Abstract
The article describes experimental research stand for hydraulic percussion systems, including a multi-purpose percussion device, installation table, damping device, and a fluid feed and distribution unit. The procedure, developed by the authors and presented in the article, allows the comprehensive analysis of processes running in hydropercussion systems, comparison of different systems, and comparison of experimental and theoretical data.
Similar content being viewed by others
References
Alimov, O.D. and Basov, S.A., Gidravlicheskie vibroudarnye sistemy (Hydraulic Vibro-Percussion Systems), Moscow: Nauka, 1990.
Ashavskiy, A.M., Osnovy proektirovaniya optimal’nykh parametrov zaboinykh burovykh mashin (Design Engineering for Optimal Parameters of Heading Boring Machines), Moscow: Nedra, 1966.
Gorbunov, V.F., et al., Gidravlicheskie otboinye i buril’nye molotki (Hydraulic Rock Hammers and Bore Hammers), Novosibirsk: IGD SO AN SSSR, 1982.
Gorbunov, V.F., Lazutkin, A.G., and Ushakov, L.S., Impul’snyi gidroprovod gornykh mashin (Pulsed Hydraulic Drive of Mining Machines), Novosibirsk: Nauka, 1986.
Iskenov, S.S., Universal’nye buril’nye mashiny (Multi-Purpose Drilling Machines), Bishkek: Ilim, 2004.
Melis uulu Danislan, Obobshchenie resul’tatov eksperimental’nykh issledovaniy ruchnogo gidravlisheskogo molotka “Impul’s” (Summary of the Experimental Investigation of the Hand Hydraulic Hammer “Impuls”), Bishkek: Ilim, 2004.
Erminidi, Yu. I., “Experimental Determination of Energy Characteristics of Hydro-and-Air Breaker Boy,” in Stroitel’no-dorozhnye mashiny i mekhanizmy. Sbornik statei (Road Construction Machines and Gears. Collected Works), Issue 3, Karaganda: KPTI, 1976.
Yantsen, I.A., Eshutkin, D.N., and Borodin, V.V., Osnovy teorii i konstruirovaniya gidropnevmoudarnikov (Basis of Theory and Engineering of Hydro-and-Air Hammers), Kemerovo: Kemerov. Kn. Izd., 1977.
Yasov, V.G. Teoriya i raschet rabochikh protsessov gidroudarnykh burovykh mashin (Theory and Calculation of Operation of Hydropercussive Drilling Machines), Moscow: Nedra, 1977.
Gorodilov, L.V., “Model of Hydraulic Percussion System with a Constant Flow Rate Source,” Proc. 3rd Int. Sci. Symp. Percussion-Vibration Systems, Machines, and Technologies, Orel: OrelTGU, 2006.
Gorodilov, L.V., “Numerical Study into Dynamics of Self-Oscillatory Hydropercussion Systems. Part I: Double-Acting Systems,” Fiz.-Tekh. Probl. Razrab. Polezn. Iskop., 2007, no. 6, pp. 66–81, [J. Min. Sci., 2007, vol. 43, no. 6, pp. 625–639].
Gorodilov, L.V., “Development of Theoretical Bases for 3D Hydropercussion Systems for Mining and Construction Machines,” Extended Abstract of Dr. Tekh. Sci. Dissertation, Novosibirsk: IGD SO RAN, 2010.
Goldobin, V.A., Gorodilov, L.V., and Mattis, A.R., RF patent no. 2182967, Byull. Izobret., 2002, no. 15.
Goldobin, V.A., et al., RF patent no. 2209878, Byull. Izobret., 2003, no. 22.
Goldobin, V.A., Gorodilov, L.V., and Pashina, O.A., RF patent no. 2230189, Byull. Izobret., 2004, no. 16.
Goldobin, V.A., Gorodilov, L.V., and Pashina, O.A., RF patent no. 2258161, Byull. Izobret., 2005, no. 22.
Gorodilov, L.V., et al., RF patent no. 2311532, Byull. Izobret., 2007, no. 33.
Gorodilov, L.V., et al., RF patent no. 2321777, Byull. Izobret., 2008, no. 10.
Gorodilov, L.V., “Procedure and Data of Experimental Research into Dynamics of Self-Oscillatory Hydraulic Percussion Two-Way and Direct-Action Systems,” Proc. Conf. on Fundamental Problems in Formation of Human-Induced Geo-Environment, Novosibirsk: IGD SO RAN, 2009, vol. 2.
Gorodilov, L.V. and Efimov, V.P., “Test Procedure for Pressure Sensors in the Hydraulic Pulse Systems,” Proc. Conf. on Fundamental Problems in Formation of Human-Induced Geo-Environment, Novosibirsk: IGD SO RAN, 2009, vol. 2.
Gorodilov, L.V., et al., “Experimental Research Stand and Measurement-and-Computation Facility for Hydraulic Percussion Systems,” Proc. Int. Conf. Problems and Prospects of Mining Sciences, Novosibirsk: IGD SO RAN, 2006, vol. 2.
Gorodilov, L.V. and Kudryavtsev, V.G., “Modeling the Interaction between a Striking Bar, Impactor Tool and Rocks,” Proc. Conf. on Fundamental Problems in Formation of Human-Induced Geo-Environment, Novosibirsk: IGD SO RAN, 2010, vol. 3.
Gorodilov, L.V. and Fadeev, P.Ya., “Analysis and Classification of Efficient Designs of Auto-Oscillating Hydraulic Percussion Systems,” Proc. Conf. on Fundamental Problems in Formation of Human-Induced Geo-Environment, Novosibirsk: IGD SO RAN, 2007, vol. 2.
Gorodilov, L.V., “Approximated Calculation Method of Auto-Oscillation Hydraulic Percussion System,” Proc. Conf. on Fundamental Problems in Formation of Human-Induced Geo-Environment, Novosibirsk: IGD SO RAN, 2009, vol. 2.
Author information
Authors and Affiliations
Corresponding author
Additional information
Original Russian Text © L.V. Gorodilov, V.G. Kudryavtsev, O.A. Pashina, 2011, published in Fiziko-Tekhnicheskie Problemy Razrabotki Poleznykh Iskopaemykh, 2011, no. 6, pp. 54–63.
Rights and permissions
About this article
Cite this article
Gorodilov, L.V., Kudryavtsev, V.G. & Pashina, O.A. Experimental research stand and procedure for hydraulic percussion systems. J Min Sci 47, 778–786 (2011). https://doi.org/10.1134/S1062739147060104
Received:
Published:
Issue Date:
DOI: https://doi.org/10.1134/S1062739147060104