CN211434110U - Moxibustion device - Google Patents

Abstract

The utility model relates to a moxibustion device. Moxibustion device includes ignition mechanism, air leading-in mechanism, temperature sensor and controller. The ignition mechanism includes an ignition coil. The air leading-in mechanism comprises an air pump which is communicated with the combustion chamber. The temperature sensor is arranged in the fumigation chamber. The controller is respectively connected with the ignition coil, the air pump and the temperature sensor, the controller is provided with a human-computer interaction terminal, the human-computer interaction terminal is used for setting a target temperature of the air in the fumigation chamber, the controller controls the power on and off of the ignition coil, and the controller also controls the air flow introduced into the combustion chamber by the air pump according to the current temperature and the target temperature of the air in the fumigation chamber. Adopt ignition coil to ignite in the combustion chamber, easy operation is convenient, and the flue gas that produces when the moxa stick is lighted that significantly reduces is to service environment's emission, environmental protection. The controller and the man-machine interaction terminal are used, so that the fumigating temperature can be stably and automatically controlled, the fumigating can be kept to work at the target temperature for a long time, and the fumigating effect is good.

Description

Moxibustion device

Technical Field

The utility model belongs to the medical health nursing field, concretely relates to moxibustion device.

Background

Moxibustion therapy is a treatment method which achieves the purposes of preventing and treating diseases by stimulating heat and smoke generated by burning moxa sticks on basic specific parts of a human body. The warm heat stimulation can cause local skin congestion, capillary vessel dilation, local blood circulation and lymph circulation enhancement, smooth muscle spasm alleviation and elimination, local skin tissue metabolism enhancement, and elimination and absorption of pathological products such as inflammation, adhesion, exudate, hematoma and the like; can also cause the diffusion of cerebral cortex inhibitory substances, reduce the excitability of the nervous system and play the roles of sedation and analgesia; meanwhile, the warm-heat function can also promote the absorption of the medicine.

When the existing moxibustion fumigation equipment is used for moxibustion, ignition of a moxa column is manually ignited, and meanwhile, fumigation temperature is manually adjusted after the human body senses the fumigation temperature. The manual adjustment mode is that the air inlet amount is changed by adjusting the size of the ventilation opening of the moxa stick combustion chamber, so that the fumigation temperature is adjusted. The manual ignition and manual adjustment mode is not only troublesome in operation, but also causes uneven combustion position deviation of the moxa roll due to manual operation difference during manual ignition, smoke is formed during ignition, and the external environment is polluted. Meanwhile, the manual regulation time lag after the human body perception can cause the delay and instability of temperature regulation in the fumigation process, so that the continuity of the fumigation process is difficult to maintain, and the fumigation effect is greatly reduced.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a moxa-moxibustion device of convenient, environmental protection, automatic temperature adjustment of igniteing.

In order to solve the technical problem, the utility model discloses a technical scheme be: a moxibustion device comprises a combustion chamber for placing moxa sticks and a fumigation chamber for contacting with human body, wherein the combustion chamber is communicated with the fumigation chamber. The moxibustion device further comprises an ignition mechanism, an air introduction mechanism, a temperature sensor and a controller.

Ignition mechanism is including setting up the ignition coil in the combustion chamber, ignition coil passes through the wire and is connected with the power.

The air leading-in mechanism comprises an air pump and an air guide tube, the air pump is communicated with the combustion chamber through the air guide tube, and the air pump is connected with a power supply.

The temperature sensor is arranged in the fumigation chamber and is used for detecting the current temperature of air in the fumigation chamber.

The controller is connected with ignition coil, air pump and temperature sensor respectively, temperature sensor feeds back the controller with the current temperature of stifling room air, the controller has human-computer interaction terminal, human-computer interaction terminal is used for setting for the target temperature of stifling room air, controller control ignition coil circular telegram, the controller is still according to the current temperature of stifling room air and the air flow of the leading-in combustion chamber of target temperature control air pump.

Specifically, ignition coil is made by the heating wire, ignition coil includes the coil assembly that the multistage connects gradually, coil assembly is the heliciform, is provided with the rand between the adjacent coil assembly, be provided with the mounting hole in the combustion chamber, the rand inserts will in the mounting hole ignition coil fixes in the combustion chamber.

Further, the clamping ring is clamped in the mounting hole through elastic deformation of the clamping ring.

