KR20130012606A

KR20130012606A - Vibrating massager using resonance oscillation

Info

Publication number: KR20130012606A
Application number: KR1020110073841A
Authority: KR
Inventors: 최석호; 황윤수
Original assignee: (주)유런아이
Priority date: 2011-07-26
Filing date: 2011-07-26
Publication date: 2013-02-05

Abstract

Vibration massage apparatus according to the present invention may cause various physical feelings by using the interference between the vibration motor, it is possible to maximize the intensity of vibration.

Description

Penis exercise device using multiple vibration resonance control technology {Vibrating massager using resonance oscillation}

The present invention relates to a vibration massage device, and more particularly, the direction and intensity of physical vibrations applied to the head of the penis and the left and right cavernous bodies through resonance vibrations generated by differently controlling motor rotation speed and vibration intensity of each of the plurality of motors. It relates to a penis exercise device using a multiple vibration resonance control technology to arbitrarily adjust.

Everyone wants a happy and healthy life and makes various efforts to achieve it. They make money for a comfortable life, seek success for honor, invest time and effort for health and swimming, and want a satisfactory sex life in addition to money and honor. However, while many people want a satisfactory sex life, very few people make an effort or investment for him. It's not because they don't want the same effort or investment, but because they don't know how, don't have the right knowledge, or don't know how to solve the problem.

Several clinical trials have shown that when a patient is unconscious with a stroke, whispering or touching the side, the consciousness is reduced by half compared to other patients in the same condition. This is evidence that the parasympathetic nervous system responds to stimuli during human unconsciousness.The male penis also activates the parasympathetic nervous system that governs sex by stimulating a coherent and scientific pattern, and the corpus cavernosum, glans, and prostate gland in accordance with the anatomy of the penis. If stimulation is performed using multiple vibration resonance techniques to the ligaments connected to, it indicates that the function of the penis can be improved.

In general, as men age, sexual function decreases. Degradation of sexual function in proportion to age is extremely natural, but steadily stimulating the penis or exercise can slow or minimize sexual degeneration.

Currently, the exercise device for improving sexual function has been installed a product that installs a soft vibration membrane at the end of the head and to stimulate the sexual stimulation using the vibration of the vibration membrane. The exercise device is configured to vibrate the vibrating membrane according to some predetermined pattern or vibration period. Therefore, even if the vibration membrane vibrates, the vibration direction cannot be changed, but the vibration direction cannot be changed, and since the vibration direction cannot be applied, it is difficult to stimulate the penis muscles in various ways, and the monotonous and boring feeling It is extremely limited in improving sexual function.

In 2008, the global market for men's adult goods is estimated at US $ 3.6 billion (4.3 trillion) and the domestic market is growing at 12% annually to 350 billion won a year.

It is a reality that related products that show such growth do not really help the improvement of sexual function of adult males. In this regard, the present applicant proposes a standard of devices that can contribute to the improvement of the sexual function of an adult male in the global men's market, and the multiple vibration resonance control technology that can expect economic value and additional job creation effect of products derived from the present invention. The penis exercise device is proposed.

An object of the present invention is to use a resonance interference between a plurality of vibration motors to cause a variety of physical feelings, can be delivered by maximizing the physical energy knocking, rubbing and shaking on the penis through a vibration transmission chain holder designed for the anatomy of the penis. The present invention provides a penis exercise device using multiple vibration resonance control techniques.

The above object is according to the present invention, has a cylindrical structure with a hollow inside for inserting the penis, the longitudinal both ends are arranged in a housing that is open, spaced apart from each other along the outer peripheral surface of the housing and left and right cavernous body of the penis, and glans Each of the first holder, the second holder, and the third holder, which are disposed adjacent to any one of the first holder, the first holder, and the third holder, respectively, are driven by independent pulses that are program-controlled to generate individual vibrations. A first motor, a second motor, configured to transmit the individual vibrations to the housing through the first to third holders, respectively, and to generate strength and directionality of the vibrations in the housing by mutual interference of the individual vibrations; And a third motor, wherein one side of the housing has an incision groove formed along both longitudinal ends of the housing to support the holder according to the size of the penis. It is achieved by the penis exercising apparatus using a plurality of vibration control technology that 0 people to slightly increase.

