On justification of efficient Energy-Force parameters of Hydraulic-excavator main mechanisms
Autor: | Yuliya Lagunova, Shestakov Viktor S, A.P. Komissarov, O. A. Lukashuk |
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Jazyk: | angličtina |
Rok vydání: | 2018 |
Předmět: |
ENERGY-EFFICIENT DESIGN
Computer science MECHANICAL CHARACTERISTICS Mechanical engineering HYDRAULIC ACTUATORS Kinematics Transfer function Boom HYDRAULIC MACHINERY law.invention MECHANISMS Piston law ENERGY-FORCE PARAMETERS TRANSMISSION MECHANISMS FUNCTIONAL DEPENDENCE ANALYTICAL EXPRESSIONS PISTONS CONSTRUCTION EQUIPMENT ENERGY EFFICIENCY PERFORMANCE CHARACTERISTICS TRANSFER FUNCTIONS ENGINES EXCAVATORS Mechanism (engineering) Hydraulic cylinder Excavator EXCAVATION MECHANICAL ACTUATORS CYLINDERS (SHAPES) FUNCTIONAL MATERIALS OPERATIONAL EQUIPMENT MECHANICAL DRIVES Actuator MECHANICAL PROPERTIES |
Zdroj: | IOP Conference Series: Materials Science and Engineering |
Popis: | The article formulates requirements for energy-efficient designs of the operational equipment of a hydraulic excavator (its boom, stick and bucket) and defines, for a mechanism of that equipment, a new term "performance characteristic". The drives of main rotation mechanisms of the equipment are realized by hydraulic actuators (hydraulic cylinders) and transmission (leverage) mechanisms, with the actuators (the cylinders themselves, their pistons and piston rods) also acting as links of the leverage. Those drives are characterized by the complexity of translating mechanical-energy parameters of the actuators into energy parameters of the driven links (a boom, a stick and a bucket). Relations between those parameters depend as much on the types of mechanical characteristics of the hydraulic actuators as on the types of structural schematics of the transmission mechanisms. To assess how energy-force parameters of the driven links change when a typical operation is performed, it was proposed to calculate performance characteristics of the main mechanisms as represented by a set of values of transfer functions, i.e. by functional dependences between driven links and driving links (actuators). Another term "ideal performance characteristic" of a mechanism was introduced. Based on operation-emulating models for the main mechanisms of hydraulic excavators, analytical expressions were derived to calculate kinematic and force transfer functions of the main mechanisms. © Published under licence by IOP Publishing Ltd. |
Databáze: | OpenAIRE |
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