KR101109158B1 - Ultrasonic transducer and ultrasonic bathe tub for leg - Google Patents

Abstract

The present invention relates to an ultrasonic vibrator and an ultrasonic footbather including the same, and provides an ultrasonic footbather equipped with an ultrasonic vibrator formed by attaching a disc-shaped vibrating element and a ring-shaped vibrating element. According to the present invention, the ultrasonic vibrator is designed in a disk-ring-type dual structure of the ultrasonic vibrator to adjust the appearance of the ultrasonic vibrator according to the use of the ultrasonic device when setting the frequency band of 60kHz ~ 100kHz suitable as a living ultrasonic device It can be effective. In addition, there is an effect that the user using the ultrasonic device can recognize the vibration or sound.

Description

ULTRASONIC TRANSDUCER AND ULTRASONIC BATHE TUB FOR LEG}

The present invention relates to an ultrasonic medical device, and more particularly, to an ultrasonic vibrator and an ultrasonic footbather including the same.

An ultrasonic vibrator is a device that generates ultrasonic waves by converting electrical energy into mechanical vibrations. The ultrasonic vibrator is generally composed of a vibrating element that generates ultrasonic waves and a metal vibrating plate that is connected to the vibrating element to radiate ultrasonic waves generated from the vibrating element. .

Figure 1 (a) is a view showing a cross-sectional view of the conventional ultrasonic vibrator 10, Figure 1 (b) is a view showing a cross section of A-A '. As described above, the ultrasonic vibrator includes a metal vibrating plate 12 and a mounting tube 13 connected thereto, and has a structure in which the vibrating element 11 is attached to the inside of the metal vibrating plate 12 in the mounting tube 13. Is done.

The ultrasonic vibrator is applied to industries such as ultrasonic humidifiers, ultrasonic stimulators, ultrasonic skin massagers, ultrasonic foot baths, industrial cleaners such as ultrasonic cleaners, ultrasonic welding machines, precision measuring sensors, etc.

Meanwhile, the foot bath is a device having a function to help foot fatigue and blood circulation by warming water with a built-in heater, and thus, by adding an ultrasonic vibrator to the foot bath, a medical effect such as disinfection and pain relief can be achieved.

In this way, the frequency of the MHz band has been used in the ultrasonic ultrasonic devices for medical or home use, such as ultrasonic footbath. However, the ultrasonic wave of the MHz band directly affects the microstructure, which increases the precision, but the amplitude is very weak, so it is difficult for the user to feel the sound or vibration even when the ultrasonic wave is generated. As a result, the user cannot recognize the fact that the ultrasonic wave is generated, and there is a problem in that the merchandise is inferior, such as distrust of the effect of the device or a mistake in the failure of the device.

In order to solve this problem, there is a product adopting low frequency of 20kHz ~ 40kHz band in bio ultrasonic devices produced in Europe, etc., but if the amplitude is not properly controlled, excessive stimulation may cause inconvenience to the user or damage to burns. Some questions have been raised.

In order to solve this problem, products in the frequency range of 60kHz to 100kHz can be used, but when the ultrasonic vibrator is simply configured by adjusting the diameter of the vibrating element, the outer shape of the vibrating element is limited to less than 30mm in diameter. Therefore, the ultrasonic vibrator used in the ultrasonic footbath to have a diameter of about 100mm has a problem that it is difficult to adjust the diameter of the appearance to fit the purpose of such an ultrasonic device.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and an object thereof is to set an ultrasonic band that is effective and applicable to a human body in an ultrasonic device for a living body and to adjust the appearance of the ultrasonic vibrator according to the use of the device.

In one aspect of the present invention, an ultrasonic vibrator is a disk-shaped vibration device for generating an ultrasonic vibration by receiving a current to achieve this object; A ring vibration device receiving ultrasonic current to generate ultrasonic vibration and having an inner diameter larger than that of the disk vibration device; And a metal vibration plate to which the disk-shaped vibration element and the ring-shaped vibration element are attached. Characterized in that it comprises a.

And the resonant frequency of the disk-shaped vibration element and the ring-shaped vibration element is characterized in that the same.

In addition, the diameter of the disk-shaped vibration device is characterized in that the same as the difference between the outer diameter and the inner diameter of the ring-shaped vibration device.

