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实验证明,所获取的煤矿生产数据本身具有动态化的特点,其在平面、剖面方面的数据以及三维地质类模型都直接随着矿山开采的不断深入产生一种动态化的更新和修正,从而促使地下生产的对象越加精准和明确。然而,目前对于三维地质的研究仍然是以静态的地质模型为主,因此针对模型数据的更新和处理过程中的操作更加的复杂和繁复,所以必须要针对三维模型的动态修正问题进行深入的研究。以此来提出全新的数据来对三维地质模型开展动态修正的全部流程以及技术类框架。本文主要针对煤矿三维地质模型动态修正关键技术进行探讨,期望能够通过模型动态修正技术来促使煤矿三维地质模型及时的更新和获取到更多类型的数据,从而真实的反映出煤矿生产过程的实际状况。
Experiments show that the acquired coal production data has its own characteristics of dynamic. The data of plane and section and the three-dimensional geological model directly generate a dynamic update and correction as the mining progresses, which leads to The more accurately and clearly the objects produced underground. However, at present, the research on 3D geology is still based on static geological model. Therefore, the operation of updating and processing of model data is more complicated and complex, so the dynamic correction of 3D model must be deeply studied . In order to put forward new data to carry out dynamic correction of the three-dimensional geological model of the entire process and technical framework. In this paper, the key technologies of dynamic correction of 3D geological model in coal mines are discussed. It is expected that the 3D dynamic geological model of coal mines will be promptly updated and more types of data can be obtained through the model dynamic correction technology so as to truly reflect the actual status of the coal production process .