CN210301723U

CN210301723U - Multifunctional moxibustion health bed

Info

Publication number: CN210301723U
Application number: CN201920560854.3U
Authority: CN
Inventors: 廖长香; 林婕娴; 苏文忠; 李源创; 吕业龙; 罗源; 韦向飞
Original assignee: Guangxi Simai Biotechnology Co ltd
Current assignee: Guangxi Simai Biotechnology Co ltd
Priority date: 2019-04-23
Filing date: 2019-04-23
Publication date: 2020-04-14
Anticipated expiration: 2029-04-23

Abstract

The utility model discloses a multi-functional moxa-moxibustion health bed, including the bed body, bed surface and hatch board, the hatch board lid closes the regional top at bed surface place, the bed surface is provided with a braced frame after the fretwork in the surperficial undercut of the bed body and by the fretwork, is provided with this bed board at braced frame be provided with through-hole and sunken blind hole on the bed board be provided with bellied electrotherapy stone and electrode column upwards in the sunken blind hole be provided with infrared lamp tube on the inner wall of hatch board, just be located at the internal portion of bed the below of bed the bed board be equipped with closable ignition cabin set up ignition support arrangement who has an ignition post and adjust from top to bottom/left and right in the ignition cabin, be provided with clean cigarette system in clean cigarette cabin, this clean cigarette system respectively through the pipe of discharging fume with hatch board ignition cabin intercommunication. The utility model discloses can carry out the multi-functional regulation and control of various parameters, realize automatic smoked moxibustion function, the person is treated to the moxa is more comfortable in smoked moxibustion in-process body and mind.

Description

Multifunctional moxibustion health bed

Technical Field

The utility model belongs to moxa-moxibustion physiotherapy equipment field, concretely relates to multi-functional moxa-moxibustion health care bed.

Background

Moxibustion is a natural therapy in traditional Chinese acupuncture therapy, in which moxa cones or moxa sticks made of folium artemisiae argyi are ignited to smoke and bake acupuncture points of a human body to achieve health care and cure. The moxibustion bed is a special bed specially designed for moxibustion, the moxa sticks or moxa columns are hermetically placed below the moxibustion bed, and a patient only needs to lie on the bed panel by lying on the bed panel when using the moxibustion bed, and then moxibustion is performed on the human body by burning smoke. However, when a person lies on a moxibustion bed to perform moxibustion physiotherapy, the moxibustion bed is a boring and boring lasting process, the body can be under high tension pressure for a long time, so that the body cannot be relaxed, and the expected effect cannot be achieved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a multi-functional moxa-moxibustion health bed, the utility model discloses a moxa-moxibustion health bed can carry out the multi-functional regulation and control of various parameters to realized automatic smoked moxibustion function, the moxa-moxibustion process is simple and convenient, and control is convenient, and is multiple functional, makes the moxa treat the person and is fumigating moxibustion in-process body and mind more comfortable, has reduced the production of oil smoke and the pollution of environment moreover. In order to realize the purpose, the utility model discloses a following technological effect:

according to one aspect of the utility model, a multifunctional moxibustion health-care bed is provided, which comprises a bed body, a bed surface and a hatch cover, wherein the hatch cover is covered above the area where the bed surface is located, one long edge of the bed body is in hinged rotary connection with one long edge of the hatch cover, the bed surface is provided with a support frame after the surface of the bed body is sunken downwards and hollowed out, a bed board and a vibration spring are paved on the support frame, the bottom of the bed board is supported and arranged on the support frame through the vibration spring, the bed board is provided with a through hole and a sunken blind hole, an electrotherapy stone and an electrode column which are raised upwards are arranged in the sunken blind hole, an infrared lamp tube is arranged on the inner wall of the hatch cover, a headrest area is formed by raising upwards on one side of the bed body, a touch display screen is arranged on the bed body close to the headrest area, a closable ignition cabin is arranged inside the bed body and below the bed board, ignition strutting arrangement who adjusts about the column and about/about the ignition cabin is set up in the ignition cabin be provided with control panel in the electrical control cabin, be provided with clean cigarette system in clean cigarette cabin, this clean cigarette system respectively through the pipe of discharging fume with hatch cover and ignition cabin intercommunication, infrared lamp tube, touch display screen, clean cigarette system, ignition column and electrode column respectively with control panel electrical connection is provided with closable clean cigarette cabin and electrical control cabin respectively in the both sides in ignition cabin.

