KR20160030649A - Apparatus for ultrasound medical system - Google Patents

Abstract

According to an embodiment, a medical ultrasound generation apparatus comprises: a case unit having an internal space into which fat is sucked together with skin; a suction unit which is connected to the case unit and sucks the skin and the fat by decompressing the internal space; a suction measurement unit which is installed in the case unit and measures the degree of the skin and the fat sucked to the inside of the case unit; a control unit which controls operation of the suction unit and receives a measured value of the suction measurement unit; and an ultrasound generation unit which is operated by a control signal of the control unit and irradiates the fat sucked into the internal space with ultrasound waves. The purpose of the present invention is to facilitate the removal of fat without causing injury to a human body by preventing ultrasound energy from being transmitted to undesired areas such as internal organs, bones and the like in the human body.

Description

[0001] APPARATUS FOR ULTRASOUND MEDICAL SYSTEM [0002]

The disclosure relates to a medical device, and more particularly to a medical ultrasound generator.

In general, body sculpting is proposed to remove fat under the skin of a person. The use of ultrasound or laser for non-invasive destruction of adipose tissue was suggested in body-management.

These systems use high intensity focused ultrasound (HIFU), radio frequency (RF), or laser, either separately or in combination.

The focusing type ultrasound machine is designed to focus the ultrasound energy to one place, and the energy density of the ultrasound in the focus area concentrated at one place is formed to be extremely high.

When the fat is melted or burned by using the high density energy of the focusing type ultrasonic surgical device, the fat is naturally discharged out of the human body through the metabolism. A focused ultrasound device uses one or more forms of energy to penetrate the skin and affect the underlying adipose tissue.

However, if the thickness of the fat layer to be treated is less than the set thickness, the focus of the ultrasound may deviate from the fat layer, possibly causing internal organs or bone damage. When ultrasonic energy is irradiated at a high intensity in a short time,

The temperature of the human tissue in the path through which the ultrasonic waves are transmitted as well as the focus region can be increased by the ultrasonic energy.

In addition, tissue inside or outside of the focus area, which is precisely the unfocused region of the ultrasonic energy, may have high energy density and may damage the internal organs. In addition, when ultrasonic waves are applied to a bone site, due to the nature of the ultrasonic wave, it may be absorbed to the bone, which is a medium having a high density, to cause a local temperature rise, which may cause thermal damage to the cells.

BACKGROUND OF THE INVENTION [0002] The background art of the present invention is disclosed in Korean Patent Laid-Open Publication No. 2011-0121701 (published on November 11, 2011, entitled Ultrasonic Treatment of Adipose Tissue at Multiple Depths).

Embodiments of the present disclosure provide a medical ultrasound generator capable of preventing the transfer of ultrasound energy to undesired locations such as internal organs or bones of a human body, thereby facilitating removal of fat without damaging the human body.

A medical ultrasonic generator according to one aspect of the present disclosure is disclosed. The medical ultrasound generator includes a case portion having an inner space in which fat is sucked together with skin, a suction portion connected to the case portion and depressurizing the inner space to suck the skin and the fat, A control unit for controlling the operation of the suction unit and receiving a measured value of the suction unit, and a control unit for controlling the operation of the suction unit based on a control signal of the control unit, And an ultrasonic generator for irradiating ultrasonic waves to the fat sucked into the inner space.

According to the embodiment of the present disclosure, since the ultrasonic wave is radiated toward the fat in the state that the fat is inhaled along with the skin on the inside of the case, the ultrasonic wave is prevented from propagating to the bone or the internal organs and the like. In addition, since ultrasonic waves can be irradiated regardless of the thickness of the fat, it is possible to provide an ultrasonic medical device that can be performed by anyone and can easily remove fat .

