RU2058014C1 - Gear for reduction of blasted bench - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: gear for reduction of blasted bench includes interhinged lattice sections of frame and guarding members coupled to transportation means. Novelty of gear lies in manufacture of guarding members in the form of flexible vessels with liquid which overlap windows of lattice frame, in presence of leak-proof vessel communicating with flexible vessels and compressor and in capability of travel of supporting platform with reference to carriage due to action of antirecoil mechanisms. EFFECT: enhanced operational efficiency and reliability. 2 dwg

Description

 The invention relates to mining and can be used for explosive breaking of rocks at the quarries of valuable ores and blasting in cramped conditions.

The most common way to protect pieces of rock mass from flying off during explosive crushing is to install solid gas-tight, gas-permeable, or arched shelters above the blasting surface of special shelters [1]
Their main disadvantage is the presence of additional labor costs for the installation and removal of shelters.

The closest to the essence of the problem is the device for sheltering the places of the explosion, containing a frame mounted on the axes of the track rollers, and chain mats, in which the frame is made of separate sections, pivotally interconnected to rotate around the axes of the rollers, while the sections are additionally connected elastic elements [2]
Such a device provides localization of the expansion of pieces of rock during an explosion, but only from the surface of the ledge.

 The purpose of the invention is the reduction of losses, dilution, improving the quality of crushing and eliminating the expansion of the rock mass by creating a bilateral non-rigid clamp.

 This goal is achieved in that in the device for crimping an explosive ledge, including associated with the vehicle and pivotally interconnected with each other with the possibility of angular displacement relative to each other, the lattice sections of the frame and the enclosing elements, according to the invention, have a sealed container, a compressor and a support platform installed by means of recoil mechanisms on the vehicle, made in the form of a running trolley, while the lattice sections of the frame are made in the form of vertical and horizontal steel frames fixed with the possibility of movement and tilt relative to the supporting platform by means of hydraulic cylinders, and the enclosing elements for blocking the windows of the horizontal and vertical lattice frames are made in the form of flexible containers with liquid, having bypass valves for releasing the latter under pressure into the horizontal mounted lattice frame, above flexible containers, a sealed container that communicates with each flexible container and a compressor installed on the support platform, and to prevent separation their receptacles on the vertical frame latticework latter is provided with a rigid plate fixed above the flexible containers.

 A comparative analysis of the proposed technical solution with the prototype shows that the device for crimping an explosive ledge differs from the known one in that the enclosing elements are made in the form of flexible containers with a liquid flowing out of them under pressure during the deformation of the containers during the explosion and absorbing the bulk of the explosion energy. Damped displacement of the frame ensures the preservation of the primary structure of the array after the explosion. Thus, the proposed solution is significantly different from the known.

 Figure 1 shows the device, side view; figure 2 section aa in figure 1.

 A device for crimping an explosive ledge includes lattice sections of a frame made in the form of a horizontal lattice frame 1 and a vertical lattice frame 2 interconnected by a hinge 3. The vertical lattice frame 2 is connected to the supporting platform 4 of the vehicle, made in the form of a massive chassis 5, s using hydraulic cylinders 6 and 7. The horizontal lattice frame 1 through the support 8, the hydraulic cylinder 9 can be rotated around the hinge 3, which provides the possibility of angular displacement relative to each other lattice frame sections. The supporting platform 4 is connected to the undercarriage 5 by means of recoil mechanisms 10. The horizontal lattice frame 1 and the vertical lattice frame 2 are provided with enclosing elements for blocking the lattice windows, made in the form of flexible containers 11 made, for example, of rubber band, filled with liquid from a sealed container 12 through pipelines or hoses 13 through the bypass valves 14, used to release this fluid under pressure into the sealed container 12. In the upper part of the sealed container 12 there is a hole an opening with a plug 15 for filling it with liquid and a fitting 16 for connecting a pipe or hose 17 to a compressor 18 mounted on a supporting platform 4. A sealed container 12 is mounted on a horizontal lattice frame 1 above the flexible containers 11 and its thickened bottom 19 serves as a rigid plate for flexible containers 11 of the horizontal lattice frame 1. To prevent tearing off of the flexible containers 11 on the vertical lattice frame 2, the latter is made with a rigid plate 20 fixed above the flexible containers 11. The horizontal lattice frame 1 it is so wide that it covers the entire surface of the explosive blown up by charges in wells 21 of the ledge with a margin stipulated by the requirements of the Safety Rules.

