CN111481826A

CN111481826A - Intelligent variable-frequency cervical vertebra massager

Info

Publication number: CN111481826A
Application number: CN202010274636.0A
Authority: CN
Inventors: 艾小春
Original assignee: Guangzhou Foundery Industry Co
Current assignee: Guangzhou Foundery Industry Co
Priority date: 2020-04-09
Filing date: 2020-04-09
Publication date: 2020-08-04

Abstract

The invention provides an intelligent frequency conversion cervical vertebra massager, which comprises: the control unit is internally provided with a plurality of control modes, each control mode controls the pulse circuit to output pulses with corresponding frequency and pulse width, the control unit is connected with the control panel and the feedback unit, the control panel is used for setting the control modes, the feedback unit is used for measuring the heart rate or the pulse of a human body, and the control unit adjusts the control modes through feedback signals of the feedback unit. The invention can set different massage modes aiming at different pain grades by setting a plurality of control modes corresponding to a plurality of massage grades, is convenient for users to select the corresponding massage mode, enables the pain patients to achieve the most desired treatment effect, enables the various modes not to be tired after long-term use, and adjusts the control modes by feeding back the human body to the massage effect so as to achieve better control effect.

Description

Intelligent variable-frequency cervical vertebra massager

Technical Field

The invention relates to the technical field of medical health care equipment, in particular to an intelligent variable-frequency cervical vertebra massager.

Background

At present, cervical vertebra massage instruments on the market mainly comprise a vibration type, a beating type and a pulse type. Have a relatively large number of products. Wherein, the electronic pulse cervical vertebra massage instruments provided by the prior art are all pulses within a certain wavelength range, and the difference of the positive value and the negative value is less than 10 percent. The massage instrument can only output pulses with one frequency generally, and the massage effect of the massage instrument can not be well matched with the massage requirement of the human cervical vertebra due to different fatigue degrees of the human cervical vertebra.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide an intelligent variable-frequency cervical vertebra massager, which can select different treatment modes according to different pain states of a human body, control the output frequency of the intelligent variable-frequency cervical vertebra massager through a microcomputer chip technology, ensure that the frequency and the pulse width output by each mode form great difference, ensure that the intelligent variable-frequency cervical vertebra massager achieves the best treatment effect in treatment, output different waveforms for different pain states, ensure that a pain person can achieve the most desired treatment effect, and ensure that the intelligent variable-frequency cervical vertebra massager does not generate tiredness after long-term use in various modes.

The invention provides an intelligent frequency conversion cervical vertebra massager, which comprises: the control unit is internally provided with a plurality of control modes, each control mode controls the pulse circuit to output pulses with corresponding frequency and pulse width, the control unit is connected with the feedback unit, the control panel is used for setting the control modes, the feedback unit is used for measuring the heart rate or the pulse of a human body, and the control unit adjusts the control modes through feedback signals of the feedback unit.

Further, the control circuit comprises a radio frequency circuit and a booster circuit, wherein the radio frequency circuit and the booster circuit are connected with the control unit, the booster circuit is connected with the pulse circuit, and the radio frequency circuit is used for adjusting the control mode.

Furthermore, the radio frequency circuit comprises a radio frequency antenna and a key, and the radio frequency antenna and the key are connected with the control unit.

Furthermore, the boost circuit comprises a first triode, a first diode, a second diode, an inductor, a first resistor, a first capacitor and a second capacitor, wherein the first resistor and the first capacitor are connected in parallel and then are connected with the control unit and the base of the first triode, the collector of the first triode is connected with the anode of the first diode, the emitter of the first triode is grounded, the cathode of the first diode is connected with the anode of the second diode, the cathode of the second diode is connected with the second capacitor and then is grounded, the anode of the first diode is connected with the inductor, and the inductor is connected with the power supply.

