CN203598359U - Diabetes therapeutic instrument - Google Patents

Diabetes therapeutic instrument Download PDF

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Publication number
CN203598359U
CN203598359U CN201320798073.0U CN201320798073U CN203598359U CN 203598359 U CN203598359 U CN 203598359U CN 201320798073 U CN201320798073 U CN 201320798073U CN 203598359 U CN203598359 U CN 203598359U
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China
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pins
module
photoelectrical coupler
pin
connects
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Withdrawn - After Issue
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CN201320798073.0U
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Chinese (zh)
Inventor
郭骁才
刘尊永
朱太来
王发国
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SUZHOU KUAIJIAN PHARMACEUTICAL SCIENCE & TECHNOLOGY Co Ltd
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SUZHOU KUAIJIAN PHARMACEUTICAL SCIENCE & TECHNOLOGY Co Ltd
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Abstract

The utility model provides a diabetes therapeutic instrument comprising a power supply module, a control module, a display module, an operation module, a pulse generation module, a bidirectional magnetic field generator L1 and a magnetic field generator S1. The control module controls the pulse generation module to generate pulse signals with different frequencies according to settings of the operation module and controls two sets of pulse generation units to work in an alternating way according to the set time of a timer. According to the diabetes therapeutic instrument, a bidirectional pulse magnetic field and a pulse magnetic field can be generated simultaneously to act on patients so that therapeutic effect on diabetes is substantial, and active therapeutic effects can be generated on a series of complications caused by diabetes simultaneously. The two sets of pulse generation units control and work in the alternating way so that the service life of the diabetes therapeutic instrument is prolonged, and therapeutic cost is reduced for the patients. When the therapeutic effect of the instrument is reduced, alarm can be timely performed to inform the patients of the real-time state of the therapeutic instrument so as not to delay therapy.

Description

Diabetes curing instrument
Technical field
This utility model relates to armarium technical field, relates in particular to a kind of diabetes curing instrument.
Background technology
There are in the market several diabetes curing instruments, import four kinds but be summarized as medium and low frequency electricity irritation, compound magnetic, laser, electrical heating medicine from technology and Therapeutic Method.Because above several technology are relatively backward, can not produce the magnetic field adapting with human biological magnetism, and repair impaired islet cells.Electrical heating, just by the lead-in mode of medicine, changes skin external administration into, does not meet the essence for the treatment of; And medium and low frequency electricity irritation, compound magnetic, laser are stimulating acupoint.Above technology is because defect can not be repaired impaired gene, and transcribes out specific ribonucleic acid (mRNA), cannot reach the object of blood sugar lowering.
Existing diabetes curing instrument arrives end of life in use for some time, and circuit can leak, and not only therapeutic effect has reduction, and people is known from experience and damaged, for guaranteeing therapeutic effect, must, with changing part, increase patient's financial burden and delay treatment time.
Complication is also the diabetics lethal principal element that disables in fact, and the diabetes curing instrument on market does not have the function of complication, can not be up hill and dale for patient is alleviated slight illness.
Utility model content
The technical problems to be solved in the utility model is: the variety of issue existing in order to solve above-mentioned existing diabetes curing instrument, this utility model provides a kind of diabetes curing instrument to solve the problems referred to above by the improvement to circuit.
This utility model solves the technical scheme that its technical problem adopts: a kind of diabetes curing instrument, comprise power module, control module, display module, operational module, pulse generating module, bidirectional magnetic field generator L1 and magnetic field generator S1,
Described power module connects external power source, and exports D.C. regulated power supply;
Described display module is connected with operational module respectively at control module;
Described pulse generating module is respectively at being connected with bidirectional magnetic field generator L1, magnetic field generator S1 and control module, and described pulse generating module comprises two group pulse generating units;
Described control module, according to the pulse signal that control impuls generation module generation different frequency is set of operational module; Control the time work of rotating that two group pulse generating units are set according to intervalometer.
