CN202777237U - Wound surface sterilization cleaning device utilizing ultrasonic technology to mix ozone gas with liquor - Google Patents
Wound surface sterilization cleaning device utilizing ultrasonic technology to mix ozone gas with liquor Download PDFInfo
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- CN202777237U CN202777237U CN 201220468192 CN201220468192U CN202777237U CN 202777237 U CN202777237 U CN 202777237U CN 201220468192 CN201220468192 CN 201220468192 CN 201220468192 U CN201220468192 U CN 201220468192U CN 202777237 U CN202777237 U CN 202777237U
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Abstract
The utility model discloses a wound surface sterilization cleaning surface utilizing an ultrasonic technology to mix ozone gas with liquor. The wound surface sterilization cleaning surface comprises an zone liquor generator, an ultrasonic generator and a hand-held ultrasonic mixer, wherein an infusion pipeline, an amplitude-change pole and a spray nozzle in the hand-held ultrasonic mixer are connected in sequence to form a channel for conveying ozone liquor; a water path is formed in the inner cavity of the amplitude-change pole; and an ultrasonic transducer is arranged on the amplitude-change pole. The wound surface cleaning device provided by the utility model utilizes a cavitation effect of the ultrasonic wave to mix the ozone gas with liquor; moreover, the water path is arranged in the amplitude-change pole, so that a mixed solution of the ozone gas and the liquor passes through the water path in the amplitude-change pole. Ultrasonic oscillation is better applied to the mixed solution of the ozone gas and the liquor, so that the ozone gas and the liquor are mixed to form a milk-white gas-liquor mixture for highly mixing and emulsifying.
Description
Technical field
This utility model relates to a kind of wound surface washing and sterilizing device that utilizes ultrasonic technology to carry out the ozone gas-liquid mixed.
Background technology
At present, at medical field, people have two kinds of traditional approachs to the cleaning of wound surface, and the one, adopt clear water or normal saline that wound surface is carried out conventional flushing, but normal developing can not be removed antibacterial and the foreign body of wound surface fully; The 2nd, adopt the cotton balls that speckles with cleanout fluid that wound surface is carried out wiping, the method can not be cleaned completely to wound surface, and cotton balls touches wound in wiping process, and it is painful also easily to the wound surface injury to increase patient.The method of above-mentioned two kinds of wound surface that clean a wound all can not be cleaned completely to wound surface.Along with hyperacoustic development, ultrasonic cleaning technology progresses into medical field and obtains significant effect at the wound surface that cleans a wound.
Ultrasound wave is a kind of mechanical wave of density interphase, when it acts on liquid, can make gas, liquid medium produce hundreds thousand of vibrations of per second, when the intensity of sound reaches certain value and is the cavitation threshold values, gas, liquid can be shaken and be broken into a large amount of micro-bubbles, these bubbles are under the effect of continuous sound wave, can increase rapidly, then closed suddenly, when bubble is closed, owing to mutually collide between gas, liquid and produce powerful shock wave, thereby produce thousands of atmospheric pressure around bubble, this physical phenomenon is called ultrasonic cavitation.
Ultrasonic cleaning technology is as a kind of emerging technology, obtained people's generally approval, its ultimate principle is: utilize hyperacoustic cavitation effect, make it in cleanout fluid, produce countless micro-bubbles, constantly expansion under hyperacoustic effect-shrink and form the larger impulsive force wound surface that cleans a wound can be in the huge effect of clinical medicine performance.Existing domestic patent " a kind of collection wound surface cleans; the ultrasonic cleaning treatment instrument of sterilizing function " (patent No. 200820202923) discloses a kind of ultrasonic cavitation effect of utilizing and has carried out the therapeutic instrument that wound surface cleans, but in the technical scheme of this patent disclosure, ultrasonic transducer is arranged in the ozone liquid in nozzle the place ahead, during use, ozone liquid is subject to being very soon vaporific ejection behind the sonic oscillation, the part ozone liquid can not well be subject to the effect of ultrasonic wave oscillating energy, the ultrasonic energy that is sent by ultrasonic transducer can not make abundant ozone gas and liquid fully mix, and the ozone liquid concentration of ejection can not realize highly mixing.
