KR20190120097A - Device and method for providing ultrasound - Google Patents

Abstract

Disclosed by the present invention is an ultrasound providing device for treating a gynecological disease. According to an embodiment of the present invention, the ultrasound providing device includes: a control unit generating a control signal for controlling the frequency and intensity of ultrasonic waves; and an ultrasonic probe generating ultrasonic waves based on the control signal. The control unit generates the control signal to generate ultrasonic waves having different sizes of frequencies according to the type of gynecological disease treatment. The ultrasonic probe is provided in an end region of a housing extended in a longitudinal direction to be able to be inserted into vagina. According to the type of gynecological disease treatment, the control signal may include: a first ultrasound type generating ultrasonic waves of a single frequency; a second ultrasound type generating ultrasonic waves of a high band frequency and a middle band frequency; and a third ultrasound type generating ultrasonic waves of the middle band frequency and a low band frequency.

Description

Apparatus and method for providing ultrasonic waves {DEVICE AND METHOD FOR PROVIDING ULTRASOUND}

The present application relates to an ultrasound providing apparatus and method.

Ultrasound generally refers to sound waves exceeding a range of audible frequencies that can be heard by a human ear of more than 20 KHz. Such ultrasound waves are widely used in an ultrasound imaging apparatus for obtaining an image inside an object. Such an ultrasound imaging apparatus is compact, inexpensive, and can be displayed in real time, and has no advantages such as X-rays, and thus has high stability, such as CT (Computed Tomography), MRI (Magnetic Resonance Image), and nuclear medicine devices. It is widely used with other imaging devices.

In addition to the ultrasound imaging apparatus, the ultrasound treatment system is also an active area of recent technology development. Ultrasonic therapy systems are most often obtained by irradiating the body with ultrasound waves having a frequency of several MHz, which are used for medical purposes, to generate vibrations or heat of tissues inside the body to obtain a therapeutic effect. A representative example of such an ultrasound treatment system is a high intensity focused ultrasound system. In general, a high intensity focused ultrasound system includes a transducer that emits an ultrasound and focuses the emitted ultrasound on a focus to generate heat. As a result, the temperature rises abruptly at the site of the procedure. Through such a heat function, a desired medical procedure is performed without leaving side effects on various affected areas.

Meanwhile, with increasing interest in beauty, various medical and technical approaches to the decomposition of fats under the skin have been attempted. In this regard, although a technical approach of using ultrasound for the treatment of gynecological diseases is attempted through therapeutic ultrasound, the level of development is not appropriate with respect to the technology for treating various diseases of gynecology.

Background art of the present application is disclosed in Korea Patent Publication No. 10-1055334.

The present invention is to solve the above-mentioned problems of the prior art, an object of the present invention to provide an ultrasound providing apparatus and method for providing an ultrasound for treating various gynecological diseases.

The present application is to solve the above-mentioned problems of the prior art, an object of the present invention to provide an ultrasound providing apparatus and method that can provide an ultrasound optimized for each type of gynecological disease.

However, the technical problem to be achieved by the embodiments of the present application is not limited to the technical problems as described above, and other technical problems may exist.

As a technical means for achieving the above technical problem, the ultrasound providing apparatus for treating a gynecological disease according to an embodiment of the present application is a control unit for generating a control signal for controlling the frequency and intensity of the ultrasound and the ultrasound based on the control signal And an ultrasonic probe for generating a control signal, wherein the control unit generates the control signal to generate ultrasonic waves having frequencies of different sizes according to the type of the gynecological disease treatment, and the ultrasonic probe has a length to be inserted into the vagina. It is provided in one end region of the housing extending in the direction, The control unit is configured to generate an ultrasonic wave of at least one of the first ultrasonic type, the second ultrasonic type and the third ultrasonic type according to the type of the gynecological disease treatment Generate a control signal, wherein the first ultrasonic type is of a single frequency Ultrasonic waves are generated, the second ultrasonic wave type generates ultrasonic waves of a high band frequency and a medium band frequency, and the third ultrasonic wave type generates ultrasonic waves of the medium band frequency and a low band frequency.

According to an embodiment of the present disclosure, the first ultrasonic wave type generates ultrasonic waves by one of the high band frequency, the mid band frequency, and the low band frequency, wherein the high band frequency is a frequency between 9 MHz and 11 MHz, The mid band frequency may be a frequency between 2 MHz and 4 MHz, and the low band frequency may be a frequency less than 2 MHz.