Preferably, in the above-mentioned scheme, a temperature sensor is further arranged in the hatch cover, a horn is arranged on a shell of the electric control cabin, and the temperature sensor and the horn are electrically connected with the control panel respectively.

Preferably, a hatch cover electric push rod motor is arranged in the smoke purification cabin, a telescopic shaft of the hatch cover electric push rod motor extends upwards from the smoke purification cabin and then is in transmission connection with the hatch edge section of the hatch cover, and the control panel is electrically connected with the hatch cover electric push rod motor.

Preferably, the control panel is provided with a push rod motor driving circuit and a push rod current sampling circuit, and the control panel is electrically connected with the hatch cover electric push rod motor through the push rod motor driving circuit and the push rod current sampling circuit.

Preferably, the control panel is provided with an infrared switch driving circuit and a zero-crossing detection circuit, the acquisition output end of the zero-crossing detection circuit is electrically connected with the acquisition input end of the control panel, and the control panel is electrically connected with the infrared lamp tube through the infrared switch driving circuit.

Preferably, the control panel is provided with a low-frequency pulse generating circuit and an MP3 playing module, the control panel is electrically connected to the electrode column through the low-frequency pulse generating circuit, and the control panel is electrically connected to the horn through the MP3 playing module.

According to the scheme, preferably, a hatch cover smoke exhaust hole is formed in the hatch cover close to one end of the smoke purification cabin, a smoke suction hole is formed in the bed surface above the smoke purification cabin, when the smoke purification cabin is covered on the bed surface, the hatch cover smoke exhaust hole is communicated with the smoke suction hole, and the smoke purification system is communicated with the smoke suction hole through a smoke exhaust pipe.

Preferably, the control panel is provided with a smoke purification control circuit, and the smoke purification control circuit is electrically connected with the smoke purification system.

According to the scheme, the emergency switch button and the first smoke sensor are arranged on the edge of the inner wall of the hatch cover, the emergency switch button and the first smoke sensor are close to one side, hinged to the edge of the long edge of the bed body, of the long edge of the hatch cover, the second smoke sensor is arranged in the ignition cabin, and the first smoke sensor and the second smoke sensor are electrically connected with the control panel respectively.

According to the scheme, the ignition supporting device comprises a lower supporting frame, a transverse sliding supporting frame, a vertical guide rail, an upper supporting frame and a tray, wherein the lower supporting frame is transversely fixed above the bottom of the ignition cabin, the transverse sliding supporting frame can be transversely arranged on the lower supporting frame in a sliding mode, the vertical guide rail is vertically fixed on the lower supporting frame through the transverse sliding supporting frame, the upper supporting frame is sleeved on the vertical guide rail, a vertical push rod motor is arranged on the vertical guide rail, the push rod motor is in transmission connection with the upper supporting frame, the tray is horizontally fixed on the upper supporting frame, and the ignition column penetrates into the tray from the bottom of the tray to the outside to the top.

The ignition supporting device further comprises a transverse driving device fixed on the lower supporting frame, the transverse driving device comprises a transverse driving motor, a driving turntable and a curved bar, the transverse driving motor is fixed on the lower supporting frame close to one side of the vertical guide rail, a supporting plate is fixed on the lower supporting frame far away from one side of the vertical guide rail, the supporting plate and the lower supporting frame are perpendicular to each other and connected, the driving turntable is horizontally arranged above the lower supporting frame, the transverse driving motor upwards extends out to be in transmission connection with the driving turntable, a plurality of eccentric holes are formed in the disc surface of the driving turntable, one end of the curved bar is connected with the eccentric holes, the other end of the curved bar is connected with the supporting plate, and the transverse driving motor is electrically connected with the control panel.

In a further preferred embodiment of the above-mentioned solution, the headrest area is buckled with a manual adjustment switch set, and the manual adjustment switch set is electrically connected to the control panel through a wire.

