KR200249520Y1 - The structure of magnetostrictive materal for a continuans ultrasonic wave - Google Patents

Abstract

The present invention relates to a structure of a continuous ultrasonic magnetic distortion transducer, and more specifically, to fix the transducer formed integrally with the horn (horn) inside the main body, the cooling water inlet pipe and the cooling water discharge pipe on one side of the continuous cooling water Due to the supply, it is possible to reduce the temperature rise due to the continuous wave driving of the transducer and also to perform sterilization, emulsion, fuel reforming welding, welding, sewing, washing, etc. by the continuous wave radiated from the tip of the continuous ultrasonic magnetic distortion transducer. By providing an ultrasonic transducer, it is possible to improve the product quality and save energy by supplementing the shortcomings of piezoelectric elements with the feature that can be widely used in many fields.

Description

The structure of magnetostrictive materal for a continuans ultrasonic wave

The present invention relates to a structure of a continuous ultrasonic magnetic distortion transducer, and more specifically, to fix the transducer formed integrally with the horn (horn) inside the main body, the cooling water inlet pipe and the cooling water discharge pipe on one side of the continuous cooling water The present invention relates to a device for a continuous ultrasonic magnetic distortion converter that can reduce the temperature rise due to the continuous wave drive of the converter.

In general, there are methods of using ultrasonic waves such as pulse wave (acoustic power 0.5 ~ 1.5W) and continuous wave (average output 0.6 ~ 4KW). Among them, the use of ultrasonic wave of the magnetic distortion converter has been limited to the pulse wave. Use has not been used so far.

In addition, due to technical limitations such as the limitation of the use temperature of the wound wire and the Curie point (the limit temperature of the magnetic distortion conversion) due to the temperature rise due to continuous wave driving, and the measures to minimize the energy loss of the ultrasonic wave, There is no technique for using continuous waves in a magnetic distortion converter.

Ultrasonic waves may be in the form of longitudinal waves, such as sound waves propagating in the air, or transverse or shear waves in solids, and some of the ultrasonic waves travel along the cutting plane of objects such as Rayleigh waves and thin rods that travel along the solid surface. It is divided into lamb waves.

In addition, there are various methods of generating and detecting the ultrasonic waves, and the most widely used ones are magnetostrictive transducers or piezoelectric transducers, which convert high frequency alternating magnetic fields or currents into mechanical vibrations.

In addition, the ultrasonic waves are classified into high power and low power ultrasonic waves according to whether or not they cause deformation in the medium, and the ultrasonic high power application is used for ultrasonic welding, ultrasonic drilling ultrasonic irradiation, and the like.

The low power of ultrasound is used in sonar devices used for underwater detection and navigation, and the identification and mapping of the seabed shape and components. In addition, low power ultrasound is used instead of X-rays in non-destructive testing and medicine.

Therefore, various types of ultrasonic generators for descaling and other apparatuses have been developed and used using ultrasonic waves having such properties.

As the prior art as described above, the 'Ultrasonic transducer of the anti-scale device' of the utility model registration application No. 98-15907 and the utility model registration application No. 98-15908 of the present application and the utility model It is also described in the ultrasonic pipe distortion prevention device of the registered application No. 98-15909, and the ultrasonic magnetic distortion transducer for the thin plate of Utility Model Registration No. 2000-21877.

However, the conventional technique of using the ultrasonic wave of the conventional magnetic distortion converter has been limited to the pulse wave, and the technique of using the magnetic distortion transducer using the continuous wave has not been put to practical use yet. There is this.

The present invention has been made to solve the conventional problems as described above, by first emitting a continuous ultrasonic wave generated at the tip of the magnetic distortion transducer can be sterilized emulsion, fuel reforming, welding, welding, sewing, cleaning, etc. of the product. Its purpose is to provide a converter for continuous waves.

In order to achieve the above object, a coolant inlet tube and a coolant outlet tube are formed in the magnetic distortion transducer to allow the coolant to flow outside of the magnetic distortion transducer. The present invention relates to a structure of a continuous ultrasonic magnetic distortion converter capable of solving problems of limitations of use temperature, limitation of use time, and easy breakage of piezoelectric elements by minimizing the loss of ultrasonic wave by minimizing the ultrasonic energy by packing the vibration energy.