Further, the pulse circuit comprises a second triode, a third triode, a fourth triode, a fifth triode, a sixth triode, a seventh triode, a second resistor, a third resistor, a fourth resistor, a fifth resistor, a sixth resistor, a seventh resistor, an eighth resistor, a zener diode and an electrode plate, wherein the base of the second triode is connected with the control unit through the second resistor, the base of the third triode is connected with the control unit through the third resistor, the emitting electrodes of the second triode and the third triode are grounded, the collector of the second triode is connected with the base of the fourth triode through the fourth resistor, the collector of the second triode is connected with the base of the fifth triode through the fifth resistor, the emitting electrode of the fourth triode is connected with the emitting electrode of the fifth triode, the emitting electrode of the fourth triode is connected with the negative electrode of the second diode, the collecting electrode of the fourth triode is connected with the emitting electrode of the sixth triode and then is connected with the electrode plate, the base electrode of the sixth triode is connected with the collecting electrode of the third triode through a sixth resistor, the collecting electrode of the sixth triode is connected with the control unit, the collecting electrode of the fifth triode is connected with the emitting electrode of the seventh triode and then is connected with the electrode plate, the base electrode of the seventh triode is connected with the collecting electrode of the second triode through a seventh resistor, the voltage stabilizing diode is connected with the eighth resistor in parallel and then is connected with the control unit, the collecting electrode of the seventh triode is connected with the positive electrode of the voltage stabilizing diode, and the negative electrode of the voltage stabilizing diode is grounded.

The discharging circuit comprises a ninth resistor, a tenth resistor and an eighth triode, wherein the base of the eighth triode is connected with the control unit through the ninth resistor, the emitter of the eighth triode is grounded, and the collector of the eighth triode is connected with the cathode of the second diode through the tenth resistor.

Further, a thermal therapy circuit is also included, and the thermal therapy circuit is connected with the control unit.

Further, the thermotherapy circuit includes third diode, eleventh resistance, ninth triode, silica gel heating wire, third electric capacity, fourth electric capacity, the positive pole of third diode with the control unit connects, the negative pole of third diode passes through the eleventh resistance is connected with the base of ninth triode, the projecting pole ground connection of ninth triode, the collecting electrode of ninth triode with the silica gel heating wire is connected, the silica gel heating wire is connected with the power, the third electric capacity with the fourth electric capacity is connected with power and ground after connecting in parallel.

Further, the power supply management circuit is further included and connected with the control unit.

Further, the power management circuit comprises a battery charging management chip and a photoelectric coupler, the battery charging management chip is connected with the control unit, the photoelectric coupler and the battery, and the photoelectric coupler is connected with the control unit.

Compared with the prior art, the invention has the beneficial effects that:

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical solutions of the present invention more clearly understood and to implement them in accordance with the contents of the description, the following detailed description is given with reference to the preferred embodiments of the present invention and the accompanying drawings. The detailed description of the present invention is given in detail by the following examples and the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

FIG. 1 is a block diagram of an intelligent frequency-conversion cervical vertebra massager of the present invention;

FIG. 2 is a first circuit diagram according to an embodiment of the present invention;

fig. 3 is a circuit diagram of a second embodiment of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

An intelligent frequency conversion cervical vertebra massage instrument, as shown in figure 1, comprises: the control unit is internally provided with a plurality of control modes, each control mode controls the pulse circuit to output pulses with corresponding frequency and pulse width, and the frequency and the pulse width output among the control modes form great difference. Wherein, each control mode corresponds to a human body feeling setting, such as mode 1 corresponds to the pulse when the human body feels very painful, mode 2 corresponds to the pulse when the human body feels painful, such as mode 3 corresponds to the pulse when the human body feels general pain, mode 4 corresponds to the pulse when the human body feels slight pain, and mode 5 corresponds to the pulse when the human body does not feel painful. The control unit is connected with the control panel and the feedback unit, the control panel is used for setting a control mode, the control panel can be provided with the control mode through keys or other modes, such as a touch screen, voice control and the like, the control panel can be arranged on a shell of the massage instrument and can also be an independent controller, and the controller can be connected with the massage instrument through a connecting wire and can also be connected with the massage instrument in an unlimited connection mode. The feedback unit is used for measuring the heart rate or the pulse of the human body, and the control unit adjusts the control mode through a feedback signal of the feedback unit. When the massage effect is better, the human body feels more and more comfortable, the mood is more relaxed, the trend that the heartbeat or the pulse is reduced within a certain time is reflected, and finally the massage effect is stabilized within a smaller range. Therefore, the feeling of the human body to the massage effect can be reflected by measuring the heart rate or the pulse of the human body, and the feedback signal is fed back to the control unit to select a proper control mode so as to achieve the optimal massage effect. Different treatment modes can be selected according to different pain states of people, the output frequency of the micro computer chip is controlled through the micro computer chip technology, the output frequency and the pulse width of each mode form great difference, the optimal treatment effect is achieved, the waveforms of very pain, general pain, slight pain and output treatment are completely different, the most desirable treatment effect can be achieved for a person with pain, the various modes enable the person with pain not to be tired after long-term use, and the control mode is adjusted through feeding back the effect of a human body on massage, so that the better control effect is achieved.