According to an embodiment of the present disclosure, the control unit generates a control signal for each type of gynecological disease treatment by combining a plurality of ultrasound types according to the type of the gynecological disease treatment, and the ultrasound probe, the plurality of ultrasound types It is possible to alternately generate different ultrasonic waves by.

According to an embodiment of the present disclosure, the control signal is set according to the type of the gynecological disease treatment, the generation time of each of the high frequency and the mid-frequency frequency of the second ultrasonic type is set, and according to the type of the gynecological disease treatment The generation time of each of the middle band frequency and the low band frequency ultrasonic waves of the third ultrasonic type may be set.

According to an embodiment of the present disclosure, the control signal, the ultrasound providing time for each type of ultrasound may be set according to the type of the gynecological disease treatment, and the intensity of the ultrasound may be set for each type of the gynecological disease treatment.

Ultrasound providing method for the treatment of gynecological diseases according to an embodiment of the present invention, generating a control signal for controlling the frequency and intensity of the ultrasound and generating the ultrasound based on the control signal, the control signal The generating of the control signal may be generated to generate ultrasounds having frequencies of different sizes according to the type of gynecological disease treatment, and the generating of the ultrasound may extend in the longitudinal direction to be inserted into the vagina. The generating of the ultrasonic wave from the ultrasonic probe provided at one end region of the formed housing and generating the control signal may include one of a first ultrasonic wave type, a second ultrasonic wave type, and a third ultrasonic wave type according to the type of the gynecological disease treatment. The control signal is generated to generate at least one or more ultrasonic waves, wherein the control signal is generated. The first ultrasonic type generates ultrasonic waves of a single frequency, the second ultrasonic type generates ultrasonic waves of high and medium band frequencies, and the third ultrasonic type generates ultrasonic waves of the medium and low band frequencies. Can be.

According to an embodiment of the present disclosure, the first ultrasonic wave type generates ultrasonic waves by one of the high band frequency, the mid band frequency, and the low band frequency, wherein the high band frequency is a frequency between 9 MHz and 11 MHz, The mid band frequency may be a frequency between 2 MHz and 4 MHz, and the low band frequency may be a frequency less than 2 MHz.

According to an embodiment of the present disclosure, the generating of the control signal may include generating a control signal for each type of the gynecological disease treatment by combining a plurality of ultrasound types according to the type of the gynecological disease treatment, and generating the ultrasound. The step may alternately generate different ultrasonic waves by the plurality of ultrasonic types.

According to an embodiment of the present disclosure, the control signal is set according to the type of the gynecological disease treatment, the generation time of each of the high frequency and the mid-frequency frequency of the second ultrasonic type is set, and according to the type of the gynecological disease treatment The generation time of each of the middle band frequency and the low band frequency ultrasonic waves of the third ultrasonic type may be set.

According to an embodiment of the present disclosure, the control signal, the ultrasound providing time for each type of ultrasound may be set according to the type of the gynecological disease treatment, and the intensity of the ultrasound may be set for each type of the gynecological disease treatment.

The above-mentioned means for solving the problems are merely exemplary and should not be construed as limiting the present application. In addition to the above-described exemplary embodiments, additional embodiments may exist in the drawings and detailed description of the invention.

According to the aforementioned problem solving means of the present application, it is possible to provide an ultrasound providing apparatus and method for providing ultrasound for treating various gynecological diseases.

In addition, according to the aforementioned problem solving means of the present application, it is possible to provide an ultrasound providing apparatus and method that can provide an ultrasound optimized for each type of gynecological disease.

1 is a view showing the configuration of an ultrasound providing apparatus according to an embodiment of the present application.
2 is a view showing the configuration of an ultrasonic probe of the ultrasonic wave providing apparatus according to an embodiment of the present application.
3 is a view showing an example of the ultrasonic generation time of the ultrasonic wave providing apparatus according to an embodiment of the present application.
4 is a view showing an ultrasound providing apparatus according to an embodiment of the present application.
5 is a view showing the flow of the ultrasonic wave providing method according to an embodiment of the present application.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present disclosure will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present disclosure. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted for simplicity of explanation, and like reference numerals designate like parts throughout the specification.

Throughout this specification, when a portion is "connected" to another portion, this includes not only "directly connected" but also "electrically connected" with another element in between. do.

Throughout this specification, when a member is said to be located on another member "on", "upper", "top", "bottom", "bottom", "bottom", this means that any member This includes not only the contact but also the presence of another member between the two members.