In addition, in order to achieve this object, in one aspect of the present invention, the ultrasonic footbath is a tank having an upper opening is accommodated space; A heating element mounted on the tank and provided to increase a temperature in the accommodation space; And an ultrasonic vibrator mounted on the tank to generate ultrasonic waves into the accommodation space. Including, the ultrasonic vibrator, a disk-shaped vibration device for generating an ultrasonic vibration by receiving a current; A ring vibration device receiving ultrasonic current to generate ultrasonic vibration and having an inner diameter larger than that of the disk vibration device; And a metal vibration plate to which the disk-shaped vibration element and the ring-shaped vibration element are attached. Characterized in that it comprises a.

And the resonant frequency of the disk-shaped vibration element and the ring-shaped vibration element is characterized in that the same.

In addition, the diameter of the disk-shaped vibration device is characterized in that the same as the difference between the outer diameter and the inner diameter of the ring-shaped vibration device.

Ultrasonic vibrator according to the present invention by designing the structure of the vibrating element in a dual structure of a disk-ring type, it is possible to adjust the appearance of the ultrasonic vibrator in accordance with the use of the ultrasonic device when setting the frequency band of 60kHz ~ 100kHz suitable as a biological ultrasonic device It has an effect. In addition, there is an effect that the user using the ultrasonic device can recognize the vibration or sound.

1 is a view showing a conventional ultrasonic vibrator.
2 is a view showing an ultrasonic vibrator according to the present invention.
3 is a view showing a footbath equipped with an ultrasonic vibrator according to the present invention.

Hereinafter, with reference to the accompanying drawings to be described in more detail with respect to the present invention will be described with reference to a preferred embodiment.

First Embodiment

Figure 2 (a) is a view showing a cross section of the ultrasonic vibrator according to the present invention, Figure 2 (b) is a view of the ultrasonic vibrator showing the cross-section of B-B 'in Figure 2 (a).

As shown in FIG. 2, the ultrasonic vibrator 100 according to the present invention includes a disk-shaped vibration device 110, a ring-shaped vibration device 120, a metal vibration plate 130, and a mounting tube 140.

The ultrasonic vibrator 100 is composed of a disk-shaped metal vibrating plate 130 and a mounting tube 140 connected therefrom, and the disk-shaped vibrating element 110 and the central portion in the metal vibrating plate 130 inside the mounting tube 140. In the periphery thereof, the ring-shaped vibration device 120 is disposed, and is composed of a dual vibration device.

The vibrating element is a driving means for generating vibration, and there are a piezoelectric element, an electrostrictive element and a magnetostrictive element. The vibration device has an inherent resonant frequency for mechanical vibration according to the properties of the material of the vibration device and generates an ultrasonic wave by vibrating by an applied current.

The vibration device according to the present invention is composed of a disk-shaped vibration device 110 and a ring-shaped vibration device 120. The ring vibration device 120 has an inner diameter larger than the diameter of the disk vibration device 110, and the ring vibration device 120 is disposed around the disk vibration device 110 so that the two vibration vibration devices 130 are one metal vibration plate 130. )

The metal vibrating plate 130 uses a material such as aluminum or stainless steel and amplifies the amplitude or emits heat generated by the vibration in the process of transmitting the vibration of the ultrasonic band generated from the vibration device. The metal vibrating plate 130 is bonded to the vibrating element and the adhesive or integrated using a bolt.

The mounting tube 140 extends from the metal vibrating plate 130 to serve as a cover for protecting the vibration device.

As described above, the resonant frequency of the vibrating element is influenced by its material, but is mainly determined by the shape. The following equation shows the relationship between the diameter of the disc-shaped vibrating element 110 and the resonant frequency.

In addition, the following equation is a formula showing the relationship between the diameter of the ring-shaped vibration device 120 and the resonance frequency.

Np is the frequency constant in the radial direction, D1 is the diameter of the disk-shaped vibration device 110, D3 is the outer diameter of the ring-shaped vibration device 120, D2 is the inner diameter of the ring-shaped vibration device 120, Fr is the resonance frequency Indicates.

The frequency constant is a value determined by the material of the piezoelectric vibrating element and has a value of about 1,800 to 2,400.

According to the embodiment of the present invention, the ultrasonic vibrator 100 is equipped with a disk-shaped vibration device 110 and a ring-shaped vibration device 120 on the metal vibration plate 130. When using one metal vibrating plate 130, the vibration elements attached to the metal vibrating plate 130 should all have the same resonance frequency. Therefore, the disk-shaped vibration device 110 and the ring-shaped vibration device 120, which are vibration devices according to the embodiment of the present invention, must have the same resonant frequency, and the diameter (D1) of the disk-shaped vibration device 110 and The value of the outer diameter D3-the inner diameter D2 of the ring-shaped vibration element 120 should have the same value.

