CN210020252U - Magnetic vibration magnetoelectric therapeutic apparatus - Google Patents

Abstract

The utility model discloses a magnetic vibration magnetoelectric therapeutic apparatus, which comprises a power frequency transformer, a rectification filter unit, an MCU unit, a drive circuit, a display screen, an electrical stimulation output unit, a first switch unit, a second switch unit and a magnetic vibrator; the rectification filtering unit is used for carrying out rectification filtering on the output voltage of the power frequency transformer and supplying power to the MCU unit and the driving circuit; the driving circuit drives the display screen under the control of the signal of the MCU unit; the first path of signals output by the MCU unit drive the magnetic vibrator to generate vibration waves and a magnetic field through the first switch unit and the second switch unit; and the second path of signal output by the MCU unit is converted into a direct current pulse signal to drive the electrical stimulation output unit to generate electrical stimulation.

Description

Magnetic vibration magnetoelectric therapeutic apparatus

Technical Field

The utility model relates to the technical field of medical equipment, concretely relates to magnetism magnetic-electric therapeutic instrument that shakes.

Background

When chronic inflammation locally appears in a human body, traditional treatment methods such as medicines and operations are not suitable for people; moreover, the dosage of the medicine is small, the curative effect cannot be achieved, and the toxic and side effects are large when the dosage is large, so that the medicine can cause damage to other organs of the body. Surgery is a traumatic treatment, painful and presents infection and other risks after surgery. Therefore, a treatment method which has no wound, no pain, no toxic or side effect and obvious curative effect is most needed for the chronic inflammation of the human body.

The magnetic vibration magnetoelectric therapeutic apparatus is suitable for chronic prostatitis and symptoms and related diseases caused by chronic prostatitis, and the principle is that 180mT oscillating magnetic field with the same frequency, magnetic vibration wave, mechanical wave and low-frequency sound wave are combined to generate resonance effect to enable the therapeutic effect to reach the focus part, so that a series of biological effects can be generated by a human body, the biological activity of local tissue cells of the prostate and the permeability of a biological membrane are enhanced, and the functions of local microcirculation of the prostate and an immune system are improved, thereby promoting the absorption of inflammatory exudates and eliminating inflammation, relaxing adhesion caused by inflammation and relieving tubular gland inflammatory infarction, and finally achieving the clinical effects of eliminating perineum and pelvic pain, improving urination, improving sperm activity and improving life quality; meanwhile, the 200mT oscillating magnetic field, the magnetic vibration wave and the low-frequency pulse electric stimulation are used for acupuncture point treatment, so that the channels and collaterals can be adjusted, the local immune function of the reproductive system is enhanced, and the curative effect is improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a magnetic vibration magnetoelectric therapeutic apparatus which has no wound, no pain, no toxic side effect and an external treatment method for treating chronic prostatitis and related diseases caused by chronic prostatitis.

In order to achieve the above purpose, the technical scheme of the utility model is that:

a magnetic vibration magnetoelectric therapeutic apparatus comprises a power frequency transformer, a rectification filter unit, an MCU unit, a drive circuit, a display screen, an electrical stimulation output unit, a first switch unit, a second switch unit and a magnetic vibrator; the rectification filtering unit is used for carrying out rectification filtering on the output voltage of the power frequency transformer and supplying power to the MCU unit and the driving circuit; the driving circuit drives the display screen under the control of the signal of the MCU unit; the first path of signal output by the MCU unit drives the magnetic vibrator to generate vibration waves and a magnetic field through the first switch unit and the second switch unit; and the second path of signal output by the MCU unit is converted into a direct current pulse signal to drive the electrical stimulation output unit to generate electrical stimulation.

Preferably, the first path of signal is a sinusoidal half-wave signal, the frequency of the sinusoidal half-wave signal is 50HZ, and the frequency fluctuates by plus or minus 1 Hz; the voltage was 4.5V, with a voltage fluctuation of plus or minus 22%.

Preferably, the second signal is a square wave, the frequency of the square wave is 2HZ-16HZ, the duty ratio of the square wave is 1:1, and the voltage of the square wave is 50V-120V.

