CN104546469A - Gallipot and medicine decocting method thereof - Google Patents
Gallipot and medicine decocting method thereof Download PDFInfo
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- CN104546469A CN104546469A CN201310499867.1A CN201310499867A CN104546469A CN 104546469 A CN104546469 A CN 104546469A CN 201310499867 A CN201310499867 A CN 201310499867A CN 104546469 A CN104546469 A CN 104546469A
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Abstract
The invention discloses a gallipot which comprises a power switch unit, a processor unit, a heating unit and an ultrasonic generating unit. The power switch unit, the heating unit and the ultrasonic generating unit are respectively electrically connected with the processor unit. The heating unit and the ultrasonic generating unit are respectively electrically connected with an external power supply. The power switch unit controls the on-off currents of the external power supply and the processor unit. The processor unit controls the heating unit and/or the ultrasonic generating unit to work simultaneously or independently according to preset working modes which include a heating mode and an ultrasonic mode. The invention further provides a medicine decocting method. By the gallipot and the medicine decocting method, a heating function and an ultrasonic extraction function can be independently or simultaneously provided, high in intelligence level is achieved, and decocted medicines are good in efficacy.
Description
Technical field
The present invention relates to household products technical field, especially relate to a kind of medicinal cupping and decoction thereof.
Background technology
The decocting for Chinese herbal medicine instrument that current family uses is generally marmite, generally includes head decoct and decoct two processes of boiling medicine with two by the method for its decocting herb, concrete head decoct into:
1, first use cold water (exceeding powder a little) fully to soak 20-30 minute, medicine is permeated completely, be convenient to medicament effective component during decoction and dissolve;
2, before boiling medicine, need add water again when water is not enough, allow water exceed powder 3-4 centimetre.
3, after big fire is boiled, then slow fire (little fire) makes medicinal liquid keep less boiling.Count after boiling, about 20 minutes time, pour out the medicinal liquid decocted.
Two decoct for: for anti-marmite bursts, add cold water again after waiting marmite slightly to cool, measure when decocting than head slightly few, big fire is boiled, less fire boils about 15 minutes.
Be more than common decoction, but the pharmaceutical quantities of the every agent medicine of Chinese medicine varies in size, need the water yield that adds different, therefore the size of the duration and degree of heating, time of boiling medicine not easily hold, and often there will be the situation that fried medicinal liquid is too much or very few.And above process anthropic factor of boiling medicine is many, need constantly that someone looks after, time-consuming, effort.Further, middle the effective elements of the medicine is complicated, all Chinese herbal medicine all decoct and have very large loss to some volatile effective ingredient at the temperature of about 100 DEG C, and some heat-sensitive ingredients even can change by recurring structure, affects drug effect.
Summary of the invention
The present invention provides a kind of medicinal cupping and decoction thereof for solving the problems of the technologies described above, and can provide heating function, supersound extraction function individually or simultaneously, intellectuality is higher, and fried next good drug efficacy.
For technical solution problem, the invention provides a kind of medicinal cupping, comprising: power switch unit, processor unit, heating unit and supersonic generation unit; Power switch unit, heating unit and supersonic generation unit are electrically connected with processor unit respectively, and heating unit and supersonic generation unit are electrically connected with external power supply respectively; Wherein, power switch unit controls external power supply and processor unit electric current of make-and-break, and processor unit is according to the while of default mode of operation control heating unit and/or supersonic generation unit or work independently; Wherein, mode of operation comprises heating mode and ultrasound mode.
Wherein, medicinal cupping comprises temperature sensor, intervalometer, first control circuit and second control circuit; Wherein, temperature sensor and processor unit are electrically connected with the temperature gathered in medicinal cupping, and intervalometer and processing unit are electrically connected the operating time to record supersonic generation unit; Further, first control circuit at least comprises the first photoisolator and the first bidirectional triode thyristor, first bidirectional triode thyristor is connected with heating unit and is formed circuit loop with external power supply, wherein, first photoisolator input and processor unit are electrically connected, and its first outfan, the second outfan be corresponding first end, the second end being electrically connected the first bidirectional triode thyristor respectively; Second control circuit at least comprises the second photoisolator and the second bidirectional triode thyristor, wherein, second bidirectional triode thyristor is connected with heating unit and is formed circuit loop with external power supply, wherein, second photoisolator input and processor unit are electrically connected, and its first outfan, the second outfan be corresponding first end, the second end being electrically connected the second bidirectional triode thyristor respectively; During work, first control circuit and/or second control circuit control heating unit and/or supersonic generation unit simultaneously or work independently according to the control signal correspondence that processor unit sends.