In order to facilitate diabetics, for s own situation, magnetic field intensity is set, described operational module comprises K switch 11~23, described display module comprises LED 15~25, intensity display screen LEDD3, time display screen LEDD2 and display driver U9, the model of described display driver is TM1668, described K switch 11 and K12, K14 and K15, K16 and K17, K18 after connecting respectively with K19 again together with K switch 20, K21, K22 and K23 are connected in parallel on No. 4 pins and No. 5 pins of display driver U9, No. 4 pins of one termination display driver U9 of described K switch 13, one end connects respectively No. 8 pins and No. 11 pins of display driver U9 in addition, between described K switch 11 and K12, between K14 and K15, between K16 and K17 and between K18 and K19 also respectively with LED 21, LED22, the positive pole of LED24 and LED25 is connected, LED 15~25 makes clear oneself selection situation for treatment magnetic field of grasping of patient's moment, in therapeutic process according to also real-time adjustment for the treatment of instrument of the light on and off situation of LED 15~25, efficient utilization, reach the object of promoting therapeutic effect.
Further, the negative pole of described LED 15~18 connects No. 19 pins of display driver U9, the negative pole of LED 19~25 connects No. 18 pins of display driver U9, the positive pole of described LED 15~20 and LED23 is connected with the bit code pin of intensity display screen LEDD3, the bit code pin of described time display screen LEDD2 is connected with 8~No. 13 pins of display driver U9, 20 of the segment encode pin of described intensity display screen LEDD3 and time display screen LEDD2 and display driver U9, 21, 23, No. 24 pin connects, time display screen LEDD2 shows the time for the treatment of, intensity display screen LEDD3 shows treatment intensity, patient is very clear.
Control module is divided into two groups, respectively two group pulse generating units is controlled, and rotates and carries out work, and described control module comprises single-chip microcomputer U14, U19, digital control switch U16, U20, U22, Darlington drives chip U15, U18 and U21, described digital control switch U16, the model of U20 and U22 is 4051BE, and described Darlington drives chip U15, the model of U18 and U21 is ULN2803AGP, 1 of described single-chip microcomputer U14, 19 are connected with 1~No. 3 pin of display driver U9 respectively with No. 20 pins, and 1 and No. 2 pin of described single-chip microcomputer U14 connects D.C. regulated power supply by resistance R 43 and R46 respectively, 18 of described single-chip microcomputer U14, 14, 13 and No. 16 pins respectively with 6 of digital control switch U16, 9, 10 are connected with No. 11 pins, and No. 6 pins of described digital control switch U16 connect D.C. regulated power supply by resistance R 50, and 12~No. 15 pins of described digital control switch U16 meet respectively 4~No. 1 pins of Islington driving chip U15,10 of described single-chip microcomputer U14, 12, 11 and No. 17 pin meets respectively 6 of digital control switch U20, 9, 10 and No. 11 pins, No. 6 pins of described digital control switch U20 connect D.C. regulated power supply by resistance R 56,7 of described digital control switch U20, 4, 2, 1, 15, 14, 13 and No. 12 pins access respectively 1~No. 8 pin of Islington driving chip U18,2 of described single-chip microcomputer U14, 8 and No. 9 pin meets 13 of single-chip microcomputer U19, 12 and No. 11 pins, 8 and No. 9 pins of described single-chip microcomputer U14 connect D.C. regulated power supply by resistance R 49 and R52 respectively, 14 of described single-chip microcomputer U19, 8, 9 and No. 10 pin meets 6 of digital control switch U22, 9, 10 and No. 11 pins, No. 6 pins of described digital control switch U22 connect D.C. regulated power supply by resistance R 60,2 of described digital control switch U22, 1, 4, 15~No. 12 pins access 2~No. 8 pins of Islington driving chip U21, single-chip microcomputer U14 can preset the work duration of every group pulse generating unit, thereby extend the life-span of this diabetes curing instrument, avoided the long-time situation that uses rear therapeutic effect to reduce of instrument.
