阅读说明：本技术 智能颈椎疗理装置 (Intelligent cervical vertebra treatment device ) 是由 曹亚飞 刘伟东 高坤 吴益宏 于 2019-12-27 设计创作，主要内容包括：本发明公开一种智能颈椎疗理装置,其包括第一壳体、第二壳体及艾炷容纳器,第一壳体内设置有容纳腔,第一壳体的上表面位于容纳腔的正上方设置有颈部放置槽,颈部放置槽设有电热器件,贯穿颈部放置槽的槽壁插设有固定管,固定管套有第一电极环及第二电极环,艾炷容纳器位于容纳腔内。第二壳体内设置有中央控制系统,中央控制系统与第一电极环及第二电极环电连接,用于对病情信息进行采集及与数据库进行信息交互,以控制电热器件工作。本发明通过中央控制系统对病情信息进行采集及并与数据库进行信息交互,并通过数据库内的大数据来诊断分析,以控制电热器件工作,并结合艾炷容纳器进行艾灸治疗,因而治疗效果好。(The invention discloses an intelligent cervical vertebra treatment device which comprises a first shell, a second shell and a moxa cone container, wherein a containing cavity is formed in the first shell, a neck placing groove is formed in the upper surface of the first shell and is located right above the containing cavity, an electric heating device is arranged on the neck placing groove, a fixing pipe is inserted into the groove wall penetrating through the neck placing groove, a first electrode ring and a second electrode ring are sleeved on the fixing pipe, and the moxa cone container is located in the containing cavity. The central control system is arranged in the second shell, is electrically connected with the first electrode ring and the second electrode ring and is used for collecting the illness state information and performing information interaction with the database so as to control the electric heating device to work. The central control system is used for collecting the illness state information and performing information interaction with the database, the electric heating device is controlled to work by performing diagnosis and analysis through big data in the database, and moxibustion treatment is performed by combining the moxa cone container, so that the treatment effect is good.)

1. An intelligent cervical vertebra treatment physical device is characterized by comprising a first shell, a second shell and a moxa cone container, wherein a containing cavity is formed in the first shell, a neck placing groove is formed in the upper surface of the first shell and is located right above the containing cavity, a plurality of electric heating devices are arranged on the groove wall of the neck placing groove, a fixing pipe is inserted into the groove wall penetrating through the neck placing groove, and the lower end of the fixing pipe extends into the containing cavity; the outer surface of one end, facing the neck placement groove, of the fixed tube is sleeved with a heat resistance ring, a first electrode ring is sleeved outside the heat resistance ring, an insulating ring is sleeved outside the first electrode ring, a second electrode ring is sleeved outside the insulating ring, a support tube and a magnet ring are sleeved below the heat resistance ring on the outer surface of the fixed tube, and the support tube is located between the heat resistance ring and the magnet ring;

the moxa cone container is positioned in the containing cavity and is detachably sleeved at the lower end of the fixed tube, and the magnet ring and the moxa cone container are attracted magnetically; the moxa cone container comprises an ignition assembly, a battery assembly and a storage bin assembly, wherein the ignition assembly is used for igniting a moxa cone, the battery assembly is connected with the ignition assembly, the storage bin assembly is connected with the battery assembly, the storage bin assembly is provided with a moxa cone containing cavity for containing the moxa cone, a flame stopping part is arranged at the cavity wall of the moxa cone containing cavity and used for wrapping the outer peripheral surface of the moxa cone when the moxa cone is inserted into the moxa cone containing cavity so as to prevent the moxa cone from continuously burning upwards; the second shell is positioned below the first shell and covers the cavity opening of the accommodating cavity, the second shell is hinged with the first shell, and a central control system is arranged in the second shell; the central control system is electrically connected with the battery component, the first electrode ring and the second electrode ring and is used for collecting the illness state information and performing information interaction with a database so as to control the electric heating device to work.

2. The intelligent cervical spine treatment device according to claim 1, further comprising a sleeve assembly detachably connected to the battery assembly, wherein the sleeve assembly is sleeved outside the storage bin assembly, and a first heat-blocking cavity is formed between the sleeve assembly and the storage bin assembly.

3. The intelligent cervical spine treatment device according to claim 2, wherein the storage chamber assembly is provided with a first air duct communicating with the moxa cone receiving cavity and the first heat blocking cavity, and the sleeve assembly is provided with a second air duct communicating with the first heat blocking cavity and the outer surface of the intelligent cervical spine treatment device.

4. The intelligent cervical spine physical therapy device according to claim 2 or 3, wherein the central control system is detachably connected with the moxa-cone holder through a lead wire to realize electrical connection with the battery assembly.

5. The intelligent cervical spine treatment device according to claim 2 or 3, wherein the cartridge assembly comprises a flame-retardant member, a first connecting member, a cartridge sleeve and a heat-blocking sleeve, the flame-retardant member is inserted into the first end of the heat-blocking sleeve, the inner wall of the flame-retardant member is formed with the annular flame-retardant portion, the first connecting member is connected with the second end of the heat-blocking sleeve and detachably connected with the battery assembly, the cartridge sleeve is inserted into the heat-blocking sleeve, the first end of the cartridge sleeve is connected with the flame-retardant member, the second end of the cartridge sleeve is connected with the heat-blocking sleeve, a second heat-blocking cavity is formed between the cartridge sleeve and the heat-blocking sleeve, and the inner cavity of the cartridge sleeve and the inner cavity of the flame-retardant member together form the moxa cone receiving cavity.

