KR20130125502A - Ultrasonic massager - Google Patents

Abstract

The ceramic vibrator head device for ultrasonic massage according to the present invention includes a ceramic vibrator head in which an ultrasonic vibrator is embedded at the bottom of the printed circuit board at a head binding portion of the ultrasonic massager, and between the bottom of the printed circuit board and the ultrasonic vibrator. The conical coil spring is installed, and the terminal line (electric line) of one side fixed to the ultrasonic vibrator is drawn out to the upper side of the printed circuit board through the terminal line drawing hole drilled in the printed circuit board, and the ceramic vibrator head and the printed circuit board are removed. It is integrally mounted by a mounting means, and forms an upper center contact point on the printed circuit board, and a central portion of a conical coil spring installed on an upper side of the ultrasonic vibrator is located below the printed circuit board at the upper center contact point. Multi-terminal terminals should be connected to the upper center contact exposed to the upper side of the circuit board. And to the printed circuit so that the upper side center contact is connected (mounted) to a conical coil spring electrically connected to the terminal lines through the central point of the top of the upper by means mounting the upper end of the conical coil spring from the bottom of the substrate.
According to the present invention, the ceramic oscillator head and the printed circuit board can be easily coupled by mounting the ceramic oscillator head and the printed circuit board integrally by mounting means (adhesive or mounting bolts). It is possible to prevent the shape from being separated or separated, and the coil spring is elastically contacted with the upper side of the ultrasonic element, but is mounted (fixed) to the upper center contact fixed to the printed circuit board by means of mounting means. It can be utilized as an electrode (+), and by connecting the terminal line to the upper center contact point, it is possible to easily connect the terminal line, and to prevent the short circuit of the terminal line connected to the upper center contact point by vibration. In addition, manufacturing time can be shortened and productivity can be improved.
In addition, the ultrasonic massage device provided with a ceramic vibrator head device for ultrasonic massage according to the present invention, the ceramic vibrator head device is installed in the head binding unit formed integrally on the upper end of the ultrasonic massage main body, the binding groove is formed on the inner peripheral surface of the head binding unit ceramic The flange formed in the ceramic vibrator head of the vibrator head unit is mounted by binding to the binding groove, or by screwing the binding cap to the tip of the head binding part, the flange formed on the ceramic vibrator head is detained between the tip of the head binding part and the binding cap. Mounted, characterized in that a plurality of heat radiation holes are drilled in the head binding portion.
The ultrasonic massager provided with a ceramic vibrator head device for an ultrasonic massage according to the present invention, by forming a binding groove on the inner peripheral surface of the head binding unit by mounting the flange formed in the ceramic oscillator head of the ceramic oscillator head device to the binding groove or the head binding unit By screwing the binding cap to the tip, the flange formed on the ceramic vibrator head is mounted between the tip of the head binding section and the binding cap, so that the ceramic oscillator head device can be easily installed and a plurality of heat radiating holes drilled in the head binding part. Through this, the cooling effect can be improved by releasing the heat generated from the ultrasonic vibrator and the electronic device (component) installed in the printed circuit board to the outside.

Description

Ultrasonic Massager with Ceramic Oscillator Head Device for Ultrasonic Massage and Ceramic Oscillator Head Device for Ultrasonic Massage {Ultrasonic Massager}

The present invention provides an ultrasonic massager equipped with a ceramic vibrator head device for ultrasonic massage and a ceramic vibrator head device for ultrasonic massage for electrically connecting a circuit board and terminals of an ultrasonic vibrator mounted on the bottom of the ultrasonic massager manufactured using an ultrasonic vibrator. It is about.

More specifically, the head of the ultrasonic massager is equipped with a ceramic vibrator head in which the ultrasonic vibrator is embedded on the bottom of the printed circuit board, and a conical coil spring is installed between the bottom of the printed circuit board and the ultrasonic vibrator. The terminal line (electric line) of one side fixed to the ultrasonic vibrator is drawn out to the upper side of the printed circuit board through the terminal line drawing hole drilled in the printed circuit board, and the ceramic vibrator head and the printed circuit board are integrated by the mounting means. And a top center contact point formed on the printed circuit board, and a central portion of a conical coil spring installed on an upper side of an ultrasonic vibrator is positioned below the printed circuit board at the top center contact point, and is exposed to an upper side of the printed circuit board. The upper terminal contact point is connected to the terminal line of the multiple side, and the On the upper center contact point, the upper end of the conical coil spring is connected (mounted) by a mounting means, so that the upper end of the conical coil spring is electrically connected to the terminal line through the upper middle contact point and the ceramic vibrator head device for the ultrasonic wave and the ultrasonic wave. To provide an ultrasonic massager with a ceramic vibrator head device for massage.