 A device for crimping an explosive ledge operates as follows.

 A device for crimping an explosive ledge with the help of the undercarriage 5 is adjusted to the ledge section prepared for explosion, previously using the hydraulic cylinder 9 through the stop 8, raising the horizontal lattice frame 1 above the surface of the ledge. Hydraulic cylinders 6 and 7 shift the vertical lattice frame 2 close to the surface of the slope of the ledge, hydraulic cylinder 9 through the stop 8 around the hinge 3 lower the horizontal lattice frame 1 on the surface of the ledge. Then, a sealed container 12 and liquid are filled through pipelines or hoses 13 through a hole with a plug 15 with liquid, for example, water in summer, glycerin, brines in winter, and in a horizontal lattice frame 1, it flows directly into bypass valves 14 through bypass valves 14. filling from the compressor 18 through the hose 17 in a sealed container 12 serves compressed air. The increased pressure created in it contributes to the qualitative filling of flexible containers 11 with liquid, they are closely pressed against the surface 22 of the ledge with their lower part, which reduces the dynamic impact on them during an explosion. After that, the hydraulic cylinders 6, 7, 9 tightly press the lattice frames 1 and 2 to the array, compressing the array before the explosion. The device is ready to go.

 With the explosion of explosive charges in the wells 21, the movement of the rock volume of the rocks begins upward and towards the escarpment of the ledge. The bulk of the energy of the explosion is spent on crushing rocks and the deformation of flexible tanks 11 with liquid. When the deformation of the flexible containers 11, sandwiched between the rigid bottom 19, the plate 20 and the surface of the ledge 22, reaches the limit, the bypass valves 14 open, and the fluid through the pipelines 13 enters the sealed container 12. By selecting the cross-section of the bypass valves 14 create the necessary resistance to fluid flow. Further, the forces from the blasted array to the lattice frames 1 and 2 are transmitted through the hydraulic cylinders 6, 7, 9 to the supporting platform 4 and the energy of the explosion is finally extinguished by recoil mechanisms 10, the resistance of which actively increases as the platform 4 moves (by the principle of artillery recoil systems). At the same time, the masses of the lattice frames 1 and 2 involved in the movement participate in the absorption of the explosion, the support platform 4. The deformation of the flexible tanks 11 and the rollback of the support platform 4 with the lattice frames 1 and 2 provide a damped clamp of the explosive volume of the rock mass. After the explosion of the hydraulic cylinder 9, the horizontal lattice frame 1 is rotated around the hinge 3 through the stop 8, lifting it above the blasted rock mass. Hydraulic cylinders 6 and 7 divert the vertical lattice frame 2 (with horizontal lattice frame 1) from the blasted mass, while the recoil mechanism 10 returns the supporting platform 4 to its original position. The device is moved to a nearby prepared area of the detonated ledge and the cycle is repeated. When driving long distances, the liquid from the device is poured into a reserve tank located on the support platform or separately, the horizontal lattice frame 1 is folded either with the vertical lattice frame 2, deflecting it down, or laid on the roof of the supporting platform, deflecting upward.

 Thus, the proposed device for crimping an explosive ledge provides rock breaking in a bilateral damped clamp without ejecting liquid outward. This provides increased efficiency and environmental friendliness of the process.

Claims (1)

 DEVICE FOR COMPRESSING AN EXPLOSIVE CONTROL, including the lattice sections of the frame and the enclosing elements connected to the vehicle and pivotally interconnected with each other with the possibility of angular displacement relative to each other, characterized in that the device is equipped with a sealed container, compressor and support platform mounted by means of recoil mechanisms on the transport means made in the form of a running trolley, while the lattice sections of the frame are made in the form of vertical and horizontal frames, fixed x with the ability to move and tilt relative to the supporting platform by means of hydraulic cylinders, and the enclosing elements for blocking the windows of the horizontal and vertical lattice frames are made in the form of flexible containers with liquid, having bypass valves for releasing the latter under pressure into a sealed container mounted on a horizontal lattice frame above the flexible containers communicating with each flexible tank and with a compressor installed on the support platform, and to prevent separation of the flexible tanks on the vertical The last lattice platform is made with a rigid plate fixed above flexible containers.

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