CN202159453U - Digitalized basin structure physical analog experimental instrument - Google Patents
Digitalized basin structure physical analog experimental instrument Download PDFInfo
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- CN202159453U CN202159453U CN2010202864693U CN201020286469U CN202159453U CN 202159453 U CN202159453 U CN 202159453U CN 2010202864693 U CN2010202864693 U CN 2010202864693U CN 201020286469 U CN201020286469 U CN 201020286469U CN 202159453 U CN202159453 U CN 202159453U
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Abstract
The utility model relates to a digitalized basin structure physical analog experimental instrument. A pedestal tipper is installed on a pedestal of the experiment table. A central experiment table, a translating side experiment table A, a translating side experiment table B, a pitching-down experiment table and a pitching-up experiment table are arranged on the pedestal of the experimental table. An experimental sand box is installed on the central experiment table. A truss is installed above the experiment sand box. A sand arranging device, a lifting mechanical hand and a top-face digital camera are installed on the truss. A CT device and a side-face digital camera are disposed by the side of the pedestal of the experiment table. Screws are installed below the translating side experiment table A and the translating side experiment table B. Electric cylinders are installed on table tops. A lower part of the pitching-down experiment table is provided with an electric cylinder and a table top of the pitching-down experiment table is equipped with an electric cylinder. A lower part of the pitching-up experiment table is provided with an electric cylinder and a table top of the pitching-up experiment table is equipped with an electric cylinder. The sand arranging device connects with a power-driven device on the truss and is equipped with a laser device. The lifting mechanical hand connects with the power-driven device on the truss. The digitalized basin structure physical analog experimental instrument in the utility model can realize three-dimensional and multi-directional power loading and provide four-dimensional digitalized data of quantitative analysis.
Description
Technical field
The utility model relates to a kind of digitizing basin simulation experiment of tectonics physics appearance.
Background technology
The structural deformation simulation is a kind of important laboratory facilities of geologize structural deformation process; Since the eighties, structural physical simulation plays an important role to the research of tectonics, at present; Structural deformation simulation both at home and abroad only is confined to construct two-dimentional morphological Study; Also only limiting to unidirectionally and two-way for loading force source in the structural deformation simulated experiment, and mainly is after tectonic movement finishes to the research of model inner structure at present, to model cut into slices, measurement etc.Yet; Accurate measurement model inner structure then in the model deformation process, because model be in case section just can't be proceeded down the step experiment, can only be through transparent organic glass side of model and the end face of opening; The presumption model inner structure; Such supposition changes little model for transversary and can be said to be effectively, and the experiment for most of horizontal change contrasts then can't obtain the model internal data in the deformation process.Priorities such as (1992) such as (1991), the Wilkerson of Department of Geology of Illinois, US university, the Ueta of Chiba, Japan university (2000) such as the France Francais Colletta of oil company in modelling structural experiment, have obtained effect preferably with the Medical CT technical application.At present the domestic research institutions (like Petroleum Univ., Shengli Oil Field shoot on paper institute of China Petrochemical Industry etc.) that have the physics simulation laboratory all are not applied to the CT means in the simulated experiment, make can't obtain the inner defective that develops of model in the physical simulation experiment process.
Summary of the invention
The purpose of the utility model provides the physical simulation experiment appearance that a cover can realize that multi-direction three-dimensional power loads and can accurately control.A kind of equipment that combines together by computer-controlled CT technology and constructing analog; In real time with the model internal structure track digitizing that obtains; Realize visual four-dimensional effect; Help the geological personnel completion to push, stretch, walk multiple modelling structural experiments such as sliding, for the researchist provides instant basin geological structure model evolutionary process.
The described digitizing of the utility model basin modelling structural experiment appearance comprises the experiment table base, translation side experiment table I, central experiment table; The nutation experiment table, CT equipment, base tilting gearing, translation side experiment table II; The experiment table of facing upward, elevating gear hand, truss, cloth sand device; The experiment sandbox, electronic cylinder, end face digital camera, side digital camera.