In another aspect, the present invention, while the ceramic oscillator head device is provided in the head binding unit integrally formed on the upper end of the ultrasonic massage body, the binding groove is formed on the inner circumferential surface of the head binding unit to bind the flange formed on the ceramic oscillator head of the ceramic oscillator head device. The flange formed on the ceramic oscillator head between the tip of the head binding part and the binding cap by screwing the binding cap to the distal end of the head binding part, and a plurality of heat radiating holes are drilled through the head binding part. It is to provide an ultrasonic massager equipped with a ceramic oscillator head device for a semi-ultrasound massage.

As is generally known, ultrasonic massagers and ultrasonic physiotherapy machines use low-frequency, low- and low-frequency waves, ultrasonic waves, lasers, etc., to perform physical therapy on various blood vessels or pain areas of the human body. It is a device that improves health and relieves various pains by applying stimulation.

In one medicine, blood donation refers to an energy source that supplies energy to the books.

It is known that the circulation path of such a blood circulation is a meridians, a phase circulates in awe, and a blood circulation circulates in a premise.

When physical function is deteriorated or pain is caused by circulatory impairment of each blood donation, various physical therapy apparatuses (ultrasound massager and ultrasonic physics) are provided to stimulate the blood donation to improve the function of the body and to relieve pain and to promote health. Treatment stages and the like have been proposed.

In particular, the physiotherapy apparatus provides microcurrent or heat of ultrasound, laser, medium and low frequency, and the physiotherapy apparatus physically treats or alleviates the pain of an unspecified part of the human body.

Conventional physiotherapy apparatus using ultrasonic wave or laser is made of metal material, so when the electrical stimulation by micro current is received for a long time, a phenomenon occurs that causes pain or discomfort. There is a contradiction that the manufacturing cost rises due to the decrease in productivity due to the work of drilling the fastening hole and the work of plating the surface.

In particular, since the head is metal plated, the plating may be peeled off when used for a long time, and skin trouble and allergy phenomenon (itching, etc.) may occur on the plated part, and micro-vibration may cause poor contact of the ultrasonic vibrator terminal. It was.

As a typical representative of the ultrasonic physiotherapy device, the head device of the ultrasonic and laser treatment device using ceramics is known in Korean Laid-Open Patent Publication No. 10-2009-84522.

The ultrasonic element is embedded in the inner surface of the ceramic cap formed of piezoelectric ceramics to be fixed to the bottom of the printed circuit board, and the coil spring provided in the ultrasonic element is installed on the bottom of the printed circuit board. It is made by pulling the terminal line (-) fixed to the ultrasonic element to the upper side of the printed circuit board through the guide hole penetrated through the printed circuit board.

However, since the coil spring is elastically in contact with the upper side of the ultrasonic element, there is a hassle to connect the electrode (+) formed on the upper surface of the ultrasonic element with a separate terminal line, which is a lot of manufacturing time and productivity Falls.

The present invention is to provide an ultrasonic massager equipped with an improved ceramic vibrator head device for ultrasonic massage and a ceramic vibrator head device for ultrasonic massage.

According to the present invention, a head of the ultrasonic massager is mounted with a ceramic vibrator head in which an ultrasonic vibrator is embedded at the bottom of the printed circuit board, and a conical coil spring is installed between the bottom of the printed circuit board and the ultrasonic vibrator. The terminal line (electric line) of one side fixed to the vibrator is drawn out to the upper side of the printed circuit board through the terminal line drawing hole drilled in the printed circuit board, and the ceramic vibrator head and the printed circuit board are integrally mounted by the mounting means. An upper center contact is formed on the printed circuit board, and a central portion of a conical coil spring installed on an upper side of an ultrasonic vibrator is positioned below the printed circuit board at the upper center contact, and is exposed to an upper side of the printed circuit board. The terminal line of multiple side is connected to the contact point, and the upper center of the printed circuit board A ceramic vibrator head device for ultrasonic massage and a ceramic vibrator head device in which the upper end of the conical coil spring is connected (mounted) by a mounting means so that the upper end of the conical coil spring is electrically connected to the terminal line through an upper center contact. An object of the present invention is to provide an ultrasonic massager.

The ceramic vibrator head device for ultrasonic massage according to the present invention can be easily combined with the ceramic vibrator head and the printed circuit board by mounting the ceramic vibrator head and the printed circuit board integrally by mounting means (glue or mounting bolt). In addition, it is possible to prevent the ceramic oscillator head and the printed circuit board from being separated or separated.