Concrete, pulse generating module comprises photoelectrical coupler U7, U10, U13, U23, pulse generator U8 and U17, described photoelectrical coupler U7, U10, U13, the model of U23 is TLP208, described Darlington drives 18~No. 15 pins of chip U15 to meet respectively 1 of photoelectrical coupler U7, 3, 5 and No. 7 pins, described Darlington drives 18~No. 11 pins of chip U18 to meet respectively 1 of photoelectrical coupler U10, 3, 5, 1 of No. 7 pins and photoelectrical coupler U13, 3, 5, No. 7 pins, described Darlington drives 18~No. 15 pins of chip U21 to meet respectively 1 of photoelectrical coupler U23, 3, 5 and No. 7 pins, 9 of described photoelectrical coupler U7, 11, after the series connection of 13 and No. 15 pins, connect four VCC pins of pulse generator U8 and four VCC pins of pulse generator U17,
The AL pin of described pulse generator U8 connects No. 12 pins of photoelectrical coupler U10, and ACS pin connects 12 and No. 14 pins of photoelectrical coupler U13, and BS pin connects No. 16 pins of photoelectrical coupler U13, and BCL pin connects 14 and No. 16 pins of photoelectrical coupler U10;
AL, ACS, BS and the BCL pin of described pulse generator U17 connects respectively 10,12,14 and No. 16 pins of photoelectrical coupler U23;
11,13 of described photoelectrical coupler U10 is connected with bidirectional magnetic field generator L1 with 15 pins, 11,13 of described photoelectrical coupler U13 is connected with magnetic field generator S1 with 15 pins, bidirectional magnetic field generator L1 and magnetic field generator S1 act on and patient simultaneously, the effect of not only treating diabetes is excellent, and also effect is remarkable for the alleviation of complication.
The circuit concrete for the FREQUENCY CONTROL of pulse signal is set to: described pulse generating module also comprises audion Q2~Q9, the emitter stage of described audion Q2~Q5 connects respectively 16,14,12 and No. 10 pins of photoelectrical coupler U7, the base stage of described audion Q2~Q5 connects respectively the colelctor electrode of audion Q6~Q9, and the base stage of described audion Q6~Q9 is connected with No. 4 feet with 18,1,2 of single-chip microcomputer U19 respectively.
When any set of pulses generating unit h.d. of dying of old age, need to remind in time patient to change or hyperphoric new first phase, in order to avoid use the diabetes curing instrument of therapeutic effect rapid drawdown at unwitting situation continued, harm patient's life security, therefore also comprise alarm module, described alarm module comprises microphone Beep, audion Q10 and LED 28, LED29, described microphone Beep is connected with the emitter stage of audion Q10, the base stage of described audion Q10 connects No. 3 pins of single-chip microcomputer U14, the negative pole of described LED 28 and LED29 connects respectively 20 and No. 19 pins of single-chip microcomputer U19.
The beneficial effects of the utility model are, this diabetes curing instrument can produce bidirectional pulse magnetic field and pulsed magnetic field action in patient simultaneously, not only remarkable for the therapeutic effect of diabetes, and can also produce therapeutic effect energetically to a series of complication of bringing because of diabetes simultaneously; Two group pulse generating units are controlled, and rotate and carry out work, have extended the life-span of diabetes curing instrument, for patient has reduced treatment cost, when the therapeutic effect of instrument reduces can and alarm, inform the real-time status of patient treatment instrument, in order to avoid delay treatment.
Accompanying drawing explanation
Below in conjunction with drawings and Examples, this utility model is further illustrated.
Fig. 1 is the partial circuit diagram of this utility model diabetes curing instrument.
Fig. 2 is the partial circuit diagram of this utility model diabetes curing instrument.
Fig. 3 is the partial circuit diagram of this utility model diabetes curing instrument.
Fig. 4 is the magnetic field schematic diagram of the generation of this utility model diabetes curing instrument.
The specific embodiment
By reference to the accompanying drawings this utility model is described in further detail now.These accompanying drawings are the schematic diagram of simplification, and basic structure of the present utility model is only described in a schematic way, and therefore it only shows the formation relevant with this utility model.