1 is a perspective view schematically showing a medical ultrasound generator according to a first embodiment of the present disclosure;
2 is a perspective view schematically showing a state in which a medical ultrasound generator according to a first embodiment of the present disclosure is used.
3 is a cross-sectional view schematically showing a state before the skin is sucked into the inside of the case portion according to the first embodiment of the present disclosure.
4 is a cross-sectional view schematically showing a state in which the skin is sucked into the inside of the case portion according to the first embodiment of the present disclosure.
5 is a cross-sectional view schematically showing a state in which ultrasonic waves are irradiated toward the fat inserted into the inside of the case part according to the first embodiment of the present disclosure.
Fig. 6 shows changes in output values of the main element and the sub element according to the first embodiment of the present disclosure. Fig. 6 is a table showing changes in sensor values before and after the skin is sucked.
7 is a block diagram showing a main configuration of a medical ultrasound generator according to the first embodiment of the present disclosure.

Embodiments of the present disclosure will now be described in more detail with reference to the accompanying drawings. However, the techniques disclosed in this disclosure are not limited to the embodiments described herein but may be embodied in other forms. In the drawings, the width, thickness, and the like of the components are enlarged in order to clearly illustrate the components of each device.

Where an element is referred to herein as being located on another element "above" or "below", it is to be understood that the element is directly on the other element "above" or "below" It means that it can be intervened. In this specification, the terms 'upper' and 'lower' are relative concepts set at the observer's viewpoint. When the viewer's viewpoint is changed, 'upper' may mean 'lower', and 'lower' It may mean.

Like numbers refer to like elements throughout the several views. It is to be understood that the singular forms "a", "an", and "the" include plural referents unless the context clearly dictates otherwise, and the terms "comprise" Or combinations thereof, and does not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

Embodiments of the present invention described below provide a medical ultrasound generator capable of easily removing fat under skin while preventing damage to the human body due to ultrasound.

Fig. 1 is a perspective view schematically showing a medical ultrasonic generator according to a first embodiment of the present disclosure, Fig. 2 is a perspective view schematically showing a state in which a medical ultrasonic generator according to the first embodiment of the present disclosure is used, FIG. 3 is a cross-sectional view schematically showing a state before the skin is sucked into the inside of the case part according to the first embodiment of the present disclosure, and FIG. 4 is a cross-sectional view of the skin inside the case part according to the first embodiment of the present disclosure Fig. 5 is a cross-sectional view schematically showing a state in which ultrasonic waves are irradiated toward the fat inserted into the inside of the case part according to the first embodiment of the present disclosure, Fig. 6 is a cross- In which the change of the sensor value before and after the skin is sucked is shown in the table. 7 is a block diagram showing a main configuration of a medical ultrasound generator according to the first embodiment of the present disclosure.

1 to 7, a medical ultrasound generator 1 according to a first embodiment of the present invention includes a case 60 having an inner space 12 in which a fat 62 is sucked together with a skin 60, A suction unit 20 which is connected to the case unit 10 and decompresses the inner space 12 to suck the skin 60 and the fat 62 to the inside of the case unit 10, (30) installed in the body (10) and measuring the degree to which the skin (60) and the fat (62) are sucked into the inside of the case part (10) An ultrasonic wave generator 50 operated by a control signal of the controller 40 and a control signal of the controller 40 to receive the measured value of the ultrasonic wave generator 30 and irradiating ultrasonic waves to the fat 62 sucked into the case 10, .

The case portion 10 can be deformed into various shapes within the technical idea having the inner space 12 into which the fat 62 is sucked together with the skin 60. [ The case 10 according to the first embodiment of the present invention is formed in such a shape that one side toward the skin 60 is opened and the skin 60 and the fat 62 are inserted inside the case 10 An inner space 12 is provided. The case 10 is formed in a shape that opens downward (refer to FIG. 3) toward the skin 60, and the outer shape of the case 10 is also deformed in proportion to the size of the inner space 12.

The suction unit 20 is provided with various kinds of vacuum devices in order to suck the skin 60 inside the case 10 by changing the pressure of the inner space 12 formed inside the case 10 Can be used. The suction unit 20 according to the first embodiment of the present invention includes a vacuum generating unit 22, a connection hose 24, and a pressure sensor 26.