Specifically, the human-computer interaction terminal comprises a starting input unit, a temperature setting unit, a first temperature display unit and a second temperature display unit, wherein the starting input unit is used for triggering the ignition coil to be controlled by the controller to be electrified, the temperature setting unit is used for inputting the set target temperature of the fumigating indoor air into the controller, the first temperature display unit is used for displaying the current temperature of the fumigating indoor air, and the second temperature display unit is used for displaying the target temperature of the fumigating indoor air.

Further, the controller is provided with an ignition timing power-off module, the ignition timing power-off module is set with power-off time, and when the starting input unit triggers the controller to control the ignition coil to be electrified, the ignition timing power-off module starts timing; when the ignition timing power-off module counts the power-off time, the controller controls the ignition coil to power off.

Further, the controller is provided with a heating delay module, the heating delay module is set with delay heating time, and when the target temperature is input through the temperature setting unit and is higher than the current temperature, the heating delay module starts timing; when the temperature-rise time delay module times to reach the time delay temperature-rise time, the controller starts the temperature-rise mode, and the controller controls the air pump to increase the air flow led into the combustion chamber.

Further, the human-computer interaction terminal also comprises a moxibustion ending prompting unit used for prompting the ending of the moxibustion progress, the controller is provided with a temperature rise timing module, the temperature rise timing module is set with ending time, and when the controller starts a temperature rise mode, the temperature rise timing module starts timing; when the temperature rise timing module counts time to reach end time and the current temperature is not increased within the end time, the moxibustion end prompting unit sends out prompting sound to prompt the end of the moxibustion progress.

Further, when the target temperature is lower than the current temperature, the controller starts a cooling mode, and the controller controls the air pump to reduce the flow rate of air introduced into the combustion chamber.

Furthermore, the power supply is a rechargeable lithium battery, and the human-computer interaction terminal further comprises an electric quantity display unit for displaying the electric quantity of the battery.

The terms of orientation, front, back, left, right, up, down, etc., referred to in the context of this application are defined as the orientation of the device in normal use.

The scope of the present invention is not limited to the technical solutions formed by specific combinations of the above technical features, and other technical solutions formed by arbitrary combinations of the above technical features or equivalent features should be covered. For example, the above features and the technical features (but not limited to) having similar functions disclosed in the present application are mutually replaced to form the technical solution.

Because of the application of the technical scheme, compared with the prior art, the utility model has the following advantages: adopt ignition coil to ignite in moxibustion device's combustion chamber, carry out job control to ignition coil and air pump through controller and human-computer interaction terminal, easy operation is convenient, and the flue gas that produces when the moxa stick that significantly reduces ignites is to service environment's emission, environmental protection. The use of controller and human-computer interaction terminal makes stifling temperature can stabilize, automatic control, can keep stifling work under the target temperature for a long time, and stifling is effectual, and the rate of utilization of moxa stick is high.

Drawings

FIG. 1 is a schematic view of the moxibustion device of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a full sectional view of the combustion chamber;

FIG. 4 is a cross-sectional view B-B of FIG. 3;

FIG. 5 is a rotated cross-sectional view of C-C of FIG. 4;

FIG. 6 is a front view of the ignition coil;

FIG. 7 is a left side view of the ignition coil;

FIG. 8 is a connection block diagram of the control part of the moxibustion device;

wherein: 1. an ignition coil; 2. a temperature sensor; 3. a controller; 4. an air pump; 5. an air duct; 6. a power source; 10. moxa sticks; 11. a coil assembly; 12. a collar; 31. an ignition timing power-off module; 32 heating delay module; 33. a temperature rise timing module; 100. a combustion chamber; 101. a fumigation chamber; 102. mounting holes; 200. a human-computer interaction terminal; 201. starting an input unit; 202. a temperature setting unit; 203. a first temperature display unit; 204. a second temperature display unit; 205. a moxibustion ending prompt unit; 206. and an electric quantity display unit.

Detailed Description

As shown in fig. 1 to 8, a moxibustion device of the present invention comprises a combustion chamber 100 for placing moxa sticks and a fumigation chamber 101 for contacting with a human body, wherein the combustion chamber 100 is communicated with the fumigation chamber 101. The moxibustion device shown further includes an ignition mechanism, an air introduction mechanism, a temperature sensor 2, and a controller 3.