In addition, the ceramic vibrator head device for ultrasonic massage according to the present invention, the coil spring is elastically in contact with the upper side of the ultrasonic element, but is mounted (fixed) by the mounting means on the upper center contact fixed to the printed circuit board by the mounting means It can be used as an electrode (+) of an ultrasonic element, and the terminal line can be easily connected by connecting the terminal line to the upper middle contact point, and the terminal line connected to the upper middle contact point is prevented from being shorted by vibration. In addition, it can shorten manufacturing time and improve productivity.

In another aspect, the present invention, while the ceramic oscillator head device is provided in the head binding unit integrally formed on the upper end of the ultrasonic massage body, the binding groove is formed on the inner circumferential surface of the head binding unit to bind the flange formed on the ceramic oscillator head of the ceramic oscillator head device. The flange formed on the ceramic oscillator head between the tip of the head binding part and the binding cap by screwing the binding cap to the distal end of the head binding part, and a plurality of heat radiating holes are drilled through the head binding part. Another object is to provide an ultrasonic massager equipped with a ceramic oscillator head device for a semi-ultrasound massage.

The ultrasonic massager provided with a ceramic vibrator head device for an ultrasonic massage according to the present invention, by forming a binding groove on the inner peripheral surface of the head binding unit by mounting the flange formed in the ceramic oscillator head of the ceramic oscillator head device to the binding groove or the head binding unit By screwing the binding cap to the tip, the flange formed on the ceramic vibrator head is mounted between the tip of the head binding section and the binding cap, so that the ceramic oscillator head device can be easily installed and a plurality of heat radiating holes drilled in the head binding part. The heat generated by the ultrasonic vibrator and the printed circuit board may be released to the outside and cooled.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects,

According to the present invention, a head of the ultrasonic massager is mounted with a ceramic vibrator head in which an ultrasonic vibrator is embedded at the bottom of the printed circuit board, and a conical coil spring is installed between the bottom of the printed circuit board and the ultrasonic vibrator. 1. A terminal line (electric line) of one side fixed to the vibrator is drawn out to an upper side of the printed circuit board through a terminal line drawing hole formed in the printed circuit board;

Integrally mounting the ceramic oscillator head and the printed circuit board by mounting means;

An upper center contact is formed on the printed circuit board, and multiple terminal lines are connected to an upper center contact exposed to the upper side of the printed circuit board;

A central portion of the conical coil spring installed above the ultrasonic vibrator at the lower side of the printed circuit board at the upper center contact point;

An upper end of the conical coil spring is connected (mounted) by a mounting means to an upper center contact at the bottom of the printed circuit board so that the upper end of the conical coil spring is electrically connected to the terminal line through the upper center contact; Is achieved by the ceramic vibrator head device (1) for ultrasonic massage.

Other and further objects,

In the ceramic vibrator head unit is provided in the head binding unit formed integrally with the upper end of the ultrasonic massage base body;

A binding groove is formed on the inner circumferential surface of the head binding unit so that the flange formed on the ceramic oscillator head of the ceramic oscillator head device is coupled to the binding groove, or the coupling cap is screwed to the distal end of the head coupling unit so that the front end and the binding cap Detained and mounted a flange formed in the ceramic oscillator head between the gaps;

The head binding unit is achieved by the ultrasonic massager 100 is provided with a ceramic vibrator head device for ultrasonic massage, characterized in that a plurality of heat radiation holes are drilled.

The ceramic vibrator head device for ultrasonic massage according to the present invention includes a ceramic vibrator head in which an ultrasonic vibrator is embedded at the bottom of the printed circuit board at a head binding portion of the ultrasonic massager, and between the bottom of the printed circuit board and the ultrasonic vibrator. The conical coil spring is installed, and the terminal line (electric line) of one side fixed to the ultrasonic vibrator is drawn out to the upper side of the printed circuit board through the terminal line drawing hole drilled in the printed circuit board, and the ceramic vibrator head and the printed circuit board are removed. It is integrally mounted by a mounting means, and forms an upper center contact point on the printed circuit board, and a central portion of a conical coil spring installed on an upper side of the ultrasonic vibrator is located below the printed circuit board at the upper center contact point. Multi-terminal terminals should be connected to the upper center contact exposed to the upper side of the circuit board. And to the printed circuit so that the upper side center contact is connected (mounted) to a conical coil spring electrically connected to the terminal lines through the central point of the top of the upper by means mounting the upper end of the conical coil spring from the bottom of the substrate.

