CN110624183A - Bimodal supersound subtracts moulding machine of fat - Google Patents

Abstract

The invention discloses a bimodal ultrasonic fat-reducing shaping machine which comprises a treatment head, a control module, a mechanical arm and a control console, wherein the treatment head is connected to the mechanical arm which is fixedly connected with the control console; the treatment head is used for collecting the thickness of fat and emitting ultrasonic waves of two modes: destroying fat cells by using mechanical or cavitation effect of ultrasonic waves in one mode, and enabling the fat cells to be apoptotic by using the thermal effect of the ultrasonic waves in the other mode; the control module is used for controlling the working mode of the treatment head; the mechanical arm is used for fixing and operating the treatment head; and the control platform is used for controlling the movement of the mechanical arm. The invention is convenient to use in any environment, and can improve the treatment speed and the treatment efficiency.

Description

Bimodal supersound subtracts moulding machine of fat

Technical Field

The invention relates to a fat-reducing shaping machine, in particular to a bimodal ultrasonic fat-reducing shaping machine.

Background

With the improvement of living standard of people, obesity gradually enters the visual field of people. When the excessive heat is consumed by the human body, the excessive heat is stored in the body in the form of fat, the amount of the excessive heat exceeds the normal physiological requirement, and the excessive heat is converted into obesity when reaching a certain value. Adipose tissue is widely distributed in subcutaneous tissue, but in different areas in different amounts. Obesity not only affects aesthetics, but also increases the risk of a range of physical or psychological disorders, such as heart disease, hypertension, diabetes, arthritis, bronchitis, deep vein thrombosis, pulmonary embolism, varicose veins, and the like. There is therefore a need for a method that can remove subcutaneous fat. Dieting or taking healthy eating habits are effective to some extent, but are difficult for most people to persist for a long time.

The principle of liposuction operation is to suck out the redundant fat from a certain part of the body by a negative pressure suction method so as to achieve the purpose of local rapid slimming. However, the risk of accidents in liposuction surgery is not negligible, as it is an invasive procedure, involving various common risks of surgery, such as the risk of anesthesia accidents, the risk of major bleeding, and long recuperative recovery times. In the late 90 s of the 20 th century, ultrasound caused a rush of heat by liquefying fat to assist liposuction techniques. However, after the initial rush, the increasing complications have struck many physicians' enthusiasm for liposuction studies. Various electronic instruments and devices have also emerged in recent years for fat reduction modeling. Patent 205759147U discloses a radio frequency fat dissolving device, which realizes fat dissolving and fat reducing by combining vacuum suction, infrared irradiation technology and radio frequency technology. Patent 203507090U discloses a fat-reducing body-shaping instrument device using infrared radiation for heating. None of the above devices, however, eliminates adipose tissue. At present, the ultrasonic wave is accepted by the medical field as a stimulation signal for fat reduction. Patent CN 102861384B provides an ultrasonic fat reduction device, further comprising a clamping unit for clamping the skin. Patent CN 10159261B discloses an ultrasonic wave subtracts fat moulding machine, including structures such as treatment head, wave source load-bearing device, arm, can send the ultrasonic wave of the low duty cycle of high strength narrow pulse for subtract fat moulding. The above devices all use the mechanical and cavitation effects of ultrasound to destroy fat cells. Because the adopted high-frequency focused ultrasound is adopted, the emitting action area is small each time, and the operation time required for large-area operation is overlong. Moreover, after being destroyed, the fat cells are gradually metabolized out of the body, and the skin may shrink and relax, which may also bring discomfort to the patient or require subsequent operations such as tightening the skin.

Disclosure of Invention

The invention discloses a bimodal ultrasonic fat-reducing shaping machine, and aims to provide an ultrasonic fat-reducing shaping machine capable of providing two modes, wherein fat cells are damaged by using the mechanical or cavitation effect of ultrasonic waves in one mode, the fat cells are apoptotic by using the heat effect of the ultrasonic waves in the other mode, the two modes are combined for use, the more ideal purpose of fat-reducing shaping is achieved, and meanwhile, the skin can be compacted by using the heat effect of the ultrasonic waves.

The invention provides a bimodal ultrasonic fat-reducing shaping machine which comprises a treatment head, a control module, a mechanical arm and a control console, wherein the treatment head is connected to the mechanical arm which is fixedly connected with the control console;

the treatment head is used for collecting the thickness of fat and emitting ultrasonic waves of two modes: destroying fat cells by using mechanical or cavitation effect of ultrasonic waves in one mode, and enabling the fat cells to be apoptotic by using the thermal effect of the ultrasonic waves in the other mode;

the control module is used for controlling the working mode of the treatment head;

the mechanical arm is used for fixing and operating the treatment head;

and the control platform is used for controlling the movement of the mechanical arm.

Preferably, the inner core of the treatment head body part comprises a self-focusing ultrasonic transducer, and the transducer comprises three or more spherical or planar ultrasonic transducers;

the internal structure of the treatment head also comprises a containing structure used for transmitting the medium by ultrasonic waves;

the internal structure of the treatment head also comprises a circulating system for cooling water;

the internal structure of the treatment head also comprises a probe used for detecting the thickness of the subcutaneous fat layer of the skin and the temperature of a focal region.