The utility model content
Can not well-mixed problem for what overcome ozone gas and liquid in the prior art, the purpose of this utility model is to provide utilizes ultrasonic technology to carry out the wound surface sterilizing and washing device of ozone gas-liquid mixed, takes full advantage of hyperacoustic cavitation effect and makes fully mixing of ozone gas and liquid.
The technical scheme that its technical problem that solves this utility model adopts is:
Utilize ultrasonic technology to carry out the wound surface sterilizing and washing device of ozone gas-liquid mixed, comprising:
Ozone liquid generating means, described ozone liquid generating means connect hand held ultrasound wave blender and provide the ozone liquid of preliminary mixing for it;
Ultrasonic generator, described ultrasonic generator connect the ultrasonic transducer in the hand held ultrasound wave blender; And
Hand held ultrasound wave blender, described hand held ultrasound wave blender is comprised of housing and the liquid-transport pipe-line, horn, nozzle, the ultrasonic transducer that are arranged in the housing, the horn inner hollow forms water channel, described liquid-transport pipe-line, horn and nozzle are connected the passage that connects and consist of delivery of ozone liquid, and described ultrasonic transducer is arranged on the horn.
Further, described ozone liquid generating means comprises:
Water pump, described pump entrance connects the water source, and exit of pump connects the inlet of ejector;
Ozone generating-device is comprised of air pump/source of the gas and ozonator, and the outlet of ozone generating-device connects the air inlet of ejector;
Ejector, the inlet of ejector and air inlet respectively connect water pump and ozone generating-device, are used for the preliminary ozone liquid that mixes.
Further, described ejector is comprised of spray chamber and negative pressure cavity, and described air inlet is arranged between spray chamber and the negative pressure cavity.The spray chamber internal diameter diminishes gradually along the transfusion direction, is vaporific high speed ejection behind the liquid process spray chamber of water pump conveying, and the water smoke of ejection forms negative pressure at negative pressure cavity at a high speed, and the ozone gas of inputting from air inlet is inhaled into it mixing the water smoke, generates ozone liquid.
Further, described ultrasonic generator is comprised of power supply, control circuit and supersonic generator.Supersonic generator provides energy for the ultrasound wave blender in the hand held ultrasound wave blender.
Further, form the first gas-liquid mixed chamber between described liquid-transport pipe-line and the horn; Further, form the second gas-liquid mixed chamber between described horn and the nozzle.Ozone liquid can both be subject to sonic oscillation in the first gas-liquid mixed chamber and the second gas-liquid mixed chamber, by hyperacoustic cavitation, make the mixing of ozone gas and liquid more abundant.
The beneficial effects of the utility model are:
Wound surface rinser of the present utility model utilizes hyperacoustic cavitation effect that ozone gas is mixed with liquid, and offer water channel in horn inside, the mixed liquor of ozone gas and liquid is by the water channel in the horn, sonic oscillation better acts on the mixed liquor of ozone gas and liquid, make ozone gas become the off-white color gas liquid mixture with liquid mixing, reach the highly purpose of mixing, emulsifying; Mixed high-concentrated ozone liquid is atomized spray and goes out after the ultrasonic vibrational energy effect, can clean very up hill and dale traumatic surface, and wound carries out antiinflammatory, sterilization and hemostasis, alleviates the patient suffering, in the huge effect of clinical medicine performance.
Description of drawings
Below in conjunction with drawings and Examples this utility model is further specified.
Fig. 1 is structural representation of the present utility model.
The specific embodiment
With reference to Fig. 1, the ultrasonic technology that utilizes that this utility model provides carries out the wound surface sterilizing and washing device of ozone gas-liquid mixed, formed by ozone liquid generating means 1, ultrasonic generator 2 and hand held ultrasound wave blender 3, ozone liquid generating means 1, ultrasonic generator 2 are connected respectively to hand held ultrasound wave blender 3, wherein ozone liquid generating means 1 provides the ozone liquid of preliminary mixing for hand held ultrasound wave blender 3, and ultrasonic generator 2 provides energy for the ultrasonic transducer 35 in the hand held ultrasound wave blender 3.