According to the present invention, three independent vibration motors having different vibration frequencies in a holder surrounding the penis apply various stimuli to the spongy bodies and glans of the left and right sides of the penis to induce proliferation of corpus cavernosum cells, thereby enabling erectile stiffness of the glans. By improving the function of premature ejaculation control and vibration through the penis ligament can massage the prostate. In addition, the program-controlled, independently driven three-motor vibrations can produce a physical feeling of tapping the penis, a physical feeling of rubbing the penis, and a physical feeling of rotational vibration to the penis. It can also stimulate microvessels in the penis to improve blood circulation in the penis.

1 is a perspective view of a penis exercise device using the multiple vibration resonance control technology according to an embodiment of the present invention.
FIG. 2 is a view of the penis exercise device using the plural vibration resonance control technique shown in FIG.
Figure 3 shows a side view as viewed from the side of the penis exercise device using the multiple vibration resonance control technique of FIG.
Figure 4 shows a front view of the penis exercise device using the multiple vibration resonance control technique of FIG.
5 shows one embodiment of another example of a housing.
FIG. 6 is a reference view for explaining a state where a penis exercise device is worn by a user using the multiple vibration resonance control technique described with reference to FIGS. 1 to 5.
7 shows a reference view for an example of a pattern applied to a motor.
8 is a perspective view of a penis exercise device using the multiple vibration resonance control technique according to another embodiment of the present invention.

The resonance vibration referred to in the present invention can be implemented using two, three or more vibration motors. The vibration generated by the plurality of vibration motors may be ordered so that the user may feel a physical change caused by the vibration, or may be generated by matching the vibration periods generated by each vibration motor to maximize or minimize the strength of the vibration. Can be. The vibration massage device using resonance vibration may change the vibration period of the motor, vibrate sequentially, or may make the user feel a physical direction depending on the force of the vibration intensity generated by the plurality of motors.

Hereinafter, the present invention will be described in detail with reference to the drawings.

1 is a perspective view of a penis exercise device using the multiple vibration resonance control technology according to an embodiment of the present invention, Figure 2 is a view of the penis exercise device using the multiple vibration resonance control technology shown in Figure 1 viewed from the A direction; 3 is a side view of the penis exercise device using the multiple vibration resonance control technology of FIG. 1, and FIG. 4 is a front view of the penis exercise device using the multiple vibration resonance control technology of FIG.

1 to 4, the penis exercise device using the multiple vibration resonance control technique includes a housing 10, a first motor 12, a second motor 13, a third motor 14, and an incision groove ( 11) can be configured to include.

The housing 10 may be formed of rubber, plastic, or silicone, and may have a cylindrical structure with an empty inside to surround the user's penis. Both ends of the housing 10 are open to allow the user's penis to be inserted into the housing 10. Since the housing 10 is a part in contact with the penis of the user, if it is too hard, it may feel a foreign body, and if it is too soft, vibrations of the first motor 12 to the third motor 14 may be difficult to transmit to the penis. . Accordingly, the housing 10 preferably has a durometer hardness of A35 to A45, which is a hardness standard for rubber, silicon, and other soft materials.

The first motor 12, the second motor 13, and the third motor 14 may be inserted into the outer circumferential surface of the housing 10. The first motor 12, the second motor 13, and the third motor 14 are vibration motors that generate vibrations when electricity is supplied and rotated, and a cylindrical vibration motor having a pipe shape, or a flat vibration motor. Can be. In this embodiment, a cylindrical vibration motor is illustrated, but is not limited thereto. Although not shown in the drawing, the first motor 12 to the third motor 14 may be driven by a battery (not shown) accommodated in the housing 10 or may be driven by an external power source.

