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Water conservancy project foundation detection system

A detection system and water conservancy engineering technology, applied in infrastructure engineering, on-site foundation soil survey, wellbore/well components, etc., can solve the problem of inability to seal the sampling tube, affecting the accuracy of foundation detection results, natural humidity of rock and soil samples, etc. Data changes and other problems, to achieve the effect of accurate detection data

Pending Publication Date: 2022-07-29
刘芳业
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] The invention provides a water conservancy project foundation detection system, which has the beneficial effect of sealing up the samples immediately after the device takes samples underground through the sealing component, and solves the existing water conservancy project foundation detection mentioned in the above-mentioned background technology After the sampling is completed, the system cannot seal the sampling cylinder immediately, and it often needs to be collected on the ground before it can be sealed, which will lead to changes in the natural humidity and other data of the rock and soil samples, and affect the accuracy of the foundation test results.

Method used

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  • Water conservancy project foundation detection system
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  • Water conservancy project foundation detection system

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0036] In order to complete the sealing immediately after sampling the rock and soil of the target stratum to ensure the accuracy of the foundation detection data, Embodiment 1 is proposed;

[0037] see Figure 1-Figure 6 , including a drilling rig 1, the drilling rig 1 is provided with a first housing 2, the first housing 2 is provided with a first hydraulic cylinder 201, the first hydraulic cylinder 201 is provided with a second housing 3, and the second housing 3 is provided on A second hydraulic cylinder 301 is provided, and a third housing 302 is provided on the second hydraulic cylinder 301;

[0038] The first housing 2 is provided with a drilling mechanism 4 for drilling a hole to reach the target formation, and the third housing 302 is provided with a foundation detection mechanism 5 for performing foundation detection on the target formation;

[0039] The foundation detection mechanism 5 includes a transmission assembly 6, a sampling assembly 7 and a sealing assembly...

Embodiment 2

[0043] In order to realize the drilling of the rock formation and reach the target formation, Embodiment 2 is proposed;

[0044] This embodiment is an improved description made on the basis of Embodiment 1. For details, please refer to figure 2 and Figure 5 , the drilling mechanism 4 includes a first support seat 401, a first rotating rod 402 and a drill bit member 403;

[0045] The first support seat 401 is disposed on the first housing 2, the first rotating rod 402 is rotatably disposed on the first support seat 401, and the drill member 403 is disposed on the first rotating rod 402;

[0046] The drilling mechanism 4 further includes a first gear 404 and a first rack 405;

[0047] The first gear 404 is arranged on the first rotating rod 402, the first rack 405 is arranged on the second housing 3, and the first rack 405 meshes with the first gear 404;

[0048] Several drilling mechanisms 4 are provided.

[0049] The first support seat 401 is fixed on the side wall of the ...

Embodiment 3

[0052] In order to complete the sampling of the target rock formation, Example 3 is proposed;

[0053] This embodiment is an improved description made on the basis of Embodiment 1. For details, please refer to Figure 2-Figure 6 , the transmission assembly 6 includes a swivel 601 and a second rack 602;

[0054] The swivel ring 601 is rotatably arranged on the third housing 302, and the second rack 602 is arranged on the swivel ring 601;

[0055] The sampling assembly 7 includes a second rotating rod 701, a sampling cylinder 702 and a third gear 708;

[0056] The second rotating rod 701 is rotatably disposed on the third housing 302 , the sampling cylinder 702 and the third gear 708 are both disposed on the second rotating rod 701 , and the third gear 708 meshes with the second rack 602 .

[0057] The rotating ring 601 is rotatably mounted on the upper inner wall of the third housing 302, the second rack 602 is an annular double-sided rack, which is fixed on the lower end of ...

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Abstract

The invention relates to the technical field of hydraulic engineering, and discloses a hydraulic engineering foundation detection system which comprises a drilling machine, a first shell is arranged on the drilling machine, a first hydraulic cylinder is arranged on the first shell, a second shell is arranged on the first hydraulic cylinder, and a second hydraulic cylinder is arranged on the second shell. According to the water conservancy project foundation detection system, firstly, the drilling machine drives the drilling mechanism to drill downwards, after the drilling machine reaches a target stratum, the first hydraulic cylinder drives the second shell to move downwards, then the second hydraulic cylinder drives the foundation detection mechanism to move downwards and extend out of the first shell, and in the process, the foundation detection mechanism is driven by the second hydraulic cylinder; the plurality of sampling barrels can be driven to rotate and drill downwards to complete sampling, and when sampling is completed, the plurality of sealing plates are respectively blocked in the plurality of sealing grooves to complete immediate sealing of samples, so that the accuracy of detection data of rock and soil samples is ensured.

Description

technical field [0001] The invention relates to the technical field of hydraulic engineering, in particular to a foundation detection system for hydraulic engineering. Background technique [0002] The geotechnical test and detection of foundation foundation is the primary prerequisite and necessary link for reliable, reasonable and economical design parameters of foundation foundation of hydraulic engineering. Therefore, it is of great significance to scientifically and accurately conduct geotechnical test and detection of foundation in hydraulic engineering. The technical approach to realize the geotechnical testing and testing of water conservancy engineering foundations, including sample collection, sample storage, sample transportation, and sample testing. [0003] After the drilling equipment is used to drill to reach the target stratum, the target stratum is sampled by the sampling equipment, and the samples of the foundation rock and soil are selected. And it should...

Claims

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Application Information

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IPC IPC(8): E21B49/02E21B10/00E02D1/04
CPCE21B49/02E21B10/00E02D1/04
Inventor 刘芳业谢玉仁李秀慧李娜娜暴占军
Owner 刘芳业