LU101859A1 - An efficient moxa point device - Google Patents

Abstract

The invention discloses an efficient moxa point device, which includes a heating base and a base frame, a socket slot is fixed at one end of the base frame, the heating base is fixedly arranged in the socket groove, a heating device is provided in the heating base, the heating device and the heating base can disassembly and connection, the end of the base frame away from the heating base is fixed with a heating tank, the heating tank penetrates the base frame, a fixing device is fixed in the heating tank, the fixing device matches the heating device, and a smoking device is fixed between the heating base and the heating tank. An air gun holder is fixed on the side of the base frame near the end of the heating tank, and an air gun is provided in the air gun holder.

Description

| ; lu101859 1 ; An efficient moxa point device Domain The invention relates to the technical field of moxibustion treatment, more 5 specifically, it relates to an efficient moxa point device.

Background technology Moxibustion is a kind of treatment method that uses moxa fire to stimulate the basic specific parts of the human body to achieve the purpose of preventing and curing diseases.

Its mechanism is first related to the warm stimulation of local fire.

It is this warm stimulation that causes local skin hyperemia, dilated capillaries, enhances local blood circulation and lymphatic circulation, relieves and eliminates smooth muscle spasm, strengthens local skin tissue metabolic capacity, promotes inflammation, adhesions, exudates, Hematoma and other pathological products are dissipated and absorbed; it can also cause the spread of inhibitory substances in the cerebral cortex, reduce the excitability of the nervous system, and exert sedative and analgesic effects; while the warming effect can also promote the absorption of drugs. | Many experiments have confirmed that moxibustion has the effect of enhancing immune function.

Many of the therapeutic effects of moxibustion are also achieved by regulating the body's immune function.

This effect has the characteristics of two-way regulation, that is, the lower one can increase it, and the higher one can reduce it.

In the pathological state, this adjustment effect is more obvious.

In clinical work, the device must be able to ignite the smokeless moxa sticks.

Generally, nurses use alcohol lamps to ignite the smokeless moxa sticks.

The smokeless moxa sticks are extremely difficult to ignite and need to be held all the way.

The nurses need to spend a long time.

Some smokeless moxa sticks.

In addition, in practice, the cross section of one end of the smokeless moxa sticks often burns out.

Such smokeless moxa sticks will be extinguished after being put into the moxibustion |

| lu101859 2 box for a while. When burning, a large amount of heat will be generated, which requires proper protection of the device. Content of the invention In view of the shortcomings of the existing technology, the object of the present invention is to provide an efficient moxa point device, which has the characteristics of being able to clean dust in time, efficient moxa point without hand holding and heat resistance.

To achieve the above objectives, the present invention provides the following technical solutions: An efficient moxa point device includes a heating base and a base frame, a socket groove is fixed at one end of the base frame, the heating base is fixed in the socket groove, a heating device is provided in the heating base, the heating device and the heating base are detachably connected, the base A heating slot is fixed at the end of the rack away from the heating base, the heating slot penetrates the base rack, a fixing device is fixed in the heating slot, the fixing device is matched with the heating device, and the heating slot is fixed at the end of the heating slot near the fixing device. : The ring is arranged in the middle position inside the heating tank, the heating electric ring is electrically connected with the heating base, a smoking device is fixedly arranged between the heating base and the heating tank, and an air gun holder is | fixed on the side of the base frame near one end of the heating tank. An air gun is provided, and the air gun is detachably connected with the air gun frame.

By adopting the above technical solution, the heating base and the heating device are combined and connected by a circuit to realize the heating function of the heating device. After the heating time of about 10s, the temperature of the heating device can reach 600-800 ° C. At this time, the heating device is heated from The base is taken out, inserted into the heating tank, fixed by the fixing device, and then inserted into the

| 3 lu101859 smokeless moxa stick to be ignited. The heating coil plays a role in assisting the ignition and preheating. Ignite, the device can not only quickly and fully heat the smokeless moxa sticks, but also the ordinary moxa sticks. When the common moxa sticks are heated, the smoking device is turned on in time. After the moxa sticks are lit, the device can be turned off and the air gun. The ash powder in the heating device is cleaned to prevent scaling and eliminate potential safety hazards.