The vacuum generating unit 22 is operated by a control signal of the control unit 40 to form a vacuum pressure. The vacuum generating part 22 and the case part 10 are connected by the connection hose 24. When the vacuum generating part 22 is operated, air in the inner space 12 flows along the connection hose 24, (22).

The pressure sensor 26 is connected to the connection hose 24 and measures the pressure of the air moving along the connection hose 24 and transmits the measurement value to the control unit 40. Before the skin 60 is sucked into the inner space 12, the flow of air moving along the connection hose 24 is smooth, so that the pressure of the air is relatively low and the skin 60 is sucked into the inner space 12 The flow of the air moving along the connection hose 24 is not smooth, so that the air pressure is relatively high. The control unit 40 receives the measured value of the pressure sensor 26 and determines whether the skin 60 is sucked into the inner space 12 of the case unit 10.

The ultrasonic generator 50 must be operated in a state in which the skin 60 sucked into the inside of the case 10 is in close contact with the ultrasonic generator 50. For this purpose, the skin 60 including the fat 62 has to be sucked into the inner space 12 of the case part 10 sufficiently. If ultrasound energy is irradiated toward the skin 60 in a state in which the skin 60 is not sufficiently adhered to the ultrasonic wave generator 50, an image may be generated on the skin 60 surface.

The suction measurement unit 30 may be installed in the case unit 10 and various measuring apparatuses may be used within the technical idea of measuring the degree of suction of the skin 60 and the fat 62 into the inside of the case unit 10 . The suction measurement unit 30 according to the first embodiment includes a light emitting element 32 and a light receiving element 34. [

A variety of light emitting devices can be used in the light emitting device 32 within the technical idea of irradiating light to the inside of the case part 10. [ The light emitting device 32 according to the first embodiment uses a light emitting diode (LED) having a deep penetration depth, and it is preferable that the light emitting device 32 emits light having a wavelength band (600 nm), which is easily permeable to a human body. The light emitting device 32 uses red or infrared light and irradiates a light beam toward the inner space 12 to measure the degree to which the skin 60 including the fat 62 is inserted into the inner space 12. [

A plurality of light receiving elements 34 are provided inside the case 10 facing the light emitting elements 32 and sense the light of the light emitting elements 32 to transmit the measured values to the controller 40. The light receiving element 34 uses a photosensor whose output value changes according to the amount of the input light and the output value of each light receiving element 34 is transmitted to the controller 40 so that the skin 60 is placed in the inner space 12 The degree of insertion can be measured. That is, a plurality of photosensors used as the light-receiving elements 34 are mounted in the inner space 12 of the case portion 10 facing the light-emitting elements 32. Therefore, the amount of light input to the light- It is possible to monitor whether the skin 60 has sufficiently flowed into the inner space 12. The light receiving element 34 according to the first embodiment includes the main element 36 within the divergence angle of the light emitting element 32 and the subelement 38 outside the divergence angle of the light emitting element 32. [

3 and 6, the main element 36 is installed within the divergence angle of the LED 32, so that the skin 60 is sucked into the inner space 12 of the case 10 The amount of light of the light emitting element 32 is large before the main element 36, so that the output value becomes high.

4 and 6, when the skin 60 and the fat 62 are positioned between the light emitting element 32 and the main element 36, the amount of light flowing into the main element 36 The output value of the main element 36 is lowered.

When the photosensor is outside the divergence angle of the light emitting element 32 as in the case of the sub element 38, the sub element 38 is irradiated with light before the skin 60 is sucked into the inner space 12 of the case part 10 When the skin 60 is sucked into the inner space 12 after the light amount of the element 32 enters a small amount, the light emitted from the light emitting element 32 is scattered in the skin 60, The output value of the sub element 38 becomes high.

4 and 6, when the skin 60 and the fat 62 are positioned between the light emitting element 32 and the main element 36, light emitted from the light emitting element 32 is scattered by the human body tissue And the amount of light introduced into the sub-element 38 is greatly increased, so that the output value of the sub-element 38 is increased.