Wherein, first photoisolator comprises the first light emitting diode and the first phototriode, wherein, first light-emitting diodes tube anode electrical connection part reason device unit Single port, first light emitting diode negative electrode electrical connection handling device unit another port, the colelctor electrode of the first phototriode, emitter stage is corresponding is respectively electrically connected the first bidirectional triode thyristor first end, second end, wherein, first phototriode and the first light emitting diode photoelectric coupling and then the optical signal on the first light emitting diode is converted to the signal of telecommunication, when the voltage put on the first bidirectional triode thyristor is more than or equal to threshold value, the circuit loop conducting at the first bidirectional triode thyristor and heating unit place, second photoisolator comprises the second light emitting diode and the second phototriode, wherein, second light-emitting diodes tube anode electrical connection part reason device unit Single port, second light emitting diode negative electrode electrical connection handling device unit another port, the colelctor electrode of the second phototriode, emitter stage is corresponding is respectively electrically connected the second bidirectional triode thyristor first end, second end, wherein, second phototriode and the second light emitting diode photoelectric coupling and then the optical signal on the second light emitting diode is converted to the signal of telecommunication, when the voltage put on the second bidirectional triode thyristor is more than or equal to threshold value, the circuit loop conducting at the second bidirectional triode thyristor and supersonic generation unit place.
Wherein, medicinal cupping comprises alarm, and alarm and processor unit are electrically connected, and when the timing of intervalometer institute reaches scheduled time threshold value, processor unit controls alarm jingle bell.
Wherein, medicinal cupping comprises setting unit, and setting unit and processor unit are electrically connected the mode of operation for arranging medicinal cupping; Wherein, heating mode correspondence comprises heating-up temperature threshold value, and ultrasound mode correspondence comprises ultrasonic generation duration threshold value.
Wherein, medicinal cupping comprises LCDs, and LCDs and processor unit are electrically connected.
Wherein, supersonic generation unit adopts ultrasonic generator, and its supersonic frequency is between 20-40kHz, and its rated power is 500w; Heating unit adopts electrothermal tube, and the rated power of electrothermal tube is 250w.
Wherein, medicinal cupping is ceramic pot.
For technical solution problem, the present invention also provides a kind of decoction, comprises the steps: to obtain default mode of operation; Heating unit and/or supersonic generation unit is controlled simultaneously or work independently according to default mode of operation.
Wherein, control heating unit and/or supersonic generation unit according to default mode of operation while or before the step that works independently, comprising: preset heating-up temperature value and ultrasonic duration; Control heating unit and/or supersonic generation unit according to default mode of operation while or after the step that works independently, comprising: start heating, obtain the actual temperature value in medicinal cupping simultaneously, and judge whether actual temperature value reaches default heating-up temperature value; If actual temperature value does not reach default heating-up temperature value, continue heating; If actual temperature value reaches default heating-up temperature value, stop heating and starting supersound extraction; Judge whether the real work duration of supersonic generation unit reaches default ultrasonic duration; If the real work duration of supersonic generation unit does not reach default ultrasonic duration, continue supersound extraction; Otherwise, stop supersound extraction.
Medicinal cupping of the present invention: placement processor unit, heating unit and supersonic generation unit in medicinal cupping, under the control of processor unit, can open separately or open simultaneously this heating unit, this supersonic generation unit work, people is not needed to wait for constantly by medicinal cupping after arranging, intellectuality is higher, and fried next medicine good drug efficacy.