Further, the heating base includes a socket housing, a spring plate, a bimetallic plate, and a battery. A spring plate is fixed at one end of the inner wall of the socket housing, and a bimetallic plate is fixed at the end of the inner wall of the socket housing away from the spring plate. Outside the socket housing, the storage battery is electrically connected to the heating coil, the positive electrode of the storage battery is connected to the bimetallic strip through a wire, the negative electrode of the storage battery is connected to the socket housing through a wire, and both the socket housing and the storage battery are fixed in the socket groove.

By adopting the above technical solution, the socket housing replaces the negative electrode of the battery, and the bimetallic plate replaces the positive electrode of the battery. Unlike the method of directly connecting the battery to the | heating device, the bimetallic plate and the spring plate can also fix the heating device effect.

Further, the heating device includes an electric heating ring, a plug and a handle, an electric heating ring is fixed at one end of the plug, and a handle is fixed at the end ; of the plug away from the electric heating ring.

By adopting the above technical scheme, the heating coil and the heating base are heated after being energized, the plug and the heating base are fixed to ensure the stability of the heating process, and the handle is used to control the start of heating and facilitate the placement of the heating device.

Further, the electric heating ring includes an electric heating ring body, an outer ring, a center electrode and a positive electrode slot. The end of the electric heating EN | |

| lu101859 4 ring body away from the handle is fixed with an outer ring, the end of the electric heating ring body near the handle is fixed with a center electrode, and the center electrode is fixed with the plug connected, the positive electrode groove is fixed on the body of the electric heating ring.

By adopting the above technical solution, the body of the electric heating coil is the main body of heating, the outer ring is used to contact the positive electrode, that is, the bimetallic strip, and the center electrode is used to contact the negative electrode, that is, the socket shell, to achieve the connection of the circuit, the positive electrode slot is stuck. The bimetallic sheet ensures the stability of the circuit.

Further, the plug includes a plug housing, a handle spring, and a negative electrode slot. One end of the plug housing is in contact with the central pole. The handle spring is fixedly connected to the central pole. One end of the spring is fixedly connected, and the handle is embedded in the plug housing.

By adopting the above technical solution, the negative electrode groove on the plug shell is caught on the spring piece, which ensures that the heating device is fixed in the heating base, and the handle spring is convenient for pressing and ejecting the electric heating coil. | Further, the outer wall of the plug housing is provided with a through fixing hole, the end of the plug housing near the handle is fixedly provided with a limit inner ring, the handle is also fixedly provided with a snap ring and a scraper ring, and the end of | the handle and the handle spring is provided with a scraper. The ring and the scraper ring are arranged between the snap ring and the handle spring.

By adopting the above technical solution, the fixing hole is convenient for the fixing device to be inserted into the heating device to achieve fixing. The scraping ring can eject the fixing device from the heating device. The design of the limit inner ring and the scraping ring ensures that the handle will not come out of the plug shell.

Further, the fixing device includes a fixing spring, a bead, and a fixing device body. The outer wall of the fixing device body is fixedly connected to the inner wall of the

| ; . 5 lu101859 heating tank.

The fixing spring is fixedly connected to the inner wall of the fixing device body.

One end is fixedly connected with the bead.

By adopting the above technical solution, the bead is compressed by the outer wall of the heating device to compress and fix the spring.

When the bead is inserted into the fixing hole, the spring is released to fix the heating device.

Further, the base frame is fixedly provided with a penetrating exhaust slot between the socket slot and the heating slot.

The smoking device is fixedly arranged in the exhaust slot.

The smoking device includes a smoking fan and a switch.

The smoking fan and the switch are connected by copper wires, and the switch and the battery are connected by wires.

By adopting the above technical solution, some harmful gases and smoke will be generated when burning ordinary moxa sticks.

The smoking fan is controlled by the switch to suck the smoke of moxa blown to the nurses in the opposite direction, protecting the nurses' health.

Further, the base frame includes a base platform, a stand, and a ring base.

One end of the stand is fixedly connected to the base platform, and the ring base is fixedly | connected to the end of the stand away from the base platform. ; By adopting the above technical solution, it is ensured that the other parts of the back of the base table and the support stand are hollow except for the removal and | insertion of the heating device, and the ring seat serves as a stabilizing device. | Further, a non-slip rubber pad is sleeved on the ring seat. ; By adopting the above technical solution, the grip of the ring seat can be enhanced, and the device is more stable.

