RU93056544A - METHOD OF RESOURCE-SAVING TECHNOLOGY TABLING SPACES - Google Patents

Claims (1)

The invention relates to mining and underground construction and can be used in underground mining of mineral deposits and mine construction. The purpose of the proposal is to create a resource-saving technology for bookmarks based on the use of mining and metallurgical waste (current tailings and dumps) as raw materials, to prepare a stable high-density filling mixture capable of pumping through pipelines at minimum water flow rates and at low speeds. The pecypco-saving technology for laying out the mined-out space involves preparing a solidifying hardened or cementless mixture from the tailings and small-sized fractions of dump rocks, delivering it through pipelines to underground workings and erecting an array with a separate supply of binder. New is that the filling mixture is formed in the form of a high-density sludge-rock composition with a density in the range of 2000-2300 kg / m ³ , and the current tails are sent to the mixture after accumulation in the process of gravity deposition and thickening to a concentration of 0.65 - 0.75 by weight, and the breed - after screening and crushing in the form of a fraction of 0.5 - 25 (30) mm, while in the tails, represented mainly by non-clay minerals, the content of the class 0.02 - 0.03 mm is maintained in the range up to 30 - 40%, and in rocks of the class 0.5 - 5 (7) mm - not less than 40 - 50%. In this case, the sludge-rock filling mixture is prepared with the contents of the current tails and rocks within the range of parts ratios 30: 70 - 60: 40. In addition, in the hardening sludge-rock mixture, the water content is maintained in the range of less than 14-18 wt. %, and in the cementless sludge-rock mixture - less than 18 - 20%. At the same time, plasticizers with a content of 0.8-1.6 kg / m ^{3 of the} mixture, for example, in the form of sulfoligninic acids of lignosulfonates, are introduced into the wall layer of pipelines of sludge-rock filling mixtures with hydrophilic rocks. In addition, the construction of the array is carried out by casting portions of the filling mixture with compressed air. In this case, thin classes separated in the process of gravitational deposition and thickening with drainage water are accumulated and sent to cementless filling mixtures.