Accompanying drawing explanation
Fig. 1 is the electrical block diagram figure of medicinal cupping embodiment of the present invention;
Fig. 2 is the electrical block diagram of first control circuit, second control circuit in medicinal cupping embodiment of the present invention;
Fig. 3 is the flow chart of decoction embodiment of the present invention;
Fig. 4 is the flow chart of another embodiment of decoction of the present invention.
Detailed description of the invention
Below in conjunction with drawings and embodiments, the present invention is described in detail.
Consult Fig. 1, Fig. 1 is the structural representation of medicinal cupping embodiment of the present invention.The medicinal cupping of present embodiment, comprising: power supply 200 switch element 102, processor unit 101, heating unit 103 and supersonic generation unit 104.
Wherein, power supply 200 switch element 102, heating unit 103 and supersonic generation unit are electrically connected with processor unit 101 respectively, and heating unit 103 and supersonic generation unit are electrically connected with external power supply 200 respectively; Power supply 200 switch element 102 controls external power supply 200 and processor unit 101 electric current of make-and-break, and processor unit 101 controls heating unit 103 and/or supersonic generation unit 104 simultaneously or work independently according to default mode of operation; Wherein, this mode of operation comprises heating mode and ultrasound mode.
Further, consult Fig. 2, medicinal cupping also comprises a setting unit 108 usually, and setting unit 108 and processor unit 101 are electrically connected the mode of operation for arranging medicinal cupping; Concrete, previously described heating mode correspondence comprises the setting of heating-up temperature threshold value, and ultrasound mode correspondence comprises the setting of ultrasonic generation duration threshold value.
Further, composition graphs 1 and Fig. 2 consult, and medicinal cupping also comprises temperature sensor 107, intervalometer 109, first control circuit 105 and second control circuit 106; Temperature sensor 107 and processor unit 101 are electrically connected the temperature gathered in medicinal cupping, and intervalometer 109 and processing unit are electrically connected the operating time to record supersonic generation unit; Further, first control circuit 105 at least comprises the first photoisolator 1051 and the first bidirectional triode thyristor 1052, first bidirectional triode thyristor 1052 is connected with heating unit 103 and is formed circuit loop with external power supply 200, first photoisolator 1051 input and processor unit 101 are electrically connected, and its first outfan, the second outfan be corresponding first end, the second end being electrically connected the first bidirectional triode thyristor 1052 respectively; Second control circuit 106 at least comprises the second photoisolator 1061 and the second bidirectional triode thyristor 1062, second bidirectional triode thyristor 1062 is connected with heating unit 103 and is formed circuit loop with external power supply 200, second photoisolator 1061 input and processor unit 101 are electrically connected, and its first outfan, the second outfan be corresponding first end, the second end being electrically connected the second bidirectional triode thyristor 1062 respectively; During work, first control circuit 105 and/or second control circuit 106 control heating unit 103 and/or supersonic generation unit 104 simultaneously or work independently according to the control signal correspondence that processor unit 101 sends.Wherein, photoisolator can select the photoisolator of P620 model, and bidirectional triode thyristor can select the bidirectional triode thyristor of BAT16 model.
Specifically, continue to consult Fig. 2, first photoisolator 1051 comprises the first light emitting diode 10511 and the first phototriode 10512, first light emitting diode 10511 anode is electrically connected process device unit 101 Single port, first light emitting diode 10511 negative electrode electrical connection handling device unit 101 another port, the colelctor electrode of the first phototriode 10512, emitter stage is corresponding is respectively electrically connected the first bidirectional triode thyristor 1052 first end, second end, first phototriode 10512 and the first light emitting diode 10511 photoelectric coupling and then the optical signal on the first light emitting diode 10511 is converted to the signal of telecommunication, when the voltage put on the first bidirectional triode thyristor 1052 is more than or equal to threshold value, the circuit loop conducting at the first bidirectional triode thyristor 1052 and heating unit 103 place, when putting on the voltage on the first bidirectional triode thyristor 1052 and being less than threshold value, first bidirectional triode thyristor 1052 disconnects with the circuit loop at heating unit 103 place.