Further, a layer of heat-resistant layer is coated in the heating tank.

The preparation method of the heat-resistant layer is: | Take the following raw materials for each component by weight: 38.3-49.9 parts of phenolic resin, 3.2-9.8 parts of diaminodiphenylmethane, 0.1-0.3 parts of solid nickel powder, 11.2-13.4 parts of carbon black, 8.8-16.6 parts of barium sulfate , Titanium ;

p lu101859 dioxide 2.5-3.7 parts, wurtzite powder 1.2-10.6 parts, copper oxide powder 5.4-9.6 parts, ethanol 225-945 parts, cyclohexanone 0.3-0.9 parts, sodium dodecylbenzenesulfonate 0.2-0.8 Parts, polyolefin wax 1.1-53 parts, polydimethylsiloxane 0.6-2.2 parts, dibutyl tin dilaurate 0.6-3.6 parts.

S1. Prefabricated organic solvent: mix phenolic resin, diaminodiphenylmethane, ethanol, cyclohexanone, and polydimethylsiloxane, heat to 68-72 ° C, stir evenly, and keep warm for 15-20min; | S2. Preparation of heat-resistant materials: solid nickel powder, carbon black, barium sulfate, titanium dioxide, wurtzite powder, copper oxide powder, sodium dodecylbenzenesulfonate, polyolefin wax, dibutyltin dilaurate Into the organic solvent in S1, after stirring evenly, heat the temperature to 75-80 °C and keep for 30min; S3. Cleaning: clean and decontaminate the base table with ethanol; S4. Spraying: hang the base platform in the paint booth, and spray the heat-resistant material obtained by S2 evenly to the inner wall of the heating tank using a spray gun; S5. Drying: Place the base table obtained in S4 into the inside of the oven and dry : it for 6-8h under 36-40 °C.

By adopting the above technical solution, it can be ensured that the heating tank | will not be deformed under the environment of long-term high-temperature heating, which may lead to the situation that the heating device cannot be inserted into the | heating tank, or the position of the fixing device and the fixing hole cannot be matched after the heating tank is deformed.

Figure illustration FIG. 1 is a positive triaxial side view of the overall structure of an embodiment provided by the present invention; | FIG. 2 is a cross-sectional view of a heating base structure according to an

| „ lu101859 embodiment provided by the present invention; FIG. 3 is a cross-sectional view of the structure of a heating device according to | an embodiment of the present invention; FIG. 4 is a supplementary schematic diagram of the overall structure of an embodiment provided by the present invention; FIG. 5 is an enlarged view of À in Figure 4; In the figures: 1. Heating base; 11. Socket shell; 12. Spring piece; 13. Bimetallic sheet; 14. Battery; 213, center pole; 214, positive slot; 22, plug; 221, plug housing; 2211, fixing hole; 2212, limit inner ring; 222, handle spring; 223, negative slot; 23, handle; 231, scraper ring 232, snap ring; 3. base frame; 31, exhaust slot; 32, base table; 33, support stand; 34, ring seat; 4, heating tank; 41, heating coil; 5, fixing device; 51, fixing Spring; 52, inlaid beads; 53, fixed device body; 6, smoking device; 61, smoking fan; 62, switch; 7, air gun holder; 8, air gun; 9, socket slot.

Specific implementation modalities ; The present invention will be further described in detail below with reference to | FIGS. 1-5. Example 1 | An efficient moxa point device, as shown in FIGS. 1, 4 and 5, includes a heating | base 1 and a base frame 3, a socket slot 9 is fixed at one end of the base frame 3, the : socket slot 9 is not penetrated, and the socket slot 9 has a slot The mouth faces the user, the heating base 1 is fixedly installed in the socket slot 9, the heating base 1 is provided with a heating device 2, the heating device 2 is inserted into the heating base 1, and the base frame 3 is fixed at the end away from the heating base 1 in the | horizontal direction The heating tank 4, the heating tank 4 penetrates the base frame 3, a fixing device 5 is fixed in the heating tank 4, and the fixing device 5 can be matched with the heating device 2 to fix the heating device 2, and the middle position of the :

| 8 lu101859 inner wall of the heating tank 4 is fixed The thermoelectric coil 41, the heating coil 41 can preheat the cross section near the ignited part of the smokeless moxa stick and assist the heating device 2 to ignite the smokeless moxa stick, and there is a fixed smoking between the heating base 1 and the heating tank 4 In the device 6, an air gun frame 7 is fixed on the side of the base frame 3 close to one end of the heating tank 4, and an air gun 8 is provided in the air gun frame 7. The air gun 8 is connected to the air supply pipe of the hospital, and the air gun 8 is detachably connected to the air gun frame 7.