As shown in fig. 1, the medical apparatus further comprises a radio frequency circuit, a booster circuit, a thermotherapy circuit and a power management circuit, wherein the radio frequency circuit, the booster circuit, the thermotherapy circuit and the power management circuit are connected with the control unit, the booster circuit is connected with the pulse circuit, and the radio frequency circuit is used for adjusting the control mode.

As shown in fig. 2 and 3, the control unit is composed of a radio frequency board, a single chip microcomputer and the like, the single chip microcomputer adopts STC15W408 of macrocrystal company, can be powered by a lithium battery, ON/OFF is pressed according to a start-up KEY of a main board, an electrotherapy pulse switch machine of the main board can be turned ON, after a remote controller selects time, a mode is selected, when the power switch machine is turned ON, a first gear is pressed, intensity is increased by pressing an intensity KEY ADD, the strength is generally adjusted to be well limited by a human body, intensity is reduced by pressing an intensity KEY DEC, strength can be reduced, P and P ports of STC15W408 are used for controlling waveform change, the Boost ports drive a booster circuit, the P ports are used for a load check function, a Discharge port is used as a Discharge end point, an RF-INPUT port is used for radio frequency reception detection, a main program of the single chip microcomputer is divided into a system time control module, a radio frequency transmission receiving module, a drive module, a DO low power consumption and saving, a power management module, an INPUT control module and an output control module, an interrupt program with a time of 250 mus is set in an interrupt program, a single chip microcomputer generates a flag, a single chip microcomputer is divided into a system time calculation module, a single chip microcomputer is used for calculating system, a time calculation module, an INPUT control module, a power management module, an INPUT control module, an output control module, an INPUT control module, a power control module, an output control module, a power control module, a single chip microcomputer control module, a power control module, a single chip, a power control module, a single chip microcomputer control module, a power control module, a single chip microcomputer control module, a single chip microcomputer control module, a power control module, a single chip microprocessor, a single chip microprocessor, a single chip microprocessor.

In an embodiment, the electronic device further includes a Discharge circuit, the Discharge circuit includes a ninth resistor R1, a tenth resistor R4, and an eighth transistor Q1, a base of the eighth transistor Q1 is connected to the Discharge port of the control unit through the ninth resistor R1, an emitter of the eighth transistor Q1 is grounded, and a collector of the eighth transistor Q1 is connected to a negative electrode of the second diode D2 through the tenth resistor R4.

