SU962633A1 - Hydraulic prop for mine roof support - Google Patents

Description

(5) HYDRAULIC MOUNT STAND

Claims (2)

The invention relates to mining and can be used in mechanized supports, operated under the conditions of dynamic manifestations of mining pressure. A hydraulic strut is known, including a cylinder, a plunger, a safety valve connected to the working chamber of the strut via an additional capacity Cl. The disadvantage of such a rack is the constant volume of additional capacity, which reduces the effectiveness of its use during dynamic loading on the rack. Closest to the offer is a hydraulic shaft support, comprising a housing with a bottom, a sliding part with piston and rod cavities, a hydraulic lock and a compensator with an elastic element 2. A disadvantage of the known stand is a limited level of increase in the volume of fluid in the RACK working chamber, due to beyond the constant stiffness of the compensator. The purpose of the invention is to increase the efficiency of the rack. The goal is achieved by the fact that the compensator is made in the form of telescopically arranged cylinders, the piston cavities of which are communicated with the piston cavity of the rack, and elastic elements are installed in their rod cavities. FIG. 1 shows the proposed hydrostatic, cross-section; in fig. 2 - the same, when the compensator is triggered. The hydraulic strut (Fig. 1) has a cylinder 1 with a piston 2 and a rod 3 cavities, a sliding part (a hydraulic lock with a safety 5 and a reverse discharge 6. valves. The cylinders of the compensator are arranged telescopically in one another. In the inter-cylinder cavities there are elastic elements 11-13 acting together with cylinders. Since each of the cylinders 79 has a larger diameter than the subsequent one, the load on the cilium; the different parts decrease from the larger cylinder 7 to the smaller cylinder 10, the elastic elements 11-13 have different rigidity and are designed in such a way that, under statistical loading, up to the nominal pressure of the fluid in the piston cavity, the compensator does not affect the operating mode of the hydraulic column. The proposed hydraulic column works as follows. When a hydraulic column thrust, the liquid under pressure is supplied to the piston cavity 2. The liquid is stopped and the hydraulic column starts to operate in a mode of increasing resistance. Having reached the value of the working resistance, the safety valve 5 is actuated and the stand reaches the calculated working resistance. At this time, the cylinders are in the initial position (Fig. 1). In the case of dynamic occurrence of rock pressure (Fig. 2), the sliding part k moves downwards. With the occurrence of super-nominal peak pressures of the working fluid in the piston cavity 2, the elastic element 13 having the least stiffness is compressed and the cylinder 10 moves downwards. Thereby, the volume of the piston cavity 2 increases and the hydrocall is unloaded from the increased short-term pressures. With a further increase in dynamic pressures, the elastic elements 12 and 11 are alternately compressed, and the cylinders 4 9 and 8 move downward in steps and increase the volume of the piston cavity 2, while the pressure in the liquid lays with a nominal one. After the dynamic load i is removed, the hydraulic post returns to its initial position (Fig. 1), and the cylinders alternately move, starting from the smaller-cylinder 10. The proposed hydraulic design eliminates the appearance of repeated peak pressures in the working fluid, which increases the efficiency of the hydraulic post in in general, and ensures the normal operation of lining with high dynamic drawdowns. roofing Claims of the invention The hydraulic support of mine support, comprising a housing with a bottom, a sliding part with a piston and rod cavities, a hydraulic lock and a compensator with elastic elements, is required in order to increase the efficiency of the operation of the rack under dynamic loads. the compensator is made in the form of telescopically arranged cylinders, the piston cavities of which are in communication with the piston cavity of the rack, and elastic elements are installed in their rod sections x. Sources of information taken into account during the examination 1. USSR author's certificate No. 712038, cl. E 21 D ISAi, 1976. 2. USSR author's certificate number 717360, cl. E 21 D, 1976 (anti-type).