As shown in FIGS. 1, 2, 4 and 5, the heating base 1 includes a socket housing 11, a spring leaf 12, a bimetal 13 and a battery 14. The socket housing 11 is a cylindrical shell with an opening at one end , The open end of the inner wall of the socket housing 11 is fixedly provided with a spring leaf 12, the spring leaf 12 closely fits the inner wall of the socket housing 11, the inner bottom surface of the socket housing 11 is fixedly provided with a bimetallic plate 13, and a bimetallic plate 13 There is no contact with the inner wall of the socket housing 11, the battery 14 is provided outside the socket housing 11, the battery 14 is electrically connected to the heating coil 41, the positive electrode of the battery 14 and the bimetallic sheet 13 are connected by a | wire, and the negative electrode of the battery 14 is connected to The socket housing 11 is connected by wires, the socket housing 11 and the battery 14 are fixedly | arranged in the socket groove 9, the battery 14 is arranged at the bottom of the socket ; groove 9, the socket housing 11 is arranged above the battery 14 and on the inner wall of the socket groove 9 on.

As shown in FIGS. 1 and 3, the heating device 2 includes an electric heating coil 21, a plug 22, and a handle 23. The electric heating coil 21 is fixed at one end of the plug 22, and the handle 23 is fixed at the end of the plug 22 away from the electric heating coil 21.

As shown in FIG. 3, the electric heating coil 21 includes an electric heating coil body 211, an outer ring 212, a center pole 213, and a positive electrode groove 214.

ER

9 lu101859 | The end of the electric heating coil body 211 away from the handle 23 is fixedly provided with an outer ring 212, and the electric heating coil body 211 is close to the handle 23. A central pole 213 is fixedly arranged at one end, the central pole 213 is | fixedly connected to the plug 22, and a positive electrode groove 214 is fixedly fixed on the electrothermal coil body 211. As shown in FIG. 3, the plug 22 includes a plug housing 221, a handle spring 222, and a negative electrode groove 223. The plug housing 221 is a cylindrical housing penetrating up and down. One end of the plug housing 221 contacts the center pole 213, and the handle spring 222 and the center pole 213 Fixed connection, the negative electrode slot 223 is fixed at the end of the plug housing 221 near the center pole 213, the handle 23 and the end of the handle spring 222 away from the center pole 213 are fixedly connected, and the outer wall of the plug housing 221 is provided with a through fixing hole 2211, the plug housing 221 is fixed with a limit inner ring 2212 near the end of the handle 23, a snap ring 232 and a scraper ring 231 are fixed on the handle 23, a scraper ring 231 is provided on the end of the handle 23 connected to the handle spring 222, and the scraper ring 231 is provided on the card Between the ring 232 and the handle spring 222, the scraper ring 231, the snap ring | 232 and the limit inner ring 2212 ensure that the handle 23 cannot be detached from the plug housing 221. As shown in FIGS. 2 and 5, the fixing device 5 includes a fixing spring 51, a bead 52 and a fixing device body 53. The fixing device body 53 has a structure similar to the spring piece 12. The outer wall of the fixing device body 53 and the inner side of the heating tank 4 the wall is fixedly connected. The fixing spring 51 is fixedly connected to the inner side wall of the fixing device body 53. The end of the fixing spring 51 not connected to the fixing device body 53 is fixedly connected to the bead 52. As shown in FIGS. 1 and 4, the base frame 3 is fixedly provided with a penetrating exhaust groove 31 between the socket groove 9 and the heating groove 4, and the smoking device 6 is fixedly installed in the exhaust groove 31. The fan 61 and

Ilu101859 the switch 62 are fixedly installed in the exhaust slot 31. The smoking fan 61 and the switch 62 are connected by a copper wire, and the switch 62 and the battery 14 are : connected by a wire.

