CN210963613U - Ultrasonic therapeutic apparatus suitable for treating diabetes lower limb embolism - Google Patents

Abstract

An ultrasonic treatment apparatus suitable for treating diabetic lower limb embolism, comprising: a housing, a control panel, a plurality of ultrasonic wave generating devices and an ultrasonic wave irradiation member; the control panel is arranged at the top end of the shell, the ultrasonic wave generating devices are arranged in the shell, and the ultrasonic wave irradiation component is detachably connected with the ultrasonic wave generating devices; the control panel is used for controlling the on and off of the ultrasonic wave generating device and setting dynamic parameters of the ultrasonic wave generating device, wherein the dynamic parameters comprise ultrasonic frequency, ultrasonic intensity and radiation range; the ultrasonic wave generating device is used for emitting intermittent ultrasonic waves matched with the dynamic parameters; the ultrasonic irradiation unit is used for irradiating intermittent ultrasonic waves to a lesion part of a subject. The ultrasonic irradiation component irradiates intermittent ultrasonic waves to the affected part of a human body, and the ultrasonic generation device can emit ultrasonic waves matched with a diseased part by setting dynamic parameters, so that blood vessels of lower limbs are effectively dredged, and the diabetes lower limb angiopathy is efficiently treated.

Description

Ultrasonic therapeutic apparatus suitable for treating diabetes lower limb embolism

Technical Field

The invention relates to the technical field of treatment equipment for diabetes lower limb angiopathy, in particular to an ultrasonic therapeutic apparatus suitable for treating diabetes lower limb embolism.

Background

Diabetic lower limb angiopathy is a common complication of diabetes, can cause blood supply insufficiency of lower limbs, cause local skin cyanosis or ischemic ulcer, can cause gangrene of limbs due to severe blood supply insufficiency, has strong disability and lethality, and seriously threatens the life quality and life time of a diabetic patient.

At present, although the medicine treatment, the surgical bypass surgery and the catheter interventional therapy have been changed greatly, various treatment means have strict indications, patients with serious complications (diabetes, serious renal failure and/or heart failure) are not suitable for the surgery or the catheter interventional therapy, the medicine treatment effect is not ideal, and most patients cannot obtain satisfactory curative effect.

Disclosure of Invention

Aiming at the problem that the treatment effect of patients with serious complications is not obvious, the application provides an ultrasonic treatment instrument suitable for treating the lower limb embolism of diabetes, which comprises a shell, a control panel, a plurality of ultrasonic generation devices and an ultrasonic irradiation component;

the control panel is arranged at the top end of the shell, the ultrasonic wave generating devices are arranged in the shell, and the ultrasonic wave irradiation component is detachably connected with the ultrasonic wave generating devices;

the control panel is used for controlling the on and off of the ultrasonic wave generating device and setting dynamic parameters of the ultrasonic wave generating device, wherein the dynamic parameters comprise ultrasonic frequency, ultrasonic intensity and radiation range;

the ultrasonic wave generating device is used for emitting intermittent ultrasonic waves matched with the parameters;

the ultrasonic irradiation unit is used for irradiating intermittent ultrasonic waves to a lesion part of a subject.

In one embodiment, the control panel comprises a main control MCU and a display screen;

the master control MCU is connected with each ultrasonic wave generating device in a plugging and unplugging manner;

the display screen comprises a display area for displaying the working state, a touch key for controlling the on and off of each ultrasonic generating device and a control menu for setting the dynamic parameters of each ultrasonic generating device;

the main control MCU controls the corresponding ultrasonic wave generating device to be opened or closed according to the touched touch key, and is also used for transmitting the dynamic parameters set by the control menu to the ultrasonic wave generating device.

In one embodiment, the control panel is connected with the shell in a turnover mode.

In one embodiment, the ultrasonic generator includes a driving plate, on which: the device comprises a main control circuit, a driving circuit and a transducer;

the main control circuit is connected with the driving circuit and used for adjusting a driving signal of the driving circuit according to the feedback of the driving circuit;

the driving circuit is used for generating a corresponding intermittent driving signal according to the regulated driving signal;

the transducer generates intermittent ultrasonic waves matched with the dynamic parameters according to the intermittent driving signals.