The pulse circuit comprises a second triode Q6, a third triode Q8, a fourth triode Q5, a fifth triode Q9, a sixth triode Q4, a seventh triode Q11, a second resistor R11, a third resistor R13, a fourth resistor R10, a fifth resistor R18, a sixth resistor R18, a seventh resistor R18, an eighth resistor R18, a zener diode D18 and an electrode plate, wherein the base of the second triode Q18 is connected with the port P18 of the control unit through the second resistor R18, the base of the third triode Q18 is connected with the port P18 of the control unit through the third resistor R18, the emitters of the second triode Q18 and the third triode Q18 are grounded, the collector of the second triode Q18 is connected with the base of the fourth triode Q18 through the fourth resistor R18, the collector of the second triode Q18 is connected with the emitter of the fifth resistor Q18, and the emitter of the fourth triode Q18 is connected with the emitter 18, an emitter of the fourth triode Q5 is connected with a cathode of the second diode D2, a collector of the fourth triode Q5 is connected with an emitter of the sixth triode Q4 and then connected with an electrode plate, a base of the sixth triode Q4 is connected with a collector of the third triode Q8 through a sixth resistor R7, a collector of the sixth triode Q4 is connected with a port P05 of the control unit, a collector of the fifth triode Q9 is connected with an emitter of the seventh triode Q11 and then connected with an electrode plate, a base of the seventh triode Q11 is connected with a collector of the second triode Q6 through a seventh resistor R18, a zener diode D5 is connected with a port P05 of the control unit after being connected in parallel with the eighth resistor R21, a collector of the seventh triode Q11 is connected with an anode of a zener diode D5, and a cathode of the zener diode D5 is grounded. The opening and closing of the output circuit and the voltage of the booster circuit are controlled by the ports P08 and P07 (the output waveforms are the same and the phase difference is 180 degrees), so that various massage methods are simulated, or the waveforms of modulation intermediate frequency, dense wave, sparse wave, intermittent boost wave and the like in physiotherapy are generated, and the treatment functions of analgesia, weight reduction and the like are achieved. An output transitional shape is generated by controlling the on-off of Q6 and Q8 through ports P08 and P07, when Q6 is switched on, Q8 is switched off, and the output electrode A is connected to an output electrode B through a human body and is connected to the ground through a resistor of 100 omega and B-e of Q6; when Q6 is turned off and Q8 is turned on, the output goes through the human body, reaches the output electrode A, passes through a 100 Ω resistor and the b-e junction of Q8, and reaches the ground. The Q1 functions to dump the charge on the capacitor C1 when turned off or no output is present. The frequency port of the complementary symmetrical circuit is provided with a pulse signal with adjustable frequency to drive the conductance massage manipulation.

The thermal therapy circuit comprises a third diode D7, an eleventh resistor R24, a ninth triode Q12, a silica gel Heating wire P5, a P6, a third capacitor C7 and a fourth capacitor C8, wherein the anode of the third diode D7 is connected with a Heating port of the control unit, the cathode of the third diode D7 is connected with the base of the ninth triode Q12 through an eleventh resistor R24, the emitter of the ninth triode Q12 is grounded, the collector of the ninth triode Q12 is connected with the silica gel Heating wires P5 and P6, the silica gel Heating wires P5 and P6 are connected with a power supply VCC, and the third capacitor C7 is connected with the fourth capacitor C8 in parallel and then connected with the power supply and the ground.

The power supply management circuit comprises a battery charging management chip P L4054 and a photoelectric coupler PC817, wherein the battery charging management chip P L4054 is connected with a CHRG port of the control unit, the photoelectric coupler PC817 is connected with the battery P1, and the photoelectric coupler PC817 is connected with a Charge-signal port of the control unit.

The foregoing is merely a preferred embodiment of the invention and is not intended to limit the invention in any manner; those skilled in the art can readily practice the invention as shown and described in the drawings and detailed description herein; however, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the scope of the invention as defined by the appended claims; meanwhile, any changes, modifications, and evolutions of the equivalent changes of the above embodiments according to the actual techniques of the present invention are still within the protection scope of the technical solution of the present invention.

Claims

1. The utility model provides an intelligence frequency conversion cervical vertebra massage appearance which characterized in that includes: the control unit is internally provided with a plurality of control modes, each control mode controls the pulse circuit to output pulses with corresponding frequency and pulse width, the control unit is connected with the feedback unit, the control panel is used for setting the control modes, the feedback unit is used for measuring the heart rate or the pulse of a human body, and the control unit adjusts the control modes through feedback signals of the feedback unit.

2. The intelligent frequency-conversion cervical vertebra massager of claim 1, wherein: the radio frequency circuit and the booster circuit are connected with the control unit, the booster circuit is connected with the pulse circuit, and the radio frequency circuit is used for adjusting the control mode.