As shown in FIG. 1, the base frame 3 includes a base platform 32, a stand 33 and | a ring base 34. One end of the stand 33 is fixedly connected to the back and bottom of the base platform 32. The connection is fixed, and a non-slip rubber pad is sleeved on the ring seat 34. In this embodiment, the battery 14 is a varta battery of corresponding size sold by the varta flagship store, the smoking fan 61 is a miniature smoking fan of corresponding size produced by Wanjie Electronic Tool Co., Ltd. in Shijie, Guanshi; a medical air gun of the corresponding size produced by Dr.

Disinfection Technology Co., Ltd.

Working principle: An efficient point moxa device is divided into two parts: heating base 1 and heating device 2. The bimetallic sheet 13 connected to the positive pole of the battery 14 forms the positive pole; the metal spring piece 12 in contact with it constitutes a negative electrode. / The main part of the point moxa device is an electrothermal coil body 211, and the : two poles of the electrothermal coil body 211 are respectively connected to a positive electrode slot 214 corresponding to the positive electrode of the power supply, and a | negative electrode slot 223 corresponding to the negative electrode of the power | supply.

There is also a radial handle spring 222 in the plug 22 for automatically popping up after heating.

Turn on the switch of the heating coil 41, the heating coil 41 starts to heat, when the heating device 2 is inserted into the heating base 1, the spring sheet 12 of the heating base 1 will clamp the negative electrode groove 223 on the heating device 2, | the central pole 213 and the socket shell.

The body 11 is connected, that is, connected to the negative electrode of the battery 14. Press and hold the handle 23 in the direction of the heating base 1, and the positive bimetallic sheet 13 of the heating ; I |

1 lu101859 base 1 will catch the positive electrode groove 214. The electrothermal coil 21 of the electrothermal coil body 211 is connected to the positive electrode of the battery 14,

the circuit is connected, and the electrothermal coil body 211 starts to generate heat. ‘ After a period of time, the heating coil body 211 becomes hot and red, and the | bimetal 13 connected to the heating coil 21 will heat up and deform outward until the positive slot 214 is released.

At this time, the handle spring 222 in the plug 22 will turn the handle 23. When it bounces back with the electrothermal coil 21, a clicking sound will be made at the same time, and the electrothermal coil body 211 is powered off to stop heating.

Remove the heating device 2, the heating device 2 in the red hot state is inserted into the heating tank 4 from the back of the base table 32, the electric heating ring 21 is directed to the user, the bead 52 is pressed against the outer wall of the heating device 2, the fixed spring 51 is compressed, and the heating device is rotated.

Make the bead 52 drill into the fixing hole 2211, the fixing spring 51 bounces, catches the heating device 2, inserts the smokeless moxa stick or ordinary moxa stick into the electric heating coil 21, under the preheating and auxiliary function of the heating electric coil 41, Start igniting ordinary moxa sticks or smoke-free moxa sticks.

If the : ordinary moxa sticks are ignited, the switch 62 must be pressed down.

The smoking { fan 61 starts to work.

After the ignition is completed, the moxa sticks are removed, the smoking fan 61 is turned off, and the handle 23 is pressed.

At this time, the scraping ring 231 on the handle 23 ejects the bead 52. At this time, the heating device 2 is taken out and the air gun 8 is removed from the air gun holder 7 for cleaning. : In summary, the present invention has the following beneficial effects: | The heating device 2 has fast heating speed, high heating temperature, better efficiency, saves more waiting time, and can easily ignite the smokeless moxa stick; : The moxa sticks are heated more fully, and there is basically no extinction in the middle.

Both the smokeless moxa sticks and the ordinary moxa sticks can be lit, and the functions are more diverse; With smoking device 6, it can absorb the smoke in the process of ordinary moxa __

12 lu101859 sticks in time to effectively protect the health of medical staff, | The heating operation is simple and convenient. The medical staff can simply | remove the inserted heating device 2 without the need to hold the heating, which ; reduces the working pressure of the medical staff ; | It is equipped with a special air gun 8 for cleaning, which effectively prolongs the service life of the device and ensures the normal use of the device.