Throughout this specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding the other components unless specifically stated otherwise.

1 is a view showing the configuration of an ultrasound providing apparatus according to an embodiment of the present application.

Referring to FIG. 1, the ultrasound providing apparatus 100 may include a controller 110 and an ultrasound probe 120.

The controller 110 may generate a control signal for controlling the frequency and intensity of the ultrasonic waves. The ultrasonic probe 120 may generate ultrasonic waves based on the control signal. First, referring to the ultrasonic wave, the ultrasonic wave may be converted into thermal energy while being absorbed by the tissue. In particular, ultrasound with sufficient energy can cause a rapid temperature rise in the tissue, which is called the thermal effect of ultrasound. The thermal effect of the ultrasound may cause effects such as treatment of lesions and regeneration of living cells. According to one embodiment of the present application, the ultrasonic wave provided by the ultrasonic wave providing apparatus 110 may be a high intensity focused ultrasonic wave (High Intesnsity Focused Ultrasound). The high intensity focused ultrasound refers to an ultrasound in which intensity is increased by focusing the ultrasound generated by the ultrasound transducer at a constant focus. High-intensity focused ultrasound does not directly affect the epidermal layer of the skin, induces coagulation in the muscle musculature (Surficial Musculo Aponeurotic System, SMAS), and transmits heat to the deeper parts of the dermis to improve tightening and whitening. have.

According to one embodiment of the present application, the ultrasound providing apparatus 100 may provide ultrasound for the treatment of gynecological diseases, but is not limited to gynecological diseases, it is obvious that it can be applied to various body parts. The controller 110 may generate a control signal to generate ultrasound waves having frequencies of different sizes according to the type of gynecological disease treatment. The type of gynecological disease treatment (hereinafter referred to as treatment type) may include moisturizing to improve vaginal dryness, tightening of the vagina, vulvar tightening, vaginal whitening and urinary incontinence. The control signal includes a first ultrasonic type for generating a single frequency of ultrasonic waves according to the treatment type, a second ultrasonic type for generating ultrasonic waves of a high band frequency and a medium band frequency, and a second ultrasonic type for generating the ultrasonic waves of the medium band frequency and a low band frequency. It may include three ultrasonic types. In exemplary embodiments, the controller 110 may generate a control signal by combining at least one of the first ultrasonic type, the second ultrasonic type, and the third ultrasonic type according to the treatment type.

2 is a diagram illustrating a configuration of an ultrasound probe of an ultrasound providing apparatus according to an exemplary embodiment of the present disclosure.

Referring to FIG. 2, the MCU 121 receives a control signal from the control unit 110 and generates a pulse at an intensity and a frequency of the ultrasound based on the control signal. 122) can be controlled. The pulse generator generates an ultrasonic wave based on the control signal, and the generated ultrasonic wave may be amplified by an amplifier 123 to have an intensity of the ultrasonic wave set in the control signal. The matching unit 124 may allow the amplified ultrasonic waves to be delivered to the output unit 125 with high efficiency, and the output unit 125 may finally apply the ultrasonic waves. The feedback unit 125 may transmit a result of the output of the ultrasound to the MCU 121 to generate a control command so that the output of the next ultrasound is stabilized by the MCU 121. Also, the power control unit 126 may control the operation of the amplifying unit 123 based on the control command to stabilize the output of the ultrasonic waves.

For example, the ultrasonic waves generated by the ultrasonic probe 120 may be ultrasonic waves having a frequency band of 10 ⁶ hz or more, that is, megahertz. The first ultrasonic wave type may generate ultrasonic waves by a single frequency, that is, one of a high band frequency, a mid band frequency, and a low band frequency. For example, the high band frequency may be a frequency having a band between 9 MHz and 11 MHz, the mid band frequency may be a frequency having a band between 2 MHz and 4 MHz, and the low band frequency may be a frequency having a band less than 2 MHz. That is, the high band frequency may be a frequency of a band higher than the mid band frequency, and the mid band frequency may be a frequency between the high band and the low band which is a band higher than the low band frequency. In exemplary embodiments, the second ultrasonic type may be a combination of a high band frequency and a mid band frequency, and the third ultrasonic type may be a combination of a medium band and a low band frequency.

Specifically, the controller 110 may set the generation time of each of the high band frequency and the mid band frequency of the ultrasound according to the treatment type. In addition, the generation time of each of the midband frequency and the lowband frequency of the third ultrasonic type may be set according to the treatment type.

