SU1326729A1 - Method of demolishing solid objects - Google Patents

Abstract

The invention relates to mining and construction, and m. used for the directional destruction of materials without the use of blasting, including frozen rocks. The purpose of the invention is to increase the efficiency of destruction of monolithic volumes of compressible materials due to their consistently diverse loading. The hole (Sh) 1 drilled in the monolith is filled with an aqueous solution 7 with a low freezing temperature (T). Rods 2 are threaded into the mouth Sh1 with a thread 5 on the thrust disk 3. With the ice on the stopper 6, the filled volume W 1 is blocked. After the solution in W I freezes, by turning the handle 4, remove the rod 2, choose an ice body and empty volume is filled with water. After locking the volume of the holes, the water is frozen. At the same time, the ice is cooled to T, which is close to T of the initial solution 7 freezing. At the first stage of material consolidation, lower pressures are required than to destroy the object itself. This is achieved by selecting fluids of appropriate mineralization with a known negative T medium. I il. sl oo GcheE 05 N3 CO

Description

The invention relates to mining and construction and can be used for the directional destruction of materials without the use of blasting, including frozen rocks.

The aim of the invention is to increase the efficiency of destruction of monolithic objects made of compressible materials due to their sequential different loading.

The drawing shows the scheme of drying method.

The diagram shows the hole (hole) 1 in the monolithic object, the heat sink element (rod) 2, stop disc 3, handle 4, screw thread 5, ice on the plug 6, water (water solution) 1.

The hole I is filled with an aqueous solution 7. In the hole of the hole, a rod 2 is inserted on the stop disc 3. In the hole there is an advance, there is no ice on the plug 6, which prevents the solution 7 from breaking upwards, i.e. locks the filled volume of the hole. After the solution is completely freezed, the rod 2 is removed from the hole by turning the handle 4. The rod 2 is pulled out of the ice body and is facilitated by the presence of a screw thread 5. After that, the ice body is picked (drilled) and the volume freed up is filled with water. Since the solution had a lower freezing temperature before, the water quickly freezes in the hole (in this case also creates an ice plug with the help of rod 2), and the ice is cooled to a temperature close to the freezing point of the initial solution.

If the monolithic object is made of collapsible material, during the first freezing cycle there is no need for fast freezing of water, as in this case there will be no good compaction

material (rock mass), since compaction should occur at a certain speed, not exceeding the critical one. In the second cycle, on the contrary, a quick freezing of the liquid is required to ensure brittle fracture, rupture of the material. At this stage, an increase in the freezing time of water leads to a decrease in the effective expansion of their efforts, since the longer the time, the more pronounced

the creep property of ice.

Pressure control, which develops expanding ice (at the first stage of material compaction, lower pressures are required than to destroy

object) is provided by the selection of liquids corresponding to its mineralization at a known negative ambient temperature.

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Claims (1)

Invention Formula The method of destruction of monolithic objects, including drilling holes in a monolithic object, filling them with water and a low-temperature water solution 5 freezing, locking of filled O holes of holes and freezing of water and an aqueous solution in locked volumes of holes, characterized in that, in order to increase the efficiency of destruction of monolithic objects of compressible materials Due to their consistently diverse loading, the apertures are initially filled with a low freezing point aqueous solution, the aqueous solution is frozen in locked volumes of the holes, a sample of expanded ice is filled, after which the free volumes of holes are filled with water and frozen after locking these volumes of holes.