Further, second photoisolator 1061 comprises the second light emitting diode 10611 and the second phototriode 10612, second light emitting diode 10611 anode is electrically connected process device unit 101 Single port, second light emitting diode 10611 negative electrode electrical connection handling device unit 101 another port, the colelctor electrode of the second phototriode 10612, emitter stage is corresponding is respectively electrically connected the second bidirectional triode thyristor 1062 first end, second end, second phototriode 10612 and the second light emitting diode 10611 photoelectric coupling and then the optical signal on the second light emitting diode 10611 is converted to the signal of telecommunication, and when putting on the voltage on the second bidirectional triode thyristor 1062 and being more than or equal to threshold value, the circuit loop conducting at the second bidirectional triode thyristor 1062 and supersonic generation unit 104 place, when putting on the voltage on the second bidirectional triode thyristor 1062 and being less than threshold value, the second bidirectional triode thyristor 1062 disconnects with the circuit loop at supersonic generation unit 104 place.Above-mentioned phototriode also can adopt other optical-electrical converter to substitute, and does not limit herein.
Certainly, in an embody rule embodiment, please continue to refer to Fig. 2, this the first light emitting diode 10511 anode, the second light emitting diode 10611 anode side be a corresponding series connection resistance 1001 all, and connect between the first phototriode 10512 colelctor electrode, the first bidirectional triode thyristor 1052 first end a resistance 1001 and a resistance 1001 of connecting between the second phototriode 10612 colelctor electrode, the second bidirectional triode thyristor 1062 first end; In addition, can be connected in series a resistance 1001 at the first bidirectional triode thyristor 1,052 second end, the second bidirectional triode thyristor 1,062 second end with between external power supply 200 negative pole, the resistance of each resistance 1001 all can select 1 kilo-ohm.The effect of available protecting circuit can be played.Further, controlled by this first control circuit 105, second control circuit 106 pairs of heating units 103 and supersonic generation unit 104, instead of traditional physical switch button, not fragile, reliability is high, and digitized manipulation, result more accurately, more intelligent.
In above-mentioned embodiment, continue to consult Fig. 1, medicinal cupping is generally ceramic pot, this medicinal cupping may further include alarm 110, alarm 110 and processor unit 101 are electrically connected, and when intervalometer 109 timing reach scheduled time threshold value, processor unit 101 controls alarm 110 jingle bell.In addition, medicinal cupping also can comprise a LCDs 111, and LCDs 111 and processor unit 101 are electrically connected, 1602 LCDs 111 that this LCDs 111 can select market conventional.
Supersonic generation unit 104 adopts ultrasonic generator, and its supersonic frequency is between 20-40kHz, and its rated power is 500w; Heating unit 103 adopts electrothermal tube, and the rated power of electrothermal tube is 250w; And processor unit 101 can select single-chip microcomputer design, such as, the single-chip microcomputer of Mega16 model can be selected.
During use, pour medicament into medicinal cupping, according to the amount of medicament add cold water paramount go out powder 2-3cm, opening power 200 switch element 102, arranges the mode of operation how to decoct as required.Such as, when not only having needed heating but also needed supersound extraction, first arrange and decoct temperature (as default heating-up temperature), then ultrasonic time is set (as default ultrasonic duration, generally 30min is set), processor unit 101 controls first control circuit 105 and starts heating unit 103, by heating unit 103(and electrothermal tube) heat medicinal cupping, when temperature reaches set temperature, supersonic generation unit 104 starts automatically, after the time arrives setup times, first control circuit 105 controls heating unit 103 and automatically closes, after warning bell ring (bell ring can be set and continue 15 seconds), emergency alarm bell is closed automatically.