3. The intelligent frequency-conversion cervical vertebra massager of claim 2, wherein: the radio frequency circuit comprises a radio frequency antenna and a key, and the radio frequency antenna and the key are connected with the control unit.

4. The intelligent frequency-conversion cervical vertebra massager of claim 2, wherein: the boost circuit comprises a first triode, a first diode, a second diode, an inductor, a first resistor, a first capacitor and a second capacitor, wherein the first resistor is connected with the control unit in parallel and the base of the first triode, the collector of the first triode is connected with the anode of the first diode, the emitter of the first triode is grounded, the cathode of the first diode is connected with the anode of the second diode, the cathode of the second diode is connected with the second capacitor and then grounded, the anode of the first diode is connected with the inductor, and the inductor is connected with the power supply.

5. The intelligent frequency-conversion cervical vertebra massager of claim 4, wherein: the pulse circuit comprises a second triode, a third triode, a fourth triode, a fifth triode, a sixth triode, a seventh triode, a second resistor, a third resistor, a fourth resistor, a fifth resistor, a sixth resistor, a seventh resistor, an eighth resistor, a voltage stabilizing diode and an electrode plate, wherein the base electrode of the second triode is connected with the control unit through the second resistor, the base electrode of the third triode is connected with the control unit through the third resistor, the emitter electrodes of the second triode and the third triode are grounded, the collector electrode of the second triode is connected with the base electrode of the fourth triode through the fourth resistor, the collector electrode of the second triode is connected with the base electrode of the fifth triode through the fifth resistor, and the emitter electrode of the fourth triode is connected with the emitter electrode of the fifth triode, the emitting electrode of the fourth triode is connected with the negative electrode of the second diode, the collecting electrode of the fourth triode is connected with the emitting electrode of the sixth triode and then is connected with the electrode plate, the base electrode of the sixth triode is connected with the collecting electrode of the third triode through a sixth resistor, the collecting electrode of the sixth triode is connected with the control unit, the collecting electrode of the fifth triode is connected with the emitting electrode of the seventh triode and then is connected with the electrode plate, the base electrode of the seventh triode is connected with the collecting electrode of the second triode through a seventh resistor, the voltage stabilizing diode is connected with the eighth resistor in parallel and then is connected with the control unit, the collecting electrode of the seventh triode is connected with the positive electrode of the voltage stabilizing diode, and the negative electrode of the voltage stabilizing diode is grounded.

6. The intelligent frequency-conversion cervical vertebra massager of claim 4, wherein: the discharging circuit comprises a ninth resistor, a tenth resistor and an eighth triode, the base of the eighth triode is connected with the control unit through the ninth resistor, the emitting electrode of the eighth triode is grounded, and the collecting electrode of the eighth triode is connected with the negative electrode of the second diode through the tenth resistor.

7. The intelligent frequency-conversion cervical vertebra massager of claim 1, wherein: also comprises a thermal therapy circuit which is connected with the control unit.

8. The intelligent frequency-conversion cervical vertebra massager of claim 7, wherein: the thermotherapy circuit includes third diode, eleventh resistance, ninth triode, silica gel heating wire, third electric capacity, fourth electric capacity, the positive pole of third diode with the control unit connects, the negative pole of third diode passes through eleventh resistance is connected with the base of ninth triode, the projecting pole ground connection of ninth triode, the collecting electrode of ninth triode with the silica gel heating wire is connected, the silica gel heating wire is connected with the power, the third electric capacity with the fourth electric capacity is connected with power and ground after connecting in parallel.

9. The intelligent frequency-conversion cervical vertebra massager of claim 1, wherein: the power supply management circuit is connected with the control unit.

10. The intelligent frequency-conversion cervical vertebra massager of claim 9, wherein: the power management circuit comprises a battery charging management chip and a photoelectric coupler, the battery charging management chip is connected with the control unit, the photoelectric coupler and the battery, and the photoelectric coupler is connected with the control unit.