Example 2 The difference from Example 1 is that the heating tank 4 is coated with a heat-resistant layer. The preparation method of the heat-resistant layer is: Take the following raw materials for each component by weight: 38.3 parts of phenolic resin, 3.2 parts of diaminodiphenylmethane, 0.1 parts of solid nickel powder,

11.2 parts of carbon black, 8.8 parts of barium sulfate, 2.5 parts of titanium dioxide, wurtzite powder 1.2 parts, copper oxide powder 5.4 parts, ethanol 22.5 parts, cyclohexanone 0.3 parts, sodium dodecyl benzene sulfonate 0.2 parts, polyolefin wax

1.1 parts, polydimethylsiloxane 0.6 parts, dilauric acid di 0.6 parts of butyl tin. | S1. Prefabricated organic solvent: mix phenolic resin, diaminodiphenylmethane, | ethanol, cyclohexanone, and polydimethylsiloxane, heat to 70 ° C, stir evenly, and | keep for 20 minutes ; S2. Preparation of heat-resistant materials: solid nickel powder, carbon black, ; barium sulfate, titanium dioxide, wurtzite powder, copper oxide powder, sodium | dodecylbenzenesulfonate, polyolefin wax, dibutyltin dilaurate Into the organic solvent in S1, after stirring evenly, heat the temperature to 75 °C and keep for 30min ; S3. Cleaning: clean and decontaminate the base 32 with ethanol; | S4. Spraying: hang the base table 32 in the paint booth, and spray the | heat-resistant material obtained by S2 evenly to the inner wall of the heating tank 4 using a spray gun; : S5. Drying: Place the base table 32 obtained in S4 into the inside of the oven, and |

13 lu101859 dry for 8 hours at 40 ° C.

In this embodiment, the heating tank 4 is exposed to high-temperature heating for a long time, and the inner wall portion of the heating tank 4 is in direct contact with the electrothermal coil 21, which is easy to deform. Spraying a heat-resistant layer on the inner wall of the heating tank 4 can be effective Slows the heating deformation of the | inner wall of the heating tank 4 to prevent the heating device 2 from being inserted into the heating tank 4 or the position of the fixing device 5 and the fixing hole 2211 on the heating device 2 from being mismatched after deformation, protecting the heating tank 4 and effectively extending its The service life guarantees the normal use of the device.

Example 3 The difference from Example 2 is that the specific gravity of the formula is modified. The modified formula is: Take the following raw materials for each component by weight: 49.9 parts of phenolic resin, 9.8 parts of diaminodiphenylmethane, 0.3 parts of solid nickel powder, ;

13.4 parts of carbon black, 16.6 parts of barium sulfate, 3.7 parts of titanium dioxide, / wurtzite powder 10.6 parts, copper oxide powder 9.6 parts, ethanol 94.5 parts, cyclohexanone 0.9 parts, sodium dodecylbenzene sulfonate 0.8 parts, polyolefin wax ‘

5.3 parts, polydimethylsiloxane 2.2 parts, dilauric acid di 3.6 parts of butyl tin. | S1. Prefabricated organic solvent: mix phenolic resin, diaminodiphenylmethane, | ethanol, cyclohexanone, and polydimethylsiloxane, heat to 70 ° C, stir evenly, and keep for 20 minutes ; S2. Preparation of heat-resistant materials: solid nickel powder, carbon black, barium sulfate, titanium dioxide, wurtzite powder, copper oxide powder, sodium | dodecylbenzenesulfonate, polyolefin wax, dibutyltin dilaurate Into the organic solvent in $1, after stirring evenly, heat the temperature to 75 °C and keep for 30min ; S3. Cleaning: clean and decontaminate the base 32 with ethanol;

| 14 lu101859 S4. Spraying: hang the base table 32 in the paint booth, and spray the heat-resistant material obtained by S2 evenly to the inner wall of the heating tank 4 using a spray gun; | S5. Drying: Place the base table 32 obtained in S4 into the inside of the oven, and : dry for 8 hours at 40 ° C. In this embodiment, the proportion of the formula is modified and kept for comparison, so as to obtain the optimal formula. Example 4 The difference from Example 2 is that the specific gravity of the formula is modified. The modified formula is: Take the following raw materials for each component by weight: 44.1 parts of phenolic resin, 6.5 parts of diaminodiphenylmethane, 0.2 parts of solid nickel powder,