Preferably, the MCU unit comprises a chip STC12C5624, a capacitor C5, a resistor R7, a capacitor C8, a resistor R4 and a resistor R11;

the common end of the capacitor C5 and the resistor R7 is electrically connected to the pin 1 of the chip STC12C5624, the other end of the capacitor C5 is connected with a +5V power supply, and the other end of the resistor R7 is grounded; the common end of the pin 20 of the capacitor C8, the resistor R4, the resistor R11 and the STC12C5624 is connected with a +5V power supply, and the other end of the capacitor C8 is grounded; the other end of the resistor R11 is electrically connected with a pin 13 of STC12C5624, and the other end of the resistor R4 is electrically connected with a pin 12 of STC12C 5624; pin 10 of STC12C5624 is grounded;

the MCU unit comprises a capacitor C6, a capacitor C7 and a clock crystal oscillator Y1; the common end of the capacitor C6 and the clock crystal oscillator Y1 is electrically connected to the pin 4 of the STC12C 5624; the common terminal of the capacitor C7 and the clock oscillator Y1 is electrically connected to pin 5 of STC12C 5624.

Preferably, the first switch unit comprises a diode D3, a capacitor DC1, a first relay, a switch K1, a diode D5, a resistor R5 and a transistor Q5; the second switch unit comprises a diode D4, a switch K2, a second relay, a diode D6, a resistor R6 and a triode Q6.

Preferably, the device further comprises a voltage reduction circuit; the voltage reduction circuit comprises a GBU rectifier bridge, a capacitor C17, a capacitor C18, a voltage reduction chip XL1509, a diode D8, an inductor L3, a capacitor C16, a diode DZ1 and a capacitor C14.

Preferably, the electronic device further comprises a first circuit unit; the first circuit unit comprises an inductor L1, a diode DR1, a resistor R1, a triode Q1, a capacitor C1, a resistor RC, a capacitor CR, a triode Q2 and a resistor R2.

Preferably, the system further comprises a communication unit; the communication unit comprises a chip MAX3232, a capacitor C9, a capacitor C10, a capacitor C11, a capacitor C12 and a capacitor C13.

Preferably, the display device further comprises a first jumper unit, a second jumper unit, a third jumper unit, a fourth jumper unit, a fifth jumper unit, a sixth jumper unit, a first display unit and a second display unit.

Preferably, the device also comprises a voltage stabilizing circuit; the voltage stabilizing circuit comprises a chip LM2576, a capacitor C19, a capacitor C20, a diode D9, an inductor L4, a capacitor C21 and a diode DZ 2; the capacitor C19, the capacitor C20 and the pin 1 of the chip LM2576 are connected with a +20V power supply in a common mode; the capacitor C19, the capacitor C20, the pin 3 of the chip LM2576, the diode D9, the capacitor C21 and the common end of the diode DZ2 are grounded; the other end of the capacitor C21 is connected with a pin 4 of a chip LM 2576; the cathode of the diode D9 and the common terminal of the inductor L4 are connected with a pin 2 of the chip LM 2576; the common terminal of the inductor L4 and the diode DZ2 is connected with a +12V power supply.

The utility model has the advantages of as follows:

the magnetic vibration magnetoelectric therapeutic apparatus carries out DC-DC power supply through 220 volt working frequency voltage transformation rectification filtering, and simultaneously, alternating voltage after transformation outputs sine half-wave 50HZ through half-wave rectification, and 4.5V electric signals drive the magnetic vibrator to generate vibration waves and magnetic fields to act on a human body; meanwhile, the singlechip generates a square wave with the frequency of 2HZ-16HZ and the duty ratio of 1:1 to control 50-120V electric signals to generate electric stimulation to act on a human body for treatment;

the magnetic vibration magnetoelectric therapeutic apparatus achieves the purpose of treating related diseases mainly through three physical actions of a magnetic field, vibration and electrical stimulation; the physical action of the generated magnetic fields with the moderate intensity of 180mT and 200mT combined with vibration after acting on a human body can enable the human body to generate a series of biological effects, enhance the biological activity of local histiocyte of the prostate and the permeability of a biological membrane, and improve the functions of local microcirculation and an immune system of the prostate, thereby promoting the absorption of inflammatory exudates and eliminating inflammation, relieving adhesion caused by inflammation, relieving tubular inflammatory infarction, relieving pelvic pain, urgent micturition, frequent micturition and other symptoms caused by prostatitis.

