KR20170072040A - Arm braket unit for massage device having the sonic vibrating module - Google Patents

Abstract

An arm unit of a massage massager having a sound wave oscillating portion is disclosed. An arm of a massage massager that moves when the driving device of the massage massager is in motion and performs massaging massage by contacting with the body; A sound wave vibration unit mounted on the arm; A head vibrating in response to the vibration transmitted from the sound wave vibrating unit; And a head guide coupled to the arm for simultaneously or alternately transmitting the output vibration of the sound wave oscillating portion and the force transmitted through the arm to the body or transmitting the output vibration and the force of the arm to the body; So that the sound wave vibration is directly transmitted to the body through the arm of the massage massager.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to an arm unit of a massage massager having a sound wave vibrating unit,

[0001] The present invention relates to an arm unit of a massage massager having a sound vibration unit, and more particularly, to an arm unit of a massage massager in which an arm for performing massage massage while moving along the massage massager transmits the sound wave vibration directly to the body.

Massage and massages are known in various forms and structures. In the chair-type massage massager disclosed in Patent Document, the body is nipped or rubbed (Patent Literatures 1 to 3), the acupressure ball assembly presses the body while moving the seat (Patent Document 4), and the anchor is repeatedly applied to the body (Japanese Laid-Open Patent Publication No. 10-2014-0089473), a vibration motor is mounted on a mat and a motor vibration is transmitted to a body (Korean Registered Utility Model No. 20-0378015), etc. There are many other formats available.

In massage massage which operates with the force of moving moving device (mechanism), massage massage function such as pressing, rubbing or tapping for roughing or pressing is almost universally performed by an arm unit which moves depending on the driving device of massage massage device. .

Therefore, the driving radius and the motion locus of the arm unit, the operation speed and the strength of the force are different depending on the type and structure of the driving part of the massage massager.

Conventional arm units often include a massaging function that can knock, press, or press the body with a pressing force or vibration generated periodically by operating a motor or a solenoid.

In addition, massage chairs and massage beds stimulate the muscles around the cervical vertebrae, thoracic spine, and lumbar vertebrae to massage them, leading to the pelvis and relaxing the pelvic muscles. Based on the sound waves, the cervical spine, thoracic spine, lumbar spine and pelvis by using different frequencies, respectively, together with the muscles of the nervous system stimulation through the effect of the neural stimulation is maximized.

Most of the arm units are structurally difficult to control such as increasing the intensity of the stimulus by transmitting the power with increased frequency or increasing the amplitude since only the vibration of the predetermined frequency transmitted from the driving unit is generated. A proposal focused on this point is disclosed in Patent Document 1, wherein a kneading ball and a tapping member exist separately on the arm. The kneading balls resting on the arm can be transmitted to the body by the driving unit, and the tapping member can transmit the intensity of the repeated vibration to the body depending on the repeated vibration of the solenoid.

And since the kneading part and the knocking part are separated, it is difficult to manufacture and the operation and control are also structurally difficult. Accordingly, the present inventor proposes an arm unit that can be usefully applied in the field of massage massagers.

Patent Document 1: Korean Patent Laid-Open No. 10-2003-0065346 (Aug. 06, 2003) Patent Document 2: Korean Patent Publication No. 10-2005-0087722 (Aug. 31, 2005) Patent Document 3: Korean Published Patent Application No. 10-2012-0120274 (November 01, 2012) Patent Document 4: Korean Patent Laid-Open Publication No. 10-2015-0110027 (October 02, 2015)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art, and an object of the present invention is to provide a massage massager in which an arm in contact with a body outputs a sound wave vibration itself.

Another object of the present invention is to provide a massaging device in which an arm in contact with a body outputs an amplified sound wave vibration.

Another object of the present invention is to reduce noise when an arm in contact with a body in a massage massager outputs a sound wave vibration.

Another object of the present invention is to integrate the function of outputting the sound wave vibration to the arm in contact with the body in the massage massager.