6. The intelligent cervical spine treatment device according to claim 5, wherein the storage casing is provided with a first air flow hole, the first air flow hole is communicated with the moxa cone receiving cavity and the second heat blocking cavity, the heat blocking casing is provided with a second air flow through hole, and the second air flow through hole is communicated with the second heat blocking cavity and the outside of the intelligent cervical spine treatment device.

7. The intelligent cervical spine treatment device according to claim 5, wherein the cartridge sleeve is a metal tube and the heat-resistant sleeve is a non-metal tube.

8. The intelligent cervical spine treatment device according to any one of claims 1 to 3, wherein the battery assembly comprises a battery housing, a battery and an airflow sensing controller, the battery and the airflow sensing controller are both disposed in the battery housing, the airflow sensing controller is electrically connected to the battery and the ignition assembly, and the airflow sensing controller is used for controlling the battery to supply power to the ignition assembly.

9. The intelligent cervical spine physical therapy device according to claim 8, wherein the battery assembly further comprises a fixing bracket and a metal elastic needle, the fixing bracket is accommodated in the battery sleeve, and the metal elastic needle is fixed on the fixing bracket and electrically connected with the battery; the ignition assembly comprises a ceramic fixing seat and an electric heating piece, the ceramic fixing seat is installed on the fixing support, the electric heating piece is installed at the first end of the ceramic fixing seat and extends to the second end of the ceramic fixing seat, and the metal elastic needle is in elastic butt joint with the part, located at the second end of the ceramic fixing seat, of the electric heating piece.

10. The intelligent cervical spine physical therapy device according to claim 9, wherein the electric heating element is an electric heating sheet.

Technical Field

The invention relates to the technical field of cervical vertebra treatment, in particular to an intelligent cervical vertebra treatment device.

Background

Cervical vertebra refers to the cervical vertebra. The cervical vertebrae is located below the head and above the thoracic vertebrae. The cervical vertebra consists of seven cervical vertebrae, except the first cervical vertebra and the second cervical vertebra, an intervertebral disc is clamped between the other cervical vertebrae, and the cervical vertebrae consists of 6 intervertebral discs including an intervertebral disc between the seventh cervical vertebra and the first thoracic vertebra. Except that the 1 st and 2 nd cervical vertebrae are special, the other cervical vertebrae are similar to the thoracic and lumbar vertebrae, and are composed of basic structures such as vertebral bodies, vertebral arches, and processes (including transverse processes, upper and lower articular processes, and spinous processes). The vertebral body is anterior and the vertebral arch is posterior, both of which encircle to form the foramen. The spinal canal is formed by the connection of all the vertebral foramen and the spinal cord is accommodated therein. The cervical spine is the segment of the spinal column that has the least volume, but the greatest flexibility, the highest frequency of motion, and the greater weight bearing.

Cervical spondylosis is also known as cervical syndrome, is a general name of cervical osteoarthritis, proliferative cervical spondylitis, cervical radicular syndrome and cervical disc herniation, and is a disease based on degenerative pathological changes. Mainly, due to long-term strain of cervical vertebrae, hyperosteogeny, or prolapse of intervertebral disc and ligament thickening, the spinal cord, nerve root or vertebral artery of cervical vertebrae are pressed, and a series of clinical syndromes of dysfunction appear. Instability and looseness of the vertebral segment; herniation or herniation of the nucleus pulposus; forming bone spurs; ligament hypertrophy, secondary spinal stenosis and the like irritate or press tissues such as adjacent nerve roots, spinal cords, vertebral arteries, cervical sympathetic nerves and the like, and cause a series of symptoms and signs. In order to treat cervical spondylosis, the cervical vertebra treatment device is produced at the same time, however, the existing cervical vertebra treatment device is inconvenient to use and has poor treatment effect.

Disclosure of Invention

The invention solves the technical problem of providing the intelligent cervical vertebra treatment device which is convenient to use and has good treatment effect.

The invention provides an intelligent cervical vertebra treatment device which comprises a first shell, a second shell and a moxa cone container, wherein a containing cavity is formed in the first shell, a neck placing groove is formed in the upper surface of the first shell and is positioned right above the containing cavity, a plurality of electric heating devices are arranged on the groove wall of the neck placing groove, a fixing pipe is inserted through the groove wall of the neck placing groove, and the lower end of the fixing pipe extends into the containing cavity; the outer surface of one end, facing the neck placement groove, of the fixed tube is sleeved with a heat resistance ring, a first electrode ring is sleeved outside the heat resistance ring, an insulating ring is sleeved outside the first electrode ring, a second electrode ring is sleeved outside the insulating ring, a support tube and a magnet ring are sleeved below the heat resistance ring on the outer surface of the fixed tube, and the support tube is located between the heat resistance ring and the magnet ring;

the moxa cone container is positioned in the containing cavity and is detachably sleeved at the lower end of the fixed tube, and the magnet ring and the moxa cone container are attracted magnetically; the moxa cone container comprises an ignition assembly, a battery assembly and a storage bin assembly, wherein the ignition assembly is used for igniting a moxa cone, the battery assembly is connected with the ignition assembly, the storage bin assembly is connected with the battery assembly, the storage bin assembly is provided with a moxa cone containing cavity for containing the moxa cone, a flame stopping part is arranged at the cavity wall of the moxa cone containing cavity and used for wrapping the outer peripheral surface of the moxa cone when the moxa cone is inserted into the moxa cone containing cavity so as to prevent the moxa cone from continuously burning upwards; the second shell is positioned below the first shell and covers the cavity opening of the accommodating cavity, the second shell is hinged with the first shell, and a central control system is arranged in the second shell; the central control system is electrically connected with the battery component, the first electrode ring and the second electrode ring and is used for collecting the illness state information and performing information interaction with a database so as to control the electric heating device to work.