Drawings

Fig. 1 is a schematic diagram of the magnetic vibration magnetoelectric therapeutic apparatus of the utility model.

Fig. 2 is a circuit diagram of the MCU unit of the present invention.

Fig. 3 is a circuit diagram of a second switch unit in the present invention.

Fig. 4 is a circuit diagram of a first switch unit in the present invention.

Fig. 5 is a circuit diagram of the first circuit unit in the utility model.

Fig. 6 is a circuit diagram of the middle rectifying and filtering unit of the present invention.

Fig. 7 is a circuit diagram of the driving circuit of the present invention.

Fig. 8 is a circuit diagram of the first jumper unit in the utility model.

Fig. 9 is a circuit diagram of a second jumper unit in the utility model.

Fig. 10 is a circuit diagram of a third jumper unit in the utility model.

Fig. 11 is a circuit diagram of a fourth jumper unit in the utility model.

Fig. 12 is a circuit diagram of the electrical stimulation output unit of the present invention.

Fig. 13 is a circuit diagram of a sixth jumper unit according to the present invention.

Fig. 14 is a circuit diagram of the first display unit in the present invention.

Fig. 15 is a circuit diagram of the second display unit in the present invention.

Fig. 16 is a circuit diagram of the intermediate voltage regulator circuit of the present invention.

Detailed Description

The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

Examples

A magnetic vibration magnetoelectric therapeutic apparatus comprises a power frequency transformer, a rectification filter unit, an MCU unit, a drive circuit, a display screen, an electrical stimulation output unit, a first switch unit, a second switch unit and a magnetic vibrator; the rectification filtering unit is used for carrying out rectification filtering on the output voltage of the power frequency transformer and supplying power to the MCU unit and the driving circuit; the driving circuit drives the display screen under the control of the signal of the MCU unit; the first path of signal output by the MCU unit drives the magnetic vibrator to generate vibration waves and a magnetic field through the first switch unit and the second switch unit; and the second path of signal output by the MCU unit is converted into a direct current pulse signal to drive the electrical stimulation output unit to generate electrical stimulation.

The magnetic vibration magnetoelectric therapeutic apparatus carries out DC-DC power supply through 220 volt working frequency voltage transformation rectification filtering, and simultaneously, alternating voltage after transformation outputs sine half-wave 50HZ through half-wave rectification, and 4.5V electric signals drive the magnetic vibrator to generate vibration waves and magnetic fields to act on a human body; meanwhile, the singlechip generates a square wave with the frequency of 2HZ-16HZ and the duty ratio of 1:1 to control 50-120V electric signals to generate electric stimulation to act on a human body for treatment;

the magnetic vibration magnetoelectric therapeutic apparatus achieves the purpose of treating related diseases mainly through three physical actions of a magnetic field, vibration and electrical stimulation; the physical action of the generated magnetic fields with the moderate intensity of 180mT and 200mT combined with vibration after acting on a human body can enable the human body to generate a series of biological effects, enhance the biological activity of local histiocyte of the prostate and the permeability of a biological membrane, and improve the functions of local microcirculation and an immune system of the prostate, thereby promoting the absorption of inflammatory exudates and eliminating inflammation, relieving adhesion caused by inflammation, relieving tubular inflammatory infarction, relieving pelvic pain, urgent micturition, frequent micturition and other symptoms caused by prostatitis.

The first path of signal is a sine half-wave signal, the frequency of the sine half-wave signal is 50HZ, and the frequency fluctuation is plus or minus 1 Hz; the voltage was 4.5V, with a voltage fluctuation of plus or minus 22%.