1 is a cross-sectional view of a transducer constructed by one embodiment of the present invention

Figure 2 is an assembled perspective view of the main part of the transducer of the present invention

3 is a work flow diagram of the state that the main portion of the present invention is attached and operating

Explanation of symbols on the main parts of the drawings

10. Main unit 11.Cooling water inlet pipe

12. Coolant outlet line 13. Packing

14. Transducer 15. Ultrasonic Generator

16. Horn 17. Electrical wiring

18. Fastening nut 19. Teflon packing

The present invention first secures the continuous ultrasonic magnetic distortion transducer inside the cylinder body 10, and forms a coolant inlet tube 11 and a coolant discharge tube 12 on one side of the cylinder body 10 to continuously outside the transducer. The cooling water was configured to flow.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a cooling apparatus constructed by one embodiment of the present invention, Figure 2 is a cross-sectional view of the converter which is the main part of the present invention, Figure 3 is a state diagram of the present invention.

As shown in FIG. 1, a transducer 14 and a horn 16 connected to the ultrasonic generator 15 are integrally formed inside the main body 10.

The frequency wavelength of the continuous ultrasonic waves generated by the ultrasonic generator 15 is converted into vibration energy through a horn 16.

In this situation, while the power is supplied to the wire 20 wound around the converter 14, the temperature inside the main body 10 is rapidly increased.

At this time, the coolant inlet pipe 11 assembled at one side of the main body 10 is evenly formed around the wire 20 wound on the transducer 14.

In addition, the coolant is continuously introduced through the coolant inlet pipe 11, and the high temperature generated by the converter 14 can be adjusted while exiting through the coolant discharge pipe 12 again.

On the other hand, the sealing for preventing the leakage of the cooling water is assembled to one side of the main body 10 in a state in which the diameter of the horn (horn) is enlarged at a narrow interval to minimize the ultrasonic vibration energy in accordance with the wavelength of the ultrasonic frequency. It was configured to minimize the loss of ultrasonic wave by blocking with packing.

Therefore, it is possible to deal with the limit of the use temperature of the piezoelectric element, the limitation and the use time of the piezoelectric element, and the problem of product life by the continuous ultrasonic magnetic distortion converter.

Referring to the operation and effects of the present invention made of the above configuration as follows.

First, the transducer 14 connected to the ultrasonic generator 15 is fixed inside the main body 10, and the main body 10 is filled with cooling water.

The coolant is introduced into the coolant inlet pipe 11 assembled at one side of the main body 10 to be discharged to the outside through the coolant discharge pipe 12.

In this situation, the role of the cooling water is that the horn is raised to a high temperature while power is supplied to the wires connected to the ultrasonic generator 15 so that it can always be maintained at a proper temperature.

At this time, the frequency wavelength of the continuous ultrasonic waves generated by the ultrasonic generator 15 is converted into vibration energy through the horn 16 to radiate.

That is, the length of the horn integrally formed with the transducer 14 fixed to the main body 10 according to the working conditions may be adjusted by using the fastening nut 18 and the packing 13, In addition, after the horn (horn) is enlarged at a narrow interval to the portion where the vibration energy of the ultrasonic wave is minimized in accordance with the wavelength of the ultrasonic frequency, assembled on one side of the main body 10, the cooling water using the same member as the packing By preventing the leakage of the ultrasonic wave to minimize the loss of the piezoelectric element has a limit of the operating temperature and the use of time constraints.

Therefore, the continuous ultrasonic waves generated in the transformant can be more efficiently radiated to the target body in connection with the sterilization, emulsion, fuel reforming, welding, welding, sewing, washing, etc. of the product by radiating the continuous ultrasonic waves.

The present invention described above is possible to those skilled in the art to which the present invention belongs to various modifications and changes can be made within the scope without departing from the technical spirit of the present invention in the foregoing embodiments and the accompanying drawings. It is not limited.

The present invention as described above is fixed in the main body of the transducer (horn) connected to the ultrasonic generator to emit a continuous ultrasonic wave, so in many fields such as sterilization, emulsion, fuel reforming, welding, welding, sewing, cleaning of the product Along with the widely used features, it is possible to compensate for the shortcomings of piezoelectric elements and to improve product quality and save energy.

Claims (1)

In the conventional ultrasonic transducer for radiating the ultrasonic wave generated by the transducer and the transducer connected to the ultrasonic generator to the target body, After forming a coolant inlet tube and a coolant discharge tube on one side of the main body to allow the coolant to flow outside of the transducer, in order to prevent leakage of the coolant, the horn portion is assembled on one side of the main body to minimize the vibration energy of the ultrasonic wave, The structure of the continuous ultrasonic magnetic distortion transducer, characterized by sealing the packing to prevent the leakage of cooling water and to minimize the loss of ultrasonic waves