Preferably, intelligence cervical vertebra is treated physical device and is still included the thimble assembly, the thimble assembly cover is established the outside of storage storehouse subassembly, thimble assembly with form first thermal-insulated chamber between the storage storehouse subassembly.

Preferably, the warehouse assembly is provided with a first air duct, the first air duct is communicated with the moxa cone containing cavity and the first heat resistance cavity, the sleeve assembly is provided with a second air duct, and the second air duct is communicated with the first heat resistance cavity and the outer surface of the intelligent cervical vertebra treatment device.

Preferably, the central control system is detachably connected to the moxa cone holder through a wire, so as to electrically connect to the battery assembly.

Preferably, the warehouse assembly comprises a flame-retardant piece, a first connecting piece, a warehouse sleeve and a heat-resisting sleeve, the flame-retardant piece is inserted into the first end of the heat-resisting sleeve, an annular flame-retardant part is formed on the inner wall of the flame-retardant piece, the first connecting piece is connected with the second end of the heat-resisting sleeve and detachably connected with the battery assembly, the warehouse sleeve is inserted into the heat-resisting sleeve, the first end of the warehouse sleeve is connected with the flame-retardant piece, the second end of the warehouse sleeve is connected with the heat-resisting sleeve, a second heat-resisting cavity is formed between the warehouse sleeve and the heat-resisting sleeve, and the inner cavity of the warehouse sleeve and the inner cavity of the flame-retardant piece jointly form the moxa cone accommodating cavity.

Preferably, the warehouse sleeve is provided with a first air circulation hole, the first air circulation hole is communicated with the moxa-cone containing cavity and the second heat resistance cavity, the heat resistance sleeve is provided with a second air flow through hole, and the second air flow through hole is communicated with the second heat resistance cavity and the outside of the intelligent cervical vertebra treatment device.

Preferably, the storage bin sleeve is a metal pipe, and the heat-resistant sleeve is a non-metal pipe.

Preferably, the battery assembly comprises a battery sleeve body, a battery and an airflow induction controller, the battery and the airflow induction controller are both arranged in the battery sleeve body, the airflow induction controller is electrically connected with the battery and the ignition assembly, and the airflow induction controller is used for controlling the battery to supply power to the ignition assembly.

Preferably, the battery assembly further comprises a fixing bracket and a metal elastic needle, the fixing bracket is accommodated in the battery sleeve, and the metal elastic needle is fixed on the fixing bracket and electrically connected with the battery; the ignition assembly comprises a ceramic fixing seat and an electric heating piece, the ceramic fixing seat is installed on the fixing support, the electric heating piece is installed at the first end of the ceramic fixing seat and extends to the second end of the ceramic fixing seat, and the metal elastic needle is in elastic butt joint with the part, located at the second end of the ceramic fixing seat, of the electric heating piece.

Preferably, the electric heating element is an electric heating piece.

The invention has the following beneficial effects: firstly, the central control system collects the illness state information and carries out information interaction with the database, diagnosis and analysis are carried out through big data in the database so as to control the electric heating device to work, and moxibustion treatment is carried out by combining the moxa cone container, so that the treatment effect is good; secondly, the moxa cone container is positioned in the containing cavity and detachably sleeved at the lower end of the fixed tube, and the magnet ring and the moxa cone container are magnetically attracted, so that a user can conveniently replace moxa cones, and the moxa cone container is convenient to use; thirdly, the storage bin assembly is detachably connected with the battery assembly, and is provided with a moxa-cone receiving cavity for receiving moxa-cones, so that the moxa-cones are all positioned in the moxa-cone receiving cavity when being ignited, and ash generated in the combustion process of the moxa-cones is stored in the moxa-cone receiving cavity, so that the ash is prevented from falling down around, the environmental sanitation is facilitated, and the use by users is facilitated; finally, the chamber wall department of chamber is accomodate to moxa cone is provided with the portion of only firing, the portion of only firing is used for inserting moxa cone when accomodate the intracavity with moxa cone, wraps the outer peripheral face of moxa cone to prevent moxa cone above to continue burning, therefore not only can avoid ashes to drop better, do benefit to safe fire prevention moreover.

Drawings

Fig. 1 is a cross-sectional view of an intelligent cervical spine treatment device according to the present invention;

FIG. 2 is a schematic block diagram of a central control system of the intelligent cervical spine treatment device of the present invention;

FIG. 3 is a perspective view of a moxa cone holder of the intelligent cervical spine physical therapy device according to the present invention;

FIG. 4 is a partial structure view of the intelligent cervical spine treatment device according to the present invention;

FIG. 5 is an enlarged view of area A of FIG. 4;

FIG. 6 is a sectional view of a cartridge assembly of a moxa cone holder for an intelligent cervical spine treatment device according to the present invention;

FIG. 7 is a sectional view of a cannula assembly of the moxa cone holder of the intelligent cervical spine treatment device according to the present invention;

FIG. 8 is a sectional view of an ignition assembly and a battery assembly of the moxa cone holder of the intelligent cervical spine treatment device according to the present invention;

FIG. 9 is an exploded view of a moxa cone holder of the intelligent cervical spine treatment device according to the present invention;

fig. 10 is a circuit diagram of a part of the circuit of the central control system in an embodiment of the intelligent cervical spine treatment device of the present invention.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and examples. It should be noted that, if not conflicting, the embodiments of the present invention and the features of the embodiments may be combined with each other within the scope of protection of the present invention.