The first motor 12, the second motor 13, and the third motor 14 may be configured to transmit vibrations to the glans of the penis and the left and right sponges, respectively. Accordingly, the first motor 12 is disposed in the housing 10 to face the glans of the penis, and the second motor 13 and the third motor 14 vibrate the corpus cavernosum that surrounds the glans of the penis. It may be disposed in the housing 10 to be applied. For example, in the drawing, the first motor 12 is disposed in the direction of the glans of the penis, and the second motor 13 and the third motor 14 are slightly spaced apart from the direction of the glans of the penis compared to the first motor 12. It can be deployed. When the first motor 12, the second motor 13, and the third motor 14 are driven by pulses of the same cycle, the first motor 12, the second motor 13, and the third motor Since the vibration of the same cycle occurs in (13), the intensity of the vibration applied to the housing 10 can be maximum. In contrast, when the first motor 12, the second motor 13, and the third motor 14 are driven with pulses of different periods, for example, reverse phase pulses, the intensity of vibration applied to the housing 10 May be the minimum. By referring to this principle, when the phases of the pulses applied to the first motor 12, the second motor 13, and the third motor 14 are adjusted, the magnitude of vibration applied to the housing 10 may be reduced. will be.

Meanwhile, the first motor 12, the second motor 13, and the third motor 14 may include the first holder 12a, the second holder 13a, and the third holder protruding from the housing 10. The first motor 12, the second motor 13, and the third motor 14 may be embedded in the protruding state from the housing 10 or may be provided outside the housing 10. It may be attached to the housing 10 by a separate holder.

At this time, the first motor 12, the second motor 13, and the third motor 14 is a high speed vibration motor having a rotation speed of 5000 RPM ~ 15000 RPM, in consideration of the user's portability, It is preferable that it is 80 mA-150 mA.

When the first motor 12 to the third motor 14 are driven by an external power source, a cable for applying external power may be connected to the housing 10. When the first motor 12 to the third motor 14 are driven by the built-in battery, a storage space for attaching and detaching the battery may be added to one side of the housing 10. On the other hand, when driven by an external power source, a power cable for external power application may be connected to the housing 10. Since the power supply method is well known in various fields dealing with small electronic devices, including penis exercise device using plural vibration resonance control technology, illustration and description thereof will be omitted.

As both longitudinal ends of the housing 10 are opened, the glans of the penis may protrude in the B direction. Since the length and diameter of the penis vary depending on the user, the diameter of the housing 10 is preferably not fixed. Accordingly, the housing 10 may be made of rubber or silicone having elasticity, and the incision groove 11 may be formed in the A direction of the housing 10 so that the housing 10 may be stretched and contracted to fit the size of the penis. .

The incision groove 11 is formed in the lower portion of the penis, that is, the area in contact with the urethral cavernous body, so as not to burden the urethral cavernous body when the penis is inserted into the housing 10. The cutting groove 11 is a first cutting groove 11a formed along both longitudinal ends of the housing 10 and a second cutting groove 11b formed in a 90 degree direction with respect to the first cutting groove 11a. It may be configured as.

The first incision groove 11a and the second incision groove 11b cut the A direction region of the housing 10 in the form of a cross to open the incision groove 11 when the diameter of the penis is larger than the diameter of the housing 10. The A direction region of the housing 10 can be opened to the center. In addition, since the diameter of the penis is different when the penis is in the normal state and in the erection state, and during the erection process, the incision groove 11 may open the housing 10 according to the state of the penis. When the penis is normally returned from the erection state, the housing 10 may be restored to its original shape by elasticity.

The first motor 12, the second motor 13, and the third motor 14 may protrude along the outer circumferential surface of the housing 10, and the first motor 12 may be in contact with the incision groove 11. When positioned on the side, the second motor 13 and the third motor 14 may be arranged in the housing 10 spaced 90 to 120 degrees with respect to the longitudinal center axis of the housing 10.

When the second motor 13 vibrates in response to a pulse, and then the first motor 12 and the third motor 14 vibrate sequentially, the user rotates and rubs in a counterclockwise direction with reference to FIG. 4. You can get a physical feeling. Similarly, when the third motor 14 first vibrates in response to a pulse, and then the first motor 12 and the second motor 13 vibrate in response to a pulse, the user clockwise with reference to FIG. 4. You can feel the physical rubbing while rotating.