To sum up, because the utility model adopts the above technical scheme, the utility model discloses following technological effect has:

(1) the utility model discloses real multi-functional moxa-moxibustion health bed can realize the automatic temperature rise and adjust the temperature, control function such as automatic smoke exhaust and autoignition, and whole key formula of treating the process of stinging starts, and the in-process of stinging can realize self-heating, temperature automatic control, parameter adjustable requirement, from the effect that reaches multi-functional intelligent control, and its steerable circuit wiring is simple, swift efficient effect, and the cost of manufacture is effectively reduced.

(2) The utility model discloses a moxa-moxibustion health care bed chinese mugwort is effectual, treats in-process accessible at the chinese mugwort and produces the stimulation to human muscle by low frequency pulse, reaches amazing main and collateral channels, promotes blood circulation's health function, carries out the music broadcast at amazing in-process, makes the chinese mugwort treat the person and is being smoked moxibustion in-process body and mind more comfortable.

(3) The utility model discloses a moxa-moxibustion health care bed is clean cigarette effectual, and its rotational speed frequency of cleaning the cigarette machine can obtain effective control, has improved the environment of smoked moxibustion in-process, has reduced the production of flue gas, and it is simpler to change clean cigarette system moreover, can conveniently wash, is convenient for maintain.

Drawings

Fig. 1 is a schematic structural view of a multifunctional moxibustion health bed of the present invention;

FIG. 2 is a front view of the multifunctional moxibustion health bed of the present invention;

FIG. 3 is a frame diagram of the multifunctional moxibustion health bed of the present invention;

FIG. 4 is a schematic structural view of the open state of the multifunctional moxibustion health bed of the present invention;

fig. 5 is a left side schematic view of the multifunctional moxibustion health bed of the present invention;

FIG. 6 is an electrical control schematic diagram of the multifunctional moxibustion health bed of the present invention;

fig. 7 is a schematic structural view of the bed plate of the present invention;

FIG. 8 is a schematic view of the novel ignition support apparatus;

FIG. 9 is a front view of the novel ignition support;

fig. 10 is a schematic structural view of the lateral driving device of the present invention;

fig. 11 is a push rod motor driving circuit and a push rod current sampling circuit according to the present invention;

fig. 12 is an infrared switch driving circuit of the present invention;

fig. 13 is a schematic diagram of a smoke purifying system of the present invention;

fig. 14 is a schematic diagram of a smoke-purifying control circuit of the present invention;

fig. 15 is a schematic diagram of a zero-cross detection circuit of the present invention;

in the attached drawings, 1-a bed body, 2-a bed surface, 3-a cabin cover, 4-a headrest area, 6-a smoke purifying cabin, 5-a sewage discharging door, 6-an ignition cabin, 7-an electric control cabin, 8-an electric control cabin, 9-a loudspeaker, 10-a USB interface, 10 a-a universal wheel, 11-a pillow block, 12-a manual regulation switch group and 13-a cabin cover electric push rod; 20-a support frame, 21-a bed plate, 22-a through hole, 23-a recessed blind hole, 24-a smoke sucking hole, 30-an infrared lamp tube, 31-a temperature sensor, 32-a cabin cover smoke discharging hole, 33-an emergency switch button, 34-a first smoke sensor, 40-a display screen, 60-a smoke purifying system, 61-a smoke purifying control circuit, 70-an ignition column, 71-an ignition support device, 72-a second smoke sensor, 80-a control panel, 82-an electrode column, 81-a low-cycle pulse generation circuit, 83-MP3 playing module and 84-a Bluetooth communication module;

