CN110882153A - Moxibustion acupuncture point sensitization detector - Google Patents
Moxibustion acupuncture point sensitization detector Download PDFInfo
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- CN110882153A CN110882153A CN201811054395.8A CN201811054395A CN110882153A CN 110882153 A CN110882153 A CN 110882153A CN 201811054395 A CN201811054395 A CN 201811054395A CN 110882153 A CN110882153 A CN 110882153A
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61H—PHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
- A61H39/00—Devices for locating or stimulating specific reflex points of the body for physical therapy, e.g. acupuncture
- A61H39/06—Devices for heating or cooling such points within cell-life limits
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61N—ELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
- A61N5/00—Radiation therapy
- A61N5/06—Radiation therapy using light
- A61N5/0613—Apparatus adapted for a specific treatment
- A61N5/0625—Warming the body, e.g. hyperthermia treatment
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61H—PHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
- A61H2201/00—Characteristics of apparatus not provided for in the preceding codes
- A61H2201/02—Characteristics of apparatus not provided for in the preceding codes heated or cooled
- A61H2201/0207—Characteristics of apparatus not provided for in the preceding codes heated or cooled heated
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61H—PHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
- A61H2201/00—Characteristics of apparatus not provided for in the preceding codes
- A61H2201/50—Control means thereof
- A61H2201/5058—Sensors or detectors
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61N—ELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
- A61N5/00—Radiation therapy
- A61N5/06—Radiation therapy using light
- A61N2005/0658—Radiation therapy using light characterised by the wavelength of light used
- A61N2005/0659—Radiation therapy using light characterised by the wavelength of light used infrared
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- Animal Behavior & Ethology (AREA)
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- Physical Education & Sports Medicine (AREA)
- Pain & Pain Management (AREA)
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Abstract
The invention discloses a moxibustion acupoint sensitization detector, which comprises a lithium ion battery, a moxa oil film, an infrared emission film, an acupoint sensitization reaction display screen, a built-in singlechip infrared emission setting display screen, an infrared detection sensor and an infrared reflection aluminum plastic film. Compared with the existing ignited moxa stick moxibustion application technology, the method avoids the risks of burning skin and burning clothes due to high flame temperature of the ignited moxa stick. Provides convenience and safe moxibustion tool for clinical moxibustion.
Description
Technical Field
The invention relates to a moxibustion device, in particular to a moxibustion acupoint sensitization detector.
Background
Moxibustion, traditional Chinese medicine and acupuncture are listed as three major therapies of traditional Chinese medicine, so far, the moxibustion has a history of thousands of years and makes a contribution to the reproduction and the growth of Chinese nationality. Moxibustion is an external treatment method for preventing and treating diseases by burning and warm-pressing moxa on acupuncture points on the body surface, mainly by means of heat of moxibustion fire, warming and ventilating qi and blood through meridian conduction by moxibustion acupuncture points, and strengthening body resistance to eliminate pathogenic factors. It is well documented that when a person is ill, the relevant acupoints are abnormally sensitive to moxibustion heat, and generate heat sensation in a non-local area or not only on the surface of the skin, or even non-heat sensation (other non-relevant acupoints generate heat sensation only locally and superficially on the moxibustion heat), which is referred to as heat-sensitized acupoints. The reaction of heat-sensitized acupoints to moxibustion heat is manifested as heat transmission, heat diffusion, heat transfer and non-heat sensation, with an average probability of over 70%, which is not accidental but inherent necessity. In moxibustion therapy, heat-sensitized acupoints are the best selected points for moxibustion therapy, and moxibustion heat-sensitized acupoints are very easy to excite moxibustion sensory transmission (moxibustion generates moxibustion sensory effect, 95% of occurrence rate in clinic) and even qi reaches the disease location, and clinical moxibustion curative effect is greatly improved [ Chen-Rixin Kangming-Ming-Fei, clinical application of heat-sensitized acupoints, 3 rd volume of 3 months in 2007 of Chinese acupuncture, No. 27 rd 3 th stage ].