3 is a view showing an example of the ultrasonic generation time of the ultrasonic wave providing apparatus according to an embodiment of the present application.

In FIG. 3, a description is made based on a second ultrasonic wave type including a high band frequency and a mid band frequency. Referring to FIG. 3A, the generation time ratios of the high band frequency and the mid band frequency may be equal to 5: 5. Referring to b of FIG. 3, it can be seen that the generation time ratio of the high band frequency and the mid band frequency is 3: 7. Referring to c of FIG. 3, the ratio of the generation time of the high band frequency to the mid band frequency is 2; You can see that it is: 8. That is, the ratio of the ultrasonic generation time may be set according to the treatment type, and as a result, the ultrasonic generation type may be set as the ratio of the ultrasonic generation time optimized for the treatment type. In addition, although the high band frequency and the mid band frequency have been described in the above example, the same may be applied to the combination of the mid band frequency and the low band frequency, and it is obvious that the present invention may also be applied to the high band frequency and the low band frequency.

In addition, the control signal may be set to the ultrasound providing time for each ultrasound type according to the treatment type. In exemplary embodiments, the controller 110 may generate a control signal to provide ultrasound in stages according to the treatment type. For example, when the treatment type is intravaginal tightening, a control signal in which the first ultrasound type and the second ultrasound type are combined may be generated. In this case, the first ultrasonic type may include a high band frequency, and the second ultrasonic type may be set to provide an ultrasonic wave of a medium band frequency first, and then provide an ultrasonic wave of a high band frequency.

In exemplary embodiments, the control signal according to vaginal internal tightening may generate ultrasonic waves in the order of the first ultrasonic type, the second ultrasonic type, and the first ultrasonic type. In this case, the ultrasound providing time may be set for each type. For example, the ultrasound providing time according to the ultrasound type may be set to the same time, or may have an independent ultrasound providing time for each ultrasound type. This may be set according to the type of treatment as described above. When the ultrasonic wave providing time of the first ultrasonic wave type and the ultrasonic wave providing time of the second ultrasonic wave type are set to 2 minutes, respectively, the first ultrasonic wave type may provide high frequency ultrasonic waves for 2 minutes. On the other hand, the second ultrasonic type may be provided with low frequency ultrasonic waves for 1 minute and high frequency ultrasonic waves for 1 minute. That is, ultrasound of low band frequency and high band frequency may be provided at a ratio of 5: 5, and the ratio may vary depending on the type of treatment as described above.

In addition, the control signal may be set the intensity of the ultrasound for each treatment type. The intensity of the ultrasound may be the intensity of energy per unit area. For example, the first stage (Lev1) is 0.5 W / Cm ² , the second stage is 1 W / Cm ² , the third stage is 1.5 W / Cm ² , the fourth stage is 2 W / Cm ² , and the fifth stage is 2.5 W / Cm ² , and step 6 may have an intensity of 3 W / Cm ² . The stepped intensity is not only an intensity of the ultrasonic wave for the treatment of gynecological diseases, but may be equally applied to the intensity of the ultrasonic wave for the treatment of the face and the body to be described later. In addition, in addition to the above-described step strength may be set in various steps, the amount of change in strength in each step may be different.

According to one embodiment of the present application, Table 1 below shows the type of ultrasound and the time for providing ultrasound by treatment type.

Application Treatment area frequency time burglar Full procedure
time Type of Treatment 1 Moisturizing effect
(Improve Dryness) Inside and outside 10 MHz 2 minutes Lev 3 6 minutes 3 MHz 10 MHz 2 minutes 10 MHz 2 minutes Type of Treatment 2 Vagina inside
Tightening Inside and outside 10 MHz 2 minutes Lev 5 6 minutes 3 MHz 10 MHz 2 minutes 10 MHz 2 minutes Type of Treatment 3 vulva
Tightening Vulva left 10 MHz 1 min Lev 5 6 minutes 3 MHz 10 MHz 1 min 10 MHz 1 min Vulva right 10 MHz 1 min Lev 3 3 MHz 10 MHz 1 min 10 MHz 1 min Type of Treatment 4 Whitening effect Vulva left 10 MHz 2 minutes Lev 3 8 minutes 3 MHz 10 MHz 2 minutes Vulva right 10 MHz 2 minutes Lev 3 3 MHz 10 MHz 2 minutes Type of Treatment 5 Incontinence Vulva / vaginal inlet 3 MHz 2 minutes Lev 3 8 minutes 1 MHz 3 MHz 2 minutes 3 MHz 2 minutes 1 MHz 3 MHz 2 minutes

4 is a view showing an ultrasound providing apparatus according to an embodiment of the present application.