110-lead, 130-push rod motor driving circuit, 131-push rod current sampling circuit, 310-infrared switch driving circuit, 320-zero crossing detection circuit, 600-smoke recovery box, 601-first smoke purifying machine, 602-second smoke purifying, 603-first smoke discharging pipe, 604-second smoke discharging pipe, 605-air suction hole, 710-lower support frame, 711-transverse sliding support frame, 712-vertical guide rail, 712 a-stroke touch switch, 712 b-upper stroke touch switch, 713-upper support frame, 714-tray, 715-transverse driving device, 716-transverse driving motor, 717-driving turntable, 718-curved rod, 719-supporting plate and 720-eccentric hole.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail below with reference to the accompanying drawings and by referring to preferred embodiments. It should be understood, however, that the numerous specific details set forth in the specification are merely set forth to provide a thorough understanding of one or more aspects of the present invention, which may be practiced without these specific details.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, according to the present invention, the multifunctional moxibustion health bed comprises a bed body 1, a bed surface 2 and a hatch 3, wherein the hatch 3 covers the area above the bed surface 2, one end of the hatch 3 is open, the other end is closed, a mattress (not shown) is arranged on the bed surface 2, the mattress is detachably connected with the bed surface 2, one long side of the bed body 1 is hinged and rotatably connected with one long side edge of the hatch 3, the bed surface 2 is provided with a support frame 20 after being hollowed out and sinking downwards on the surface of the bed body 1, a bed plate 21 and a vibrating spring 210 are laid on the support frame 20, and the bottom of the bed plate 21 is supported and arranged on the support frame 20 through the vibrating spring 210; as shown in fig. 7, an oval or directional through hole 22 and a circular recessed blind hole 23 are formed on the bed plate 21, an electrotherapy stone and an electrode pole 82 protruding upwards are arranged in the recessed blind hole 23, an infrared lamp tube 30 is arranged on the inner wall of the hatch 3, a headrest area 4 is formed by protruding upwards on one side of the bed body 1, a touch display screen 40 is arranged on the bed body close to one side of the headrest area 4, a manual push rod or a small micro-electric push rod 25 is arranged on the bed plate 21 and close to one end of the headrest area 4, when a patient lies on the bed plate 21 for moxibustion therapy, an operator can push the push rod 25 to make the bed plate 21 rock on a spring 210, or a small micro-electric push rod can be arranged on the bed plate 21 and close to one end of the headrest area 4, and push the bed plate 21 to rock on the spring 210, so that the human body can massage the electrotherapy stone and the electrode pole 82, in order to improve the treatment effect, a closable ignition chamber 7 is arranged in the bed body 1 and below the bed board 21, an ignition column 70 and an ignition supporting device 71 which is adjusted up and down/left and right are arranged in the ignition chamber 7, a control panel 80 is arranged in the electric control chamber 8, a smoke purifying system 60 is arranged in the smoke purifying chamber 6, the smoke purifying system 60 is respectively communicated with the chamber cover 3 and the ignition chamber 7 through a smoke exhaust pipe, the infrared lamp tube 30, the touch display screen 40, the smoke purifying system 60, the ignition column 70 and the electrode column 82 are respectively and electrically connected with the control panel 80, the closable smoke purifying chamber 6 and the electric control chamber 8 are respectively arranged at two sides of the ignition chamber 7, a chamber cover electric push rod motor 13 is arranged in the smoke purifying chamber 6, a telescopic shaft of the chamber cover electric push rod motor 13 extends upwards from the inside of the smoke purifying chamber 6 and then is in transmission connection with the hatch edge section of the chamber cover 3, the control panel 80 is electrically connected with the hatch cover electric push rod motor 13, so that the hatch cover electric push rod motor 13 can conveniently push the hatch cover 3 to be opened upwards; being close to the inside cabin cover exhaust port 32 that is provided with of cabin cover 3 of clean cigarette cabin 6 one end the bed surface 2 of clean cigarette cabin 6 top is provided with smoking hole 24, when clean cigarette cabin 6 lid closes on bed surface 2, cabin cover exhaust port 32 with smoking hole 24 communicates each other, clean cigarette system 60 through the exhaust pipe with smoking hole 24 communicates, and the flue gas in the cabin cover makes mostly, starts clean cigarette system 60 and inhales the flue gas in the cabin cover 3 in clean cigarette cabin 6 be provided with blowoff door 5 on the lateral wall of clean cigarette cabin 6, and the dust of clean cigarette system in clean cigarette cabin 6 after the clean cigarette is handled is cleared up and is discharged from blowoff door 5.