Described ozone liquid generating means 1 comprises water pump 11 that feed flow uses, the ozone generating-device that is comprised of air pump/source of the gas 12 and ozonator 13, the ejector 14 that is used for carrying out gas-liquid mixed.The entrance of water pump 11 connects the water source, and water pump 11 outlets connect the inlet of ejector 14, and the delivery outlet of ozone generating-device connects the air inlet of ejector 14.Ejector 14 inside are comprised of spray chamber 141 and negative pressure cavity 142, and the internal diameter of spray chamber 141 diminishes gradually along the transfusion direction, and the internal diameter of negative pressure cavity 142 becomes greatly gradually along the transfusion direction, and air inlet is arranged between spray chamber 141 and the negative pressure cavity 142.Be vaporific high speed behind the liquid process spray chamber 141 that water pump 11 is carried and spray, the water smoke of ejection forms negative pressure at negative pressure cavity 142 at a high speed, and the ozone gas of inputting from air inlet is inhaled into it mixing the water smoke, generates ozone liquid.
Described ultrasonic generator 2 is comprised of power supply 21, control circuit 22 and supersonic generator 23.Supersonic generator 23 connects the ultrasound wave blender 35 of 3 li in hand held ultrasound wave blender, and control circuit 22 is used for control Ultrasonic generation situation.
Described hand held ultrasound wave blender 3 is comprised of housing 31 and the liquid-transport pipe-line 32, horn 33, nozzle 34, the ultrasonic transducers 35 that are arranged in the housing 31, wherein horn 33 inner hollow form water channel, liquid-transport pipe-line 32, horn 33 are connected the passage that connects successively and consist of delivery of ozone liquid with nozzle, ultrasonic transducer 35 is arranged on the horn 33.The design offers water channel in the horn 33 that is used for the transmission ultrasonic wave oscillating energy, when ozone gas, liquid flow through horn 33 internal water channel, fully be subject to the effect of ultrasonic wave oscillating energy: by hyperacoustic higher-order of oscillation, ultrasound wave produces the dispersion effects such as homogenizing, emulsifying, pulverizing to liquid-liquid, liquid-gas, under the effect of ultrasonic cavitation, can produce powerful explosion, convection current, stirring, fragmentation, mixing phenomena between dispersed gas, liquid, thereby the purpose that reaches highly mixing, emulsifying makes ozone gas become the off-white color gas liquid mixture with liquid mixing.
Preferably, form the first gas-liquid mixed chamber 36 between liquid-transport pipe-line 32 and the horn 33, form the second gas-liquid mixed chamber 37 between horn 33 and the nozzle 34.Ozone gas, liquid can both be subject to sonic oscillation in the first gas-liquid mixed chamber 36 and the second gas-liquid mixed chamber 37, by hyperacoustic cavitation, make the mixing of ozone gas and liquid more abundant.
Wound surface rinser of the present utility model utilizes hyperacoustic cavitation effect that ozone gas is mixed with liquid, and offer water channel in horn 33 inside, the mixed liquor of ozone gas and liquid is by the water channel in the horn 33, sonic oscillation better acts on the mixed liquor of ozone gas and liquid, make ozone gas and liquid fully be mixed into the off-white color gas liquid mixture, reach the highly purpose of mixing, emulsifying; Mixed high-concentrated ozone liquid is atomized spray and goes out after the ultrasonic vibrational energy effect, can clean very up hill and dale traumatic surface, and wound carries out antiinflammatory, sterilization and hemostasis, alleviates the patient suffering, in the huge effect of clinical medicine performance.
The above only is preferential embodiment of the present utility model, as long as realize that with basic identical means the technical scheme of this utility model purpose all belongs within the protection domain of the present utility model.