According to the present invention, the ceramic oscillator head and the printed circuit board can be easily coupled by mounting the ceramic oscillator head and the printed circuit board integrally by mounting means (adhesive or mounting bolts). It is possible to prevent the shape from being separated or separated, and the coil spring is elastically contacted with the upper side of the ultrasonic element, but is mounted (fixed) to the upper center contact fixed to the printed circuit board by means of mounting means. It can be utilized as an electrode (+), and by connecting the terminal line to the upper center contact point, it is possible to easily connect the terminal line, and to prevent the short circuit of the terminal line connected to the upper center contact point by vibration. In addition, manufacturing time can be shortened and productivity can be improved.

In addition, the ultrasonic massage device provided with a ceramic vibrator head device for ultrasonic massage in accordance with the present invention, the ceramic vibrator head device is installed in the head binding unit integrally formed on the upper end of the ultrasonic massage main body, by forming a binding groove on the inner peripheral surface of the head binding unit ceramic The flange formed in the ceramic vibrator head of the vibrator head unit is mounted by binding to the binding groove, or by screwing the binding cap to the tip of the head binding part, the flange formed on the ceramic vibrator head is detained between the tip of the head binding part and the binding cap. Mounted, characterized in that a plurality of heat radiation holes are drilled in the head binding portion.

The ultrasonic massager provided with a ceramic vibrator head device for an ultrasonic massage according to the present invention, by forming a binding groove on the inner peripheral surface of the head binding unit by mounting the flange formed in the ceramic oscillator head of the ceramic oscillator head device to the binding groove or the head binding unit By screwing the binding cap to the tip, the flange formed on the ceramic vibrator head is mounted between the tip of the head binding section and the binding cap, so that the ceramic oscillator head device can be easily installed and a plurality of heat radiating holes drilled in the head binding part. Through this, the cooling effect can be improved by releasing the heat generated from the ultrasonic vibrator and the electronic device (component) installed in the printed circuit board to the outside.

1A and 1B are exploded perspective views showing an example of a ceramic vibrator head device for ultrasonic massage according to the present invention, and a cross-sectional view of the state installed in the ultrasonic massager.
Figure 2a and Figure 2b is an exploded perspective view and a cross-sectional view of a state installed in the ultrasonic massager showing another embodiment of the ceramic vibrator head device for ultrasonic massage according to the present invention.
Figure 3a and Figure 3b is a cross-sectional view showing another ultrasonic massager is installed ceramic vibrator head device for ultrasonic massage in accordance with the present invention.
Figures 4a and 4b and 5a and 5b is a cross-sectional view showing yet another embodiment of the ceramic vibrator head device for ultrasonic massage in accordance with the present invention.

These and other objects and features of the present invention will be more clearly understood from the following detailed description based on the accompanying drawings.

1A to 5B show a concrete implementation of the ceramic vibrator head device 1 for an ultrasonic massage according to the present invention.

Figures 1a and 1b is an exploded perspective view showing an example of an ultrasonic massage ceramic vibrator head device 1 according to the present invention and a cross-sectional view of the state installed in the ultrasonic massager 100, Figures 2a and 2b is in the present invention Exploded perspective view and a cross-sectional view of a state in which the ultrasonic massage device 100 according to another embodiment of the ultrasonic vibrator head device 1 according to the present invention, Figures 3a and 3b is a ceramic vibrator head device for ultrasonic massage according to the present invention (1) is a cross-sectional view showing another ultrasonic massage machine 100 is installed, Figures 4a and 4b and 5a and 5b is another embodiment of a ceramic vibrator head device (1) for ultrasonic massage according to the present invention It is a cross section shown.

The configuration of the ceramic vibrator head device 1 for ultrasonic massage according to the present invention will be described.

1A and 1B, the ceramic vibrator head device 1 for an ultrasonic massage according to the present invention is formed as follows.

Ultrasonic vibrator 30 is embedded in the bottom surface of the printed circuit board 10 which is generally formed in a disc shape, and a plurality of mounting nut holes 26 are abutted on the upper surface in contact with the ceramic vibrating cap 20 formed at regular intervals. The mounting bolt 18 fitted through the mounting hole 11 drilled in the printed circuit board 10 is screwed into the mounting nut hole 26 of the ceramic vibrator loading cap 20 so as to print the printed circuit board 10 and the ultrasonic vibrator. 30 was integrally combined.

The ceramic vibrator cap 20 was formed as follows.