Preferably, the internal structure: specifically, see fig. 1, a first spherical transducer, 2, a second spherical transducer, 3, a third spherical transducer, 4, a therapy head base, 5, an ultrasonic detection head, 6, and a cooling water circulation device water outlet, wherein the first spherical transducer, the second spherical transducer, 1, the second spherical transducer, 2, and the third spherical transducer, 3 are connected to the therapy head base, 4, as a whole, the ultrasonic detection head, 5, is fixedly connected to the therapy head base, the cooling water circulation device water outlet pipe, 6, is fixed to the therapy head base, 4. The containment structure described herein, based on the top view of fig. 1, means that an acoustically transparent enclosure is provided over the treatment tip, and an ultrasound conducting medium is filled between the acoustically transparent enclosure and the rest of the interior of the treatment tip. The medium forms part of the treatment head and the containment structure ensures that the conductive medium does not leak out at will.

Preferably, the treatment head further comprises a treatment head handle and an adapter, wherein the treatment head handle is arranged outside the shell and is used for hand holding or machine holding.

Preferably, the control module includes:

a signal generation unit: for generating a working ultrasonic signal;

a signal control unit: the ultrasonic signal processing device is used for controlling the type, frequency and working time of an ultrasonic signal;

a signal transmission unit: for transmitting the ultrasound signals from the signal generating unit to the therapeutic ultrasound probe.

Preferably, the mechanical arm comprises a handle, a treatment head fixing seat and a connecting piece,

the handle is a mechanical arm part connected between the mechanical arm base and the therapeutic head fixing seat connecting piece;

the treatment head fixing seat is used for fixing the treatment ultrasonic probe at the tail end of the mechanical arm;

the connecting piece is a connecting device for connecting the treatment head fixing seat and the mechanical arm handle.

The invention provides a bimodal ultrasonic fat-reducing shaping machine which comprises a treatment head, a mechanical arm, a main machine and a console. The treatment head is connected with the mechanical arm, the mechanical arm is fixedly connected with the console, and the host is arranged on the console.

The inner core of the main body part of the treatment head is constructed into a self-focusing ultrasonic transducer which consists of three or more spherical or planar ultrasonic transducers, the ultrasonic waves converge the energy on a focus, and the inner structure of the treatment head also comprises an ultrasonic wave conducting medium containing structure and a cooling water circulation system; the internal structure of the treatment head also comprises a probe used for detecting the thickness of subcutaneous fat layer of the skin and the temperature of a focal region; the external structure of the treatment head main body part comprises a treatment head handle and an adapter, and the treatment head handle can be used for hand holding or machine holding.

The mechanical arm comprises a handle, a treatment head fixing seat and a connecting piece.

The host comprises a control module, and the control circuit comprises a signal generation unit, a signal control unit and a signal transmission unit.

The control console comprises a human-computer interaction control interface.

The dual mode is realized by adjusting the frequency, energy and other parameters of the transmitted ultrasonic signal.

The first modality or the second modality can be selected in the control interface, generally speaking, the first modality has a faster treatment speed, and the second modality has an effect of tightening the skin and is suitable for the recovery period. The dual modes cannot be used simultaneously, and the first mode or the second mode can be freely selected.

Compared with the prior art, the invention has the advantages that:

the treatment head of the bimodal ultrasonic fat-reducing shaping machine is smaller in size due to the fact that the treatment head does not contain a treatment bed, and the bimodal ultrasonic fat-reducing shaping machine is convenient to use in any environment.

The main machine of the bimodal ultrasonic fat-reducing shaping machine can adopt two modes to emit ultrasonic waves, and the fat-reducing action area adopting the ultrasonic heat effect is larger, so that the treatment speed and the treatment efficiency can be improved.

The host machine of the bimodal ultrasonic fat-reducing shaping machine can reduce fat by adopting the thermal effect of ultrasonic waves and can tighten skin.

Drawings

FIG. 1 is a top view of a treatment head of a bimodal ultrasonic fat reduction shaping machine of the present invention;

FIG. 2 is a diagram of a bimodal ultrasonic fat-reducing shaper according to the present invention.

Reference numerals:

1. the ultrasonic therapy device comprises a first spherical transducer 2, a second spherical transducer 3, a third spherical transducer 4, a therapy head base 5, an ultrasonic detection head 6, a cooling water circulating device water outlet 7, a console 8, a positioning device 9, a case 10 and a therapy head.

Detailed Description

The present invention will be further described with reference to the following specific examples.

Referring to the attached figure 1, the top view of the treatment head of the bimodal ultrasonic fat-reducing shaping machine comprises a spherical transducer I1, a spherical transducer II 2, a spherical transducer II 3, a spherical transducer III 4, a treatment head base 5, an ultrasonic detection head 6 and a cooling water circulating device water outlet, wherein the spherical transducer I1, the spherical transducer II 2 and the spherical transducer III 3 are clamped on the treatment head base 4 to form a whole, the ultrasonic detection head 5 is fixedly connected with the treatment head base 4, a cooling water circulating device water outlet pipeline is fixedly connected with the treatment head, and the position of the cooling water circulating device water outlet 6 is fixed relative to the treatment head base 4.