According to the present invention, the above objects can be accomplished by providing a massage massage device comprising: an arm of a massage massager that moves when a driving device is in motion to perform massage massage by contacting with a body; A sound wave vibration unit mounted on the arm; A head vibrating in response to the vibration transmitted from the sound wave vibrating unit; And a head guide coupled to the arm for simultaneously or alternately transmitting the output vibration of the ultrasonic vibration portion and the force transmitted through the arm to the body or transmitting the output vibration and the force of the arm to the body; Wherein the massage unit includes a sound wave oscillating part.

Further, according to the embodiment of the present invention, the arm is formed with a hinge hole coupled to the driving device of the massage massager.

Further, according to the embodiment of the present invention, the arm is formed by a lip plate which seats the sound wave vibrating part at one end or both ends around the hinge hole.

Further, according to an embodiment of the present invention, the lip plate is constructed so as to be open to encounter an mutually symmetric angle at an acute angle about the hinge hole. The critical angle is preferably in the angular range not greater than 45 degrees but greater than 0 degrees and less than 45 degrees.

Further, according to the embodiment of the present invention, the lip plate is provided with lead wire holes for transmitting electric signals to the vibration module of the sound wave vibrating part. The acoustic signal and the input and output leads sent to the sound wave vibration module are arranged around the vibration module. Package can be completed.

Further, according to the embodiment of the present invention, the arm of the massage device includes the sound wave oscillating part by including the noise reduction and amplification part between the arm and the sound wave vibration part. And transmits sound wave output vibration to the body during operation of the arm.

Also, according to the embodiment of the present invention, the noise reduction and amplification unit may be any one of a coil spring and a leaf spring made of metal or nonmetal based material. But is not limited thereto.

Also, according to the embodiment of the present invention, the noise reduction and amplification unit is supported by the arm, and the strength of the supporting force of the arm is smaller than that of the spring constant, so that the noise reduction and the output vibration can be amplified during the vibration output.

According to an embodiment of the present invention, the noise reduction and amplification unit includes a damper made of an elastic material including rubber, silicone, and polyurethane.

According to an embodiment of the present invention, the sound wave vibrating unit includes an outer case housing for mounting a vibration module oscillating with a sound source input signal in a mounting manner and performing casing processing; And a diaphragm for transmitting the output vibration to the head at a position deviated from the outer case housing.

Also, according to the embodiment of the present invention, the head and the diaphragm can be disassembled and coupled simply by including the attachable and detachable coupling part, and can be replaced with another type of head.

Further, according to the embodiment of the present invention, the head can also be coupled to the diaphragm in an interlocking manner.

In addition, according to the embodiment of the present invention, the tip of the head is formed into a spherical shape or a round curved surface including a hemispherical shape and a streamlined shape to smoothly transmit the sound wave vibration to the body.

According to an embodiment of the present invention, the head guide includes: a housing having a space for accommodating a sound wave vibrating part processed by the outer case housing; And a mask portion contacting and contacting the body, wherein the mask portion is preferably a rounded surface that smoothly contacts when contacting the body.

According to the embodiment of the present invention, a vibrator hole is formed in the mask part of the housing for accommodating the head guide and the sound wave vibrating part, for guiding the reciprocating vibration of the head. The vibrator hole is a part that allows the head to vibrate and transmit the sound wave vibration to the body separately from the mask part which is moved by the arm.

According to an embodiment of the present invention, the sound wave vibrating unit is driven by a program that can stimulate the sound source by changing the frequency of the sound source according to the position of the body, and the frequency change of the sound source is performed by an internal memory, Card, and a structure in which sound waves are transmitted through Bluetooth.

The above objects are also achieved by a noise reduction and amplification unit according to the present invention. A sound wave vibration unit that outputs a sound wave signal by vibration and is supported by the noise reduction and amplification unit in a resilient manner; A head vibrating with an output vibration of the sonic vibrating part; And a head assembly including the noise reduction and amplification unit, the sound wave vibration unit, and a head guide that sequentially receives the head, wherein the head assembly is mounted on an arm of the massage massager and is coupled to the massage massager, And an arm unit of a massage massager having a part.