The ceramic vibrator head 21 is formed in a disk column shape so that the upper part is opened and closed at the lower side, but the vibrating magnetic field chamber 25 is formed inside the ceramic vibrator head 21, and the outer circumference of the ceramic vibrator head 21 is formed. The flange 22 was formed in a ring shape on the upper side, and a plurality of mounting nut holes 26 were formed on the upper surface of the ceramic oscillator head 21 at regular intervals.

The plurality of mounting nut holes 26 formed at regular intervals on the upper surface of the ceramic vibrator head 21 may be formed as ordinary mounting holes.

An epoxy filling chamber 24 having a narrow width (diameter) is formed in the lower portion of the vibrating magnetic field chamber 25 formed in the ceramic vibrator head 21 by an annular stepped portion 23. When the ultrasonic vibrator 30 was embedded in the filling chamber 24, the epoxy 26 was filled in the epoxy filling chamber 24 to fix the ultrasonic vibrator 30.

On the upper side of the ultrasonic vibrator 30 in the ceramic vibrator cap (20) mounted on the bottom of the printed circuit board 10 through the conical coil spring (40) to make the ultrasonic vibrator 30, the ultrasonic vibrator The terminal line 36 of one side of the power line 35 fixed to the lower contact 32 on one side of the bottom or upper surface of the 30 is printed circuit through the terminal line drawing hole 12 drilled in the printed circuit board 10. It was withdrawn to the upper side of the board | substrate 10, and it was made to allow an electrical conduction.

The upper center contact 14 formed on the upper end of the conical coil spring 40 and the printed circuit board 10 installed in contact with the upper surface of the ultrasonic vibrator 30 in the ceramic vibrator cap 20 as described above is mounted It is electrically mounted (connected) by means, and the upper center contact point 14 exposed to the upper side of the printed circuit board 10 is connected to (fixed) the other terminal line 37 of the power supply line to conduct electricity. To make it work.

In particular, the upper middle contact point 14 which is electrically mounted (connected) with the terminal line 37 by a mounting means is connected to the upper end of the conical coil spring 40 by a conducting metal piece 13 so that electricity can be smoothly energized. It was.

Mounting means for electrically mounting the upper center contact 14 and the upper end of the conical coil spring 40 of the printed circuit board 10, as illustrated in Figure 1a and Figure 1b, the bottom surface of the upper center contact 14 The contact pin 15 is formed integrally with the insertion hole 16 is formed at the bottom, the insertion hole 16 of the contact pin 15, the upper binding rod 41 of the conical coil spring 40 formed horizontally Was inserted.

The upper center contact 14 and the contact pin 15 may be formed as one pin having the upper center contact 14 as a head and the contact pin 15 as a body.

The upper binding rod 41 of the conical coil spring 40 inserted into (inserted into) the insertion hole 16 of the contact pin 15 may be integrally formed or bent by welding to prevent it from being detached. Let's find out.

Ceramic vibrator head device (1) for ultrasonic massage according to the present invention formed as described above is coupled to the head binding portion 120 of the ultrasonic massage main body 110, as illustrated in Figure 1b to form an ultrasonic massager (100) Manufactured).

A flange 22 formed in the ceramic oscillator head 21 of the ceramic oscillator head device 1 by forming a coupling groove 120-1 on the inner circumferential surface of the head coupling unit 120 integrally formed at the upper end of the ultrasonic massage main body 110. ) Is coupled to the binding groove 120-1, and the electronic device implanted in the ultrasonic vibrator 30 and the printed circuit board 10 by drilling a plurality of heat radiating holes 125 in the head binding unit 120. It releases heat generated from parts) to outside to improve cooling effect.

2A and 2B are an exploded perspective view showing another embodiment of the ultrasonic massage ceramic oscillator head device 1 according to the present invention and a state in which the ultrasonic massage ceramic vibrator head device 1 is installed in the ultrasonic massager 100. It is a cross section of.

The ceramic vibrator head device (1) for ultrasonic massage according to the present invention has a heat dissipation device (50) installed on the upper side of the printed circuit board 10, the heat dissipation plate (51) is mounted on the upper side of the printed circuit board (10) The blower fan 52 was installed (mounted) on the upper side of the heat sink 51, and a plurality of heat dissipation holes 125 and 126 were drilled in the head binding unit 120 in different directions.

Heat generated from the electronic device (component) implanted in the ultrasonic vibrator 30 and the printed circuit board 10 is collected in the heat sink 51, and the heat sink 51 is wind (vent) generated by the blower fan 52. By cooling, fresh air is introduced into the heat dissipation chamber 121 through the heat dissipation hole 125 and the heat of the heat dissipation chamber 121 is discharged (vented) through the heat dissipation hole 126 to improve the cooling effect. It was.