In one embodiment, the driving circuit comprises an adjustable power supply circuit, a power amplifying circuit and a transformer;

the adjustable power supply circuit is connected with the main control circuit, the main control circuit is used for adjusting a power signal of the adjustable power supply circuit according to the feedback of the voltage or the current of the adjustable power supply circuit, and the adjustable power supply circuit is used for generating a corresponding intermittent power signal according to the adjusted power signal;

the power amplifying circuit is used for amplifying the intermittent power signal;

the transformer is used for driving the transducer to generate intermittent ultrasonic waves according to the amplified intermittent power signals.

In one embodiment, the adjustable power supply circuit comprises a control chip, a current detection circuit and a voltage detection circuit;

the current detection circuit is used for detecting the current of the adjustable power supply circuit and feeding the current back to the main control circuit;

the voltage detection circuit is used for detecting the voltage of the adjustable power supply circuit and feeding the voltage back to the main control circuit;

the main control circuit adjusts the power signal output by the control chip according to the feedback of the current and the voltage;

the control chip is used for intermittently switching on or off according to the enabling end to intermittently output the power signal.

In one embodiment, the power amplification circuit comprises a full bridge circuit.

In one embodiment, the driving plate is further provided with a pin arranging plate, and the driving plate is connected with the main control MCU through the pin arranging plate.

In one embodiment, a handle is provided on one side of the housing.

In one embodiment, the ultrasonic wave irradiating means includes a connection terminal detachably connected to the ultrasonic wave generating device and an irradiation terminal for irradiating the ultrasonic wave to the lesion of the subject, the irradiation terminal having different emission intensities.

According to the ultrasonic therapeutic apparatus of the above embodiment, since the ultrasonic irradiation part irradiates intermittent ultrasonic waves to the affected part of the human body, blood vessels of the lower limbs can be effectively dredged, vascular diseases of the lower limbs of diabetes mellitus can be efficiently treated, and by setting dynamic parameters, the ultrasonic generation device can emit ultrasonic waves matched with the diseased part, so that the purpose of better treating the affected part of the human body is achieved.

Drawings

FIG. 1 is a schematic diagram of an ultrasonic treatment apparatus;

FIG. 2 is a schematic view of an ultrasonic therapeutic apparatus

FIG. 3 is a schematic view of the structure of an ultrasonic irradiation unit;

FIG. 4 is a schematic view of an ultrasonic wave generating apparatus;

FIG. 5 is a schematic diagram of a main control circuit of the ultrasonic wave generating apparatus;

FIG. 6 is a schematic diagram of an adjustable power supply circuit;

FIG. 7 is a schematic diagram of a power amplifier circuit;

fig. 8 is a circuit diagram of a power supply.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings.

The present embodiment provides an ultrasonic treatment apparatus for treating diabetic lower limb embolism, which is shown in the schematic diagram of fig. 1 and the structural diagram of fig. 2, and comprises a housing 1, a control panel 2, a plurality of ultrasonic wave generating devices 3 and an ultrasonic wave irradiation component 4; the control panel 2 is mounted on the top end of the housing 1, the ultrasonic generators 3 are mounted in the housing 1, and the ultrasonic irradiation member 4 is detachably connected to the ultrasonic generators 3.

The control panel 2 is used for controlling the on and off of the ultrasonic wave generating device 3 and setting dynamic parameters of the ultrasonic wave generating device 3, wherein the dynamic parameters comprise ultrasonic frequency, ultrasonic intensity and radiation range; specifically, the control panel 2 includes a main control MCU and a display screen 21, the main control MCU is connected to each ultrasonic wave generating device 3 in a plugging manner, the display screen 21 includes a display area for displaying a working state, a touch key for controlling the on and off of each ultrasonic wave generating device 3, and a control menu for controlling dynamic parameters of each ultrasonic wave generating device 3, the main control MCU controls the on or off of the corresponding ultrasonic wave generating device 3 according to the touch of the touch key, and is further configured to transmit the dynamic parameters set by the control menu to the ultrasonic wave generating device 3.

According to practical application, the ultrasonic therapeutic apparatus of this embodiment may include a plurality of ultrasonic generating devices 3, for example, the number of the ultrasonic generating devices 3 of this embodiment is 6, the display screen 21 is a touch display screen, and the display screen 21 is provided with touch keys for controlling the on and off of each ultrasonic generating device 3, after the ultrasonic therapeutic apparatus is turned on, according to different situations of patients, the corresponding number of the ultrasonic generating devices 3 are turned on through the touch keys, and dynamic parameters of each ultrasonic generating device 3 are set through a control menu, wherein the ultrasonic frequency is 0.5-3 MHz + -10%, and the output intensity is 0.1-3W/cm²The radiation range is 1-6cm²By setting the dynamic parameters, the ultrasonic wave generating devices 3 can generate ultrasonic waves of different intensities or ultrasonic waves of the same intensity.