12.3 parts of carbon black, 12.7 parts of barium sulfate, 3.1 parts of titanium dioxide, wurtzite powder 5.8 parts, copper oxide powder 7.5 parts, ethanol 58.5 parts, cyclohexanone 0.6 parts, sodium dodecylbenzene sulfonate 0.5 parts, polyolefin wax |

3.2 parts, polydimethylsiloxane 1.4 parts, dilauric acid di 2.1 parts of butyl tin. S1. Prefabricated organic solvent: mix phenolic resin, diaminodiphenylmethane, | ethanol, cyclohexanone, and polydimethylsiloxane, heat to 70 ° C, stir evenly, and keep for 20 minutes ; S2. Preparation of heat-resistant materials: solid nickel powder, carbon black, / barium sulfate, titanium dioxide, wurtzite powder, copper oxide powder, sodium | dodecylbenzenesulfonate, polyolefin wax, dibutyltin dilaurate Into the organic solvent in S1, after stirring evenly, heat the temperature to 75 °C and keep for 30min ; : S3. Cleaning: clean and decontaminate the base 32 with ethanol; S4. Spraying: hang the base table 32 in the paint booth, and spray the heat-resistant material obtained by S2 evenly to the inner wall of the heating tank 4 | using a spray gun; | I |lu101859 S5. Drying: Place the base table 32 obtained in S4 into the inside of the oven, and dry for 8 hours at 40 ° C. In this embodiment, the proportion of the formula is modified and kept for | comparison, so as to obtain the optimal formula. | The heat bath 4 of Example 1, 2, 3, 4 coated with heat-resistant paints of different | formulation specific gravity was tested for heat resistance and peel strength. For comparison, the data of all examples are based on the data of Example 1. Perform normalization. Table 1 |__| eatresitance | Pesisrengh | The heating tank 4 is in a high-temperature heating environment for a long time, [ and the inner wall portion of the heating tank 4 is in direct contact with the | electrothermal coil 21, which is easy to deform. A heat-resistant layer is sprayed on ; the inner wall of the heating tank 4 to effectively slow down the inner wall of the heating tank 4 The heating deformation prevents the heating device 2 from being [ inserted into the heating tank 4 or the position of the fixing device 5 and the fixing hole | 2211 on the heating device 2 cannot be matched after the deformation, which protects | the heating tank 4 and effectively extends its service life and guarantees Normal use | of the device. As can be seen from the data in the table, after coating the heat-resistant material, the heat resistance of the heating tank 4 has been significantly | enhanced, and Example 4 has the best effect, so the optimal raw material formula | determined is: phenolic resin 44.1 parts , 6.5 parts of diaminodiphenylmethane, 0.2 { parts of solid nickel powder, 12.3 parts of carbon black, 12.7 parts of barium sulfate, [

3.1 parts of titanium dioxide, 5.8 parts of wurtzite powder, 7.5 parts of copper oxide | Lo

16 lu101859 powder, 58.5 parts of ethanol, cyclohexane 0.6 parts of ketone, 0.5 parts of sodium dodecylbenzenesulfonate, 3.2 parts of polyolefin wax, 14 parts of polydimethylsiloxane, and 2.1 parts of dibutyltin dilaurate.

it should be noted that all the expressions using "first" and "second" in the ; embodiments of the present invention are for distinguishing two entities with the same | name but not the same or different parameters. For convenience of expression only, it should not be understood as a limitation of the embodiments of the present invention, and subsequent embodiments will not be described one by one.

This specific embodiment is merely an explanation of the present invention, and it is not a limitation of the present invention. Those skilled in the art can make modifications without creative contribution to this embodiment after reading this specification, as long as they have rights in the present invention within the scope of the requirements are protected by patent law.

Claims (10)

17 lu101859 Claims

1. An efficient moxa device, including a heating base (1) and a base frame (3), characterized in that: a socket groove (9) is fixed at one end of the base frame (3), and the heating base (1) It is fixed in the socket groove (9), and a heating device 2) is provided in the heating base (1), the heating device (2) is detachably connected with the heating base (1), and the base A heating tank (4) is fixed at the end of the rack (3) away from the heating base (1) A fixing device (5), an end of the heating tank (4) near | the fixing device (5) is fixedly provided with a heating electric coil (41), and the heating electric coil (41) is provided on the heating tank (4) In an internal middle position, the heating coil (41) is electrically connected to the heating base (1), the fixing device (5) matches the heating device (2), A smoking device (6) is fixed between the heating tanks (4), and an air gun holder (7) is fixed on the side of the base frame (3) near one end of the heating tank (4), the air gun holder (7) There is an air gun (8) inside, and the air gun (8) and the air gun holder (7) are detachably connected.