If the value of the frequency constant is 2,000, if the diameter (D1) of the disk-shaped vibration device 110 is 30mm, the resonance frequency is 67kHz, in the case of the ring-shaped vibration device 120, the outer diameter (D3) 80mm, the inner diameter (D2) ) At 50mm, the frequency is 67kHz.

It is possible to make a wider vibrating element region by mounting around the ring-shaped vibrating element 120 having the same frequency and having a larger diameter in a single disc shaped vibrating element 110. Therefore, the metal vibrating plate 130 on which the vibrating element is mounted may have a diameter larger than that of the metal vibrating plate of the ultrasonic vibrator 10 of the prior art, and may be suitably used for an ultrasonic device using the ultrasonic vibrator 100. The size of the ultrasonic vibrator 100 may be adjusted.

In this case, the frequency constant is an approximate equation and may vary depending on the composition of the raw material, the thickness of the vibrating element, and the shape of the metal vibrating plate. Therefore, it is necessary to adjust the size of the ultrasonic vibrator in consideration of possible errors.

In addition, it is also possible to drive the disk-shaped vibrating element and the ring-shaped vibrating element at the same time or to drive both of them in turn.

Second Embodiment

3 is a view of the ultrasonic footbath 200 of the second embodiment according to the present invention. According to FIG. 3, the ultrasonic footbath 200 includes a heating element 210, a water tank 220, and an ultrasonic vibrator 100.

The water tank 220 is configured to have a height of approximately 15-18 cm so that the top is open and soaking feet sufficiently.

The heating element 210 is mounted to the water tank 220, and is made of nichrome wire or the like that generates heat in accordance with electrical resistance.

The ultrasonic vibrator 100 is mounted on the water tank 220 and serves to output ultrasonic waves. Since the ultrasonic vibrator has the same configuration as that of the ultrasonic vibrator 100 described in the first embodiment, description thereof will be omitted. .

The heating element 210 included in the water tank 220 allows the water filled in the water tank 220 to be heated or warmed to a predetermined temperature.

And, the ultrasonic vibrator 100 is formed with a screw thread (not shown) on the outer side of the mounting tube 140 and is fixedly coupled to the water tank 220 by a nut (not shown), thereby maintaining the water temperature by the output ultrasonic wave And the effect of foot pressure and blood circulation can be obtained.

Ultrasonic footbath 200 according to the present invention is equipped with an ultrasonic vibrator (100) consisting of a disk-ring-shaped vibration element equipped with a size of the shape of the ultrasonic vibrator (100) capable of sufficiently acupressure the user's foot human body of the user Ultrasonic waves can be delivered to the site smoothly, and the user can perceive vibration or sound.

As described above, the detailed description of the present invention has been made by the embodiments with reference to the accompanying drawings. However, since the above-described embodiments have only been described by way of example, the present invention is limited to the above embodiments. It is not to be understood that the scope of the present invention should be understood by the claims and equivalent concepts described below.

100: ultrasonic vibrator
110: disc-shaped oscillator
120: ring type oscillator
130: metal diaphragm
140: mounting pipe

Claims (6)

A disk-shaped vibration element that receives an electric current and generates ultrasonic vibration;
A ring vibration device receiving ultrasonic current to generate ultrasonic vibration and having an inner diameter larger than that of the disk vibration device; And
A metal vibration plate to which the disk-shaped vibration element and the ring-shaped vibration element are attached; Including,
Resonant frequency of the disk-shaped vibration element and the ring-shaped vibration element is characterized in that the same
Ultrasonic oscillator.
delete The method of claim 1,
The diameter of the disk-shaped vibration device is characterized in that the same as the difference between the outer diameter and the inner diameter of the ring-shaped vibration device
Ultrasonic oscillator.
A tank having an upper portion open to have a receiving space;
A heating element mounted on the tank and provided to increase a temperature in the accommodation space; And
An ultrasonic vibrator mounted on the tank to generate ultrasonic waves into the accommodation space; Including,
The ultrasonic vibrator,
A disk-shaped vibration element that receives an electric current and generates ultrasonic vibration;
A ring vibration device receiving ultrasonic current to generate ultrasonic vibration and having an inner diameter larger than that of the disk vibration device; And
A metal vibration plate to which the disk-shaped vibration element and the ring-shaped vibration element are attached; Including,
Resonant frequency of the disk-shaped vibration element and the ring-shaped vibration element is characterized in that
Ultrasonic footbath.
delete The method of claim 4, wherein
The diameter of the disk-shaped vibration device is characterized in that the same as the difference between the outer diameter and the inner diameter of the ring-shaped vibration device
Ultrasonic footbath.

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