The second path of signal is square wave, the frequency of the second path of signal is 2HZ-16HZ, the duty ratio of the second path of signal is 1:1, and the voltage of the second path of signal is 50V-120V.

The MCU unit comprises a chip STC12C5624, a capacitor C5, a resistor R7, a capacitor C8, a resistor R4 and a resistor R11;

the common end of the capacitor C5 and the resistor R7 is electrically connected to the pin 1 of the chip STC12C5624, the other end of the capacitor C5 is connected with a +5V power supply, and the other end of the resistor R7 is grounded; the common end of the pin 20 of the capacitor C8, the resistor R4, the resistor R11 and the STC12C5624 is connected with a +5V power supply, and the other end of the capacitor C8 is grounded; the other end of the resistor R11 is electrically connected with a pin 13 of STC12C5624, and the other end of the resistor R4 is electrically connected with a pin 12 of STC12C 5624; pin 10 of STC12C5624 is grounded;

the MCU unit comprises a capacitor C6, a capacitor C7 and a clock crystal oscillator Y1; the common end of the capacitor C6 and the clock crystal oscillator Y1 is electrically connected to the pin 4 of the STC12C 5624; the common terminal of the capacitor C7 and the clock oscillator Y1 is electrically connected to pin 5 of STC12C 5624.

The first switch unit comprises a diode D3, a capacitor DC1, a first relay, a switch K1, a diode D5, a resistor R5 and a triode Q5; the second switch unit comprises a diode D4, a switch K2, a second relay, a diode D6, a resistor R6 and a triode Q6.

The voltage reducing circuit is also included; the voltage reduction circuit comprises a GBU rectifier bridge, a capacitor C17, a capacitor C18, a voltage reduction chip XL1509, a diode D8, an inductor L3, a capacitor C16, a diode DZ1 and a capacitor C14.

Further includes a first circuit unit; the first circuit unit comprises an inductor L1, a diode DR1, a resistor R1, a triode Q1, a capacitor C1, a resistor RC, a capacitor CR, a triode Q2 and a resistor R2.

Also includes a communication unit; the communication unit comprises a chip MAX3232, a capacitor C9, a capacitor C10, a capacitor C11, a capacitor C12 and a capacitor C13.

The display device further comprises a first wire jumping unit, a second wire jumping unit, a third wire jumping unit, a fourth wire jumping unit, a fifth wire jumping unit, a sixth wire jumping unit, a first display unit and a second display unit.

The device also comprises a voltage stabilizing circuit; the voltage stabilizing circuit comprises a chip LM2576, a capacitor C19, a capacitor C20, a diode D9, an inductor L4, a capacitor C21 and a diode DZ 2;

the capacitor C19, the capacitor C20 and the pin 1 of the chip LM2576 are connected with a +20V power supply in a common mode; the capacitor C19, the capacitor C20, the pin 3 of the chip LM2576, the diode D9, the capacitor C21 and the common end of the diode DZ2 are grounded; the other end of the capacitor C21 is connected with a pin 4 of a chip LM 2576; the cathode of the diode D9 and the common terminal of the inductor L4 are connected with a pin 2 of the chip LM 2576; the common terminal of the inductor L4 and the diode DZ2 is connected with a +12V power supply.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (10)

1. A magnetic vibration magnetoelectric therapeutic apparatus is characterized by comprising a power frequency transformer, a rectification filter unit, an MCU unit, a drive circuit, a display screen, an electrical stimulation output unit, a first switch unit, a second switch unit and a magnetic vibrator;

the rectification filtering unit is used for carrying out rectification filtering on the output voltage of the power frequency transformer and supplying power to the MCU unit and the driving circuit;

the driving circuit drives the display screen under the control of the signal of the MCU unit;

the first path of signal output by the MCU unit drives the magnetic vibrator to generate vibration waves and a magnetic field through the first switch unit and the second switch unit;

and the second path of signal output by the MCU unit is converted into a direct current pulse signal to drive the electrical stimulation output unit to generate electrical stimulation.