Other portions were formed in the same manner as the embodiment illustrated in FIGS. 1A and 1B.

In the ultrasonic massage apparatus 100 illustrated in FIGS. 1A and 1B and FIGS. 2A and 2B, the ultrasonic massage main body 110 may be formed of a rubber material or a soft synthetic resin material.

3A and 3B are cross-sectional views showing another ultrasonic massage device 100 in which the ceramic vibrator head device 1 for ultrasonic massage is installed according to the present invention.

Ultrasonic massager 100, the ceramic vibrator head device 1 for ultrasonic massage according to the present invention illustrated in Figure 3a is formed as follows.

Ceramic vibrator head device (1) for ultrasonic massage according to the present invention was formed integrally with the flange 22 on the upper surface of the ceramic vibrator head 21, other structures for the ultrasonic massage of the embodiment illustrated in Figure 1a It was formed in the same manner as the ceramic oscillator head device 1.

In the ultrasonic massage main body 110 of the ultrasonic massager 100, a screw portion 121 was formed on the outer periphery of the head coupling part 120, and the ceramic vibrator head device 1 for the ultrasonic massage device provided a ceramic vibrator head 21. The printed circuit board 10 was bonded to the flange 22 to be formed with an adhesive to form a single piece.

Insert the binding cap 130 in the state in which the packing 140, 145 through the front of the ceramic oscillator head 21 and screwed to the screw portion 121 of the head binding unit 120, ceramic oscillator head 21 ) And the flange 22 and the printed circuit board 10 is pressed to the tip of the head binding unit 120.

The binding cap 130 is formed by integrally forming the binding flange 132 at the front end of the cylindrical cap body 131 to support the flange 22 of the ceramic oscillator head 21 to support the cap body ( The inner circumferential surface of the 131 is formed with a screw portion 133 so as to be screwed or released to the screw portion 121 of the head fastening portion 120.

The ultrasonic massage device 100 in which the ceramic vibrator head device 1 for ultrasonic massage according to the present invention illustrated in FIG. 3b is formed as follows.

Ceramic vibrator head device (1) for ultrasonic massage according to the present invention was formed integrally with the flange 22 on the upper surface of the ceramic vibrator head 21, other structures for the ultrasonic massage of the embodiment illustrated in Figure 1a It was formed in the same manner as the ceramic oscillator head device 1.

In the ultrasonic massage main body 110 of the ultrasonic massage machine 100, a screw portion 121 is formed on the outer periphery of the head binding portion 120, and a space portion 120-1 is formed inside the tip of the head binding portion 120. To accommodate the head of the mounting bolt 18 which is screwed on the outside of the printed circuit board 10.

The ultrasonic massage ceramic oscillator head device (1) by screwing the mounting bolt (18) fitted in the mounting hole (11) of the printed circuit board 10 to the mounting nut hole (26) of the ceramic vibrator head (21). It was formed integrally.

Insert the binding cap 130 in the state in which the packing 140, 145 through the front of the ceramic oscillator head 21 and screwed to the screw portion 121 of the head binding unit 120, ceramic oscillator head 21 ) And the flange 22 and the printed circuit board 10 is pressed to the tip of the head binding unit 120.

The binding cap 130 is formed by integrally forming the binding flange 132 at the front end of the cylindrical cap body 131 to support the flange 22 of the ceramic oscillator head 21 to support the cap body ( The inner circumferential surface of the 131 is formed with a screw portion 133 so as to be screwed or released to the screw portion 121 of the head fastening portion 120.

4A is a cross-sectional view illustrating another embodiment of the ceramic vibrator head device 1 for ultrasonic massage according to the present invention.

The mounting means for electrically mounting the upper center contact point 14 of the printed circuit board 10 and the upper end of the conical coil spring 40 is conical in the upper rod insertion hole 10-1 drilled in the printed circuit board 10. The upper vertical bar 45 of the coil spring 40 was inserted (inserted) and welded to the upper center contact 14 to be integrally formed. The other part was formed as shown in FIGS. 1A and 1B. The same was formed.

Figure 4b is an exploded perspective view and a cross-sectional view showing another embodiment of the ceramic vibrator head device (1) for ultrasonic massage in accordance with the present invention.

The mounting means for electrically mounting the upper center contact 14 of the printed circuit board 10 and the upper end of the conical coil spring 40 is integral with the lower end of the upper center contact 14 at the bottom of the printed circuit board 10. The coil spring cap 46 formed of a metallic material and opened downward to be integrally formed (fixed), and the upper end of the conical coil spring 40 was inserted into the coil spring cap 46 to bind the other parts. Is formed in the same manner as the embodiment illustrated in FIGS. 1A and 1B.