Medicinal cupping of the present invention: placement processor unit 101, heating unit 103 and supersonic generation unit 104 in medicinal cupping, under the control of processor unit 101, can open separately or open simultaneously this heating unit 103, this supersonic generation unit 104 works, do not need people to wait for constantly by medicinal cupping after arranging, intellectuality is higher.In addition, this supersonic generation unit is according to the principle of supersound extraction, mainly comprise mechanism, calorifics effect and cavitation, the strong cavitation effect utilizing Ultrasonic Radiation to produce, mechanical vibration, disturbance effect, high acceleration, emulsifying, diffusion, smash and the multiple effect such as stirring, increase frequency and the speed of molecular motion of material, the penetration power of solvent, thus acceleration target component enters solvent, and can adopt in leaching process simultaneously and control heating unit 103 without heating or low-temperature heat mode by processor unit 101, the ingredient structure that heating factors can be avoided to cause changes and volatilization loss, have and save time, energy-conservation, extraction efficiency advantages of higher.And fried next medicine good drug efficacy.
For technical solution problem, the present invention also provides a kind of decoction, comprises the steps:
Step S11, obtains and presets mode of operation;
Step S12, controls heating unit and/or supersonic generation unit simultaneously or work independently according to default mode of operation.
Consult Fig. 4, in an embody rule embodiment, before step S12, comprising:
Step S110, presets heating-up temperature value and ultrasonic duration;
After step s 12, comprising:
Step S120, starts heating, obtains the actual temperature value in medicinal cupping simultaneously;
Step S121, judges whether actual temperature value reaches default heating-up temperature value;
Step S122, if actual temperature value does not reach default heating-up temperature value, continues heating;
Step S123, if actual temperature value reaches default heating-up temperature value, stops heating and starting supersound extraction;
Step S124, judges whether the real work duration of supersonic generation unit reaches default ultrasonic duration;
Step S125, if the real work duration of supersonic generation unit does not reach default ultrasonic duration, continues supersound extraction;
Step S126, if the real work duration of supersonic generation unit reaches default ultrasonic duration, stops supersound extraction.
So far, whole process of boiling medicine is completed.Its operative intelligence, drug effect extraction effect is good.
Certainly, in supersound extraction process, if detect that actual temperature value is lower than default heating-up temperature value, heating unit can continue heating, to maintain temperature constant in medicinal cupping, to guarantee that supersound extraction process is carried out at a suitable temperature, and then guarantees that drug effect is best.
On be only embodiments of the present invention; not thereby the scope of the claims of the present invention is limited; every utilize description of the present invention and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present invention.
Claims (10)
1. a medicinal cupping, is characterized in that, comprising:
Power switch unit, processor unit, heating unit and supersonic generation unit;
Described power switch unit, described heating unit and described supersonic generation unit are electrically connected with described processor unit respectively, and described heating unit and described supersonic generation unit are electrically connected with external power supply respectively;
Wherein, described power switch unit controls external power supply and described processor unit electric current of make-and-break, the while that described processor unit controlling described heating unit and/or described supersonic generation unit according to default mode of operation or work independently; Wherein, described mode of operation comprises heating mode and ultrasound mode.
2. medicinal cupping according to claim 1, is characterized in that:
Described medicinal cupping comprises temperature sensor, intervalometer, first control circuit and second control circuit;
Wherein, described temperature sensor and described processor unit are electrically connected with the temperature gathered in medicinal cupping, and described intervalometer and described processing unit are electrically connected the operating time to record described supersonic generation unit; Further,
Described first control circuit at least comprises the first photoisolator and the first bidirectional triode thyristor, described first bidirectional triode thyristor is connected with described heating unit and is formed circuit loop with external power supply, wherein, described first photoisolator input and described processor unit are electrically connected, and its first outfan, the second outfan be corresponding first end, the second end being electrically connected described first bidirectional triode thyristor respectively;
Described second control circuit at least comprises the second photoisolator and the second bidirectional triode thyristor, wherein, described second bidirectional triode thyristor is connected with described heating unit and is formed circuit loop with external power supply, wherein, described second photoisolator input and described processor unit are electrically connected, and its first outfan, the second outfan be corresponding first end, the second end being electrically connected described second bidirectional triode thyristor respectively;
During work, described first control circuit and/or described second control circuit control described heating unit and/or described supersonic generation unit simultaneously or work independently according to the control signal correspondence that described processor unit sends.
