Process Characteristics of Hydraulic Legs Equipped with Safety Valves at Dynamic Load Caused by a Mining Tremor

摘要

The article presents process characteristics of hydraulic legs, a powered roof support and an individual roof support that are equipped with pressure relief valves and additional safety valves protecting the legs against dynamic loads caused by mining tremors.A two-telescopic hydraulic leg f330 type was tested using dynamic pile testing, equipped with a valve bank with pressure relief valve and an additional safety valve. The tests included the following models of safety valves described in references (Gwiazda, 1997; Irresberger et al., 2008):slide-piston with a roller spring,seat-cone with gas spring,slide-piston with a roller spring,two-stage valve (a control valve and a main valve connected in one support).Using pressure charts in time function it is possible to determine how fast the amplitudes of pressure increase with the h height of a ram increase, thereby, Ek ?kinetic energy of ram’s stroke and p momentum impacting the leg equipped with the valve. Maximum pressure in the leg with the slide-piston valve raised to 64 MPa (with impact mass drop at h = 0.25 m) up to 129 MPa (h = 0.3 m) i.e. by 100%.Pressure increase to pmax = 158 MPa was noted during a test of the slide-piston leg equipped with the valve and with a drop of h = 0.5 m This poses a great hazard that can destroy the valve and therefore cause a loss of load-bearing capacity.Conducted research of SHC hydraulic legs of an individual roof support showed that (Pytlik & Pacze?niowski, 2012; Pytlik & Rabsztyn, 2011) quick relief valves had higher efficiency than standard valves mounted in SHC legs, which resulted in lower pressure in the leg by 7 MPa. It has an essential importance for stability of leg’s cylinder and its sealing. The test of the leg with a valve battery was based on its dynamic load impacted by a ram (impact mass) of m1 = 4,000 kg relieved at the leg placed between a cross-bar of m2 = 3,300 kg and post’s foundation. Recording of p pressure of the fluid in its space under piston was made with sampling frequency of 9.6 kHz,Moreover, the research also included test of the same type of SHC leg with BZG-2FS battery (equipped with gas spring) using ram’s mass of m1 = 2,0000 kg and the cross-bass of m2 = 6,600 kg. The leg transferred the load, stroke type, of Ek = 29,5 kJ kinetic energy without any damages. A time-lapse analysis of photos showing the opening moment of the safety valve indicated that its opening had taken place 8 ms after the moment when the leg was impacted and indicated propagation of the hydraulic fluid stream’s front with maximum velocity of about 60 m/s, and maximum momentary intensity of fluid flowing through a bypass valve amounted to Qcmax = 683 l/min.The tests of work characteristics of safety valves (Pytlik, 2013, 2014) included valves with M40×2 terminal thread of the following designs:slide-piston – with three rows of fluid outlets,slide-piston – with two rows of fluid outlets,seat-cone – with a single row of fluid outlets.The tests of valves were conducted on the basis of capacity research methodology based on fluid increase of fluid stream caused by mass stroke impacting the leg equipped with the valve, up to twice the working pressure adjusted value of the valve. Such test simulates dynamic load of the hydraulic leg with the valve during mining tremors. Tests results of capacity and valve opening time may be used to determine yielding of an individual powered roof support and to optimize valve construction in order to improve capacity and working time. On the basis of carried out research concerning momentary intensity of Qcflow of safety valves with M40×2 terminal, it may be stated that the valves are characterised by a high level of capacity, presented on charts, and short working time – 3 up to 5 ms. The best technical parameters had a prototype seat-cone valve.