The control unit 40 receives the measured values of the pressure sensor 26 and the light receiving element 34 and controls the operation of the vacuum generating unit 22, the light emitting device 32, and the ultrasonic generating unit 50 Various types of control devices can be used. The control unit 40 according to the first embodiment compares the output values of the main element 36 and the sub element 38 and determines whether or not the skin 60 is sucked inside the case unit 10.

The ultrasonic wave generator 50 operates in response to a control signal from the controller 40. The ultrasonic wave generator 50 irradiates ultrasonic waves to the fat 62 absorbed inside the case 10 to dissolve the fat 62, An ultrasonic generator may be used. The ultrasonic generator 50 according to the first embodiment includes a head portion 52, a film portion 54, a connecting portion 56, and a housing portion 58. The head portion 52 is made of a PZT component that is a piezoelectric material of a lead-zirconium-titanium material and is sometimes called a vibrator. The rear surface of the head portion 52 is sealed by an insulating case. The connection portion 56 is constituted by a cable for supplying ultrasonic electric energy to the head portion 52 and a mechanism for fixing the head portion 52.

The head portion 52 is formed in a hemispherical shape so as to converge the ultrasonic energy into one spot and the opened portion of the head portion 52 is installed toward the inner space 12 of the case portion 10. Since the head 52 generating the ultrasonic wave is formed in a hemispheric shape, the ultrasonic energy is focused to form a focus region 59 in the fat 62. Ultrasonic waves in the focus region 59 where the ultrasonic waves are concentrated in one place are so high that the energy density increases up to 3,000 [w / cm 2]. Therefore, when the fat 62 is melted or burned using high-density energy, the fat 62 is naturally discharged out of the human body through metabolism.

The film portion 54 is provided in front of the head portion 52 (left side in FIG. 5) and contacts the skin 60, so that the skin 60 is prevented from directly contacting the head portion 52. The film portion 54 is formed in a convex shape toward the inner space 12 so as to press the surface of the skin 60 in contact with the skin 60 moved to the inner space 12. [

The cable for supplying electrical energy in the connection part 56 can supply electric energy that can generate ultrasonic waves to the head part 52 through direct connection to the front and back surfaces of the head part 52 or via a connecting part in the middle. And the rear surface of the head portion 52 is sealed by an insulating case. Therefore, when the head portion 52 is operated in water, normal operation is possible because one electrode is exposed and the other electrode is waterproofed.

The housing part 58 is connected to the side surface of the case part 10 and the head part 52 and the connecting part 56 are installed inside the housing part 58.

Hereinafter, the installation and operation of the medical ultrasound generator 1 according to the first embodiment will be described.

2 and 3, when the suction unit 20 is not operated while the case 10 is in contact with the skin 60, the light generated by the light emitting device 32 is transmitted to the light receiving device 34, The output value of the main element 36 is high and the output value of the sub element 38 is low. Therefore, the controller 40 determines that the skin 60 is not sucked into the inner space 12 of the case 10, and does not operate the ultrasonic generator 50.

4, when the suction unit 20 is operated to lower the pressure in the inner space 12 in a state where the case 10 is in close contact with the skin 60, the skin 60 and the fat 62 ) Is sucked into the inside of the suction portion (20). When the skin 60 is positioned between the light emitting element 32 and the light receiving element 34, light traveling from the light emitting element 32 toward the light receiving element 34 is refracted and scattered and the output value of the main element 36 is And the output value of the sub element 38 becomes high. The change in the voltage of the light emitting element 32 and the light receiving element 34 is monitored to determine whether the skin 60 is in close contact with the ultrasonic generator 50. In order to monitor that the skin 60 is kept in close contact with the ultrasonic wave generator 50, the controller 40 determines based on the measured value of the pressure sensor 26. When the measured value of the pressure sensor 26 is high, the controller 40 determines that the skin 60 is kept in close contact with the ultrasonic generator 50. Since the ultrasonic wave energy can be transmitted with good energy, the inhaled skin 60 must be kept in close contact with the ultrasonic wave generator 50. If ultrasonic waves are irradiated in a state in which the skin 60 is sufficiently close to the ultrasonic wave generator 50, ultrasonic waves may be irradiated to only the fat 62 to be a target of ultrasonic energy. The ultrasound energy transmitted to the deep portion 64 of the human body such as the internal organs 68 and the bones 66 and the like can be reduced because the ultrasound energy is exerted only at the portion sucked into the inner space 12 of the case portion 10. [ The amount is very small and can be very safe procedures.