As shown in fig. 2, 4, 8 and 9, the ignition supporting device 71 includes a lower supporting frame 710, a transverse sliding supporting frame 711, a vertical rail 712, an upper supporting frame 713 and a tray 714, the lower supporting frame 710 is transversely fixed above the bottom of the ignition chamber 7, the transverse sliding supporting frame 711 is transversely slidably disposed on the lower supporting frame 710, the vertical rail 712 is vertically fixed on the lower supporting frame 710 through the transverse sliding supporting frame 711, the upper supporting frame 713 is sleeved on the vertical rail 712, a vertical push rod motor (not shown) is disposed on the vertical rail 712, the push rod motor is in transmission connection with the upper supporting frame 713, an upper travel touch switch 712a and an upper travel touch switch 712b are respectively disposed at the upper and lower ends of the vertical rail 712, and when the upper supporting frame 713 contacts with two forming switches during the up-down and-down reciprocating of the vertical rail 712, the vertical push rod motor acts in the reverse direction, so that the upper support frame 713 slides in a certain height, and through adjusting the vertical sliding height of the upper support frame 713, in the moxibustion treatment process, the human body part lies on the surface of the bed plate 21 and can be kept in a certain temperature range for moxibustion treatment, thereby realizing the function of adjusting the temperature by automatic moxibustion ignition, improving the comfort and treatment effect of the moxibustion, horizontally fixing the tray 714 on the upper support frame 713, and enabling the ignition column 70 to penetrate into the tray 714 from the outside of the bottom of the tray 714 to the outside. In the present invention, as shown in fig. 10, the ignition supporting device 71 further includes a lateral driving device 715 fixed on the lower supporting frame 710, the lateral driving device 715 includes a lateral driving motor 716, a driving turntable 717 and a curved bar 718, the lateral driving motor 716 is fixed on the lower supporting frame 710 near one side of the vertical guide rail 712, a supporting plate 719 is fixed on the lower supporting frame 710 far from one side of the vertical guide rail 712, the supporting plate 719 is perpendicular to the lower supporting frame 710, the driving turntable 717 is horizontally disposed above the lower supporting frame 710, the lateral driving motor 716 extends upwards to be in transmission connection with the driving turntable 717, a plurality of eccentric holes 720 are disposed on the surface of the driving turntable 717, one end of the curved bar 718 is connected with the eccentric holes 720, the other end of the curved bar 718 is connected with the supporting plate 719, the lateral driving motor 716 is electrically connected with the control panel 80, when the transverse driving motor 716 rotates, the driving turntable 717 is driven to rotate, the transverse sliding support frame 711 slides left and right on the lower support frame 710 under the driving of the crank 718 on the driving turntable 717, the operations of smoke discharging and cooling are achieved, the body part of a human body lies on the surface of the bed plate 21 and moxibustion treatment is kept in a certain temperature range, and therefore the function of comprehensive automatic fumigation moxibustion on the human body is achieved, and the comfort level and the treatment effect of fumigation moxibustion are improved. The ignition chamber 7 is internally provided with a second smoke sensor 72, the second smoke sensor 72 is electrically connected with the control panel 80, the second smoke sensor 72 detects the smoke concentration in the ignition chamber 7 and sends the detected concentration data to the central controller in the control panel 80 for processing, the second smoke sensor 72 is respectively arranged at two ends of the upper support 713, the smoke concentration of the ignition chamber 7 is continuously detected when the smoke concentration reaches a preset threshold value when the smoke concentration reaches the preset threshold value, and the smoke purification system is started to perform smoke extraction operation, so that the smoke purification system is used as a reference basis for frequency modulation of the smoke purification system 60, temperature control of the ignition column 70 and up-down/left-right sliding speed of the ignition support device 71.