Further, according to an embodiment of the present invention, the head bundle can be mounted on a back of a chair, a seat of a chair, an armrest of a chair, or a mat of a bed. But is not limited thereto.

The present invention provides a massaging massage effect due to sonic vibration which can not be expected in a conventional massage massager by mounting a sound wave vibrating part on an arm of the massage massager.

The present invention relates to a massage massage device, in which a sound wave vibrating part is placed on an arm for tapping, pressing, or rubbing the body in a massaging massager to transmit sound waves directly to the body through the head during operation to transmit a sound wave vibration, Increase.

The present invention has the effect of increasing the intensity level of vibration output to the head by mounting the sonic vibrating part on the head of the arm and inducing the magnitude change of the oscillating output during operation of the arm to transmit the high vibration output to the body.

The present invention can output a sound wave vibration at low noise in a massage massager and transmit it to the body, so that the noise is smaller than that of a conventional massage massage device using a solenoid.

The present invention has the effect of manufacturing a high-performance massage massager by integrating the function of outputting the sound wave vibration to the arm in contact with the body in the massage massager in a simple and low-cost manner.

1 is an illustration of a chair type massage massager to which an arm unit according to an embodiment of the present invention is applied.
2 is an illustration of an arm unit according to an embodiment of the present invention mounted on a driving apparatus.
3 is a perspective view of an arm unit according to an embodiment of the present invention mounted on a drive unit.
4 is a front view of Fig.
5 is an exploded view of an arm unit according to an embodiment of the present invention.
6 is an assembled cross-sectional view of an arm unit in which a head assembly according to an embodiment of the present invention is coupled to an arm.

The present invention relates to an arm unit of a massage massager having a sound wave oscillating unit, which is composed of arm units of a massage massager by mounting a head bundle including a sound wave oscillating unit on an arm of the massage massager.

The arm of the massage massager is provided with a head which is moved by the driving device to strike, press, push, or snatch or rub against the body. As described above, the arm is operated depending on the driving device. If only the actuation of the actuating device is allowed, the arm will only function as a massage force. The arms on the rubbing or rubbing mechanism act like a drive so that they massage and massage the body.

In the present invention, the driving device does not specify the operation and movement locus of the arm and massage massage type of the head. The present invention is characterized by providing an arm unit for mounting a head bundle having a sonic vibrator on an arm to induce sonic vibrations that could not be expected in existing arms.

Hereinafter, a specific embodiment of the present invention will be described with reference to FIGS. 1 to 6. FIG.

1 is an illustration of a chair type massage massager to which an arm unit according to an embodiment of the present invention is applied.

As shown in FIG. 1, the arm 200 installed in the massage massager 100 may be mounted on the driving device 110. The driving device 110 causes the position of the arm 200 to be moved up and down along the backrest 101 or to actuate the arm 200. The driving device 110 in the present invention is not specifically defined. In some cases, it may be configured to include a function of tapping, nipping or pressing the body. Various types of driving devices are disclosed in Patent Documents 1 to 4.

2 is an illustration of an arm unit according to an embodiment of the present invention mounted on a driving apparatus.

The arm unit 200 can be mounted on the driving unit 110 and can be moved up and down along the guide rail 120. It is not difficult for a person skilled in the art to move the drive device 110 up and down along the guide rail 120, although not shown in the drawings. For example, the driving device 110 may gear the gears so as to be movable along the guide rails 120 and rotate them with a driving motor so as to move along the guide rails or directly to the ball screws without using the guide rails 110 ) Can be mounted and moved along.

Figure 3 shows an arm unit according to an embodiment of the present invention mounted on a drive unit.

The driving unit 110 includes a driving motor 111 for generating power to run along the guide rail 120, a holder 112 for mounting the arm unit 200, and a holder 112 for moving the holder 112 in a predetermined trajectory range And a link 113 for moving the holder 112 by receiving power from the rotating body 114 to move the holder 112.