The ignition mechanism includes an ignition coil 1 disposed in the combustion chamber 100. The ignition coil 1 is connected with a power supply 6 through a lead. In this embodiment, the ignition coil 1 is made of a heating wire, and the power supply 6 is a rechargeable lithium battery. Ignition coil 1 includes the coil assembly 11 that the multistage connects gradually, coil assembly 11 is the heliciform. A collar 12 is provided between adjacent coil groups 11. The combustion chamber 100 is provided with a mounting hole 102 therein. The ignition coil 1 is bent into a circle, the clamping ring 12 is inserted into the mounting hole 102, and the clamping ring 12 is clamped in the mounting hole 102 through elastic deformation of the clamping ring 12 so as to fix the ignition coil 1 at the bottom in the combustion chamber 100. When the ignition coil 1 is electrified, the coil group 11 generates heat intensively to ignite the bottom of the moxa stick 10.

The air leading-in mechanism comprises an air pump 4 and an air duct 5. The air pump 4 is communicated with the combustion chamber 100 through an air duct 5, and the air pump 4 is connected with a power supply 6.

The temperature sensor 2 is arranged in the fumigation chamber 101, and the temperature sensor 2 is used for detecting the current temperature of the air in the fumigation chamber 101.

And the controller 3 is respectively connected with the ignition coil 1, the air pump 4 and the temperature sensor 2. The temperature sensor 2 feeds back the current temperature of the air in the fumigation chamber 101 to the controller 3. The controller 3 has a human-computer interaction terminal 200, and the human-computer interaction terminal 200 can input instructions to the controller 3 and output dynamic information of the operation of the moxibustion device.

The human-computer interaction terminal 200 comprises a starting input unit 201, a temperature setting unit 202, a first temperature display unit 203, a second temperature display unit 204, a moxibustion ending prompting unit 205 and an electric quantity display unit 206. In this embodiment, the human-computer interaction terminal 200 is a touch control screen, the start input unit 201 is a key capable of being triggered by clicking, and the temperature setting unit 202 is a + and-temperature shift key.

The start input unit 201 is used for triggering the controller 3 to control the ignition coil 1 to be electrified. The temperature setting unit 202 is used for inputting a set target temperature of the air in the fumigation chamber 101 into the controller 3. The first temperature display unit 203 is used for displaying the current temperature of the air in the fumigation chamber 101. The second temperature display unit 204 is used for displaying the target temperature of the air in the fumigation chamber 101. The moxibustion end prompting unit 205 is used for prompting the end of the moxibustion process. The power display unit 206 is used for displaying the battery power. In this embodiment, the moxibustion end prompting unit 205 includes a buzzer that can sound a prompt when the moxibustion progress is ended.

The controller 3 controls the ignition coil 1 to be powered on and off, and the controller 3 also controls the air flow rate introduced into the combustion chamber 100 by the air pump 4 according to the current temperature and the target temperature of the air in the fumigation chamber 101. The controller 3 comprises an ignition timing power-off module 31, a heating delay module 32 and a heating timing module 33.

The ignition timing power-off module 31 is set with a power-off time. When the starting input unit 201 triggers the controller 3 to control the ignition coil 1 to be electrified, the ignition timing power-off module 31 starts to time; when the ignition timing power-off module 31 counts the power-off time, the controller 3 controls the ignition coil 1 to be powered off.

The temperature-rise delay module 32 is set with a delay temperature-rise time. When the target temperature is input through the temperature setting unit 202 and is higher than the current temperature, the temperature-rise time-delay module 32 starts timing; when the temperature-rise time delay module 32 counts time and reaches the time delay temperature-rise time, the controller 3 starts the temperature-rise mode, and the controller 3 controls the air pump 4 to increase the air flow introduced into the combustion chamber 100. When the target temperature is lower than the current temperature, the controller 3 starts a cool-down mode, and the controller 3 controls the air pump 4 to reduce the flow rate of air introduced into the combustion chamber 100.

The temperature rise timing module 33 is set with an end time. When the controller 3 starts the heating mode, the heating timing module 33 starts timing; when the temperature rise timing module 33 counts the time to the end time and the current temperature does not rise within the end time, the moxibustion end prompting unit 205 issues a prompting sound to prompt the end of the moxibustion progress.