The ultrasonic detection head 5 emits ultrasonic waves for detecting the thickness of the fat layer. The thickness of the subcutaneous fat layer is judged through the ultrasonic echo signals, and the system is helped to be subsequently used by a system operator to reduce the fat and shape the patient.

Referring to the attached figure 2, the device diagram of the bimodal ultrasonic fat-reducing shaping machine of the invention comprises a console 7, a console 8, a positioning device 9, a main machine 10 and a treatment head. The console 7 and the positioning device 8 are both fixed on the control host 9. The treatment head 10 is connected with a mechanical arm which is fixed on the case 9. The console 7 includes a human-machine interface. The positioning means 8 is typically a camera with positioning software. The host is disposed in a cabinet 39. The source of waves is located in the treatment head 10.

When the mode 1 is adopted, the system transmits ultrasonic waves, fat cells are destroyed in time by utilizing the mechanical and cavitation effects of the ultrasonic waves, the focusing of the system is good, and therefore, the action area is small when the system transmits for a single time, and the action area needs to be repeatedly transmitted for multiple times. When the mode 2 is adopted, the system reduces the intensity of the transmitted ultrasonic waves, ensures that the temperature of a treatment area is between 40 and 50 ℃, does not damage fat cells immediately, but can lead the cells to die gradually in a period of time after treatment, thereby achieving the purpose of fat reduction and shaping. Meanwhile, the mode 2 utilizes the heat effect of ultrasonic waves to stimulate dermal tissues, so that the contraction of a dermal fiber layer is ensured, and the purpose of tightening the skin is achieved.

The host machine of the bimodal ultrasonic fat-reducing shaping machine is small in size, convenient to move and capable of being placed on a console. The host computer comprises a control circuit and a control interface. The control circuit comprises a signal generating module, a signal control module and a signal transmission module. Each module can be controlled by a software operation interface of the console.

The console may have a variety of appearance forms. The console contains a user interaction system, i.e., a software operating interface, for controlling the ultrasonic emission of the dual-modality ultrasonic fat reduction molding machine and the movement of the robotic arm. And the console may contain means for connection to a common bed for fixation at a position beside the bed before treatment, without movement relative to the bed, to ensure consistency of treatment operation. Further, after the fixed position is possibly included, the system automatically calibrates the relative position with the patient, and facilitates subsequent software control of the movement of the mechanical arm and the treatment operation.

One end of the mechanical arm is connected with the treatment head, and the other end of the mechanical arm is fixed on the control console and can be controlled by software or manually moved.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and are not limited. Although the present invention has been described in detail with reference to the embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (5)

1. A bimodal ultrasonic fat-reducing shaping machine is characterized by comprising a treatment head, a control module, a mechanical arm and a control console, wherein the treatment head is connected to the mechanical arm which is fixedly connected with the control console;

the treatment head is used for collecting the thickness of fat and emitting ultrasonic waves of two modes: destroying fat cells by using mechanical or cavitation effect of ultrasonic waves in one mode, and enabling the fat cells to be apoptotic by using the thermal effect of the ultrasonic waves in the other mode;

the control module is used for controlling the working mode of the treatment head;

the mechanical arm is used for fixing and operating the treatment head;

and the control platform is used for controlling the movement of the mechanical arm.

2. The ultrasonic fat-reducing molding machine according to claim 1,

the inner core of the main body part of the treatment head comprises a self-focusing ultrasonic transducer, and the transducer comprises three or more spherical or planar ultrasonic transducers;

the internal structure of the treatment head also comprises a containing structure used for transmitting the medium by ultrasonic waves;

the internal structure of the treatment head also comprises a circulating system for cooling water;

the internal structure of the treatment head also comprises a probe used for detecting the thickness of the subcutaneous fat layer of the skin and the temperature of a focal region.

3. The ultrasonic fat reduction and shaping machine of claim 1, wherein the treatment head further comprises a treatment head handle and an adapter disposed outside the housing, the treatment head handle being configured to be hand-held or machine-held.

4. The ultrasonic fat reduction molding machine of claim 3, wherein the control module comprises:

a signal generation unit: for generating a working ultrasonic signal;

a signal control unit: the ultrasonic signal processing device is used for controlling the type, frequency and working time of an ultrasonic signal;

a signal transmission unit: for transmitting the ultrasound signals from the signal generating unit to the therapeutic ultrasound probe.

5. The ultrasonic fat-reducing body-shaping machine of claim 1, wherein said mechanical arm comprises a handle, a therapy head holder and a connector,

the handle is a mechanical arm part connected between the mechanical arm base and the therapeutic head fixing seat connecting piece;

the treatment head fixing seat is used for fixing the treatment ultrasonic probe at the tail end of the mechanical arm;

the connecting piece is a connecting device for connecting the treatment head fixing seat and the mechanical arm handle.