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Double-row permanent magnet centripetal excitation rectangular open magnetic field type electromagnetic vibration table magnetic circuit structure with eddy current compensation

A technology of electromagnetic vibration and permanent magnets, applied in measuring devices, instruments, measuring ultrasonic/sonic/infrasonic waves, etc., can solve the problems of magnetic circuit influence, low coercive force of permanent magnets, limitation of magnetization effect, etc., and reduce eddy current loss The effect of solving thermal disturbance and thermal deformation, easy processing and assembly accuracy

Active Publication Date: 2015-08-19
HARBIN INST OF TECH
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AI Technical Summary

Problems solved by technology

[0005] The disadvantages of the above two technical solutions are: 1) the cylindrical outer yoke needs to be processed in the long inner dimension, which is difficult to process and difficult to guarantee the accuracy; 2) when the cylindrical permanent magnet is used, the through hole needs to be processed on the permanent magnet And it is fixed on the yoke by non-magnetic bolts, the assembly is complicated and will affect the magnetic circuit; when a cylindrical permanent magnet is used, it is difficult to sinter, process, magnetize and assemble a large-sized cylindrical permanent magnet; 3) The cylindrical outer yoke needs to be set on the central yoke. If the permanent magnet is magnetized first and then assembled, the assembly is very difficult and the assembly accuracy is difficult to guarantee; the permanent magnet of AlNiCo material can be assembled first and then magnetized. However, due to the low coercive force of the permanent magnet of the AlNiCo material, the magnetization effect is limited and the performance is not good, which seriously restricts the mechanical properties and indicators of the magnetic circuit structure.
[0007] The disadvantages of this technical solution are: 1) the entire magnetic circuit structure is composed of multiple structural combinations and splicing, and the structure is complex; the small permanent magnet needs to be installed on the wedge-shaped pole piece by gluing or other methods, which is complicated to assemble and difficult to ensure. Assembly accuracy; 2) The static magnetic induction intensity at a certain position in the air gap is directly related to the working point of the permanent magnet at that position, and the uniformity of the magnetic field in the entire air gap is difficult to guarantee, and the consistency of materials and processes for small permanent magnets is required Higher; 3) The permanent magnet directly faces the air gap, and the additional magnetic field generated after the working coil is energized will force it to be magnetized or demagnetized. When a large current is passed through the working coil, it is easy to cause irreversible demagnetization of the permanent magnet; 4) When the working coil is energized, the magnetic flux on one side of the coil increases and the magnetic flux on the other side decreases. Since the permanent magnet directly faces the air gap, the magnetic circuit on the side where the magnetic flux increases is easy to saturate. At this time, one side of the coil increases The magnetic flux of the coil is less than the reduced flux of the other side, resulting in a decrease in the average magnetic induction intensity at the position of the coil, which in turn distorts the generated standard vibration signal
However, there are various problems and deficiencies in the existing technologies. It is difficult to further improve the uniformity of the static magnetic induction intensity distribution in the air gap and the linearity index of the output electromagnetic driving force after the coil is energized.
[0009] There are three key issues: (1) The uniformity of the magnetic induction intensity distribution of the main magnetic circuit in the long air gap is difficult to guarantee
Before the coil is energized, the permanent magnet is excited to form the magnetic induction intensity distribution of the main magnetic circuit. With the increase of the stroke of the electromagnetic vibrating table, the problem of non-uniformity of the magnetic field in the long air gap becomes very prominent, which seriously restricts the output of the electromagnetic driving force after the coil is energized. linearity; some researchers try to compensate by adjusting the current waveform, but the effect is difficult to guarantee, especially for high-order magnetic field non-uniformity error compensation effect is poor, so far no truly effective and highly practical compensation has been proposed at home and abroad method
(2) The influence of the armature reaction after the working coil is energized
(3) It is difficult to process and assemble long yokes and large-size permanent magnets, and the accuracy is difficult to guarantee
[0011] In summary, restricted by the above problems, the standard low-frequency vibration produced by existing technical solutions is difficult to make breakthroughs in indicators such as waveform distortion, and it is difficult to meet the high-precision calibration of low-frequency / ultra-low-frequency vibration, especially the next generation with very low frequency and the need for vibration calibration of ultra-precise features

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  • Double-row permanent magnet centripetal excitation rectangular open magnetic field type electromagnetic vibration table magnetic circuit structure with eddy current compensation
  • Double-row permanent magnet centripetal excitation rectangular open magnetic field type electromagnetic vibration table magnetic circuit structure with eddy current compensation
  • Double-row permanent magnet centripetal excitation rectangular open magnetic field type electromagnetic vibration table magnetic circuit structure with eddy current compensation

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Embodiment Construction

[0038] The specific implementation manner of the present invention will be described in detail below with reference to the accompanying drawings, and examples will be given.

[0039] A magnetic circuit structure of an eddy current compensation double-row permanent magnet centripetal excitation rectangular open magnetic field type electromagnetic vibrating table, consisting of a central yoke 2, a permanent magnet 3, an outer yoke 4, an end yoke 5, a coil bobbin 6 and a working coil 8 The overall structure is axisymmetric. The cross sections of the central yoke 2, the permanent magnet 3, the outer yoke 4 and the end yoke 5 are all rectangular, and the cross section of the coil bobbin 6 is square-shaped. They are respectively rigidly connected with the two end yokes 5 to form a zigzag yoke structure. The central yoke 2 is installed on the long axis of the zigzag yoke structure, and the two ends are respectively rigidly connected with the two end yokes 5. The permanent magnet 3 Th...

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Abstract

The invention provides a double-row permanent magnet centripetal excitation rectangular open magnetic field type electromagnetic vibration table magnetic circuit structure with eddy current compensation, belonging to the field of vibration measurement technology. A rectangular open type magnetic field structure design is provided. Two rows of permanent magnets are symmetrically installed at the inner side of a long magnet yoke and face magnetic poles. Two symmetric closed magnetic circuits are formed by magnet yokes. The magnetic induction density distribution with high uniformity is generated in air gaps. After a working coil is energized, the working coil is affected by Lorentz force in a magnetic field, and precisely controllable electromagnetic drive force is generated. The surface of a center magnet yoke adjacent to the air gaps is provided with an array type micro structure in the form of deep trenches, and the eddy current loss can be effectively inhibited. According to the double-row permanent magnet centripetal excitation rectangular open magnetic field type electromagnetic vibration table magnetic circuit structure, large stroke, high magnetic field uniformity, high thrust and a linear electromagnetic driving force characteristic can be considered, and a high precision and large stroke electromagnetic vibration table magnetic circuit structure technical scheme is provided for low-frequency / ultra-low frequency vibration calibration.

Description

technical field [0001] The invention belongs to the technical field of vibration measurement, and mainly relates to a magnetic circuit structure of an eddy current compensation double-row permanent magnet centripetal excitation rectangular open magnetic field type electromagnetic vibrating table. Background technique [0002] The electromagnetic vibrating table that generates standard vibration signals is the key equipment for high-precision vibration calibration and an important part of the national vibration measurement technology system. The magnetic circuit structure is the core key component of the electromagnetic vibrating table. It is generally composed of a permanent magnet, a yoke, a coil skeleton and a working coil. The permanent magnet and the yoke form a magnetic circuit, which generates a highly uniform magnetic field distribution in the air gap. After the coil is energized, it is subjected to the Lorentz force in the magnetic field, thereby generating a precise...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01H17/00
Inventor 崔俊宁谭久彬何张强
Owner HARBIN INST OF TECH
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