RU2687796C1 - Drive of depth vibrator with flexible shaft - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: proposed device relates to vibration equipment, namely to deep vibrator with flexible shaft used in construction industry. Proposed device comprises motor at the end of the shaft of which the flywheel(s) is fixed – kinetic energy accumulator and flexible shaft to transfer rotary motion from electric motor to vortex. Electric motor is connected to electric power source and receives it via controlled control device with feedback, while alternatively using two types of energy – electrical and kinetic, each of which is converted into mechanical energy of rotation of its shaft at certain intervals during cyclic mode of automatic activation/deactivation of electric motor from electric power source.

EFFECT: saving electric power and possibility of multi-frequency operation of vibrator drive.

1 cl, 2 dwg

Description

Description of the invention

The proposed device relates to a vibration technique, namely to a deep vibrator with a flexible shaft, used in the construction industry.

Known in the construction industry deep vibrators with a flexible shaft for compacting concrete mixtures and in the production of concrete and reinforced concrete products [1, 2].

The main disadvantages of these devices include: single-frequency mode of the vibrations created by them and the uneconomical consumption of electrical energy.

As a prototype, a deep vibrator with a flexible shaft designed by the Yaroslavl Plant Krasny Mayak OJSC (RF) was chosen. An immersion vibrator is an electric motor, a vibrating tip that creates a vibration, and a flexible shaft that transmits a rotational movement from the electric motor to the vibrotip.

This device has the same disadvantages as described above for deep shaft vibrators with a flexible shaft.

The present invention is the creation of cost-effective multi-frequency drive vibrator with a flexible shaft.

The goal is to create an economical multi-frequency drive of a deep shaft vibrator with a flexible shaft, achieved through additional installation on the shaft of an electric motor - a kinetic energy storage device in the form of a flywheel (s), which is connected to a source of electrical energy through a feedback control device (UCOS), providing by means of the sensor measuring the angular velocity of the shaft cyclic mode of automatic switching on / off of the electric motor from the source of electrical energy, while the flywheel (s) in Modes off motor from the power supply maintains the rotation of its shaft with a reduction of the angular velocity in a predetermined frequency range by using the accumulated kinetic energy to them previously. Thus, the motor during its operation uses two types of energy - electric and kinetic, each of which is converted into mechanical energy of rotation of its shaft at certain time intervals during cyclic mode of automatic switching on / off of the electric motor from the source of electric energy.

The invention is illustrated by drawings.

FIG. 1 depicts an electric motor 1, on the shaft of which the flywheel (s) 2 is additionally attached. The vibrating tip 3 is connected to the electric motor via a flexible shaft 4. Sensor 5 transmits information to the ECU 6. Based on information received from the sensor, the ECU automatically disconnects or connects the motor to an electrical source energy. FIG. 2 shows some options for the modes of operation of the proposed device.

The device works as follows.

The electric motor is connected to the electric power source and goes to the nominal mode of operation with the shaft rotation frequency ω _nom , and the flywheel (s) at this time stores and stores the maximum amount of kinetic energy. UUsOS, having received information from the sensor on the achievement of the nominal shaft speed ω _{nom by the} electric motor, disconnects it from the source of electrical energy. After the motor was turned off, the rotation of its shaft is maintained by using the kinetic energy stored by the flywheels with a certain decrease in the angular velocity to the minimum value ω _min , as indicated by the sensor, during the time t _max . UOSOS again connects the motor to a source of electrical energy, and it goes to the nominal mode of operation with the frequency of rotation of the shaft ω _Mr. for the time t _TW . The described mode of operation of the electric motor is a cyclic t _cycle consisting of repeated periodic cycles, while providing electrical energy savings and multi-frequency drive operation in the frequency range ω _min ÷ ω _nom . Frequencies at which triggered UCOS are set in advance.

The technical result of the proposed device is the saving of electrical energy and the multi-frequency mode of operation of the drive of a deep vibrator with a flexible shaft.

Literature

1. Vibrating machines in construction and in the production of building materials. Directory. Edited by V.A. Bauman, I.I. Bykhovsky, B.G. Goldstein. Ed. Mechanical Engineering, Moscow 1970, pp. 91-98.

2. Mechanized tools, finishing machines and vibrators. Industry directory. Sixth edition. Moscow 1986. Pg. 336-338.

Claims (2)

1. The drive of a deep vibrator with a flexible shaft, containing an electric motor and a flexible shaft, transmitting rotational motion to the vibrotip, characterized in that the motor shaft is additionally fixed with a kinetic energy accumulator in the form of a flywheel, and the electric motor is connected to a source of electrical energy through a feedback control device ( UOSOS), providing through the sensor measuring the angular velocity of the shaft of the cyclic automatic on / off of the motor from the source ektricheskoy energy, the flywheel motor shutdown mode from the power supply maintains the rotation of its shaft with a reduction of the angular velocity in a predetermined frequency range by using the accumulated kinetic energy to them previously. 2. Drive submersible vibrator with a flexible shaft according to claim 1, characterized in that the drives of kinetic energy in the form of flywheels are fixed on both sides of the electric motor.

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