The work flow of the moxibustion device of the embodiment is as follows:

clicking the start input unit 201, the controller of the moxibustion device starts standby. In order to avoid the mistaken touch action, the moxibustion device is in a standby state only by clicking the starting input unit 201 once, and the ignition coil 1 and the air pump 3 do not work. With the moxibustion device in the standby state, the target temperature in the fumigation chamber 101 is set by the temperature setting unit 202. After the target temperature is set, the input unit 201 is started by clicking for the second time, the ignition coil 1 is controlled to be powered on by the controller 3, and meanwhile, the air pump 3 is controlled to be powered on by the controller 3. Coil assembly 11 generates heat in a concentrated manner and ignites moxa stick 10, and when ignition timing outage module 31 times to outage time, controller 3 controls ignition coil 1 to be powered off, effectively prevents ignition coil 1 from generating heat for a long time, and ensures the service life of ignition coil 1. The air pump 3 operates to introduce air into the combustion chamber 100 through the air duct 5. The controller 3 adjusts the flow rate of the air introduced into the combustion chamber 100 by the air pump 3 according to the difference between the current temperature of the air in the fumigation chamber 101 fed back by the temperature sensor 2 and the set target temperature, and finally maintains the current temperature of the air in the fumigation chamber 101 substantially equal to the target temperature. Due to the arrangement of the temperature rise delay module 32, when a user thinks that the temperature in the fumigation chamber is low when the fumigation chamber is used, and the target temperature is readjusted, the controller 3 can delay the temperature rise time set to control the air pump 3 to adjust the air flow, so that the wrong guidance of the user due to the hysteresis of human perception is avoided, and the user can be effectively prevented from being scalded.

As the moxa roll burns towards the end, the temperature of the air in the fumigation chamber 102 will drop and will be difficult to maintain at the target temperature. The controller 3 can control the air pump 3 to increase the air flow so that the moxa roll can be fully combusted. Finally, the moxibustion end prompting unit 205 issues a prompt tone to prompt the end of the moxibustion process.

As described above, the present invention has been explained in full in accordance with the spirit of the present invention, but the present invention is not limited to the above-described embodiments and implementation methods. The practitioner of the related art can make various changes and implementations within the scope permitted by the technical idea of the present invention.

Claims (5)

1. A moxibustion device comprising a combustion chamber (100) for placing moxa sticks and a fumigation chamber (101) for contact with a human body, said combustion chamber (100) being in communication with said fumigation chamber (101), characterized in that: the moxibustion device also comprises an ignition mechanism, an air introduction mechanism, a temperature sensor (2) and a controller (3);

the ignition mechanism comprises an ignition coil (1) arranged in the combustion chamber (100), and the ignition coil (1) is connected with a power supply (6) through a lead;

the air leading-in mechanism comprises an air pump (4) and an air guide pipe (5), the air pump (4) is communicated with the combustion chamber (100) through the air guide pipe (5), and the air pump (4) is connected with a power supply (6);

the temperature sensor (2) is arranged in the fumigation chamber (101), and the temperature sensor (2) is used for detecting the current temperature of the air in the fumigation chamber (101);

controller (3) are connected with ignition coil (1), air pump (4) and temperature sensor (2) respectively, temperature sensor (2) feed back controller (3) with the current temperature of fumigation chamber (101) interior air, controller (3) have human-computer interaction terminal (200), human-computer interaction terminal (200) are used for setting for the target temperature of fumigation chamber (101) interior air, controller (3) control ignition coil (1) switch on-off, controller (3) are still according to the current temperature of fumigation chamber (101) interior air and the air flow of target temperature control air pump (4) leading-in combustion chamber (100).

2. A moxibustion device according to claim 1, wherein: ignition coil (1) is made by the heating wire, ignition coil (1) includes coil assembly (11) that the multistage connects gradually, coil assembly (11) are the heliciform, are provided with rand (12) between adjacent coil assembly (11), be provided with mounting hole (102) in combustion chamber (100), rand (12) insert will in mounting hole (102) ignition coil (1) is fixed in combustion chamber (100).

3. A moxibustion device according to claim 2, wherein: the clamping ring (12) is clamped in the mounting hole (102) through self elastic deformation.

4. A moxibustion device according to claim 1, wherein: the man-machine interaction terminal (200) comprises a starting input unit (201), a temperature setting unit (202), a first temperature display unit (203) and a second temperature display unit (204), wherein the starting input unit (201) is used for triggering the controller (3) to control the ignition coil (1) to be electrified, the temperature setting unit (202) is used for inputting the set target temperature of the air in the fumigation chamber (101) into the controller (3), the first temperature display unit (203) is used for displaying the current temperature of the air in the fumigation chamber (101), and the second temperature display unit (204) is used for displaying the target temperature of the air in the fumigation chamber (101).

5. A moxibustion device according to claim 4, wherein: the power supply (6) is a rechargeable lithium battery, and the human-computer interaction terminal (200) further comprises an electric quantity display unit (206) for displaying the electric quantity of the battery.

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