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A Climbing Rod Actuator Using Alternate Self-locking Isosceles Trapezoidal Arrangement

A technology of isosceles trapezoid and actuator, applied in the direction of piezoelectric effect/electrostriction or magnetostriction motor, generator/motor, electrical components, etc., can solve problems such as difficult to achieve stroke and thrust and two-way movement

Inactive Publication Date: 2020-02-14
NANJING UNIV OF AERONAUTICS & ASTRONAUTICS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The purpose of the present invention is to design a climbing rod actuator that uses alternate self-locking and isosceles trapezoidal arrangement to meet the needs of large thrust, two-way motion and trip requirements

Method used

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  • A Climbing Rod Actuator Using Alternate Self-locking Isosceles Trapezoidal Arrangement
  • A Climbing Rod Actuator Using Alternate Self-locking Isosceles Trapezoidal Arrangement
  • A Climbing Rod Actuator Using Alternate Self-locking Isosceles Trapezoidal Arrangement

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Embodiment Construction

[0023] The following structural drawings and embodiments further illustrate the present invention.

[0024] Such as Figure 1-3 Shown.

[0025] A climbing rod actuator arranged in an isosceles trapezoid with alternate self-locking. It includes a base 1, a sliding rod 2, an upper mover 8 ( image 3 ), the lower mover 5, the left oblique driving leg 6, the right oblique driving leg 7, the upper pressing plate 9, the lower pressing plate 4, the upper pressing wheel 10 and the lower pressing wheel 3; the cross section of the sliding rod 2 can be either shaped or It has a circular structure, and the middle inner holes of the upper mover 8 and the lower mover 5 should also have a matching square or round structure. If necessary, a roller can be installed on the base 1 to facilitate movement. The left oblique driving leg 6 and the right oblique driving leg 7 should be made of piezoelectric stacked piezoelectric ceramics or magnetostrictive materials that can provide a large telescopic di...

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Abstract

The present invention discloses a climbing rod actuator in an isosceles trapezoidal arrangement using alternating self-locking, and is characterized in that: a base is fixedly connected with a slidingrod, an upper rotor and a lower rotor are sleeved on the sliding rod, two arc surfaces of the upper rotor and the lower rotor inner holes are respectively in contact with the sliding rod, hinges of the upper rotor and the lower rotor coordinate with rotating shafts of an upper rotating shaft and a lower rotating shaft, and the upper rotor and the lower rotor are connected through the two sets ofrotating shafts, left oblique driving legs, right oblique driving legs, piezoelectric ceramic pre-tightening bolts and piezoelectric ceramic pre-tightening nuts, a upper pressing plate and a lower pressing plate are fixed through the upper rotor and the lower rotor through screws, pressure rollers and the pressure plates are connected through pin shafts, and outer edge of the pressure roller is elastic rubber, and the pressure rollers are suitable in size therefore can have a certain contact pressure with the sliding rod. The climbing rod actuator only needs to arrange the driving legs withinthe self-locking zone of the rotors, to realise alternating self-locking, therefore has low processing requirements. The climbing rod actuator is expected to achieve large pushing force, theoretically, as long as strength is sufficient, the piezoelectric actuator can have same amount of force with amount of force of the driving legs. Although self-locking is utilized, the actuator can achieve two-way motion.

Description

Technical field [0001] The invention belongs to the field of ultrasonic motors, and particularly relates to a climbing rod actuator arranged in an isosceles trapezoid with alternate self-locking. Background technique [0002] In recent decades, due to the development of piezoelectric ceramic preparation technology, the ultrasonic piezoelectric actuator proposed nearly a hundred years ago has been developed rapidly. Ultrasonic motors break through the concept of traditional motors, without magnets and windings, and do not rely on electromagnetic induction to transfer energy. It uses the inverse piezoelectric effect of piezoelectric ceramics, through the conversion and coupling of piezoelectric ceramic's stretching vibration mode and the design of special structures, the microscopic deformation of the material is converted into the macroscopic motion of the rotor through resonance amplification and friction coupling. Ultrasonic piezoelectric actuator has the characteristics of low...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02N2/00H02N2/02H02N2/04H02N2/06
CPCH02N2/0005H02N2/025H02N2/043H02N2/06
Inventor 杨建林孙志峻彭瀚旻王均山金家楣
Owner NANJING UNIV OF AERONAUTICS & ASTRONAUTICS
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