Referring to FIG. 4, the ultrasound probe 120 may be provided at one end region of the housing 101 extending in the longitudinal direction to be inserted into the vagina. One end region may refer to an area in the 9 o'clock direction of the housing 100 with reference to FIG. 4. The ultrasonic probe 120 may alternately generate different ultrasonic waves by a plurality of ultrasonic types. For example, referring to Table 1, the ultrasonic probe 120 may alternately generate ultrasonic waves of the first ultrasonic type and ultrasonic waves of the second type.

The user may insert the ultrasound probe 120 into the vagina in a state where the power of the ultrasound providing apparatus 100 is turned off, and place it at an appropriate depth. When power is applied in the state in which the ultrasound probe 120 is inserted, the procedure is started, and the ultrasound may be provided while moving clockwise or counterclockwise within the vagina. For example, the ultrasound may be provided while moving in the counterclockwise direction from the 11 o'clock direction to the 7 o'clock direction with respect to the direction in which the ultrasonic probe 120 is inserted. In this case, the ultrasound may be provided for about 20 seconds in the 11 o'clock direction and the ultrasound may be provided by moving in the 9 o'clock direction. In addition, when providing the ultrasonic wave in either direction, it is preferable that the friction is made in the direction opposite to the insertion direction so that the ultrasonic probe 120 does not stop for more than 2 seconds.

According to an embodiment of the present disclosure, the controller 110 may generate a control signal according to a user setting in addition to the treatment type. In exemplary embodiments, the ultrasound providing apparatus may include an interface for receiving a user input. The controller 110 may receive a user input for selecting an ultrasound type and generate a control signal composed of the ultrasound type selected by the user. Table 2 below shows the ultrasound type and the ultrasound providing time by user selection.

Treatment area frequency burglar time Stand alone mode all 1 MHz Lev 6 10 minutes all 3 MHz Lev 6 10 minutes all 10 MHz Lev 6 10 minutes Crossover mode all 1 MHz 3 MHz Lev 6 10 minutes all 3 MHz 10 MHz Lev 6 10 minutes

According to one embodiment of the present application, the ultrasound probe 120 is not limited to the form shown in FIG. 4, and may be provided in various forms according to the treatment site or the purpose. In addition, each of the ultrasound probes 120 may be mounted to be replaced depending on the treatment site or purpose. For example, a plurality of ultrasound probes 120 may be provided according to a skin disease treatment. For example, the ultrasound probe 120 for providing ultrasound to the face may be provided in a form capable of providing ultrasound in a wider range than the ultrasound probe 120 described with reference to FIG. 4. In addition, the controller 110 may generate a control signal according to a skin disease treatment purpose. Table 3 below shows the ultrasound types according to the skin disease treatment use.

Application Treatment area frequency time burglar Full procedure
time Face Tightening left 10 MHz 3 minutes Lev 6 18 minutes 3 MHz 10 MHz 3 minutes 10 MHz 3 minutes Right side 10 MHz 3 minutes 3 MHz 10 MHz 3 minutes 10 MHz 3 minutes wrinkle left 10 MHz 3 minutes Lev 6 12 minutes 3 MHz 10 MHz 3 minutes 10 MHz 3 minutes Right side 10 MHz 3 minutes 3 MHz 10 MHz 3 minutes 10 MHz 3 minutes Moisturizing effect left 10 MHz 3 minutes Lev 4 12 minutes 3 MHz 10 MHz 3 minutes 10 MHz 3 minutes Right side 10 MHz 3 minutes 3 MHz 10 MHz 3 minutes 10 MHz 3 minutes Drug penetration left 10 MHz 3 minutes Lev 3 6 minutes Right side 10 MHz 3 minutes acne left 10 MHz 3 minutes Lev 3 12 minutes 3 MHz 10 MHz 3 minutes Right side 10 MHz 3 minutes 3 MHz 10 MHz 3 minutes Redness / skin stability left 10 MHz 3 minutes Lev 2 12 minutes 3 MHz 10 MHz 3 minutes Right side 10 MHz 3 minutes 3 MHz 10 MHz 3 minutes Acne Scars left 10 MHz 3 minutes Lev 4 18 minutes 3 MHz 10 MHz 3 minutes 10 MHz 3 minutes Right side 10 MHz 3 minutes 3 MHz 10 MHz 3 minutes 10 MHz 3 minutes Bruising / swelling Treatment area 10 MHz 3 minutes Lev 2 6 minutes 3 MHz 10 MHz 3 minutes body Body tightening Treatment area 3 MHz 5 minutes Lev 6 15 minutes 1 MHz 3 MHz 5 minutes 1 MHz 5 minutes Body moisturizing effect Treatment area 3 MHz 5 minutes Lev 4 10 minutes 1 MHz 3 MHz 5 minutes Body drug penetration Treatment area 3 MHz 5 minutes Lev 3 10 minutes 1 MHz 3 MHz 5 minutes