3. medicinal cupping according to claim 2, is characterized in that:
Described first photoisolator comprises the first light emitting diode and the first phototriode, wherein, described first light-emitting diodes tube anode is electrically connected described processor unit Single port, described first light emitting diode negative electrode is electrically connected described processor unit another port, the colelctor electrode of described first phototriode, emitter stage is corresponding is respectively electrically connected described first bidirectional triode thyristor first end, second end, wherein, described first phototriode and described first light emitting diode photoelectric coupling and then the optical signal on the first light emitting diode is converted to the signal of telecommunication, when the voltage put on described first bidirectional triode thyristor is more than or equal to threshold value, the circuit loop conducting at described first bidirectional triode thyristor and described heating unit place,
Described second photoisolator comprises the second light emitting diode and the second phototriode, wherein, described second light-emitting diodes tube anode is electrically connected described processor unit Single port, described second light emitting diode negative electrode is electrically connected described processor unit another port, the colelctor electrode of described second phototriode, emitter stage is corresponding is respectively electrically connected described second bidirectional triode thyristor first end, second end, wherein, described second phototriode and described second light emitting diode photoelectric coupling and then the optical signal on the second light emitting diode is converted to the signal of telecommunication, when the voltage put on described second bidirectional triode thyristor is more than or equal to threshold value, the circuit loop conducting at described second bidirectional triode thyristor and described supersonic generation unit place.
4. medicinal cupping according to claim 2, is characterized in that:
Described medicinal cupping comprises alarm, and described alarm and described processor unit are electrically connected, and when the timing of described intervalometer institute reaches scheduled time threshold value, described processor unit controls described alarm jingle bell.
5. medicinal cupping according to claim 1, is characterized in that:
Described medicinal cupping comprises setting unit, and described setting unit and described processor unit are electrically connected the mode of operation for arranging medicinal cupping; Wherein, described heating mode correspondence comprises heating-up temperature threshold value, and described ultrasound mode correspondence comprises ultrasonic generation duration threshold value.
6. medicinal cupping according to claim 1, is characterized in that:
Described medicinal cupping comprises LCDs, and described LCDs and described processor unit are electrically connected.
7. medicinal cupping according to claim 1, is characterized in that:
Described supersonic generation unit adopts ultrasonic generator, and its supersonic frequency is between 20-40kHz, and its rated power is 500w;
Described heating unit adopts electrothermal tube, and the rated power of described electrothermal tube is 250w.
8. medicinal cupping according to claim 1, is characterized in that:
Described medicinal cupping is ceramic pot.
9. a decoction, is characterized in that, comprises the steps:
Obtain and preset mode of operation;
Described heating unit and/or described supersonic generation unit is controlled simultaneously or work independently according to described default mode of operation.
10. decoction according to claim 9, is characterized in that:
, comprising simultaneously or before the step that works independently at described described heating unit and/or the described supersonic generation unit of controlling according to described default mode of operation:
Preset heating-up temperature value and ultrasonic duration;
, comprising simultaneously or after the step that works independently at described described heating unit and/or the described supersonic generation unit of controlling according to described default mode of operation:
Start heating, obtain the actual temperature value in medicinal cupping simultaneously, and judge whether described actual temperature value reaches described default heating-up temperature value;
If described actual temperature value does not reach described default heating-up temperature value, continue heating; If described actual temperature value reaches described default heating-up temperature value, stop heating and starting supersound extraction;
Judge whether the real work duration of described supersonic generation unit reaches described and preset ultrasonic duration;
If the real work duration of described supersonic generation unit does not reach described preset ultrasonic duration, continue supersound extraction; Otherwise, stop supersound extraction.
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| CN201310499867.1A CN104546469A (en) | 2013-10-22 | 2013-10-22 | Gallipot and medicine decocting method thereof |
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| CN201310499867.1A CN104546469A (en) | 2013-10-22 | 2013-10-22 | Gallipot and medicine decocting method thereof |
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| CN203694117U (en) * | 2013-10-22 | 2014-07-09 | 深圳职业技术学院 | Medicine pot |
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| CN2478591Y (en) * | 2001-05-18 | 2002-02-27 | 国家中药现代化工程技术研究中心 | Ultrasonic intensified Chinese medicine extractor |
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