Referring to fig. 1 to 10, the present invention provides an intelligent cervical spine treatment device, which includes a first housing 10, a second housing 20 and a moxa cone holder 30, wherein a holding cavity 101 is disposed in the first housing 10, and the holding cavity 101 is communicated with an outer surface of the intelligent cervical spine treatment device. A neck placement groove 102 is formed on the upper surface of the first housing 10 right above the accommodation chamber 101, and the neck placement groove 102 is used for placing the neck of the patient. A plurality of fixing tubes 103 arranged at intervals are inserted through the wall of the neck placement groove 102, and the lower ends of the fixing tubes 103 extend into the accommodating cavity 101.

The outer surface of one end of the fixing tube 103 facing the neck placement groove 102 is sleeved with a heat resistance ring 104, and heat can be prevented from being diffused all around through the heat insulation of the heat resistance ring 104. In the present embodiment, the heat resistant ring 104 is made of glass fiber, but may also be made of asbestos or other materials, and is not limited in this respect. The heat resistance ring 104 is sleeved with a first electrode ring 105, the first electrode ring 105 is sleeved with an insulating ring 106, and the insulating ring 106 is sleeved with a second electrode ring 107. Every adjacent first electrode ring 105 and second electrode ring 107 constitute an electrode group, and an electric heating device is arranged on one side of each second electrode ring 107. The outer surface of the fixed tube 103 is located below the heat resistant ring 104 and sleeved with a support tube 108 and a magnet ring 109, and the support tube 108 is located between the heat resistant ring 104 and the magnet ring 109.

Moxa cone receptacle 30 is located hold the intracavity 101 and can dismantle the cover and establish fixed pipe 103 lower extreme, magnet ring 109 with moxa cone receptacle 30 magnetism attracts mutually, therefore not only connect reliably, is convenient for take out moxa cone receptacle 30 moreover. That is, the neck placement groove 102 has a plurality of electrode sets and a plurality of electric heating devices disposed on the groove wall, each electrode set includes the first electrode ring 105 and the second electrode ring 107 which are spaced apart from each other, each moxa cone container 30 corresponds to one electrode set, and each electrode set is used for detecting the body resistance of the corresponding area, and the physiological status of the affected part can be monitored by checking the body resistance. Preferably, in order to deliver the heat generated by the combustion of moxa cones in the moxa cone holder 30 to the neck placement groove 102 in a timely manner, a fan (not shown) is further disposed in the holding chamber 101 for delivering the air in the holding chamber 101 to the moxa cone holder 30 and then out of the fixed tube 103. Of course, the atmospheric pressure in the neck placement groove 102 may be made smaller than the atmospheric pressure in the accommodating chamber 101 by using a gas, and is not particularly limited herein. In some embodiments, an air pump is connected to the accommodating chamber 101, and air is supplied into the accommodating chamber 101 by the air pump, so that the air pressure in the accommodating chamber 101 is greater than the atmospheric pressure in the neck placement groove 102.

The moxa cone receptacle 30 comprises a battery assembly 1, an ignition assembly 2, a storage bin assembly 3 and a sleeve assembly 4, wherein the battery assembly 1 is connected with the ignition assembly 2 and is used for supplying power to the ignition assembly 2. The battery assembly 1 comprises a battery sleeve body 11, a fixed support 12, a battery 13, an airflow sensing controller 14, a metal elastic needle 15 and an electric connection interface 16, the battery sleeve body 11 comprises a battery sleeve 111, a battery cover 112 and a threaded joint 113, the battery cover 112 is connected with a first end of the battery sleeve 111, the battery cover 112 is provided with an electric insertion hole 114, the threaded joint 113 is connected with a second end of the battery sleeve 111, the first end of the battery sleeve 111 is opposite to the second end of the battery sleeve 111, the threaded joint 113 is provided with a first internal thread and a first external thread, the first internal thread is located on the inner wall surface of the threaded joint 113, and the first external thread is located on the outer wall surface of the threaded joint 113.

The fixing bracket 12 is accommodated in the battery case 11 and fixed to the screw joint 113. The battery 13 and the airflow induction controller 14 are both arranged in the battery case 11, the airflow induction controller 14 is electrically connected with the battery 13 and the ignition assembly 2, and the airflow induction controller 14 is used for controlling the battery 13 to supply power to the ignition assembly 2. The airflow sensing controller 14 includes a control circuit module 141 and an airflow sensing switch 142, the control circuit module 141 and the airflow sensing switch 142 are both fixed in the fixing bracket 12, the airflow sensing switch 142 is electrically connected to the control circuit module 141, and the control circuit module 141 is electrically connected to the battery 13 and is configured to control the battery 13 to supply power to the ignition assembly 2. The metal latch 15 is fixed on the fixing bracket 12 and electrically connected to the battery 13, in this embodiment, the metal latch 15 is electrically connected to the battery 13 through the control circuit module 141, that is, the metal latch 15 and the battery 13 may be directly electrically connected or indirectly electrically connected. The metal bullet 15 is also adapted to resiliently abut the ignition assembly 2. The electrical connection interface 16 is fixed on the fixing plate 17 and fixed in the battery cover 112 through the fixing plate 17, and the electrical connection interface 16 corresponds to the position of the electrical insertion hole 114. The electrical connection interface 16 is electrically connected to the first electrode ring 105 and the second electrode ring 107.