In clinical moxibustion, the common moxibustion method mainly comprises the following operation modes, namely, the burning end of a moxa roll (generally used moxa roll) is closely pressed on an acupuncture point by 6-7 layers of cloth or cotton paper, so that hot air penetrates into skin and flesh, and the acupuncture point can be pressed for 7-10 times. The other is dangling moxibustion, which refers to rotary moxibustion and sparrow-pecking moxibustion. When in moxibustion, one end of the moxa roll is ignited to be aligned to an acupuncture point or an affected part to be moxibustion, the distance between the moxa roll and the skin is about 2-3 cm, moxibustion roasting is carried out, and moxibustion treatment is carried out by moving the moxa roll to and fro left and right or repeatedly rotating a circle above the moxibustion position, so that the skin has warm sensation without burning pain, and the moving range is about 3 cm. The bird pecking moxibustion is a common moxibustion application mode, the burning end of the burnt moxa stick is close to the upper part of the acupuncture point, the moxa stick falls together, and the burning end of the moxa stick moves up and down suddenly and suddenly relative to the skin of the acupuncture point, such as bird pecking.
The literature also describes methods for probing the acupoints of modern moxibustion: the ignited moxa stick is used to conduct moxibustion uniformly along the meridian about 3cm away from the skin. The temperature of the moxibustion part felt by the patient is kept warm for about 5-10 min; the heat-sensitizing transmission rate of acupoints reaches 100% [ Lishanyun, observation and research on physicochemical effect of heat-sensitizing transmission phenomenon of different moxibustion material face acupoints, the 2010 doctor's academic paper of Guangzhou Chinese medicine university ]. Although heat-sensitized acupoints are the best choice for moxibustion, the danger of burning the skin and burning out the clothing is often present if the moxa ash is not removed in time.
Disclosure of Invention
The invention provides a moxibustion acupoint sensitization detector, aiming at the existing moxibustion acupoint exploration method that the burning end of a lighted moxa stick is close to the upper part of an acupoint, moves back and forth or rotates around repeatedly or is close to the upper part of the acupoint, and the moxa sticks fall together, and the moxibustion executed by the method has the risks of naked fire injury and moxa ash injury.
The invention discloses a technical scheme of a moxibustion acupoint sensitization detector, which comprises the following steps
Moxa-moxibustion acupuncture point sensitization detector, it includes that the detector opens and stops control button, the interface that charges, lithium ion battery, display screen mount table, display screen eight square body frames, infrared sensor mount pad, port seat, the solid fixed ring of infrared emission film, the fixed clamp ring of moxa oil film, infrared emission film, acupuncture point sensitization reaction display screen, built-in singlechip infrared emission set up the display screen, infrared emission sets up button, infrared detection sensor, infrared reflection plastic-aluminum membrane.
The detector starts and stops control button, acupuncture point sensitization reaction display screen, built-in singlechip infrared emission and sets up display screen, infrared emission and sets up the button, install in the display screen mount table.
The display screen mounting platform is a supporting structure of an acupuncture point sensitization reaction display screen, a built-in singlechip infrared emission setting display screen, an infrared emission setting key, a detector start-stop control button and a charging interface;
the display screen octagonal machine seat is arranged on the infrared sensor mounting seat and is a supporting structure of the display screen mounting table;
the infrared sensor mounting seat is a connecting structure of an infrared detection sensor supporting structure and the port seat;
the port seat is fixed below the infrared sensor mounting seat, and a moxa oil film, an infrared emission film and an infrared reflection aluminum-plastic film are mounted in the port seat ring; the port seat is a moxa oil film, a moxa oil film fixing clamping ring, an infrared emission film fixing ring and an infrared reflection aluminum-plastic film supporting structure, and further plays a role in isolating moxibustion acupuncture points from the periphery, so that heat loss and cooling caused by convection of ambient air to moxibustion heat are avoided, and the temperature of the moxibustion acupuncture point area is kept uniform and stable.
The moxa oil film is clamped and fixed in the port seat by a moxa oil film fixing and pressing ring and an infrared emission film fixing ring and is positioned below the infrared emission film;
the infrared emission film is clamped and fixed with the lower port of the infrared sensor mounting seat by an infrared emission film fixing ring, an infrared reflection aluminum-plastic film is arranged above the infrared emission film, and a moxa oil film is arranged below the infrared emission film;
the infrared reflection aluminum-plastic film is clamped and fixed by the lower end edge of the infrared sensor mounting seat and the upper end edge of the infrared emission film fixing ring, and the infrared emission film is arranged below the infrared reflection aluminum-plastic film;
the infrared detection sensor is arranged in the center in the infrared sensor mounting seat cavity, and the window of the infrared detection sensor faces downwards;
the lithium ion battery is arranged in the cavity of the infrared sensor mounting seat and is fixedly mounted beside the infrared detection sensor;
the infrared emission film comprises a graphene coating, a sealing edge, a positive conductive belt, a negative conductive belt, a peephole, a positive leading wire and a negative leading wire; the peephole is located infrared emission film central authorities, and when lithium ion battery led the electric wire and switched on through anodal electricity lead, negative pole, the graphite alkene coating was the thermal radiation of infrared wavelength promptly.