For example, even in the case of skin disease treatment, the controller 110 may generate a control signal according to a user setting as shown in Table 2 above.

6 and 7 are diagrams illustrating a guide for providing ultrasound through the ultrasound providing apparatus 100 according to an exemplary embodiment of the present disclosure.

The user may apply a gel or a whitening ampoule to the treatment area before using the ultrasound providing apparatus 100. As the gel or ampoule is applied, the ultrasound probe 120 may move smoothly in the affected area and provide ultrasound. Can be. When the procedure starts as power is applied to the ultrasound providing apparatus 100, the ultrasound may be provided while being moved in a clockwise or counterclockwise direction. Referring to FIG. 6, ultrasound may be provided while moving in a counterclockwise direction starting from the position of 0 toward 1 to 3. In this case, the ultrasound may be provided while staying at the position of each number for about 20 seconds, for example, while the ultrasound probe 120 is inserted into the vagina for 10 seconds and moves out of the vagina for the remaining 10 seconds. Ultrasound may be provided. When the movement in the counterclockwise direction is completed, the ultrasound can be provided while moving in the clockwise direction toward 4 to 6.

In addition, referring to FIG. 7, the ultrasonic probe 120 may be moved in a clockwise or counterclockwise direction while reducing the rotation radius. That is, as shown in FIG. 7, the movement of 2 may be performed with a rotation radius smaller than the rotation radius of 1 in the movement corresponding to 2 which is second than the movement corresponding to the first 1. It is also preferable to proceed at a speed of moving 1 cm per second. When the movement corresponding to the counterclockwise direction from 1 to 3 is completed, the movement from 4 to 10 may be sequentially performed.

According to one embodiment of the present application, the ultrasound providing apparatus 100 may include a plurality of sensors (not shown). In addition, the controller 110 may control the operation of the ultrasonic probe 120 through the signal collected by the sensor. In exemplary embodiments, the sensor may include at least one of a temperature sensor, a motion recognition sensor, a voice recognition sensor, an image recognition sensor, a camera sensor, a pressure sensor, a radiation sensor, and an electromagnetic wave sensor. For example, the sensor may be provided in an end region of the housing 101, that is, an region in which the ultrasonic probe 120 is provided. In the case of the temperature sensor, the control unit 110 may control the ultrasonic probe 120 to stop the generation of the ultrasonic wave when the result of sensing the temperature of the target site receiving the ultrasonic wave is greater than or equal to the threshold temperature. In another example, in the case of the motion recognition sensor, when the ultrasound providing apparatus 100 determines that the ultrasound providing apparatus 100 does not move for a predetermined time, the controller 110 may stop the generation of the ultrasound by controlling the operation of the ultrasound probe 120. Burns of the subject's subject area can be prevented.

In addition, the ultrasonic type may be changed based on the information collected from the sensor. For example, as described above, when the temperature of the target site is greater than or equal to the threshold temperature, the generation of the ultrasonic wave may be stopped, but when the threshold temperature is reached, the controller 110 may generate a control signal to lower the intensity and intensity of the frequency. Can be. For example, when the temperature of the target region reaches a critical temperature while ultrasonic waves are provided at five intensity levels as the third ultrasonic type, the controller generates an ultrasonic wave of the first ultrasonic type in the third ultrasonic type, A control signal can be generated to change the intensity to two levels of intensity.