Claims (6)
1. wound surface sterilizing and washing device that utilizes ultrasonic technology to carry out the ozone gas-liquid mixed is characterized in that comprising:
Ozone liquid generating means (1), described ozone liquid generating means (1) connect hand held ultrasound wave blender (3) and provide the ozone liquid of preliminary mixing for it;
Ultrasonic generator (2), described ultrasonic generator (2) connects the inner ultrasonic transducer (35) of hand held ultrasound wave blender (3); And
Hand held ultrasound wave blender (3), described hand held ultrasound wave blender (3) is comprised of housing (31) and the liquid-transport pipe-line (32), horn (33), nozzle (34), the ultrasonic transducer (35) that are arranged in the housing (31), horn (33) inner hollow forms water channel, described liquid-transport pipe-line (32), horn (33) are connected 34 with nozzle) connect successively and consist of the passage of delivery of ozone liquid, described ultrasonic transducer (35) is arranged on the horn (33).
2. the wound surface sterilizing and washing device that utilizes ultrasonic technology to carry out the ozone gas-liquid mixed according to claim 1 is characterized in that described ozone liquid generating means (1) comprising:
Water pump (11), described water pump (11) entrance connects the water source, and water pump (11) outlet connects the inlet of ejector (14);
Ozone generating-device is comprised of air pump/source of the gas (12) and ozonator (13), and the outlet of ozone generating-device connects the air inlet (143) of ejector (14);
Ejector (14), the inlet of ejector (14) is connected 143 with air inlet) connect respectively water pump (11) and ozone generating-device, be used for the preliminary ozone liquid that mixes.
3. the wound surface sterilizing and washing device that utilizes ultrasonic technology to carry out the ozone gas-liquid mixed according to claim 2, it is characterized in that described ejector (14) is comprised of spray chamber (141) and negative pressure cavity (142), described air inlet (143) is arranged between spray chamber (141) and the negative pressure cavity (142).
4. the wound surface sterilizing and washing device that utilizes ultrasonic technology to carry out the ozone gas-liquid mixed according to claim 1 is characterized in that described ultrasonic generator (2) is comprised of power supply (21), control circuit (22) and supersonic generator (23).
5. the wound surface sterilizing and washing device that utilizes ultrasonic technology to carry out the ozone gas-liquid mixed according to claim 1 is characterized in that forming between described liquid-transport pipe-line (32) and the horn (33) the first gas-liquid mixed chamber (36).
6. utilize according to claim 1 or 5 ultrasonic technology to carry out the wound surface sterilizing and washing device of ozone gas-liquid mixed, it is characterized in that forming between described horn (33) and the nozzle (34) the second gas-liquid mixed chamber (37).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201220468192 CN202777237U (en) | 2012-09-13 | 2012-09-13 | Wound surface sterilization cleaning device utilizing ultrasonic technology to mix ozone gas with liquor |
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CN 201220468192 CN202777237U (en) | 2012-09-13 | 2012-09-13 | Wound surface sterilization cleaning device utilizing ultrasonic technology to mix ozone gas with liquor |
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CN 201220468192 Expired - Lifetime CN202777237U (en) | 2012-09-13 | 2012-09-13 | Wound surface sterilization cleaning device utilizing ultrasonic technology to mix ozone gas with liquor |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102861366A (en) * | 2012-09-13 | 2013-01-09 | 童自国 | Wound sterilizing and cleaning device for mixing ozone gas and liquid by applying ultrasonic technique |
CN109172912A (en) * | 2018-09-21 | 2019-01-11 | 李伟学 | Department of general surgery's wound-cleaning device |
-
2012
- 2012-09-13 CN CN 201220468192 patent/CN202777237U/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102861366A (en) * | 2012-09-13 | 2013-01-09 | 童自国 | Wound sterilizing and cleaning device for mixing ozone gas and liquid by applying ultrasonic technique |
CN102861366B (en) * | 2012-09-13 | 2014-07-02 | 童自国 | Wound sterilizing and cleaning device for mixing ozone gas and liquid by applying ultrasonic technique |
CN109172912A (en) * | 2018-09-21 | 2019-01-11 | 李伟学 | Department of general surgery's wound-cleaning device |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20130313 Effective date of abandoning: 20140702 |
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RGAV | Abandon patent right to avoid regrant |