In addition, when the first motor 12 vibrates by the force of F1 and the second motor 13 vibrates by the force of F2, the combined force may be represented by F3. That is, the vibration of the first motor 12 and the second motor 13 may be represented by a vector. The penis of the user may feel the vibration in the F3 direction by the vibration of the first motor 12 and the second motor 13.

In this way, the vibration in the vector direction can be applied to the prostate inside the human body instead of the penis, and by increasing or decreasing the vibration applied to the prostate, the vibration in the vector direction causes the physical feeling of advancing and retreating to the prostate. Of course, the massage effect can also be implemented.

On the other hand, when the first motor 12, the second motor 13, and the third motor 14 are driven by an impulse, the user's penis may feel struck. As the period of the impulse decreases, you may feel a constant knock.

When the feeling of tapping through the housing 10 is continuously applied to the penis, especially the glans, the penis may be insensitive to external stimuli and may be used to improve premature ejaculation symptoms.

Here, the pulses applied to the first motor 12, the second motor 13, and the third motor 14 may be separate circuits housed in the housing 10 or pulses applied from the outside. However, it is not limited.

5 shows one embodiment of another example of a housing.

Referring to FIG. 5, the vibration motor 23 may be mounted to protrude on the outer circumferential surface of the housing 20. A holder 23a is provided on the outer circumferential surface of the housing 20, and the vibration motor 23 may be mounted or detached from the holder 23a. The holder 23a may be made of the same material as that of the housing 20, that is, rubber or silicone, and these materials may have a durometer hardness of A35 to A45. The diameter of the holder 23a is preferably smaller than the diameter of the vibration motor 23, and the incision groove 23a is opened when the vibration motor 23 is inserted into the holder 23a. ) Can be easily mounted. After the vibration motor 23 is mounted on the holder 23a, the holder 23a is wrapped around while adhering to the vibration motor 23 and thus the vibration motor 23 may be fixed to the holder 23a.

FIG. 6 is a reference view for explaining a state where a penis exercise device is worn by a user using the multiple vibration resonance control technique described with reference to FIGS. 1 to 5.

6, when the penis exercise device using the plural vibration resonance control technology according to the present invention is mounted on the penis, the vibration generated from the penis exercise device using the plural vibration resonance control technology is applied to the penis of the user, Vibration may be transferred to the prostate gland. The prostate gland is located inside the body due to the structure of the body, so direct stimulation from outside is difficult. There are ways to stimulate the prostate through the anus, but this can be very cumbersome and can cause hygiene problems. The penis exercise device using the multiple vibration resonance control technology according to the present invention can generate a high frequency vibration by using a high RPM of the vibration motor (12, 13, 14, 23). When three motors (eg, reference numerals 12, 13, 14) form a resonance oscillation, the intensity of the high frequency vibration can reach a maximum, which can reach the prostate through the user's penis. That is, the penis exercise device using the multiple vibration resonance control technology according to the present invention may implement a prostate massage effect.

7 shows a reference drawing for a pattern applied to a motor.

Referring to FIG. 7, since the motors 12, 13, and 14 generate vibrations by rotation of a motor shaft having a non-uniform center of gravity, the motors 12, 13, and 14 may generate forces in two directions when rotating by an external pulse. In the figure, F1 represents a forward force, F2 represents a reverse force, and when the forward force F1 overlaps, it can be seen that the intensity of vibration can be doubled. Overlapping vibrations are called resonance vibrations, which can increase the intensity of vibrations generated by a single motor even more.

8 is a perspective view of a penis exercise device using the multiple vibration resonance control technique according to another embodiment of the present invention.

Referring to FIG. 8, the penis exercise device using the multi-vibration resonance control technique according to the embodiment is similar to that of FIG. 1, but includes a pulse controller 10a and a driving driver 10b therein, and the exterior of the housing 10. on. The display portion 10c and the operation portion 10d are exposed. Therefore, the description of the components having the same reference numerals as those of the embodiment of FIG. 1 will be omitted, and features of components different from those of the embodiment of FIG. 1 will be described.