The graphene coating of the infrared emission film is coated on the surface of the polyimide film, the positive conductive band and the negative conductive band are tightly attached to the surface of the graphene coating,
the sealing edge is EVA resin which covers the surfaces of the positive conductive band, the negative conductive band and the graphene coating and forms an interlayer with the polyimide film, and is a sealing structure of the outer circumferential edge of the infrared emission film.
The moxa oil film is formed by impregnating moxa leaf volatile oil with pure cotton paper materials, and a smooth through hole is formed in the center of the moxa oil film. The moxa oil film is arranged below the infrared emission film and is evaporated and escaped under the action of the heat radiation of the infrared emission film.
The folium artemisiae argyi volatile oil is an extract of folium artemisiae argyi through steam distillation.
The infrared reflection aluminum-plastic film consists of a bright aluminum foil and a high polymer material film, and a through hole is formed in the center of the infrared reflection aluminum-plastic film.
The high polymer material film adopts polyethylene resin which has good chemical corrosion resistance and is nontoxic and odorless.
The aluminum foil is a bright aluminum foil and covers the polyethylene resin film, the bright aluminum foil can play a role in reflecting infrared radiation, the reflectivity of the metal surface with high smoothness to solar radiation and infrared radiation is high, the reflectivity of aluminum to solar radiation is 0.5-0.9, and the reflectivity of aluminum to infrared radiation is 0.95-0.98.
The aluminum foil is arranged below the infrared reflection aluminum-plastic film, and the polyethylene resin film is arranged above the infrared reflection aluminum-plastic film; an infrared emission film is arranged below the infrared reflection aluminum-plastic film, and the infrared reflection effect of the bright aluminum foil ensures that the infrared radiation of the infrared emission film is only limited to downward radiation;
the detector start-stop control button is connected in series with the infrared detection sensor and a lithium ion battery power supply loop and controls the lithium ion battery to supply power or cut off the power to the infrared detection sensor.
The charging interface is a charger interface used for charging the lithium ion battery.
The lithium ion battery is an energy storage device for supplying power to the infrared emission film and the infrared detection sensor.
The infrared emission setting key is a device for setting the working time length required by the infrared emission film and the working rhythm required by the infrared emission film. The clinical moxibustion personnel can set the working time of the infrared emission film and the working rhythm of the infrared emission film according to the medical needs of moxibustion.
The infrared detection sensor is used for observing the sensitive reaction of moxibustion acupuncture points to infrared heat radiation during moxibustion operation and acquiring infrared signals of the sensitive reaction.
The infrared detection sensor window is opposite to the moxibustion acupuncture point, and is used for acquiring infrared wave signals released by the moxibustion acupuncture point in a sensitive reaction to infrared heat radiation. The infrared detection sensor window, the peephole of the infrared emission film, the through hole of the infrared reflection aluminum-plastic film and the optical through hole of the moxa oil film form an optical path.
When the moxibustion is operated, infrared signals of acupuncture point sensitization reaction of moxibustion application are acquired in real time and displayed through an acupuncture point sensitization reaction display screen.
During clinical operation, a port seat of the moxibustion acupoint sensitization detector is in close contact with the skin of a moxibustion acupuncture point, infrared radiation emitted by the infrared emission film penetrates through the moxa oil film to form an infrared heating effect on the acupuncture point, the moxa oil film is heated and evaporated to escape the folium artemisiae argyi volatile oil to form a certain concentration in a cavity of the port seat, a concentration diffusion effect is formed outside and inside the local skin of the acupuncture point, and transdermal absorption is formed by the concentration diffusion effect. The port seat has the sealing and isolating effects, so that the influence of temperature reduction caused by ambient air convection is avoided, the effect of isolating the volatile folium artemisiae argyi oil which is evaporated and escaped from a folium artemisiae argyi oil film by heating and dissipating through air convection is achieved, the relatively stable concentration of the volatile folium artemisiae argyi oil atmosphere is kept, and the percutaneous absorption of the volatile folium artemisiae argyi oil by applying moxibustion acupuncture points is facilitated, so that the thermal sensitization sensing effect of the acupuncture points is improved.