The driving device 110 moves the one end of the holder 112 which is engaged with the pin within a predetermined motion locus range when the rotation of the rotating body 114 is transmitted to the link 113 This causes the arm unit 200 to cooperate with each other. Finally, the head guide 500 is moved at a constant angle of motion, and the body is touched when the user touches the body. As the speed of the rotating body 114 increases, the speed at which the body is struck also increases. The driving device 110 may be provided with a function of discoloring, but is not directly related to the present invention, so a detailed description thereof will be omitted.

The arm unit 200 according to the embodiment of the present invention is not limited to the drive unit 110 and can be mounted on the same principle in various types of drive units.

4 is an illustration showing a front view of an arm unit according to an embodiment of the present invention mounted on a drive unit. 5 is an exploded view of an arm unit which is a main part of the present invention.

As shown in FIG. 5, the arm 200 may be mounted to the driving device 110 through a hinge 210, and may be configured to move when the driving device 110 is driven to perform massaging massage in contact with the body And the head assembly (A) is mounted on the arm (200).

6 is an assembled cross-sectional view of an arm unit in which a head assembly according to an embodiment of the present invention is coupled to an arm.

The head bundle A includes a sound wave vibrating unit 400, a head 300 vibrating in response to the vibration transmitted from the sound wave vibrating unit 400, a head 300 coupled to the arm 200, A head guide for transmitting vibration and force transmitted through the arm 200 to the body at the same time or alternately or transmitting the output vibration of the sound wave vibrating unit 400 and the force of the arm 200 to the body, (500).

The sound wave vibration module constituting the sound wave vibration unit 400 is not shown in detail but is known in the art. The sound wave vibration module is a sound wave vibration module that generates a linear directional vibration due to the interaction between a magnetic body and voice coils, a voice coil that is provided outside a magnetic body, a bobbin that guides a voice coil, .

The sound wave vibration unit 400 including the sound wave vibration module is advantageous for efficiently delivering the vibration output to the body in the field of massage massager, thereby providing a massage massage effect. Especially, since the sonic vibration can be transmitted simultaneously during the operation of the arm 200, the massage massage effect becomes larger.

In addition, since it vibrates according to the waveform of the acoustic signal, various types of output vibration stimuli can be received in accordance with the user's preference, so that massage massage stimuli of the type that can not be expected in the conventional vibration devices can be transmitted to the body.

As shown in FIG. 5, the arm 200 may be mounted on the driving unit 110 by forming a hinge hole 210 coupled to the driving device 110 of the massage massager. It receives power from the drive unit and moves. A detailed description of the motion type of the arm 200 will be omitted.

The arm 200 includes lip plates 220a and 220b for mounting the sound wave vibrating unit 400 at one or both ends around the hinge hole 210. [ The lip plate supports the sound wave vibrating unit 400 with a sufficient area and prevents the head bundle A from coming off or coming off.

The lip plates 220a and 220b of the arm 200 are selected so as to have a configuration that is opened so as to be opposed to the hinge hole 210 at a symmetric angle in an acute angle range. When the head plate (A) is attached to the lip plate, it is divided up and down to form a two-point contact angle to the body, which is a shape selected to enhance the massage massage effect which makes contact with the body better. The angle of the lip plate is preferably in an acute angle range greater than 0 degrees and less than 45 degrees about the hinge 210. [

The lip plates 220a and 220b are provided with lead wire holes 230 for transmitting an electric signal to the vibration module of the sound wave vibrating unit 400 so that complicated wirings can be effectively packaged in the package with the head bundle A. [

The arm unit according to the embodiment of the present invention includes the noise reduction and amplification unit 600 between the arm 200 and the sound wave vibration unit 400.

6 is an assembled cross-sectional view of an arm unit in which a head assembly according to an embodiment of the present invention is coupled to an arm.

The noise reduction and amplification unit 600 may be any one of a coil spring and a leaf spring made of metal or nonmetal material although not specifically shown in the figure. The noise reduction and amplification unit 600 is elastically supported by the arm 200. If the strength (N) of the support force of the arm is made smaller than the spring constant, the vibration noise can be reduced and attenuated, and the effect of amplifying the output vibration by accumulating the vibration energy by the spring shrinkage can be expected.