In the present invention, as shown in fig. 6 and 11, a control panel 80 integrates a central controller, the central controller controls a minimum system with a single chip microcomputer as a core, the minimum system with the single chip microcomputer as a core adopts an ARM Cortex-M4 series embedded single chip microcomputer controller, a push rod motor driving circuit 130 and a push rod current sampling circuit 131 are arranged on the control panel 80, the control panel 80 is electrically connected to the hatch cover electric push rod motor 13 through the push rod motor driving circuit 130 and the push rod current sampling circuit 131, the push rod motor driving circuit 130 includes a push rod motor power supply module, a motor driving module U01, a resistor R01, a resistor R02, a capacitor C01, a capacitor C02, and a capacitor C03, the push rod current sampling circuit 131 includes a resistor R03, a resistor R04, and a capacitor C04, a first input end of the motor driving module U01 and a second driving module of the motor driving module U01 are respectively connected to an output end of the control panel 80, a first power output end VCC _5V of the push rod motor power supply module is respectively connected with one end of a capacitor C01 and a first power end VRE (a fourth pin) of a motor drive module U01, an overcurrent protection end LSS (a seventh pin) of the motor drive module U01 is respectively connected with the ground through a resistor R01, a first output end OUT1 (a seventh pin) of the motor drive module U01 is respectively connected with one end of a resistor R03 and a positive control end P0 of a hatch cover electric push rod motor (13) through a resistor R02, a second output end OUT2 (a seventh pin) of the motor drive module U01 is connected with a negative control end P1 of the hatch cover electric push rod motor 13, the other end of the resistor R03 is respectively connected with a sampling input end (a digital-to-analog sampling end PC _ ADC of a central controller) of the control panel 80, one end of a resistor R04 and one end of a capacitor C04, the other end of the resistor R04 is connected with one end of the capacitor C04, one end of a second power supply end VBB (a fifth pin) of the motor driving module U01 and one end of a capacitor C02 are connected with a second power output end DC _24V of the push rod motor power supply module, the other end of the resistor R04, the other end of the capacitor C04 and the other end of the capacitor C02 are connected with the ground, the voltage output by a first power output end VCC _5V of the push rod motor power supply module U02 is 5V, the voltage output by a second power output end DC _24V of the push rod motor power supply module U02 is 24V, the motor driving module U01 adopts an A4950 driving chip, a driving signal output by a central controller in the control panel 80 is sent to a second pin and a third pin of the A4950 driving chip to drive and control the cabin cover electric push rod motor 13, the A4950 driving chip outputs +24V and-24V voltage, so that a telescopic shaft of the cabin cover electric push rod motor 13 performs telescopic action until the telescopic length is changed to change the opening degree of the cabin cover, when the hatch cover 3 is closed, an obstacle is clamped frequently, the electric push rod motor 13 of the hatch cover can block rotation and the working current is increased remarkably, and the output voltage of the A4950 driving chip is sampled through two sampling resistors R03 and R04; when the current of the hatch cover electric push rod motor 13 during working is increased, the current of the hatch cover electric push rod motor 13 during working is collected by the two sampling resistors, the current is input to the central controller in the control panel 80 to be output, the processed value after sampling processing is compared with the preset value, whether the hatch cover clamps an obstacle or not is judged, and if the hatch cover clamps the obstacle, the central controller in the control panel 80 controls the hatch cover electric push rod motor 13 to rotate reversely, so that the anti-clamping function of the hatch cover is realized.