As shown in fig. 3, the ultrasonic irradiation unit 4 of this embodiment includes a connection terminal 41 and an irradiation terminal 42, the connection terminal 41 is detachably connected to the ultrasonic generation device 3, the irradiation terminal 42 applies the ultrasonic waves to the affected part of the human body, and the emission intensity of the different irradiation terminals 42 of this embodiment is different, that is, the irradiation terminal 42 corresponding to the different intensity of the ultrasonic waves can be selected.

Further, control panel 2 is connected with the upset of casing 1, and ultrasonic therapeutic instrument during operation, control panel 2 is for the perpendicular upset of casing 1, and during inoperative, control panel 2 overturns to the top surface of casing 1, with the coincide of casing 1, and is dustproof to control panel 2.

Further, the ultrasonic wave generating means 3 generates intermittent ultrasonic waves in accordance with the setting of the dynamic parameters.

As shown in fig. 4, the ultrasonic wave generator 3 of the present embodiment includes: a main control circuit 31, a drive circuit 32 and a transducer 33; the main control circuit 31 is connected to the driving circuit 32, and is configured to adjust a driving signal of the driving circuit 32 according to feedback of the driving circuit 32; the driving circuit 32 is used for generating a corresponding intermittent driving signal according to the adjusted driving signal; the transducer 33 generates intermittent ultrasonic waves matched with the dynamic parameters according to the intermittent driving signals; the circuit diagram of the master control circuit 31 is shown in fig. 5.

The driving circuit 32 of this embodiment includes an adjustable power circuit 321, a power amplifying circuit 322 and a transformer 323, the adjustable power circuit 321 is connected to the main control circuit 31, the main control circuit 31 is configured to adjust a power signal of the adjustable power circuit 321 according to feedback of voltage or current of the adjustable power circuit 321, and the adjustable power circuit 321 is configured to generate a corresponding intermittent power signal according to the adjusted power signal; the power amplifying circuit 322 is used for amplifying the intermittent power signal; the transformer 323 is used for driving the transducer 33 to generate intermittent ultrasonic waves according to the amplified intermittent power signal.

As shown in fig. 6, the adjustable power circuit 321 includes a control chip 3211, a current detection circuit 3212 and a voltage detection circuit 3213, where the current detection circuit 3212 is configured to detect a current of the adjustable power circuit 321 and feed the current back to the main control circuit 31; the voltage detection circuit 3213 is configured to detect a voltage of the adjustable power circuit 321, and feed the voltage back to the main control circuit 31; the main control circuit 31 adjusts the power signal output by the control chip 3211 according to the feedback of the current and the voltage; the control chip 3211 is configured to intermittently turn on or off the power signal according to the enable terminal.

As shown in fig. 7, the power amplifying circuit 322 includes a high-low voltage isolation circuit 3221, a power driving circuit 3222, and a full bridge circuit 3223, wherein an output terminal of the high-low voltage isolation circuit 3221 is coupled to the power driving circuit 3222, an output terminal of the power driving circuit 3222 is coupled to the full bridge circuit 3223, and an output terminal of the full bridge circuit 3223 is coupled to the transformer 323.

The ultrasonic wave generating device 3 of the embodiment also comprises a pin arranging plate, the ultrasonic wave generating device 3 is connected with the main control MCU through the pin arranging plate, and furthermore, in order to facilitate the carrying of the ultrasonic therapeutic apparatus, one side of the shell 1 of the embodiment is provided with a handle 11; in addition, the ultrasonic therapeutic apparatus of this embodiment further includes a power supply 5 for supplying power, the power supply 5 has multiple output voltages, the circuit diagram of the power supply 5 is shown in fig. 8, the power supply 5 can provide outputs of 12V, 5V and 3V, and each output voltage is output after high frequency decoupling.