The noise reduction and amplification unit 600 may be composed of a damper manufactured using a material such as synthetic resin including rubber, silicone, and polyurethane. However, it is not limited thereto and various materials can be selected and applied.

As shown in FIG. 6, the sound wave vibrating unit 400 includes an outer casing housing 410 for mounting and vibrating a vibration module, which vibrates with a sound source input signal, in a mounting manner, And a diaphragm 420 for transmitting vibration to the head 300.

In addition, the head 300 and the diaphragm 420 may include a detachable coupling portion. It is possible to disassemble the head 300 from the diaphragm 420 and replace it with a head having a different function or function, if necessary, thereby facilitating the maintenance and maintenance of the massage massager. But is not limited thereto.

The head 300 may be integrally connected to the diaphragm 420 and coupled to the diaphragm 420 in an interlocked manner. The interlocking type structure is more difficult than separation type in maintenance and maintenance inspection, but it is advantageous to transmit the sound wave vibration to the head without loss and can be more advantageous than the separation type in low noise.

The tip shape of the head 300 may be spherical, or may be formed by applying a hemispherical shape, a round curved surface including a streamlined shape, and the like freely. The figure shows a spherical head.

5 and 6, the head guide 500 includes a housing 510 having a space for accommodating the sound wave vibrating unit 400 processed by the outer case housing 410, And a mask unit 520.

A vibrator hole 530 for guiding the reciprocating vibration of the head 300 is formed in the mask 520 of the housing 510 accommodating the head guide 500 and the sound wave vibrating unit 400, Whenever there is vibration, the body independently contacts the head guide 500 independently to transmit the sound wave output vibration to the body.

As shown in FIGS. 5 and 6, the arm unit of the massage massager having the sound wave oscillating unit according to the embodiment of the present invention includes a noise reducing and amplifying unit 600, a sound reducing and amplifying unit 600, A head 300 that vibrates due to the output vibration of the sound wave vibration unit 400, a noise reduction and amplification unit 600 and a sound wave vibration unit 400 that are elastically supported by the sound wave vibration unit 400, And a head guide 500 for receiving the head assembly 300 in order.

The head bundle A can be mounted on the arm 200 of the massage massager 100 and can be simply coupled to the driving device 110 of the massage massager.

The arm provided on the massage massager may be installed on the backrest of the chair, the seat of the chair, the armrest of the chair, the mat of the bed, or the like.

The arm 200 moves massage by the driving device 110 and massage massage by the arm 200. Then, the output vibration is transmitted to the body through the sound wave vibration unit 400 to perform massaging massage.

The arm 200 can massage massage with a force transmitted from the driving unit 110 or perform massaging massage with output vibration of the sound wave vibration unit 400.

The arm 200 transmits massage massage effect to the body simultaneously or alternatively or alternatively by controlling the driving device 110 and the sound wave vibration unit 400. That's why users who use massage massagers can choose their intended or preferred type of massage more effectively, thus widening the user's choice of massage type.

The sound wave vibrating unit 400 can drive the sound wave vibration module by a program that can stimulate the sound source by changing the frequency of the sound source according to the position of the body. The frequency change of a sound source can include a structure in which a sound wave is transmitted through an internal memory or an AUX cable, an SD card, and Bluetooth, so that it is more advantageous in terms of operability and favorable vibration effect than other vibrators.

According to the present invention, a sound wave mass can be directly transmitted to a body through a head by applying a sound wave vibrating part to an arm for tapping, pressing, or rubbing the body in a massaging massager. Through this, the sound wave vibration which can not be expected from the existing massage massager is effectively transmitted to the body, thereby enhancing the massage and massage effect.

As described above, the present invention has an advantage of providing a massage massage effect by sound wave vibration which can not be expected in a conventional massage massage machine by attaching a sound vibration section to a head of an arm.

In addition, since the magnitude of the vibration output of the sonic vibration part can be guided to its own structure during the operation of the arm, it is possible to increase the intensity level of the vibration output to the head, thereby delivering the high vibration output required for massage massage.

