition has a plurality of water injection holes (3) above horizontal scale mark (27), the device still including during the use with water injection hole (3) intercommunication and water tank (26) that provide the water source.

2. The device according to claim 1, characterized in that the bottom of the transparent protective cover (2) has a downwardly extending cutting portion (23).

3. The device according to claim 2, characterized in that the cutting portion (23) is detachably connected to the transparent protective cover (2) and its distance beyond the bottom of the transparent protective cover (2) is equal to the distance of the horizontal graduation marks (27) to the inner wall of the top surface of the transparent protective cover (2).

4. The device according to claim 1, characterized in that the transparent protective cover (2) comprises an iron frame and five transparent plexiglass sheets provided on the iron frame except on the bottom surface.

5. The apparatus of claim 1, wherein the water tank (26) has a volume scale.

6. The apparatus of claim 1, further comprising an automatic load control mechanism (16) coupled to both the vertical loading mechanism and the tangential loading mechanism.

7. The device according to claim 1, characterized in that it further comprises a vertical displacement sensor (8) placed on top of said transparent protective cover (2), a tangential displacement sensor (17) placed on top of said transparent protective cover (2) and a data acquisition and processing device (28) connected to both.

Images