As shown in Figure 1, this utility model provides a kind of diabetes curing instrument, it is characterized in that: comprise power module, control module, display module, operational module, pulse generating module, bidirectional magnetic field generator L1 and magnetic field generator S1, operational module comprises K switch 11~23, display module comprises LED 15~25, intensity display screen LEDD3, time display screen LEDD2 and display driver U9, the model of display driver is TM1668, K switch 11 and K12, K14 and K15, K16 and K17, K18 after connecting respectively with K19 again together with K switch 20, K21, K22 and K23 are connected in parallel on No. 4 pins and No. 5 pins of display driver U9, No. 4 pins of a termination display driver U9 of K switch 13, and one end connects respectively No. 8 pins and No. 11 pins of display driver U9 in addition, between K switch 11 and K12, between K14 and K15, between K16 and K17 and between K18 and K19 also respectively with LED 21, LED22, the positive pole of LED24 and LED25 is connected, the negative pole of LED 15~18 connects No. 19 pins of display driver U9, the negative pole of LED 19~25 connects No. 18 pins of display driver U9, the positive pole of LED 15~20 and LED23 is connected with the bit code pin of intensity display screen LEDD3, the bit code pin of time display screen LEDD2 is connected with 8~No. 13 pins of display driver U9,20 of the segment encode pin of intensity display screen LEDD3 and time display screen LEDD2 and display driver U9, 21, 23, No. 24 pin connects, and control module comprises single-chip microcomputer U14, U19, digital control switch U16, U20, U22, Darlington drives chip U15, U18 and U21, digital control switch U16, the model of U20 and U22 is 4051BE, and Darlington drives chip U15, the model of U18 and U21 is ULN2803AGP, 1 of single-chip microcomputer U14, 19 are connected with 1~No. 3 pin of display driver U9 respectively with No. 20 pins, and 1 and No. 2 pin of single-chip microcomputer U14 connects D.C. regulated power supply by resistance R 43 and R46 respectively, 18 of single-chip microcomputer U14, 14, 13 and No. 16 pins respectively with 6 of digital control switch U16, 9, 10 are connected with No. 11 pins, and No. 6 pins of digital control switch U16 connect D.C. regulated power supply by resistance R 50, and 12~No. 15 pins of digital control switch U16 meet respectively 4~No. 1 pins of Islington driving chip U15,10 of single-chip microcomputer U14, 12, 11 and No. 17 pin meets respectively 6 of digital control switch U20, 9, 10 and No. 11 pins, No. 6 pins of digital control switch U20 connect D.C. regulated power supply by resistance R 56,7 of digital control switch U20, 4, 2, 1, 15, 14, 13 and No. 12 pins access respectively 1~No. 8 pin of Islington driving chip U18,2 of single-chip microcomputer U14, 8 and No. 9 pin meets 13 of single-chip microcomputer U19, 12 and No. 11 pins, 8 and No. 9 pins of single-chip microcomputer U14 connect D.C. regulated power supply by resistance R 49 and R52 respectively, 14 of single-chip microcomputer U19, 8, 9 and No. 10 pin meets 6 of digital control switch U22, 9, 10 and No. 11 pins, No. 6 pins of digital control switch U22 connect D.C. regulated power supply by resistance R 60,2 of digital control switch U22, 1, 4, 15~No. 12 pins access 2~No. 8 pins of Islington driving chip U21, and pulse generating module comprises photoelectrical coupler U7, U10, U13, U23, pulse generator U8 and U17, photoelectrical coupler U7, U10, U13, the model of U23 is TLP208, and Darlington drives 18~No. 15 pins of chip U15 to meet respectively 1 of photoelectrical coupler U7, 3, 5 and No. 7 pins, Darlington drives 18~No. 11 pins of chip U18 to meet respectively 1 of photoelectrical coupler U10, 3, 5, 1 of No. 7 pins and photoelectrical coupler U13, 3, 5, No. 7 pins, Darlington drives 18~No. 15 pins of chip U21 to meet respectively 1 of photoelectrical coupler U23, 3, 5 and No. 7 pins, 9 of photoelectrical coupler U7, 11, after the series connection of 13 and No. 15 pins, connect four VCC pins of pulse generator U8 and four VCC pins of pulse generator U17, the AL pin of pulse generator U8 connects No. 12 pins of photoelectrical coupler U10, and ACS pin connects 12 and No. 14 pins of photoelectrical coupler U13, and BS pin connects No. 16 pins of photoelectrical coupler U13, and BCL pin connects 14 and No. 16 pins of photoelectrical coupler U10, AL, ACS, BS and the BCL pin of pulse generator U17 connects respectively 10,12,14 and No. 16 pins of photoelectrical coupler U23, 11 of photoelectrical coupler U10, 13 are connected with bidirectional magnetic field generator L1 with 15 pins, 11 of photoelectrical coupler U13, 13 are connected with magnetic field generator S1 with 15 pins, pulse generating module also comprises audion Q2~Q9, the emitter stage of audion Q2~Q5 meets respectively 16 of photoelectrical coupler U7, 14, 12 and No. 10 pins, the base stage of audion Q2~Q5 connects respectively the colelctor electrode of audion Q6~Q9, the base stage of audion Q6~Q9 respectively with 18 of single-chip microcomputer U19, 1, 2 are connected with No. 4 feet, also comprise alarm module, alarm module comprises microphone Beep, audion Q10 and LED 28, LED29, microphone Beep is connected with the emitter stage of audion Q10, the base stage of audion Q10 connects No. 3 pins of single-chip microcomputer U14, the negative pole of LED 28 and LED29 connects respectively 20 and No. 19 pins of single-chip microcomputer U19.