In addition, since the sound wave vibration can be outputted to the body with low noise in the massage massager, it is advantageous to manufacture a high quality massage massager having less noise than the conventional massage massager using the solenoid, It is possible to integrate the function of outputting the sound wave vibration to the arm concisely, at a low cost, effectively, and thereby, a high-performance massage massager can be manufactured.

As described above, the present invention has been described with reference to the embodiments shown in the drawings, but it should be understood that the present invention is not limited to the embodiments, but can be modified and changed without departing from the gist of the present invention. And is included in the technical idea of.

100: Massage Massager 101: Backrest of the chair
200: arm (unit) 210: hinge
220a.220b: Lip plate 230: Lead wire hole
300: head 400: sound wave vibration part
410: outer case housing 420: diaphragm
500: head guide 510: housing
520: mask part 530: vibrator hole
600: vibration reduction and amplification unit 610: lead wire hole

Claims (16)

An arm of a massage massager that moves when the driving device is driven to perform massage massage by contacting with the body; A sound wave vibration unit mounted on the arm; A head vibrating in response to the vibration transmitted from the sound wave vibrating unit; And a head guide coupled to the arm for simultaneously or alternately transmitting the output vibration of the sound wave oscillating portion and the force transmitted through the arm to the body or transmitting the output vibration and the force of the arm to the body; And a sound wave oscillating part for generating a sound wave. The method according to claim 1,
Wherein the arm includes a hinge hole coupled to a driving device of the massage massager. 3. The method of claim 2,
The arm unit of the massage massager is provided with a sound wave oscillating portion formed by a lip plate that seats the sound wave vibrating portion at one or both ends around the hinge hole. The method of claim 3,
Wherein the lip plate is open to encounter a mutually symmetric angle at an acute angle about the hinge hole. The method of claim 3,
Wherein the lip plate is provided with a sound wave oscillating portion through which lead wire holes for transmitting an electric signal to the vibration module of the sound wave oscillating portion are formed. The method according to claim 1,
And a sound reducing and amplifying unit between the arm and the sound wave vibrating unit. The arm unit of the massage massager includes the sound wave vibrating unit. The method according to claim 6,
Wherein the noise reduction and amplification unit comprises a damper selected from synthetic resin including rubber, silicone, and polyurethane. The method according to claim 1,
Wherein the sound wave vibrating unit comprises: an outer case housing for mounting a vibration module oscillating with a sound source input signal in a mounting manner; And a diaphragm that transmits the output vibration to the head at a position deviated from the outer case housing. 9. The method of claim 8,
And a coupling portion capable of attaching and detaching the head and the diaphragm. 9. The method of claim 8,
And the head is coupled to the diaphragm in an interlocking manner. The method according to claim 1,
Wherein the tip of the head is spherical or formed into a round curved surface including hemispherical and streamlined shapes. The method according to claim 1,
The head guide includes: a housing having a space for accommodating a sound wave vibrating portion processed by the outer case housing; And a mask portion contacting and contacting with the body. The arm unit of the massage massager having the sound wave vibrating portion. 13. The method of claim 12,
Wherein the head guide includes a vibrator hole formed in the mask portion of the housing for accommodating the sound wave vibrating portion to guide the reciprocating vibration of the head. The method according to claim 1,
The sound wave vibrating unit is driven by a program that can stimulate the sound source by changing the frequency of the sound source according to the position of the body, and the frequency change of the sound source is performed through a built-in memory, an AUX cable, an SD card, And a sound wave oscillating unit having a sound wave oscillating unit. Noise reduction and amplification unit; A sound wave vibration unit that outputs a sound wave signal by vibration and is supported by the noise reduction and amplification unit in a resilient manner; A head vibrating with an output vibration of the sonic vibrating part; And a head assembly (A) including the noise reduction and amplification unit, the sonic vibration unit, and a head guide for sequentially receiving the head, wherein the head assembly is mounted on an arm of the massage massager, And a sound wave oscillating unit. 16. The method of claim 15,
Wherein the head bundle is mounted on a back of a chair, a seat of a chair, an armrest of a chair, or a mat of a bed.

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