The positive effect of the moxibustion acupuncture point sensitization detector
Compared with the existing moxibustion acupoint probing method that the ignited moxa stick is about 3cm away from the skin and uniformly applied back and forth along the channels, the moxibustion applying method avoids the risks of burning the skin and burning clothes due to high temperature and moxa ash of the ignited moxa stick flame. Provides convenience and safe moxibustion tool for clinical moxibustion.
Drawings
FIG. 1 is a schematic view of a moxibustion acupoint detector of the present invention;
in the figure, 1, a detector start-stop control button, 5 display screen octagon machine bases, 6 infrared sensor mounting bases and 7 port bases are arranged;
FIG. 2 is a top view of FIG. 1;
in the figure, 1, a detector start-stop control button, 4 display screen mounting tables, 12 acupuncture point sensitization reaction display screens, 13 built-in single chip microcomputer infrared emission setting display screens and 14 infrared emission setting keys are arranged;
FIG. 3 is a cross-sectional view A-A of FIG. 2;
in the figure, 1, a detector start-stop control button, 2, a charging interface, 3, a lithium ion battery, 4, a display screen mounting table, 5, a display screen octagonal body base, 6, an infrared sensor mounting base, 7, an infrared emission film fixing ring, 8, a moxa oil film fixing and pressing ring, 10, 11, 14, an infrared emission setting button, 15, 16, an infrared detection sensor window and 17, an infrared reflection aluminum-plastic film;
FIG. 4 is a diagram of an infrared emitting film;
in the figure, 11-1 graphene coating, 11-2 sealing edges, 11-3 positive conductive strips, 11-4 negative conductive strips, 11-5 peepholes, 11-6 positive leading wires and 11-7 negative leading wires;
FIG. 5 is a diagram of a moxa oil film;
in the figure, 10-1 optical through hole;
FIG. 6 is a diagram of an infrared reflective aluminum plastic film;
in the figure, 17-1 through hole;
Detailed Description
The moxibustion acupoint sensitization detector of the invention is explained in detail with the accompanying drawings
As shown in fig. 1 to 6, a moxibustion acupuncture point sensitization detector comprises a detector start-stop control button 1, a charging interface 2, a lithium ion battery 3, a display screen mounting table 4, a display screen octagon machine base 5, an infrared sensor mounting base 6, a port base 7, an infrared emission film fixing ring 8, a moxa oil film fixing pressing ring 9, a moxa oil film 10, an infrared emission film 11, an acupuncture point sensitization reaction display screen 12, a built-in single chip microcomputer infrared emission setting display screen 13, an infrared emission setting key 14, an infrared detection sensor 15 and an infrared reflection aluminum plastic film 17.
The detector start-stop control button 1, the acupuncture point sensitization reaction display screen 12, the built-in singlechip infrared emission setting display screen 13, the infrared emission setting button 14 are installed on the display screen installation platform 4.
The display screen mounting table 4 is mounted on the display screen octagonal base 5;
the display screen octagonal machine base 5 is arranged on the infrared sensor mounting base 6;
an infrared sensor mounting seat 6, and a port seat 7 is arranged below the infrared sensor mounting seat;
a port seat 7, wherein a moxa oil film 10, an infrared emission film 11 and an infrared reflection aluminum-plastic film 17 are arranged in a ring;
the moxa oil film 10 is fixed by the moxa oil film fixing and pressing ring 9;
an infrared emission film 11 fixed by an infrared emission film fixing ring 8;
the infrared reflection aluminum-plastic film 17 is clamped and fixed by the lower end edge of the infrared sensor mounting seat 6 and the upper end edge of the infrared emission thin film fixing ring 8;
the infrared detection sensor 15 is arranged in the center of the cavity of the infrared sensor mounting seat 6, and the window 16 of the infrared detection sensor faces downwards;
the lithium ion battery 3 is arranged in the cavity of the infrared sensor mounting seat 6 and is arranged beside the infrared detection sensor 15;
the infrared emission film 11 comprises a graphene coating 11-1, a sealing edge 11-2, an anode conductive band 11-3, a cathode conductive band 11-4, a peephole 11-5, an anode leading wire 11-6 and a cathode leading wire 11-7; a peep hole 11-5 is positioned in the center of the infrared emission film 11.