Take above-mentioned foundation desirable embodiment of the present utility model as enlightenment, by above-mentioned description, relevant staff can, not departing from the scope of this utility model technological thought, carry out various change and modification completely.The technical scope of this utility model is not limited to the content in description, must determine its technical scope according to claim scope.

Claims (7)

1. a diabetes curing instrument, is characterized in that: comprise power module, control module, display module, operational module, pulse generating module, bidirectional magnetic field generator L1 and magnetic field generator S1,
Described power module connects external power source, and exports D.C. regulated power supply;
Described display module is connected with operational module respectively at control module;
Described pulse generating module is respectively at being connected with bidirectional magnetic field generator L1, magnetic field generator S1 and control module, and described pulse generating module comprises two group pulse generating units;
Described control module, according to the pulse signal that control impuls generation module generation different frequency is set of operational module; Control the time work of rotating that two group pulse generating units are set according to intervalometer.
2. diabetes curing instrument as claimed in claim 1, it is characterized in that: described operational module comprises K switch 11~23, described display module comprises LED 15~25, intensity display screen LEDD3, time display screen LEDD2 and display driver U9, the model of described display driver is TM1668, described K switch 11 and K12, K14 and K15, K16 and K17, K18 after connecting respectively with K19 again together with K switch 20, K21, K22 and K23 are connected in parallel on No. 4 pins and No. 5 pins of display driver U9, No. 4 pins of one termination display driver U9 of described K switch 13, one end connects respectively No. 8 pins and No. 11 pins of display driver U9 in addition, between described K switch 11 and K12, between K14 and K15, between K16 and K17 and between K18 and K19 also respectively with LED 21, LED22, the positive pole of LED24 and LED25 is connected.
3. diabetes curing instrument as claimed in claim 2, it is characterized in that: the negative pole of described LED 15~18 connects No. 19 pins of display driver U9, the negative pole of LED 19~25 connects No. 18 pins of display driver U9, the positive pole of described LED 15~20 and LED23 is connected with the bit code pin of intensity display screen LEDD3, the bit code pin of described time display screen LEDD2 is connected with 8~No. 13 pins of display driver U9, 20 of the segment encode pin of described intensity display screen LEDD3 and time display screen LEDD2 and display driver U9, 21, 23, No. 24 pin connects.
4. diabetes curing instrument as claimed in claim 3, is characterized in that: described control module comprises single-chip microcomputer U14, U19, digital control switch U16, U20, U22, Darlington drives chip U15, U18 and U21, described digital control switch U16, the model of U20 and U22 is 4051BE, and described Darlington drives chip U15, the model of U18 and U21 is ULN2803AGP, 1 of described single-chip microcomputer U14, 19 are connected with 1~No. 3 pin of display driver U9 respectively with No. 20 pins, and 1 and No. 2 pin of described single-chip microcomputer U14 connects D.C. regulated power supply by resistance R 43 and R46 respectively, 18 of described single-chip microcomputer U14, 14, 13 and No. 16 pins respectively with 6 of digital control switch U16, 9, 10 are connected with No. 11 pins, and No. 6 pins of described digital control switch U16 connect D.C. regulated power supply by resistance R 50, and 12~No. 15 pins of described digital control switch U16 meet respectively 4~No. 1 pins of Islington driving chip U15,10 of described single-chip microcomputer U14, 12, 11 and No. 17 pin meets respectively 6 of digital control switch U20, 9, 10 and No. 11 pins, No. 6 pins of described digital control switch U20 connect D.C. regulated power supply by resistance R 56,7 of described digital control switch U20, 4, 2, 1, 15, 14, 13 and No. 12 pins access respectively 1~No. 8 pin of Islington driving chip U18,2 of described single-chip microcomputer U14, 8 and No. 9 pin meets 13 of single-chip microcomputer U19, 12 and No. 11 pins, 8 and No. 9 pins of described single-chip microcomputer U14 connect D.C. regulated power supply by resistance R 49 and R52 respectively, 14 of described single-chip microcomputer U19, 8, 9 and No. 10 pin meets 6 of digital control switch U22, 9, 10 and No. 11 pins, No. 6 pins of described digital control switch U22 connect D.C. regulated power supply by resistance R 60,2 of described digital control switch U22, 1, 4, 15~No. 12 pins access 2~No. 8 pins of Islington driving chip U21.