The ignition assembly 2 is used for igniting a moxa cone 100 and comprises a ceramic fixing seat 21 and an electric heating element 22, wherein the ceramic fixing seat 21 is installed on the fixing support 12 and located in the battery case 11, the electric heating element 22 is installed at a first end of the ceramic fixing seat 21 and extends to a second end of the ceramic fixing seat 21, and the metal elastic needle 15 is elastically abutted to a part, located at the second end of the ceramic fixing seat 21, of the electric heating element 22, so that the electric connection is reliable. By arranging the ceramic fixing seat 21, heat can be prevented from being transmitted towards the battery 13, heat emitted by the electric heating element 22 is prevented from melting surrounding parts, and safety is improved. It is understood that the heating element 22 may be a heating wire or a heating sheet, etc., and is not particularly limited thereto.

The storage compartment assembly 3 is connected to the battery assembly 1 in abutment with the ignition assembly 2, and the storage compartment assembly 3 is provided with a moxa cone receiving cavity a for receiving the moxa cone 100, and the moxa cone receiving cavity a is communicated with the neck placement groove 102. The moxa cone containing cavity a is provided with a burning stopping part b on the cavity wall, and the burning stopping part b is used for wrapping the outer peripheral surface of the moxa cone 100 when the moxa cone 100 is inserted into the moxa cone containing cavity a, so as to prevent the moxa cone from continuously burning towards the tail end of the moxa cone. The sleeve pipe assembly 4 is sleeved outside the storage bin assembly 3, and a first heat resistance cavity c is formed between the sleeve pipe assembly 4 and the storage bin assembly 3. Through setting up first thermal-insulated chamber c, therefore can hinder the heat well and radiate towards the outside, avoid the user scald when using. In addition, the first heat-blocking cavity c can store ash scattered outwards from the inside of the moxa cone receiving cavity a, so that the ash can be better prevented from scattering.

The warehouse subassembly 3 is provided with first air flue, first air flue with moxa cone accomodates chamber a and first heat resistance chamber c is linked together, sleeve subassembly 4 is provided with the second air flue, the second air flue with first heat resistance chamber c reaches the surface of intelligence cervical vertebra is treated the physical device is linked together, therefore can make the outside air of container unobstructed inflow hold in the chamber 101, make prop up and hold the moxa cone in the chamber 101 and can smoothly burn.

In this embodiment, the storage component 3 is detachably connected to the battery component 1, and includes a flame-retardant member 31, a first connecting member 32, a storage sleeve 33 and a heat-blocking sleeve 34, wherein the flame-retardant member 31 is a tubular structure, and the cross section of the tubular structure is circular, and the tubular structure can be made of a non-metallic material such as a metal material or ceramic, and is preferably a material that is not easily combustible. The ignition preventing member 31 is inserted into the first end of the heat blocking sleeve 34, and the inner wall of the ignition preventing member 31 is formed with the annular ignition preventing portion b, so that when moxa-cones are burned to the area of the ignition preventing portion b during ignition, since the ignition preventing portion b covers the outer surface of the moxa-cones, sufficient oxygen is not supplied, thereby extinguishing the moxa-cones. The first connector 32 is connected to the second end of the heat-resistant sleeve 34 and detachably connected to the battery assembly 1, and specifically, the first connector 32 is a male screw housing connected to the first female screw of the screw connector 113, thereby facilitating ash removal.

The warehouse sleeve 33 is inserted in the heat-resistant sleeve 34, a first end of the warehouse sleeve 33 is connected with the flame-retardant member 31, a second end of the warehouse sleeve 33 is connected with the heat-resistant sleeve 34, a second heat-resistant cavity d is formed between the warehouse sleeve 33 and the heat-resistant sleeve 34, and an inner cavity of the warehouse sleeve 33 and an inner cavity of the flame-retardant member 31 form the moxa-cone accommodating cavity a. The second heat-resisting cavity d can further prevent heat from radiating outwards, and the heat-resisting effect is improved. Preferably, the cartridge sleeve 33 is a metal tube and the heat-resistant sleeve 34 is a non-metal tube. The heat-resistant sleeve 34 may be made of LCP plastic, PEEK plastic, asbestos, glass fiber material, carbon fiber material, ceramic, etc., and is mainly used to block heat radiation generated by burning moxa cone. The distance of the gap between the heat-resisting sleeve 34 and the storage bin sleeve 33 is 0.3mm-1mm, the optimal gap is 0.5-0.7mm, and the heat-resisting sleeve has a good heat-resisting effect and small integral volume.

The warehouse casing 33 is provided with a first air circulation hole 331, the first air circulation hole 331 is communicated with the moxa-cone containing cavity a and the second heat resistance cavity d, the heat resistance casing 34 is provided with a second air flow through hole 341, and the second air flow through hole 341 is communicated with the second heat resistance cavity d and the outside of the intelligent cervical vertebra treatment device. That is, the first air flow hole 331, the second heat blocking chamber d, and the second air flow hole 341 form the first air passage. The aperture of the first air flow hole 331 is preferably 0.5 to 3mm, so that external oxygen can better flow into the moxa-cone receiving cavity a, and ash falling into the moxa-cone receiving cavity a can be better prevented from falling out of the first air flow hole 331. More preferably, the first air flow hole 331 has a hole diameter of 0.5 mm.