In the figure, a display portion 10c and an operation portion 10d are provided on the outer circumferential surface of the housing 10, and the display portion 10c displays a menu for allowing a user to select an operation mode.

The mode of operation may set functional menus such as rotational vibration effects, tapping effects, prostate vibration, or may include detailed menus such as vibration intensity, direction of vibration, and pattern of vibration.

The pulse controller 10a includes a nonvolatile memory, has a user selectable pattern of pulses for each operation mode, and determines a user selected operation mode through the operation unit 10d. According to the determination result, the pulse controller 10a provides a user-selected pulse to the drive driver 10b, and the drive driver 10b is connected to the voltages of the pulses applied to the first motor 12 to the third motor 14. The current may be increased and applied to the first motor 12 to the second motor 14.

On the other hand, Figure 8 is a structure for receiving the pressure control unit 10a, the drive driver 10b, the display unit 10c, and the operation unit 10d to the housing 10 to control the penis exercise device using the multiple vibration resonance control technology Is proposing. However, the illustrated pulse control unit 10a, the drive driver 10b, the display unit 10c, and the operation unit 10d may be separate devices from the housing 10, and such devices may be stored in the housing 10. It may be located outside by an electric wire connected to the first motor 12 to the third motor 14, but the position thereof is not limited.

10 housing 11 incision groove
11a: first incision groove 11b: second incision groove
12: first motor 13: second motor
14: third motor

Claims

A housing having a hollow cylindrical structure for inserting the penis, the both ends of which are longitudinally open;
A first holder, a second holder, and a third holder which are arranged spaced apart from each other along the outer circumferential surface of the housing and disposed adjacent to any one of left and right sponges of the penis and the glans;
Each of the first holder to the third holder, respectively, is driven by a program-controlled independent pulse to generate individual vibrations, and transmits the individual vibrations to the housing through the first holder to the third holder, respectively And a first motor, a second motor, and a third motor for generating strength and directionality of the vibration in the housing by mutual interference of the individual vibrations.
One side of the housing,
An incision groove is formed along both longitudinal ends of the penis to allow the diameter of the holder to increase in accordance with the size of the penis.

The method of claim 1,
The first motor to the third motor,
Penis exercise device using a multiple vibration resonance control technology characterized in that arranged on the outer peripheral surface of the housing in the range of 90 to 120 degrees spaced apart relative to the center axis of the housing.

The method of claim 1,
The first motor to the third motor,
The penile exercise device using the multiple vibration resonance control technology, which is accommodated in the housing, wherein the first motor to the third motor housing area protrudes from the outer circumferential surface of the housing.

The method of claim 1,
The incision groove,
First incision grooves passing through both ends of the housing; And
And a second incision groove formed in a 90 degree direction with respect to the first incision groove.
The first incision groove and the second incision groove penis exercise device using a multiple vibration resonance control technology, characterized in that the cross shape.

The method of claim 1,
The housing includes:
A holder for accommodating the first motor to the third motor,
Wherein the holder comprises:
An incision groove is formed on one side of the penis exercise device using a multiple vibration resonance control technology, characterized in that any one of the first motor to the third motor is detachable.

The method of claim 1,
The housing includes:
Penis exercise device using multiple vibration resonance control technology, characterized in that the material of any one of silicon, rubber.

The method according to claim 6,
The housing includes:
Penis exercise device using a multiple vibration resonance control technology, characterized in that the durometer hardness is made of A35 to A45.

The method of claim 1,
The first motor to the third motor,
Penis exercise device using a multiple vibration resonance control technology characterized in that the rotational vibration to the penis inserted into the housing by the pulse applied sequentially.

The method of claim 1,
The first motor to the third motor,
The penis exercise device using the multiple vibration resonance control technology, characterized in that the intensity of the vibration applied to the housing when the applied pulse is a pulse of the same phase.

The method of claim 1,
The first motor to the third motor,
Penis exercise device using a multi-vibration resonance control technology characterized in that to generate a physical direction by the force of the vibration intensity generated by two or more motors.