The base tilting gearing is housed on the experiment table base, and the base tilting gearing is connected with hydraulically operated equipment (HOE); Central authorities' experiment table, translation side experiment table I, translation side experiment table II, nutation experiment table, the experiment table of facing upward are arranged on the experiment table base; The experiment sandbox is contained on the central experiment table, and truss is contained in experiment sandbox top, and cloth sand device and elevating gear hand and end face digital camera are contained on the truss; CT equipment and side digital camera are positioned at experiment table base limit; Under translation side experiment table I and the translation side experiment table II leading screw is housed, the electronic cylinder that model loads power is housed on the table top; The electronic cylinder that is used for Lifting platform is equipped with in nutation experiment table bottom, and the electronic cylinder that model loads power is housed on the table top; The electronic cylinder that is used for Lifting platform is equipped with in the experiment table bottom of facing upward, and the electronic cylinder that model loads power is housed on the table top; Cloth sand device is connected with power drive device on the truss, on the cloth sand device laser equipment is housed; The elevating gear hand is connected with power drive device on the truss.
On the experiment base base tilting gearing is housed, can makes whole experiment porch inclination 0~10 spend.
But translation side experiment table I and translation side experiment table II side-to-side movement, motion be by the leading screw power drive, on put electronic cylinder the experimental box model applied power.
The nutation experiment table drives through the electronic cylinder in bottom, can make downward-sloping 0~10 degree, on the electronic cylinder put can apply power to the experimental box model.
The experiment table of facing upward drives through the electronic cylinder in bottom, 0~10 degree that can be inclined upwardly, on the electronic cylinder put can apply power to the experimental box model.
Cloth sand device has stirring, vibration, screening function, and energy measurement and control cloth sand thickness are measured and accomplished by laser equipment.
The elevating gear hand can be transported to CT equipment with the experiment sandbox, and the elevating gear hand is by the power drive on the truss of top.
CT equipment can be accomplished the scanning analysis of internal modification structure in the experiment sandbox and realize three-dimensionalreconstruction and the distressed structure analysis of four-dimensional dynamic effect.
Needs according to the experimenter; Experiment material (silica sand, beaded glass etc.) is set in the experimental box through cloth sand device place Min layers; Utilize electronic cylinder from multi-direction (or pulling successively) the experimental box baffle plate that promotes forward; Make the experiment material in the sandbox simulate specific geological movement, produce structural deformation.In the model deformation process, end face and side digital camera fixed time interval are taken the model photo.Carry out the model inner structure if desired and observe and measure, sandbox is transported on the CT machine conveyer belt, be sent in the CT machine and scan, accurately move back on the experiment table through mechanical arm again behind the end of scan, proceed next step experiment through mechanical arm.
This device can realize that three-dimensional multidirectional power loads, and has under the situation of damage model structure not, carries out the scanning of model inner structure, and the four-dimensional digitalized data of quantitative test is provided for the researchist.
Description of drawings
Fig. 1 digitizing basin simulation experiment of tectonics physics appearance top plan view structural representation,
Fig. 2 digitizing basin simulation experiment of tectonics physics appearance side-looking cross-sectional view.
Wherein: 1 experiment table base, 2 translation side experiment table I, 3 central experiment tablees, 4 nutation testing tables, 5CT equipment; 6 base tilting gearings, 7 translation side experiment table II, 8 experiment tablees of facing upward, 9 elevating gear hands; 10 truss, 11 cloth sand devices, 12 experiment sandboxes; 13 electronic cylinders, 14 end face digital cameras, 15 side digital cameras.