In addition, the intensity of the ultrasonic wave may be changed according to the movement of the ultrasonic probe 120. In exemplary embodiments, a reference rotation radius may be set for each treatment type, and a rotation radius of the ultrasound probe 120 may be sensed through a motion sensor and a camera sensor. If the detected rotation radius is smaller than the reference rotation radius for each treatment type, the controller 110 may generate a control signal to provide the intensity of the ultrasound weaker than the intensity of the ultrasound currently being provided. In addition, the controller 110 may detect a movement of the ultrasound probe 120 and generate a control signal corresponding to a treatment type suitable for the movement. Specifically, when the ultrasonic sensor 120 is detected at the entrance of the vaginal opening through the motion sensor and the camera sensor, the controller 110 may recognize that the urinary incontinence is improved, and the treatment type for the urinary incontinence improvement (Table 1 treatment Other control signals can be generated.

The controller 110 may generate a control signal by varying the frequency and intensity of the ultrasonic wave according to the movement of the ultrasonic probe 120. Referring to FIG. 7, the controller 110 may differently generate a control signal of the ultrasonic wave provided while the ultrasonic probe 120 moves in the path of 1 and a control signal of the ultrasonic wave provided while moving in the path of 3. . In exemplary embodiments, the control signal corresponding to the path of 3 may be set to have a lower frequency and lower intensity than the control signal corresponding to the path of 1. Further, according to the exemplary embodiment, the control signal corresponding to the path of 3 may be set to have a higher frequency and stronger intensity than the control signal corresponding to the path of 1. That is, since the control unit 110 may generate a control signal according to the position and movement of the ultrasonic probe 120, an optimal ultrasonic wave may be provided according to each position and movement.

5 is a view showing the flow of the ultrasonic wave providing method according to an embodiment of the present application.

The ultrasound providing method illustrated in FIG. 5 is performed by the ultrasound providing apparatus 100 described with reference to FIGS. 1 to 4. Therefore, even if omitted below, the description of the ultrasound providing apparatus 100 through FIGS. 1 to 4 is also applied to FIG. 5.

Referring to FIG. 5, in step S510, the controller 110 may generate a control signal for controlling the frequency and intensity of the ultrasound. The controller 110 may generate a control signal to generate ultrasound waves having frequencies of different sizes according to the type of gynecological disease treatment. The control signal may include a first ultrasonic type for generating a single frequency of ultrasonic waves according to the treatment type, a second ultrasonic type for generating ultrasonic waves of a high band frequency and a mid band frequency, and an ultrasonic wave of the medium and low band frequencies. It may include a third ultrasonic type. For example, the controller 110 may generate a control signal for each type of gynecological disease treatment by combining a plurality of ultrasound types according to the type of gynecological disease treatment.

The first ultrasonic wave type may generate ultrasonic waves by a single frequency, that is, one of a high band frequency, a mid band frequency, and a low band frequency. For example, the high band frequency is a frequency having a band between 9 MHz and 11 MHz, the mid band frequency is a frequency having a band between 2 MHz and 4 MHz, and the low band frequency is a frequency having a band less than 2 MHz. In addition, the control signal is generated according to the type of the gynecological disease treatment, the generation time of the ultrasound of the high frequency band and the mid-band frequency of the second ultrasonic type, respectively, and the third ultrasonic type of the critical factor according to the type of gynecological disease treatment The generation time of each of the reverse frequency and the low band frequency of the ultrasonic wave can be set. In addition, the control signal, the ultrasound providing time for each type of ultrasound may be set according to the type of the gynecological disease treatment, the intensity of the ultrasound may be set for each type of the gynecological disease treatment.

In operation S520, the ultrasound probe 120 may generate ultrasound based on the control signal. For example, the ultrasonic probe 120 may be provided at one end region of the housing extending in the longitudinal direction to be inserted into the vagina. In addition, the ultrasonic probe 120 may alternately generate different ultrasonic waves by a plurality of ultrasonic types.

Ultrasound providing method according to an embodiment of the present application may be implemented in the form of program instructions that can be executed by various computer means may be recorded on a computer readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. Program instructions recorded on the media may be those specially designed and constructed for the purposes of the present invention, or they may be of the kind well-known and available to those having skill in the computer software arts. Examples of computer readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tape, optical media such as CD-ROMs, DVDs, and magnetic disks such as floppy disks. Magneto-optical media, and hardware devices specifically configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine code, such as produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware device described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

The above description of the present application is intended for illustration, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present application. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope of the present application is indicated by the following claims rather than the above description, and it should be construed that all changes or modifications derived from the meaning and scope of the claims and their equivalents are included in the scope of the present application.