5. diabetes curing instrument as claimed in claim 4, it is characterized in that: pulse generating module comprises photoelectrical coupler U7, U10, U13, U23, pulse generator U8 and U17, described photoelectrical coupler U7, U10, U13, the model of U23 is TLP208, described Darlington drives 18~No. 15 pins of chip U15 to meet respectively 1 of photoelectrical coupler U7, 3, 5 and No. 7 pins, described Darlington drives 18~No. 11 pins of chip U18 to meet respectively 1 of photoelectrical coupler U10, 3, 5, 1 of No. 7 pins and photoelectrical coupler U13, 3, 5, No. 7 pins, described Darlington drives 18~No. 15 pins of chip U21 to meet respectively 1 of photoelectrical coupler U23, 3, 5 and No. 7 pins, 9 of described photoelectrical coupler U7, 11, after the series connection of 13 and No. 15 pins, connect four VCC pins of pulse generator U8 and four VCC pins of pulse generator U17,
The AL pin of described pulse generator U8 connects No. 12 pins of photoelectrical coupler U10, and ACS pin connects 12 and No. 14 pins of photoelectrical coupler U13, and BS pin connects No. 16 pins of photoelectrical coupler U13, and BCL pin connects 14 and No. 16 pins of photoelectrical coupler U10;
AL, ACS, BS and the BCL pin of described pulse generator U17 connects respectively 10,12,14 and No. 16 pins of photoelectrical coupler U23;
11,13 of described photoelectrical coupler U10 is connected with bidirectional magnetic field generator L1 with 15 pins, and 11,13 of described photoelectrical coupler U13 is connected with magnetic field generator S1 with 15 pins.
6. diabetes curing instrument as claimed in claim 5, it is characterized in that: described pulse generating module also comprises audion Q2~Q9, the emitter stage of described audion Q2~Q5 connects respectively 16,14,12 and No. 10 pins of photoelectrical coupler U7, the base stage of described audion Q2~Q5 connects respectively the colelctor electrode of audion Q6~Q9, and the base stage of described audion Q6~Q9 is connected with No. 4 feet with 18,1,2 of single-chip microcomputer U19 respectively.
7. diabetes curing instrument as claimed in claim 1, it is characterized in that: also comprise alarm module, described alarm module comprises microphone Beep, audion Q10 and LED 28, LED29, described microphone Beep is connected with the emitter stage of audion Q10, the base stage of described audion Q10 connects No. 3 pins of single-chip microcomputer U14, and the negative pole of described LED 28 and LED29 connects respectively 20 and No. 19 pins of single-chip microcomputer U19.
CN201320798073.0U 2013-12-05 2013-12-05 Diabetes therapeutic instrument Withdrawn - After Issue CN203598359U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103706035A (en) * 2013-12-05 2014-04-09 苏州快健药业科技有限公司 Diabetes therapeutic instrument
WO2019239233A1 (en) * 2018-06-15 2019-12-19 Silva De Jesus Bernardo Alberto Device and method for generating, concentrating and directing electromagnetic fields for cellular regeneration

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103706035A (en) * 2013-12-05 2014-04-09 苏州快健药业科技有限公司 Diabetes therapeutic instrument
CN103706035B (en) * 2013-12-05 2016-03-30 苏州快健药业科技有限公司 Diabetes curing instrument
WO2019239233A1 (en) * 2018-06-15 2019-12-19 Silva De Jesus Bernardo Alberto Device and method for generating, concentrating and directing electromagnetic fields for cellular regeneration

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