5A is a cross-sectional view illustrating another embodiment of the ceramic vibrator head device 1 for ultrasonic massage according to the present invention.

The mounting means for electrically mounting the upper center contact point 14 of the printed circuit board 10 and the upper end of the conical coil spring 40 is conical in the upper rod insertion hole 10-1 drilled in the printed circuit board 10. The upper vertical bar 45 of the coil spring 40 was inserted (inserted) and welded to the upper center contact point 14 to be integrally formed. The heat sink 51 and the heat sink 51 were formed on the upper side of the printed circuit board 10. The heat dissipation device 50 composed of the blowing fan 52 was installed, and other parts were formed in the same manner as the embodiment illustrated in FIGS. 1A and 1B.

Figure 4b is an exploded perspective view and a cross-sectional view showing another embodiment of the ceramic vibrator head device (1) for ultrasonic massage in accordance with the present invention.

The mounting means for electrically mounting the upper center contact 14 of the printed circuit board 10 and the upper end of the conical coil spring 40 is integral with the lower end of the upper center contact 14 at the bottom of the printed circuit board 10. The coil spring cap 46 formed of a metal material and opened downward to be integrally formed (fixed), and the upper end of the conical coil spring 40 was inserted into the coil spring cap 46 to bind the printed paper. On the upper side of the circuit board 10 was installed a heat dissipation device 50 consisting of a heat dissipation plate 51 and a blowing fan 52, other portions were formed in the same manner as the embodiment illustrated in Figs.

Hereinafter, the operation relationship of the ultrasonic vibrator head device 1 for an ultrasonic massage according to the present invention formed as described above.

The ceramic vibrator head device 1 for ultrasonic massage according to the present invention has a power source (-or +-electrode) on one side of the bottom surface or one side of the top surface of the ultrasonic vibrator 30 as illustrated in FIGS. 1A to 5B. The terminal line 36 to be supplied is fixed (connected) by the lower contact point 32, and the other terminal to which power (+ or-electrode) is supplied to the upper center contact point 14 fixed to the printed circuit board 10. Since the line 37 is fixed (connected), power is supplied through the terminal line 37 and the terminal line 36.

Power supplied through the terminal line 37 is input to the ultrasonic vibrator 30 through a conical coil spring 40 that is electrically connected (connected), and the terminal line 37 and the terminal line 36 Ultrasonic vibrator 30 is operated by the power input through.

In particular, the power input through the terminal line 37 as described above, even if the ultrasonic vibrator 30 operates in the state of being input to the ultrasonic vibrator 30 through the conical coil spring 40, the upper center contact point (14) and the upper end of the conical coil spring 40 is dropped or separated does not occur at all.

Therefore, the ultrasonic physiotherapy device manufactured by the ceramic vibrator head device 1 for ultrasonic massage according to the present invention completely excludes the phenomenon that the upper end of the conical coil spring 40 fixed to the upper center contact point 14 is short-circuited even after long-term use. You can do it.

In particular, the ultrasonic massage device 100 in which the ceramic vibrator head device 1 for ultrasonic massage is installed (mounted) has a plurality of heat dissipation holes in the head binding unit 120, as illustrated in FIGS. 2A and 2B. Since the 125 was drilled, the heat generated from the electronic device (parts) implanted in the ultrasonic vibrator 30 and the printed circuit board 10 was released to the outside to improve the cooling effect.

In addition, the ceramic vibrator head device (1) for ultrasonic massage according to the present invention is a heat dissipation device composed of a heat sink 51 and a blowing fan 52 on the upper side of the printed circuit board 10, as illustrated in Figure 2a and 2b Since 50 is installed, heat generated from the ultrasonic vibrator 30 and the electronic device (part) implanted in the printed circuit board 10 is collected in the heat sink 51, and the heat sink 51 is a blower fan 52. Cool by the wind (vent) generated in the), fresh air is introduced into the heat dissipation chamber 121 through the heat dissipation hole 125 and the heat of the heat dissipation chamber 121 is discharged through the heat dissipation hole 126 (blowing) Since the cooling effect of the head binding unit 120 can be improved.

Although the present invention has been described in detail only with respect to the specific examples described, it will be apparent to those skilled in the art that various changes and modifications can be made within the technical scope of the present invention, and such variations and modifications are within the scope of the appended claims. .