The graphene coating 11-1 is coated on the surface of the polyimide film.
The positive electrode conductive belt 11-3 and the negative electrode conductive belt 11-4 are tightly attached to the surface of the graphene coating 11-1.
The sealing edge 11-2 is EVA resin which covers the surfaces of the positive electrode conductive band 11-3, the negative electrode conductive band 11-4 and the graphene coating 11-1 and forms an interlayer with a polyimide film, and is a sealing structure of the outer circumference of the infrared emission film 11.
The EVA resin is an ethylene-vinyl acetate copolymer, and because a vinyl acetate monomer is introduced into a molecular chain of the EVA, the EVA reduces high crystallinity, improves flexibility, impact resistance, filler intermiscibility and heat sealing performance, and is widely applied to the fields of functional greenhouse films, packaging films, hot melt adhesives, wires and cables and the like.
When the lithium ion battery 3 is conducted through the anode electricity leading wire 11-6 and the cathode electricity leading wire 11-7, the graphene coating 11-1 emits heat radiation of infrared waves.
The moxa oil film 10 is formed by impregnating moxa leaf volatile oil with pure cotton paper materials, and a smooth through hole 10-1 is formed in the center of the moxa oil film 10. The moxa oil film 10 is arranged below the infrared emission film 11 and is subjected to the heat radiation effect of the infrared emission film 11, and the pure cotton paper material is soaked in the moxa volatile oil to form evaporation escape.
The folium artemisiae argyi volatile oil is an extract of folium artemisiae argyi through steam distillation.
The infrared reflection aluminum-plastic film 17 consists of a bright aluminum foil and a high polymer material film, wherein the high polymer material film is made of polyethylene resin, has good chemical corrosion resistance, and is non-toxic and odorless.
The aluminum foil is a bright aluminum foil and is formed by covering the polyethylene resin film, the bright aluminum foil can play a role in heat reflection, the reflectivity of the metal surface with high smoothness to solar radiation and infrared radiation is high, the reflectivity of the aluminum to the solar radiation is 0.5-0.9, and the reflectivity of the aluminum to the infrared radiation is 0.95-0.98. The aluminum foil is arranged below the infrared reflection aluminum-plastic film 17, and the polyethylene resin film is arranged above the infrared reflection aluminum-plastic film; an infrared emission film 11 is arranged below the infrared reflection aluminum-plastic film 17, and the infrared radiation of the infrared emission film 11 is limited to downward radiation due to the infrared reflection effect of the bright aluminum foil of the infrared reflection aluminum-plastic film 17;
the detector start-stop control button 1 is connected with an infrared detection sensor 15 and a lithium ion battery power supply loop in series, and controls the lithium ion battery 3 to supply power or cut off the power to the infrared detection sensor 15.
The charging interface 2 is a charger interface for charging the lithium ion battery 3.
The lithium ion battery 3 is an energy storage device for supplying power to the infrared emission film 11 and the infrared detection sensor 15.
The infrared emission setting key 14 is a device for setting the working time of the infrared emission film 11 and the working rhythm of the infrared emission film 11. The moxibustion executing personnel can set the electrifying work time of the infrared emission film 11 and the electrifying work rhythm of the infrared emission film 11 according to the medical needs of moxibustion.
The infrared detection sensor 15 is used for acquiring a reaction signal of moxibustion acupuncture points sensitive to infrared heat radiation during moxibustion.
The infrared detection sensor window 16 is opposite to moxibustion acupuncture points, and is a window for acquiring infrared wave signals released by a human body when the moxibustion acupuncture points are sensitive to infrared heat radiation, the infrared detection sensor window 16, a peephole 11-5 of the infrared emission film 11, a through hole 17-1 of the infrared reflection aluminum-plastic film 17 and a light through hole 10-1 of the moxa oil film 10 form a light passage, and infrared signals of moxibustion acupuncture point sensitization reaction are acquired in real time and displayed by an acupuncture point sensitization reaction display screen.
