RU2022163C1 - Pendulum vibratory energy converter - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: converter has housing to which pendulum 1 is suspended by means of articulated joint. Pendulum consists of link 2 and weight 3 and is kinematically linked with loading mechanism 6. Mounted on weight 3 is vibration exciter 7 made in form of cenmtrifugal unbalanced mechanism connected with loading mechanism. Connection of pendulum with mechanism is effected by means of controllable clutch 5. EFFECT: enhanced reliability.

Description

 The invention relates to energy converters of the oscillations of systems into useful work and can be used as drive engines of various machines and mechanisms.

 Known power plant [1], as a working fluid which uses a gaseous substance that converts thermal energy into mechanical energy.

 The disadvantage of this device is the low efficiency due to the need to obtain thermal energy.

 As a prototype, a vibrational energy converter [2] was selected, containing a body and a pendulum suspended from it, consisting of a link and a load and kinematically connected with the load mechanism.

 The disadvantage of this device is its low efficiency.

 The purpose of the invention is improving efficiency.

 This goal is achieved in that the device comprises a housing, a pendulum suspended from it, consisting of a link and a load, a load mechanism connected to the pendulum by means of a controlled clutch, and a vibration exciter made in the form of a centrifugal unbalanced mechanism mounted on the pendulum load and connected to source of mechanical energy. This provides increased efficiency.

 In FIG. 1 is a schematic diagram of a pendulum transducer with a rocker-slider load mechanism; in FIG. 2 is an embodiment of an energy converter.

 The pendulum transducer contains a housing (not shown), a pendulum 1 suspended from it, consisting of a link 2 and a load 3. Two rods 4 with controlled couplings 5, made, for example, electromagnetic or electromechanical, are attached to the translational pair of the link 2. The clutch 5 provides the connection of the pendulum 1 with the load mechanism 6, made in the form of a hydraulic cylinder included in the fluid injection or pumping network to perform useful work. On the load 3 of the pendulum 1 mounted vibration exciter 7, made in the form of a centrifugal unbalanced mechanism connected to the load mechanism 6.

 In FIG. 2 shows a diagram of a converter with multi-stroke pendulums and a rotational load mechanism. The hinge of the pendulum 1 is made in conjunction with a controlled clutch 8, transmitting rotation to a common shaft 9. Two or more pendulum converters can be connected to a multi-cycle system by means of a common shaft 9.

 The pendulum transducer operates as follows.

 In the initial position, the pendulum 1 is located vertically and the clutch 5 is disconnected. When voltage is applied to the motor of a centrifugal unbalanced mechanism, it spins in opposite directions and develops a centrifugal exciting force, which changes according to the sine law. The magnitude of the voltage applied to the electric motor of the vibration exciter 7, provides its rotation with a frequency at which the frequency of the exciting force is equal to or a multiple of the natural frequency of the pendulum 1, while a resonance occurs in the system and the pendulum begins to swing rapidly. When the specified amplitude is reached, the clutch 5 is turned on and the pendulum 1 is connected to the load mechanism 6. When lowering the load 3 of the pendulum 1, its energy is spent on useful work. Next, the swing cycle is repeated. The degree of uniformity of the output power can be increased by using a circuit with several pendulums that successively give energy, while the clutch 5 is switched on in clock cycles, depending on the position occupied by the pendulum 1.

 The device provides the ability to initiate the release of significant energy stored by the load, spending little power to excite its vibrations, and can be used as an autonomous source of energy or driving force.

Claims (1)

 PENDULUM VIBRATION ENERGY CONVERTER, comprising a housing, a pendulum suspended from it, consisting of a link and a load and kinematically connected with a load mechanism, characterized in that, in order to increase the efficiency, it is equipped with a vibration exciter made in the form of a centrifugal unbalanced mechanism mounted on a pendulum load and connected to a source of mechanical energy, and the connection of the pendulum and the load mechanism is carried out using a controlled clutch.

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