2. An efficient moxa point device according to claim 1, characterized in that the ; heating base (1) comprises a socket housing (11), a spring piece (12), a bimetallic | piece (13) and a battery (14), an end of the inner wall of the socket housing (11) is | fixedly provided with the spring piece (12), and an end of the inner wall of the socket ; housing (11) away from the spring plate (12) is fixedly provided with a bimetallic piece [ (13), the battery (14) is provided outside the socket housing (11), the battery (14) is ; electrically connected to the heating coil (41), and the positive electrode of the battery (14) is The bimetallic sheet (13) is connected by a wire, the negative electrode of the ; battery (14) and the socket housing (11) are connected by a wire, the socket housing | (11) and the battery (14) All are fixed in the socket slot (9). |

3. An efficient moxa point device according to claim 2, characterized in that the ; heating device (2) comprises an electric heating coil (21), a plug (22) and a handle |

| 8 ; lu101859 (23), the plug (22) The electric heating ring (21) is fixed at one end, and the handle (23) is fixed at the end of the plug (22) away from the electric heating ring (21).

4. An efficient moxa point device according to claim 3, characterized in that the electrothermal coil (21) comprises an electrothermal coil body (211), an outer ring (212), a central pole (213) and a positive electrode slot (4) (214), the end of the electric heating coil body (211) away from the handle (23) is fixedly provided with an : outer ring (212), and the end of the electric heating coil body (211) near the handle (23) | is fixedly provided with a center A pole (213), the center pole (213) is fixedly connected with the plug (22), and a positive electrode groove (214) is fixedly arranged on the electrothermal coil body (211).

5. An efficient moxa point device according to claim 4, characterized in that the plug (22) comprises a plug housing (221), a handle spring (222), a negative electrode slot (223), and the plug housing (223) 221) One end is in contact with the central pole | (213), the handle spring (222) is fixedly connected to the central pole (213), and the : negative electrode groove (223) is fixedly arranged on the plug housing (221) close to : One end of the center pole (213), the handle (23) and the end of the handle spring (222) away from the center pole (213) are fixedly connected, and the handle (23) is : embedded in the plug housing (221)Inside. |

6. An efficient moxa point device according to claim 5, characterized in that the ; __ outer wall of the plug housing (221) is provided with a through fixing hole (2211), and the plug housing (221) is near A limit inner ring (2212) is fixed on one end of the ‘ handle (23), a snap ring (232) and a scraper ring (231) are also fixed on the handle (23), the handle (23) and the handle spring One end of the connection (222) is provided with the scraping ring (231), and the scraping ring (231) is provided between | the snap ring (232) and the handle spring (222).

i 19 lu101859

7. An efficient moxa point device according to claim 6, characterized in that the fixing device (5) comprises a fixing spring (51), a bead (52) and a fixing device body (53), the fixing The outer side wall of the device body (53) is fixedly connected to the inner side wall of the heating tank (4), the fixing spring (51) is fixedly connected to the inner side wall of the fixing device body (53), and the fixing spring (51) is not One end | connected to the fixing device body (53) is fixedly connected to the bead (52).

8. An efficient moxa point device according to claim 7, characterized in that the | base frame (3) is provided with a penetration between the socket groove (9) and the heating groove (4) The exhaust slot (31), the smoking device (6) is fixedly disposed in the exhaust slot (31), the smoking device (6) includes a smoking fan (61) and a switch (62), the smoking A fan (61) is fixedly arranged in the exhaust slot (31), the smoking fan (61) and the switch (62) are connected by a copper wire, and the switch (62) and the battery (14) Connect via wires. | |

9. An efficient moxa point device according to claim 8, characterized in that the | base frame (3) comprises a base table (32), a stand frame (33) and a ring seat (34), ; the stand frame (33) One end is fixedly connected to the base table (32), and the ring | base (34) is fixedly connected to the end of the stand (33) away from the base table | (32). |

10. An efficient moxa point device according to claim 9, characterized in that the | ring seat (34) is covered with a non-slip rubber pad. |

EEE