Thimble assembly 4 with battery pack 1 can dismantle the connection, and it includes outer tube 41, internal thread cover 42, flexible glue cover 43 and moxa cone end cover 44, outer tube 41 is provided with a plurality of inlet ports 411, inlet port 411 forms the second air channel. The internal thread sleeve 42 is connected with the first end of the outer sleeve 41 and is connected with the first external thread of the threaded joint 113, so that when the storage bin assembly 3 needs to be cleaned, the sleeve assembly 4 and the storage bin assembly 3 can be detached for independent cleaning, and ash can be cleaned conveniently. The soft rubber casing 43 is inserted into the moxa cone end casing 44, the moxa cone end casing 44 is connected to the second end of the outer casing 41, and the moxa cone end casing 44 may be made of a ferrous material. The moxa cone is gripped by the soft rubber sheath 43 during suction, so that the moxa cone is better prevented from being released.

During the use, with the moxa cone insert the moxa cone accomodate the intracavity a, the user sucks the tip of moxa cone container 30, and the air current induction controller 14 in the battery pack 1 receives to trigger and work, then the power supply is given to the electric heat piece to air current induction controller 14 control battery 13, and the electric heat piece generates heat after the circular telegram, ignites the moxa cone to convenient to use. Moxa cones burn in the bin to produce heat. After the moxa cone is sucked to the designated position, namely the position of the burning stopping part b, the moxa cone can be automatically extinguished, and then the head part is pulled out, so that ash in the storage bin is poured out. That is to say, the moxa cone can extinguish automatically after burning, is equipped with the burning-stopping piece 31 in the storage bin, and when the moxa cone burns to burning-stopping piece 31 department, because burning-stopping piece 31 and moxa cone perisporium closely cooperate, do not have sufficient oxygen, the moxa cone will extinguish automatically. Can prevent the burning of the surrounding objects when the moxa cone head with fire is discarded, and avoid the occurrence of fire. It will be appreciated that the fan may be controlled to stop, either manually or in a timed manner, to reduce oxygen delivery.

The second casing 20 is located below the first casing 10 and covers the opening of the accommodating cavity 101, the second casing 20 is hinged to the first casing 10, and a central control system and a power supply Vcc are arranged in the second casing 20; the central control system is electrically connected with the battery component, the first electrode ring 105 and the second electrode ring 107 and is used for collecting disease condition information and performing information interaction with a database so as to control the electric heating device to work. In this embodiment, the central control system is detachably connected to the electrical connection interface 16 of the moxa cone holder 30 via a lead wire connected with a connector, so as to electrically connect with the battery pack, and thus, the battery in the battery pack can be charged when necessary.

The central control system comprises a central processor 40, a human body resistance detection module 50, a skin heating control module 60 and a liquid crystal display module 70, wherein the human body resistance detection module 50 is used for detecting human body resistance and sending the human body resistance information to the central processor 40; the skin heating control module 60 is used for controlling the electric heating device to heat the skin of the human body according to the control signal of the central processing unit 40; the liquid crystal display module 70 is configured to collect illness state information and display a treatment plan, and send the treatment plan selected by the user to the central processing unit 40; the central processor 40 is used for sending the illness state to the database to be calculated and matched with the data in the database, screening out at least two treatment schemes which are in accordance with the illness state of the patient according to the matching result and outputting the treatment schemes to the liquid crystal display screen, and controlling the skin heating control module 60 and the electric heating device to work according to the treatment scheme selected by the user. The database is used for storing the big data of the cervical vertebra treatment scheme, can be a database in a hospital and also can be a database in a cloud, and is not particularly limited herein. Through the intervention of large data, a better treatment regime can thus be provided. In this embodiment, the central processing unit 40 is electrically connected to the control circuit module 141 of the airflow sensing controller 14 through the electrical connection interface 16.

The human body resistance detection module 50 includes a plurality of human body resistance monitoring units 51 respectively electrically connected to the central processor 40, each human body resistance monitoring unit 51 is electrically connected to each electrode group, the human body resistance monitoring unit 51 includes a first resistor R1, a second resistor R2, a switching diode D1, a first capacitor C1, a first sliding rheostat P1, a second sliding rheostat P2 and a first triode Q0, a first end of the first resistor R1 is electrically connected to the first electrode ring 105 of one of the electrode groups, a second end of the first resistor R1 is electrically connected to the base of the first triode Q0, a first end of the second resistor R2 is electrically connected to the collector of the first triode Q0, and a second end of the second resistor R2 is electrically connected to the power supply Vcc and the second electrode ring 107. Specifically, the second electrode ring 107 is electrically connected to the power supply Vcc through a first key switch K1

The anode of the switch diode D1 is grounded, and the cathode of the switch diode D1 is electrically connected with the first electrode ring 105; a first fixed end of the first sliding rheostat P1 is electrically connected with the base electrode of the first triode Q0, and a second fixed end of the first sliding rheostat P1 is grounded; a first end of the first capacitor C1 is electrically connected with a collector of the first transistor Q0, and a second end of the first capacitor C1 is electrically connected with an emitter of the first transistor Q0; the first fixed end of the second slide rheostat P2 is electrically connected with the emitter of the first triode Q0, the second fixed end of the first slide rheostat P1 is grounded, the sliding end of the first slide rheostat P1 is electrically connected with the central processing unit 40, and the central processing unit 40 is connected with a chip power supply VDD. It can be understood that there is much sweating and the skin resistance is low. Conversely, less sweating and greater skin resistance. The output voltage of the first triode Q0 is adjusted through the first slide rheostat P1 and the second slide rheostat P2, so that errors existing in circuit elements are reduced, and the detection accuracy is improved.