1: Ceramic vibrator head device for ultrasonic massage
10: printed circuit board 12: terminal line drawing hole
13: energized metal part 14: upper center contact
20: vibrator cap 21: ceramic vibrator head
22: flange 24: epoxy filling chamber
25: vibrating magnetic field chamber 26: mounting nut hole
30: ultrasonic vibrator 32: lower contact
36. 37: Terminal wire 40: Conical coil spring
41: upper binding rod 45: upper vertical rod
50: heat sink 51: heat sink
52: blower fan 100: ultrasonic massager
110: ultrasonic massage body 120: head binding unit
130: binding cap 140.145: packing

Claims (9)

In the head binding part of the ultrasonic massager, a ceramic vibrator head in which an ultrasonic vibrator is embedded is mounted on the bottom of the printed circuit board, and a conical coil spring is installed between the bottom of the printed circuit board and the ultrasonic vibrator and fixed to the ultrasonic vibrator. The terminal line (electric line) of one side is drawn out to the upper side of the printed circuit board through the terminal line lead-out hole drilled in the printed circuit board;
Integrally mounting the ceramic oscillator head and the printed circuit board by an adhesive or mounting bolts;
An upper center contact is formed on the printed circuit board, and multiple terminal lines are connected to an upper center contact exposed to the upper side of the printed circuit board;
A central portion of the conical coil spring installed above the ultrasonic vibrator at the lower side of the printed circuit board at the upper center contact point;
An upper end of the conical coil spring is connected (mounted) by a mounting means to an upper center contact at the bottom of the printed circuit board so that the upper end of the conical coil spring is electrically connected to the terminal line through the upper center contact; Ceramic vibrator head device for ultrasonic massage. The method according to claim 1, wherein the mounting means for mounting the upper center contact point of the printed circuit board and the upper end of the conical coil spring;
On the bottom of the upper center contact formed on the printed circuit board formed integrally formed contact pins with the insertion hole at the bottom;
Ultrasonic vibrator terminal connection device of the ultrasonic physiotherapy device, characterized in that the insertion pin of the contact pin is inserted into the upper binding rod of the conical coil spring formed horizontally. The method according to claim 1, wherein the mounting means for mounting the upper center contact point of the printed circuit board and the upper end of the conical coil spring;
Inserting the upper vertical rod of the conical coil spring into the upper rod insertion hole drilled into the printed circuit board;
Ultrasonic vibrator terminal connection device of the ultrasonic physiotherapy device characterized in that the upper vertical rod of the conical coil spring to be inserted into the upper rod insertion hole by soldering to the upper center contact. The method according to claim 1, wherein the mounting means for mounting the upper center contact point of the printed circuit board and the upper end of the conical coil spring;
A bottom surface of the printed circuit board is mounted with a coil spring cap formed of a metal material and opened downward so as to be integral with the lower end of the upper middle contact point;
Ultrasonic vibrator terminal connection device of the ultrasonic physiotherapy device, characterized in that the coupling to the coil spring cap by inserting the upper end of the conical coil spring. The ultrasonic oscillator terminal connection device of claim 1, wherein a heat dissipation device is provided at an upper side of the printed circuit board which is integrally mounted with the ceramic oscillator head. The heat dissipation device of claim 5, further comprising: a heat dissipation device provided at an upper side of the printed circuit board mounted integrally with the ceramic oscillator head;
Ultrasonic vibrator terminal connection device of the ultrasonic physical therapy device, characterized in that the heat sink is mounted on the upper side of the printed circuit board, the blowing fan is installed above the heat sink (51). In the ceramic vibrator head unit is provided in the head binding unit formed integrally with the upper end of the ultrasonic massage base body;
Forming a coupling groove on the inner circumferential surface of the head binding unit to mount a flange formed on the ceramic oscillator head of the ceramic oscillator head device to the coupling groove;
Ultrasonic massager is provided with a ceramic vibrator head device for ultrasonic massage, characterized in that the head coupling portion is made of a plurality of heat radiation holes. In the ceramic vibrator head unit is provided in the head binding unit formed integrally with the upper end of the ultrasonic massage base body;
Screwing the binding cap to the distal end of the head fastening portion to detain a flange formed on the ceramic oscillator head between the distal end of the head fastening portion and the binding cap;
Ultrasonic massager is provided with a ceramic vibrator head device for ultrasonic massage, characterized in that the head coupling portion is made of a plurality of heat radiation holes. The method according to claim 8, wherein in the coupling of the ceramic vibrating magnet cap by screwing the binding cap to the tip of the head binding portion forming the ultrasonic massage base body;
Ultrasonic massager with ceramic vibrator head device for ultrasonic massage, characterized in that coupled to the front end of the head binding portion and the sealing packing to the front of the flange of the ceramic vibrator cap.

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