According to the concrete condition of human affected part, can set up ultrasonic therapeutic instrument's dynamic parameter, make ultrasonic wave generating device launch with pathological change position assorted intermittent type nature ultrasonic wave to the ultrasonic wave that the selection suits with ultrasonic wave intensity shines the part, can effectively dredge low limbs blood vessel, high-efficient treatment diabetes low limbs angiopathy, better treatment human affected part.

The present invention has been described in terms of specific examples, which are provided to aid understanding of the invention and are not intended to be limiting. For a person skilled in the art to which the invention pertains, several simple deductions, modifications or substitutions may be made according to the idea of the invention.

Claims (10)

1. An ultrasonic treatment apparatus for treating diabetic lower limb embolism, comprising: a housing, a control panel, a plurality of ultrasonic wave generating devices and an ultrasonic wave irradiation member;

the control panel is arranged at the top end of the shell, the ultrasonic wave generating devices are arranged in the shell, and the ultrasonic wave irradiation component is detachably connected with the ultrasonic wave generating devices;

the control panel is used for controlling the on and off of the ultrasonic wave generating device and setting dynamic parameters of the ultrasonic wave generating device, wherein the dynamic parameters comprise ultrasonic frequency, ultrasonic intensity and radiation range;

the ultrasonic wave generating device is used for emitting intermittent ultrasonic waves matched with the dynamic parameters;

the ultrasonic irradiation means is configured to irradiate the intermittent ultrasonic wave to a lesion site of a subject.

2. The therapeutic ultrasound device of claim 1, wherein said control panel comprises a main control MCU and a display screen;

the master control MCU is connected with each ultrasonic wave generating device in a plugging and unplugging manner;

the display screen comprises a display area for displaying a working state, a touch key for controlling the on and off of each ultrasonic wave generating device and a control menu for setting dynamic parameters of each ultrasonic wave generating device;

and the main control MCU controls the corresponding ultrasonic wave generating device to be turned on or turned off according to the touched touch key, and is also used for transmitting the dynamic parameters set by the control menu to the ultrasonic wave generating device.

3. The therapeutic ultrasound device of claim 1, wherein said control panel is flip-top connected to said housing.

4. The ultrasonic treatment apparatus of claim 1 wherein said ultrasonic generation means comprises: the device comprises a main control circuit, a driving circuit and a transducer;

the main control circuit is connected with the driving circuit and used for adjusting a driving signal of the driving circuit according to the feedback of the driving circuit;

the driving circuit is used for generating a corresponding intermittent driving signal according to the regulated driving signal;

the transducer generates intermittent ultrasonic waves matched with the dynamic parameters according to the intermittent driving signals.

5. The ultrasonic treatment apparatus of claim 4 wherein the drive circuit comprises an adjustable power supply circuit, a power amplification circuit, and a transformer;

the adjustable power supply circuit is connected with the main control circuit, the main control circuit is used for adjusting a power signal of the adjustable power supply circuit according to the feedback of the voltage or the current of the adjustable power supply circuit, and the adjustable power supply circuit is used for generating a corresponding intermittent power signal according to the adjusted power signal;

the power amplifying circuit is used for amplifying the intermittent power signal;

the transformer is used for driving the transducer to generate intermittent ultrasonic waves according to the amplified intermittent power signals.

6. The ultrasonic treatment apparatus of claim 5 wherein the adjustable power supply circuit comprises a control chip, a current sensing circuit and a voltage sensing circuit;

the current detection circuit is used for detecting the current of the adjustable power supply circuit and feeding the current back to the main control circuit;

the voltage detection circuit is used for detecting the voltage of the adjustable power supply circuit and feeding the voltage back to the main control circuit;

the main control circuit adjusts the power signal output by the control chip according to the feedback of the current and the voltage;

the control chip is used for intermittently switching on or off the power signal according to an enabling end to intermittently output the power signal.

7. The therapeutic ultrasound device of claim 5, wherein the power amplifier circuit comprises a full bridge circuit.

8. The therapeutic ultrasound device of claim 2, wherein said ultrasound generating means further comprises a pin header plate, said ultrasound generating means being connected to said master MCU through said pin header plate.

9. The therapeutic ultrasound device of claim 1, wherein a handle is provided on one side of the housing.

10. The ultrasonic treatment apparatus according to claim 1, wherein the ultrasonic irradiation unit includes a connection terminal detachably connected to the ultrasonic generation device and an irradiation terminal having different emission intensities for irradiating the ultrasonic waves to the lesion of the subject.

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