The skin heating control module 60 comprises a voltage monitoring unit 1 ', an overvoltage driving protection unit 2 ', a field effect transistor switch unit 3 ', a voltage stabilizing unit 4 ', an overvoltage protection warning unit 5 ' and a reverse connection protection warning unit 6 ', wherein the voltage monitoring unit 1 ' is used for being connected with a battery of the power supply Vcc so as to detect the voltage of the battery of the power supply Vcc. The overvoltage driving protection unit 2 ' is connected with the voltage monitoring unit 1 ' and is used for sending out a driving signal when the voltage monitoring unit 1 ' detects that the voltage of the battery is greater than a preset voltage value. In the present embodiment, the voltage monitoring unit 1' is electrically connected to the battery of the power supply Vcc through a second key switch K2. When the battery of the power supply Vcc is charged, the first key switch K1 and the second key switch K2 are both turned on. When treatment is performed, the first key switch K1 is turned on, and the second key switch K2 is turned off.

The field effect transistor switch unit 3 ' is used for being connected with the overvoltage protection warning unit 5 ' and the signal output end of the overvoltage driving protection unit 2 ' so as to discharge the electric energy for charging the battery according to the driving signal. The voltage stabilizing unit 4 'is used for being connected with the positive electrode of the battery, the overvoltage protection warning unit 5' and the reverse connection protection warning unit 6 ', the overvoltage protection warning unit 5' is used for being electrically connected with the positive electrode of the battery and the field effect transistor switch unit 3 ', the signal input end of the reverse connection protection warning unit 6' is grounded, and the signal output end of the reverse connection protection warning unit 6 'is electrically connected with the voltage stabilizing unit 4'. In this embodiment, during treatment, the voltage monitoring unit 1 ', the voltage stabilizing unit 4 ' and the overvoltage protection warning unit 5 ' are all connected to the positive electrode of the battery of the power supply Vcc through a fourth fet Q6.

The voltage monitoring unit 1 'includes a third resistor R3, a fourth resistor R4, a fifth resistor R5, a sixth resistor R6, a second capacitor C2 and a third capacitor C3, a first end of the third resistor R3 is used for being connected to the positive electrode of the battery, a first end of the fourth resistor R4 is connected to a second end of the third resistor R3, a first end of the fifth resistor R5 is connected to a second end of the fourth resistor R4 and the overvoltage protection unit 2', a first end of the sixth resistor R6 is connected to a second end of the fifth resistor R5, and a second end of the sixth resistor R6 is grounded. The first end of the second capacitor C2 is connected to the first end of the third resistor R3, and the second end of the second capacitor C2 is connected to the second end of the fourth resistor R4. A first terminal of the third capacitor C3 is connected to a first terminal of the fifth resistor R5, and a second terminal of the third capacitor C3 is connected to a second terminal of the sixth resistor R6. In this embodiment, the capacitance of the second capacitor C2 is 1 μ F, and the capacitance of the third capacitor C3 is 47 μ F, so that the interference during the switching process and the interference generated during the voltage fluctuation are better avoided, and the voltage monitoring is more accurate.

The overvoltage driving protection unit 2 'comprises a comparator U, a seventh resistor R7, an eighth resistor R8 and a second capacitor C4, wherein a non-inverting input terminal of the comparator U is connected with a first terminal of a fifth resistor R5 in the voltage monitoring unit 1'. The inverting input end of the comparator U is connected with the first end of the second capacitor C4, the output end of the comparator U is electrically connected with the field effect transistor switch unit 3', and the second end of the second capacitor C4 is grounded. A first end of the seventh resistor R7 is used for being connected with the positive electrode of the battery, a second end of the seventh resistor R7 is connected with a first end of the eighth resistor R8, and a second end of the eighth resistor R8 is connected with the inverting input end of the comparator U.

The overvoltage driving protection unit 2' further comprises a controllable silicon T, a control electrode of the controllable silicon T is connected with a first end of the third capacitor C5, an anode of the controllable silicon T is grounded, and a cathode of the controllable silicon T is electrically connected with an inverting input end of the comparator U. Through the matching of the thyristor T and the second capacitor C4, the output signal of the overvoltage driving protection unit 2' is not easily affected by the voltage of the battery, and the stability is improved.

The overvoltage driving protection unit 2' further comprises a ninth resistor R9, a first end of the ninth resistor R9 is connected to the non-inverting input terminal of the comparator U, and a second end of the ninth resistor R9 is connected to the output terminal of the comparator U. The ninth resistor R9 has the function of voltage feedback.