Claims (5)
1. A moxibustion acupoint sensitization detector is characterized by comprising a detector start-stop control button (1), a charging interface (2), a lithium ion battery (3), a display screen mounting table (4), a display screen octagonal body base (5), an infrared sensor mounting base (6), a port base (7), an infrared emission thin film fixing ring (8), a moxa oil thin film fixing and pressing ring (9), a moxa oil thin film (10), an infrared emission thin film (11), an acupoint sensitization reaction display screen (12), a built-in singlechip infrared emission setting display screen (13), an infrared emission setting key (14), an infrared detection sensor (15) and an infrared reflection aluminum-plastic film (17);
the detector comprises a detector start-stop control button (1), an acupuncture point sensitization reaction display screen (12), a built-in singlechip infrared emission setting display screen (13), an infrared emission setting key (14) and a display screen mounting table (4);
the display screen mounting table (4) is mounted on the display screen octagonal machine base (5);
the display screen octagonal body base (5) is arranged on the infrared sensor mounting base (6);
a port seat (7) is arranged below the infrared sensor mounting seat (6);
the port seat (7) is internally provided with a moxa oil film (10), an infrared emission film (11) and an infrared reflection aluminum-plastic film (17);
the moxa oil film (10) is fixed by a moxa oil film fixing and pressing ring (9), and the moxa oil film (10) is arranged below the infrared emission film (11);
the infrared emission film (11) is fixed by an infrared emission film fixing ring (8), and the infrared emission film (11) is arranged below the infrared reflection aluminum-plastic film (17);
the infrared reflection aluminum-plastic film (17) is clamped and fixed by the lower end edge of the infrared sensor mounting seat (6) and the upper end edge of the infrared emission film fixing ring (8);
the infrared detection sensor (15) is arranged in the center of the cavity of the infrared sensor mounting seat (6), and the window (16) of the infrared detection sensor faces downwards;
the lithium ion battery (3) is arranged in the cavity of the infrared sensor mounting seat (6) and beside the infrared detection sensor (15).
2. A moxibustion acupoint-sensitized detector according to claim 1, characterized in that the infrared emission film (11) comprises a graphene coating (11-1), a positive conductive band (11-3), a negative conductive band (11-4), and a peephole (11-5);
the graphene coating (11-1) is coated on the surface of the polyimide film;
the positive conductive belt (11-3) and the negative conductive belt (11-4) are tightly attached to the surface of the graphene coating (11-1);
the peephole (11-5) is positioned in the center of the infrared emission film (11).
3. A moxibustion acupoint-sensitized detector according to claim 1, characterized in that the moxa oil film (10) is composed of pure cotton paper material and volatile oil of folium artemisiae argyi, and the center of the moxa oil film (10) is provided with a light through hole (10-1).
4. A moxibustion acupoint-sensitized detector according to claim 1, wherein the infrared-reflecting aluminum-plastic film (17) is composed of a bright aluminum foil and a polymer film made of a polyethylene resin, the aluminum foil is arranged below the infrared-reflecting aluminum-plastic film (17), and the center of the infrared-reflecting aluminum-plastic film (17) is provided with a through hole (17-1).
5. A moxibustion acupoint-sensitized detector according to claim 1, characterized in that said moxa oil film (10) is made of pure cotton paper material impregnated with volatile oil of mugwort leaves, the center of the moxa oil film (10) has a light through hole (10-1), the moxa oil film (10) is placed under the infrared emission film (11), and said volatile oil of mugwort leaves is steam distillation extract of mugwort leaves.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201811054395.8A CN110882153A (en) | 2018-09-11 | 2018-09-11 | Moxibustion acupuncture point sensitization detector |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201811054395.8A CN110882153A (en) | 2018-09-11 | 2018-09-11 | Moxibustion acupuncture point sensitization detector |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN110882153A true CN110882153A (en) | 2020-03-17 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201811054395.8A Pending CN110882153A (en) | 2018-09-11 | 2018-09-11 | Moxibustion acupuncture point sensitization detector |
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| Country | Link |
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| CN (1) | CN110882153A (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN113693926A (en) * | 2021-09-28 | 2021-11-26 | 通适(北京)技术有限公司 | Infrared handheld heat-sensitive acupoint exploration instrument |
-
2018
- 2018-09-11 CN CN201811054395.8A patent/CN110882153A/en active Pending
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN113693926A (en) * | 2021-09-28 | 2021-11-26 | 通适(北京)技术有限公司 | Infrared handheld heat-sensitive acupoint exploration instrument |
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