Ultrasonic Phased Array Transducer Device with Two-Dimensional Hinge Array Structure

Abstract

An ultrasonic phased array transducer device with a two-dimensional hinge array structure belongs to equipment in the technical field of ultrasonic detection. A connecting rod is fixedly connected to a fixed support and a two-dimensional hinge array respectively. Voice coil motors are symmetrically arranged in a shape of the British Union Jack with the connecting rod as a center, and are fixedly connected to the fixed support. Force output rods are respectively connected to voice coil motor coils and the upper surfaces of array units. Piezoelectric array elements are fixedly connected to the lower surfaces of all the array units. The numbers of the voice coil motors and the force output rods are 2N (N=4, 8, 12, 16, 20), the number of the piezoelectric array elements is 2N+1, and different N values are selected according to the sizes of workpieces to be detected. In the disclosure, by adjusting the current of each voice coil motor coil, the corresponding force output rod generates displacement to drive the two-dimensional hinge array unit to generate displacement, so as to push out and retract the hinge array unit and the piezoelectric array element fixedly connected below and drive the two-dimensional hinge array to generate deformation, so that the piezoelectric array elements fully fit with the surface of the workpiece to be detected. The disclosure can be applied to detection of the workpieces to be detected with flat surfaces, curved surfaces or spherical surfaces.

Claims

1. An ultrasonic phased array transducer device, comprising a two-dimensional hinge array structure, wherein one end of a connecting rod (5b) is fixedly connected to a center position of a fixed support base (5a), and the other end is connected to a center array unit of a two-dimensional hinge array (2); wherein voice coil motors (4) are symmetrically arranged in a shape of British Union Jack with the connecting rod (5b) as a center, and are fixedly connected to the fixed support base (5a); wherein one end of each of force output rods (3) is connected to a voice coil motor coil (4a), and the other end is connected to an upper surface of the array unit of the two-dimensional hinge array (2); wherein piezoelectric array elements (1) are fixedly connected to lower surfaces of all units of the two-dimensional hinge array (2); wherein according to a curvature of a surface of a workpiece to be detected, currents in the voice coil motor coils (4a) are separately controlled to make the voice coil motor coils (4a) subject to an action of a magnetic field force, so as to drive the force output rods (3) to move to generate displacement and drive the two-dimensional hinge array (2) to generate deformation, and finally, the piezoelectric array elements (1) fully fit with the surface of the workpiece to be detected; and wherein after detection, the currents in the voice coil motor coils (4a) are reversed, the magnetic field force acting on the voice coil motor coils (4a) is reversed, and the force output rods (3) drive the two-dimensional hinge array (2) and the piezoelectric array elements (1) back to initial positions for next detection.

Description

BRIEF DESCRIPTION OF FIGURES

[0009] FIG. 1 is a schematic structural diagram of an ultrasonic phased array transducer with a two-dimensional hinge array structure.

[0010] FIG. 2 is a schematic structural diagram of a voice coil motor.

[0011] FIG. 3 is a schematic structural diagram of a fixed support.

[0012] In the figures: 1 denotes a piezoelectric array element, 2 denotes a two-dimensional hinge array, 3 denotes a force output rod, 4 denotes a voice coil motor, 4a denotes a voice coil motor coil, 4b denotes a voice coil motor magnetic cylinder, 5 denotes a fixed support, 5a denotes a fixed support base, and 5b denotes a fixed support connecting rod.

DETAILED DESCRIPTION

[0013] The disclosure will be further described in detail below with reference to the drawings: In an ultrasonic phased array transducer device with a two-dimensional hinge array structure, one end of a connecting rod 5b is fixedly connected to the center position of a fixed support base 5a, and the other end is connected to a center array unit of a two-dimensional hinge array 2. Voice coil motors 4 are symmetrically arranged in a shape of the British Union Jack with the connecting rod 5b as a center, and are fixedly connected to the fixed support base 5a. One end of each of force output rods 3 is connected to a voice coil motor coil 4a, and the other end is connected to the upper surface of the array unit of the two-dimensional hinge array 2. Piezoelectric array elements 1 are fixedly connected to the lower surfaces of all the units of the two-dimensional hinge array 2. According to the curvature of the surface of a workpiece to be detected, currents in the voice coil motor coils 4a are respectively controlled to make the voice coil motor coils 4a subject to the action of a magnetic field force, so as to drive the force output rods 3 to move to generate displacement and drive the two-dimensional hinge array 2 to generate deformation, and finally, the piezoelectric array elements 1 fully fit with the surface of the workpiece to be detected. After the detection, the currents in the voice coil motor coils 4a are reversed, the magnetic field force acting on the voice coil motor coils 4a is reversed, and the force output rods 3 drive the two-dimensional hinge array 2 and the piezoelectric array elements 1 back to initial positions for the next detection.