In addition, the ultrasonic treatment according to the conventional method can be applied only to a person having a certain thickness or more of the thickness of the fat 62. However, the ultrasonic generator for medical use 1 according to the present invention is applicable to all persons All treatments are possible. That is, in the medical ultrasonic generator 1 according to the present invention, when the contact height of the ultrasonic generator 50 is adjusted by adjusting the width of the case 10, it is limited to the body mass index related to the thickness of the fat 62 Ultrasonic procedures for removing the fat 62 without receiving it are possible. Therefore, a person who is skinny or highly obese can also be treated by adjusting the width of the case 10.

As described above, the medical ultrasound generator 1 irradiates ultrasonic waves toward the fat 62 in a state where the skin 60 and the fat 62 are sucked inside the case 10, ) And the internal organs (68), so that there is no damage to the human body due to the ultrasonic waves. Also, the ultrasonic wave can be irradiated regardless of the thickness of the fat 62, so that the fat 62 can be easily removed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It can be understood that

1: medical ultrasound generating device, 10: case, 12: inner space,
20: suction part, 22: vacuum generating part, 24: connecting hose, 26: pressure sensor,
30: Suction measuring unit, 32: Light emitting element, 34: Light receiving element, 36: Main element, 38:
40:
The present invention relates to an ultrasound image forming apparatus and a method of manufacturing the same.
60: skin, 62: fat, 64: deep, 66: bone, 68: internal organs.

Claims (10)

A case portion having an inner space in which fat is sucked together with the skin;
A suction unit connected to the case unit and sucking the skin and the fat by decompressing the inner space;
A suction measurement unit installed in the case unit for measuring a degree of suction of the skin and the fat into the case;
A control unit for controlling the operation of the suction unit and receiving a measurement value of the suction measurement unit; And
And an ultrasonic generator which is operated by a control signal of the controller and irradiates ultrasonic waves to the fat sucked into the inner space. The method according to claim 1,
Wherein the suction measurement unit comprises: a light emitting element for emitting light to the inside of the case part; And
And a plurality of light receiving elements provided inside the case part facing the light emitting element and sensing a light of the light emitting element and transmitting a measured value to the control part. 3. The method of claim 2,
Wherein the light emitting device is a light emitting diode (LED). The method of claim 3,
Wherein the light receiving element uses a photosensor whose output value changes according to the amount of light input. The method of claim 3,
The light-receiving element includes a main element within a divergence angle of the light-emitting element; And
And a sub-element located outside the diverging angle of the light emitting element. 6. The method of claim 5,
Wherein the control unit compares the output value of the main element and the sub element to determine whether the skin is sucked inside the case unit. The method according to claim 1,
And the case portion is formed in a shape having one side opened toward the skin. The method according to claim 1,
Wherein the suction unit is operated by a control signal of the control unit and includes a vacuum generator for generating vacuum pressure; And
And a connecting hose connecting the vacuum generating unit and the case unit. 9. The method of claim 8,
Wherein the suction unit further comprises a pressure sensor connected to the connection hose and measuring a pressure of air moving along the connection hose and transmitting a measurement value to the control unit. The method according to claim 1,
The ultrasonic wave generator includes a head unit formed in a hemispherical shape and focusing ultrasound energy into one spot; And
And a film portion provided in front of the head portion and in contact with the skin.

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