Embodiment
Digitizing of the present invention basin modelling structural experiment equipment, it comprises experiment table base 1, translation side experiment table I 2, central experiment table 3; Nutation experiment table 4, CT equipment 5, base tilting gearing 6, translation side experiment table II 7; The testing table 8 of facing upward, elevating gear hand 9, truss 10, cloth sand device 11; Experiment sandbox 12, electronic cylinder 13, end face digital camera 14, side digital camera 15; Base tilting gearing 6 is housed on experiment table base 1, and base tilting gearing 6 is connected with hydraulically operated equipment (HOE); Central authorities' experiment table 3, translation side experiment table I 2, translation side experiment table II 7, nutation experiment table 4, the experiment table 8 of facing upward are arranged on the experiment table base 1; Experiment sandbox 12 is contained on the central experiment table 3, and truss 10 is contained in experiment sandbox 12 tops, and cloth sand device 11 is contained on the truss 10 with elevating gear hand 9 and end face digital camera 14; CT equipment 5 is positioned at experiment table base 1 limit with side digital camera 15; Translation side experiment table I 2 and translation side experiment table II are equipped with leading screw 7 times, and the electronic cylinder 13 that model loads power is housed on the table top; The electronic cylinder that is used for Lifting platform is equipped with in nutation experiment table 4 bottoms, and the electronic cylinder that model loads power is housed on the table top; The electronic cylinder that is used for Lifting platform is equipped with in experiment table 8 bottoms of facing upward, and the electronic cylinder that model loads power is housed on the table top; Cloth sand device 11 is connected with power drive device on the truss 10, on the cloth sand device laser equipment is housed; Elevating gear hand 9 is connected with power drive device on the truss 10.
Claims (1)
1. digitizing basin simulation experiment of tectonics physics appearance, it comprises the experiment table base, translation side experiment table I, central experiment table; The nutation experiment table, CT equipment, base tilting gearing, translation side experiment table II; The experiment table of facing upward, elevating gear hand, truss, cloth sand device; The experiment sandbox, electronic cylinder, end face digital camera, side digital camera; It is characterized in that: the base tilting gearing is housed on the experiment table base, and the base tilting gearing is connected with hydraulically operated equipment (HOE); Central authorities' experiment table, translation side experiment table I, translation side experiment table II, nutation experiment table, the experiment table of facing upward are arranged on the experiment table base; The experiment sandbox is contained on the central experiment table, and truss is contained in experiment sandbox top, and cloth sand device and elevating gear hand and end face digital camera are contained on the truss; CT equipment and side digital camera are positioned at experiment table base limit; Under translation side experiment table I and the translation side experiment table II leading screw is housed, the electronic cylinder that model loads power is housed on the table top; The electronic cylinder that is used for Lifting platform is equipped with in nutation experiment table bottom, and the electronic cylinder that model loads power is housed on the table top; The electronic cylinder that is used for Lifting platform is equipped with in the experiment table bottom of facing upward, and the electronic cylinder that model loads power is housed on the table top; Cloth sand device is connected with power drive device on the truss, on the cloth sand device laser equipment is housed; The elevating gear hand is connected with power drive device on the truss.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2010202864693U CN202159453U (en) | 2010-08-05 | 2010-08-05 | Digitalized basin structure physical analog experimental instrument |
Applications Claiming Priority (1)
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CN2010202864693U CN202159453U (en) | 2010-08-05 | 2010-08-05 | Digitalized basin structure physical analog experimental instrument |
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CN202159453U true CN202159453U (en) | 2012-03-07 |
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CN2010202864693U Expired - Lifetime CN202159453U (en) | 2010-08-05 | 2010-08-05 | Digitalized basin structure physical analog experimental instrument |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102374852A (en) * | 2010-08-05 | 2012-03-14 | 中国石油天然气股份有限公司 | Physical simulation experimental instrument for digitalized basin construction |
-
2010
- 2010-08-05 CN CN2010202864693U patent/CN202159453U/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102374852A (en) * | 2010-08-05 | 2012-03-14 | 中国石油天然气股份有限公司 | Physical simulation experimental instrument for digitalized basin construction |
CN102374852B (en) * | 2010-08-05 | 2014-02-26 | 中国石油天然气股份有限公司 | Physical simulation experimental instrument for digitalized basin construction |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20120307 Effective date of abandoning: 20140226 |
|
RGAV | Abandon patent right to avoid regrant |