The voltage stabilizing unit 4' includes a first voltage stabilizing diode D1, a second voltage stabilizing diode D2, a third capacitor C5 and a tenth resistor R10, wherein an anode of the first voltage stabilizing diode D1 is connected to the negative power connection terminal of the comparator U, and a cathode of the first voltage stabilizing diode D1 is grounded. When the voltage of the battery is normal and the connection is correct, the first zener diode D1 is turned on. The anode of the second zener diode D2 is connected to the signal output terminal of the reverse connection protection alarm unit 6', and the cathode of the second zener diode D2 is used to connect to the anode of the battery. The third capacitor C5 is connected in parallel with the second zener diode D2, a first end of the tenth resistor R10 is connected to the signal output end of the reverse-connection protection alarm unit 6', and a second end of the tenth resistor R10 is grounded.

The overvoltage protection warning unit 5 'comprises a first light-emitting diode D3 and an eleventh resistor R11, wherein an anode of the first light-emitting diode D3 is connected with a first end of the eleventh resistor R11, a cathode of the first light-emitting diode D3 is connected with the field-effect transistor switch unit 3', and a second end of the eleventh resistor R11 is used for being electrically connected with a positive electrode of the power supply.

The reverse connection protection warning unit 6' comprises a second light emitting diode D4 and a twelfth resistor R12, wherein the anode of the second light emitting diode D4 is connected with the first end of the twelfth resistor R12, the cathode of the second light emitting diode D4 is connected with the anode of the second voltage stabilizing diode D2, and the second end of the twelfth resistor R12 is grounded. In the assembling process, if the battery is reversely connected, the second light emitting diode D4 emits light, the second voltage stabilizing diode D2 is conducted, and the current is led out, so that the components are well protected from being damaged. The circuit is ingenious in design, simple in structure and low in cost, and can well prompt a user, so that the user experience is high.

The field effect transistor switching unit 3' comprises a field effect transistor, a drain electrode of the field effect transistor is used for being connected with the load, a source electrode of the field effect transistor is grounded, and a grid electrode of the field effect transistor is electrically connected to an output end of the comparator U. In the present embodiment, the fets include a first fet Q1 and a second fet Q2. The electric heating device comprises a heat conducting sheet M and an electric heating wire S, wherein the electric heating wire S is arranged on the heat conducting sheet M in a snake shape, and is connected with the field effect tube switch unit 3' and used for heating the skin and releasing the current charged into the power supply in the form of heat energy through the electric heating wire S when the voltage of the battery reaches the preset value. In this embodiment, the heat conducting sheet M is a heat conducting double-sided film, so that the heat conducting sheet M can better fit the human body and conduct heat.

When the voltage monitoring unit 1' detects that the voltage of the battery is greater than the preset voltage value, the comparator U outputs a high level signal, the first light emitting diode D3 emits light, the first field effect transistor Q1 and the second field effect transistor Q2 are turned on, the current flows through the electric heating wire S, and the electric heating wire S heats, so that excessive electric energy can be released. The user is prompted by the first light emitting diode D3 emitting light.

The central control system analyzes and matches the big data of the illness state of the patient, combines the selection of the matching combination of the doctor, treats the patient in modes of moxibustion, electric heating and the like, monitors the treatment condition of the user through the first electrode ring 105 and the second electrode ring 107, and adjusts the treatment condition in real time, so that the treatment effect is good. When the voltage monitoring unit 1 'monitors that the charging voltage of the battery is too large, the overvoltage driving protection unit 2' drives the field-effect tube switch unit 3 'to be opened, so that at least part of the charging current is released from the field-effect tube switch unit 3' and prompt is carried out, and therefore charging safety is guaranteed, and humanization is achieved.

In addition, the electric heating device can not only carry out normal treatment on the patient, but also better convert the electric energy into heat energy to be released through the heat conducting sheet when in overvoltage, thereby fully utilizing the electric energy; in the assembling process, when the batteries are reversely connected, the reverse connection protection warning unit 6' is used for reverse connection protection and prompt, so that the wrong installation is avoided, and the installation efficiency is improved.

In summary, firstly, the central control system collects the illness state information and interacts with the database, diagnosis and analysis are performed through big data in the database to control the electric heating device to work, and moxibustion treatment is performed by combining the moxa cone container, so that the treatment effect is good; secondly, the moxa cone container is positioned in the containing cavity and detachably sleeved at the lower end of the fixed tube, and the magnet ring and the moxa cone container are magnetically attracted, so that a user can conveniently replace moxa cones, and the moxa cone container is convenient to use; thirdly, the storage bin assembly is detachably connected with the battery assembly, and is provided with a moxa-cone receiving cavity for receiving moxa-cones, so that the moxa-cones are all positioned in the moxa-cone receiving cavity when being ignited, and ash generated in the combustion process of the moxa-cones is stored in the moxa-cone receiving cavity, so that the ash is prevented from falling down around, the environmental sanitation is facilitated, and the use by users is facilitated; finally, the chamber wall department of chamber is accomodate to moxa cone is provided with the portion of only firing, the portion of only firing is used for inserting moxa cone when accomodate the intracavity with moxa cone, wraps the outer peripheral face of moxa cone to prevent moxa cone above to continue burning, therefore not only can avoid ashes to drop better, do benefit to safe fire prevention moreover.

The intelligent cervical vertebra treatment device provided by the invention is described in detail, a specific example is applied in the description to explain the principle and the implementation mode of the invention, and the description of the embodiment is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In summary, the present disclosure is only an embodiment of the present disclosure, and not intended to limit the scope of the present disclosure, and all equivalent structures or equivalent flow transformations made by using the present disclosure and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present disclosure, and should not be construed as limiting the present disclosure.