2. The magnetic-vibration magnetoelectric therapeutic apparatus according to claim 1, wherein the first signal is a half-wave sine signal, the frequency of which is 50HZ, and the frequency fluctuates by plus or minus 1 HZ; the voltage was 4.5V, with a voltage fluctuation of plus or minus 22%.

3. The magnetic vibration magnetoelectric therapeutic apparatus according to claim 1, wherein the second path of signal is a square wave, the frequency is 2HZ to 16HZ, the duty ratio is 1:1, and the voltage is 50V to 120V.

4. The magnetic-vibration magnetoelectric therapeutic apparatus according to claim 1, wherein the MCU unit comprises a chip STC12C5624, a capacitor C5, a resistor R7, a capacitor C8, a resistor R4 and a resistor R11;

the common end of the capacitor C5 and the resistor R7 is electrically connected to the pin 1 of the chip STC12C5624, the other end of the capacitor C5 is connected with a +5V power supply, and the other end of the resistor R7 is grounded; the common end of the pin 20 of the capacitor C8, the resistor R4, the resistor R11 and the STC12C5624 is connected with a +5V power supply, and the other end of the capacitor C8 is grounded; the other end of the resistor R11 is electrically connected with a pin 13 of STC12C5624, and the other end of the resistor R4 is electrically connected with a pin 12 of STC12C 5624; pin 10 of STC12C5624 is grounded;

the MCU unit comprises a capacitor C6, a capacitor C7 and a clock crystal oscillator Y1; the common end of the capacitor C6 and the clock crystal oscillator Y1 is electrically connected to the pin 4 of the STC12C 5624; the common terminal of the capacitor C7 and the clock oscillator Y1 is electrically connected to pin 5 of STC12C 5624.

5. The magnetic vibration magnetoelectric therapeutic apparatus according to claim 1, wherein the first switch unit comprises a diode D3, a capacitor DC1, a first relay, a switch K1, a diode D5, a resistor R5 and a triode Q5; the second switch unit comprises a diode D4, a switch K2, a second relay, a diode D6, a resistor R6 and a triode Q6.

6. The magnetic vibration magnetoelectric therapeutic apparatus according to claim 1, further comprising a voltage reduction circuit; the voltage reduction circuit comprises a GBU rectifier bridge, a capacitor C17, a capacitor C18, a voltage reduction chip XL1509, a diode D8, an inductor L3, a capacitor C16, a diode DZ1 and a capacitor C14.

7. The magnetic resonance magnetoelectric therapeutic apparatus according to claim 1, further comprising a first circuit unit; the first circuit unit comprises an inductor L1, a diode DR1, a resistor R1, a triode Q1, a capacitor C1, a resistor RC, a capacitor CR, a triode Q2 and a resistor R2.

8. The magnetic vibration magnetoelectric therapeutic apparatus according to claim 1, further comprising a communication unit; the communication unit comprises a chip MAX3232, a capacitor C9, a capacitor C10, a capacitor C11, a capacitor C12 and a capacitor C13.

9. The magnetic vibration magnetoelectric therapeutic apparatus according to claim 1, further comprising a first jumper unit, a second jumper unit, a third jumper unit, a fourth jumper unit, a fifth jumper unit, a sixth jumper unit, a first display unit and a second display unit.

10. The magnetic vibration, magnetic electricity and electricity therapeutic apparatus according to claim 1, further comprising a voltage stabilizing circuit; the voltage stabilizing circuit comprises a chip LM2576, a capacitor C19, a capacitor C20, a diode D9, an inductor L4, a capacitor C21 and a diode DZ 2;

the capacitor C19, the capacitor C20 and the pin 1 of the chip LM2576 are connected with a +20V power supply in a common mode; the capacitor C19, the capacitor C20, the pin 3 of the chip LM2576, the diode D9, the capacitor C21 and the common end of the diode DZ2 are grounded; the other end of the capacitor C21 is connected with a pin 4 of a chip LM 2576; the cathode of the diode D9 and the common terminal of the inductor L4 are connected with a pin 2 of the chip LM 2576; the common terminal of the inductor L4 and the diode DZ2 is connected with a +12V power supply.

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