100: ultrasonic providing device
101: housing
110: control unit
120: ultrasonic probe

Claims (11)

In the ultrasound providing device for the treatment of gynecological diseases,
A control unit for generating a control signal for controlling the frequency and intensity of the ultrasonic wave; And
An ultrasonic probe for generating an ultrasonic wave based on the control signal,
The control unit generates the control signal to generate ultrasonic waves having frequencies of different sizes according to the type of gynecological disease treatment,
The ultrasonic probe is provided in one end region of the housing extending in the longitudinal direction to be inserted into the vagina,
The control unit generates the control signal to generate at least one ultrasonic wave of at least one of a first ultrasonic wave type, a second ultrasonic wave type, and a third ultrasonic wave type according to the type of gynecological disease treatment.
The first ultrasonic type generates ultrasonic waves of a single frequency, the second ultrasonic type generates ultrasonic waves of a high band frequency and a mid band frequency, and the third ultrasonic type generates ultrasonic waves of the medium band frequency and the low band frequency. Ultrasonic wave providing apparatus. The method of claim 1,
The first ultrasonic wave type generates ultrasonic waves by one of the high band frequency, the mid band frequency, and the low band frequency.
Wherein the high band frequency is a frequency between 9 MHz and 11 MHz, the mid band frequency is a frequency between 2 MHz and 4 MHz, and the low band frequency is a frequency less than 2 MHz. The method of claim 1,
The control unit generates a control signal for each type of gynecological disease treatment by combining a plurality of ultrasound types according to the type of gynecological disease treatment.
And the ultrasonic probe alternately generating different ultrasonic waves by the plurality of ultrasonic types. The method of claim 2,
The control signal is set in accordance with the type of the gynecological disease treatment, the occurrence time of each of the high frequency and the mid-band frequency ultrasound of the second ultrasonic type,
The generation time of each of the mid- and low-band frequency ultrasound of the third ultrasonic type is set according to the type of the gynecological disease treatment, the ultrasound providing apparatus. The method of claim 1,
The control signal,
The ultrasound providing time for each ultrasound type is set according to the type of the gynecological disease treatment, and the intensity of the ultrasound is set for each type of the gynecological disease treatment. In the ultrasound providing method for the treatment of gynecological diseases,
Generating a control signal for controlling the frequency and intensity of the ultrasonic waves; And
Generating ultrasonic waves based on the control signal;
The generating of the control signal may include generating the control signal to generate ultrasound waves having frequencies of different sizes according to the type of gynecological disease treatment.
The generating of the ultrasonic wave may include generating the ultrasonic wave from an ultrasonic probe provided at one end region of the housing extending in the longitudinal direction to be inserted into the vagina,
The generating of the control signal may include generating the control signal to generate at least one ultrasonic wave among a first ultrasonic type, a second ultrasonic type, and a third ultrasonic type according to the type of the gynecological disease treatment.
The first ultrasonic type generates ultrasonic waves of a single frequency, the second ultrasonic type generates ultrasonic waves of a high band frequency and a mid band frequency, and the third ultrasonic type generates ultrasonic waves of the medium band frequency and the low band frequency. Ultrasonic wave providing method. The method of claim 6,
The first ultrasonic wave type generates ultrasonic waves by one of the high band frequency, the mid band frequency, and the low band frequency.
Wherein said high band frequency is a frequency between 9 MHz and 11 MHz, said mid band frequency is a frequency between 2 MHz and 4 MHz, and said low band frequency is a frequency less than 2 MHz. The method of claim 7, wherein
Generating the control signal,
Generating a control signal for each type of gynecological disease treatment by combining a plurality of ultrasound types according to the type of gynecological disease treatment,
Generating the ultrasonic wave,
And generating different ultrasonic waves alternately by the plurality of ultrasonic types. The method of claim 7, wherein
The control signal is set in accordance with the type of the gynecological disease treatment, the occurrence time of each of the high frequency and the mid-band frequency ultrasound of the second ultrasonic type,
And the occurrence time of each of the mid and low band frequencies of the third ultrasonic type is set according to the type of gynecological disease treatment. The method of claim 6,
The control signal,
The ultrasound providing time for each ultrasound type is set according to the type of the gynecological disease treatment, and the intensity of the ultrasound is set for each type of the gynecological disease treatment. A computer-readable recording medium having recorded thereon a program for executing the method of any one of claims 6 to 10.

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