In the utility model, as shown in fig. 1, fig. 4 and fig. 6, a horn 9 is arranged on the housing of the electrical control cabin 8, the horn 9 is electrically connected with the control panel 80, a low-frequency pulse generating circuit 81, an MP3 playing module 83 and a bluetooth communication module 84 are arranged on the control panel 80, the control panel 80 is electrically connected with the electrode pole 82 through the low-frequency pulse generating circuit 81, the control panel 80 is electrically connected with the horn 9 through the MP3 playing module 83, the bluetooth communication module 84 is in communication connection with the control panel 80, a USB interface 10 is arranged at the edge of the touch display screen 40, the manual control switch group 12 comprises an on-off switch, a volume adjusting switch, a lifting switch, an ignition switch, a rocking switch, a heating switch, a smoke purifying switch and the like, the manual control switch group 12 is used for the moxa therapist to adjust the relevant parameters by himself, the broadcast or music can be played when the user is performing the fumigation and moxibustion therapy, the memory is inserted into the USB interface to read the music prestored in the memory for playing, or the mobile phone terminal is in communication connection with the Bluetooth communication module 84, so that the online music playing is realized, the body and mind of the user are more pleasant and relaxed, the fumigation and moxibustion therapy process is performed in a relaxed state, and the tension is eliminated; an I/O output port of the control panel 80 (central controller) outputs a PWM signal with a certain frequency to trigger the low-frequency pulse generating circuit 81, so that the low-frequency pulse generating circuit 81 outputs voltages of 50 Hz-500 Hz and 30V-80V to the electrode column 82 to massage and stimulate the human body, and the treatment effect and the mental state of the moxibustion patient are improved. A temperature sensor 31 is further arranged in the hatch cover 3, an infrared switch driving circuit 310 and a zero-crossing detection circuit 320 are arranged on the control panel 80, the output end of the temperature sensor 31 and the acquisition output end of the zero-crossing detection circuit 320 are electrically connected with the acquisition input end of the control panel 80, the control panel 80 is electrically connected with the infrared lamp tube 30 through the infrared switch driving circuit 310, when the infrared lamp tube 30 is electrically heated, the temperature sensor 31 is used for detecting the temperature in the hatch cover 3, the temperature sensor 31 detects the temperature in the hatch cover 3 and sends the detected temperature data to a central controller in the control panel 80 for processing, so as to effectively detect the temperature detection when the infrared lamp tube 30 heats the hatch cover 3, and when the temperature is too high, the infrared switch driving circuit 310 is started to realize the temperature regulation of the surface of the human skin, the infrared lamp tube 30 can promote the microcirculation of the blood of the human body when irradiating and heating, in the utility model, the inner wall edge of the hatch cover 3 is provided with an emergency switch button 33 and a first smoke sensor 34, the first smoke sensor 34 is electrically connected with the control panel 80, the emergency switch button 33 and the smoke sensor 34 are close to one side where one long edge of the bed body 1 is hinged with the long edge of the hatch cover 3, the first smoke sensor 34 detects the smoke concentration in the hatch cover 3 and sends the detected concentration data into the central controller in the control panel 80 for processing; when the temperature is too high and the moxibustion is not suitable, the moxibustion treatment is finished or other emergency conditions occur in the bin, the patient can automatically open the bin cover 3 by pressing the emergency switch button 33, the second smoke sensor 72 is arranged in the ignition bin 7, and when the moxibustion is ignited, the moxibustion placed in the tray 714 is ignited by manually operating the ignition switch of the regulating switch group 12.

In the present invention, as shown in fig. 6 and 12, the infrared switch driving circuit 310 includes a resistor R20, a resistor R21, a triode Q20 and a plurality of parallel control units, the control panel 80 is connected to the base of the triode Q20 and one end of the resistor R21 through the resistor R20, the emitter of the triode Q20 is connected to the input end of each control unit, each control unit is composed of a third optocoupler driver U20 and a thyristor Q2, the PWM signal output by the central controller in the control panel 80 drives the third optocoupler driver U20 to conduct through the triode Q20, the output power of the infrared lamp tube 30 is controlled by adjusting the conduction angle of the thyristor Q2 at zero crossing through the PWM signal output by the central controller, so as to achieve the purpose of dimming, thereby realizing the temperature adjustment in the hatch 3; as shown in fig. 6 and 13, a smoke purification control circuit 61 is arranged on the control panel 80, the smoke purification control circuit 61 is electrically connected to the smoke purification system 60, and as shown in fig. 1, 4, 6 and 13, the smoke purification system 60 includes a smoke recovery box 600, a first smoke purification machine 601, and a second smoke purification machine 602, the smoke suction holes 24 are sequentially communicated with the first smoke purification machine 601 and the smoke recovery box 600 through a first smoke discharge pipe 603, a second smoke discharge pipe 604 extends from the smoke purification box 6 into the ignition chamber 7, the ignition chamber 7 is sequentially communicated with the smoke recovery box 600 through a second smoke discharge pipe 604 and the second smoke purification machine 602, a plurality of air suction holes 605 are arranged around the second smoke discharge pipe 604 and along the axial direction, and smoke in the ignition chamber 7 enters the smoke recovery box 600 through the air suction holes 605 to be filtered, collected and stored. The circuit structure of the smoke-purifying control circuit 61 is substantially the same as that of the infrared switch driving circuit 310, as shown in fig. 6 and 14, the resistor R30, the resistor R31, the resistor R32, the resistor R33, the resistor R34, the triode Q20, the fourth optocoupler driver U30 and the thyristor Q2 are used, and the PWM signal output by the central controller in the control panel 80 drives the optocoupler driver U30 to conduct through the triode Q30, in the utility model, the third optocoupler driver U20 and the fourth optocoupler driver U30 adopt a random phase optical isolation TRIAC driver MOC3052-M, which can isolate the logic level of low voltage from high voltage alternating current, provide random phase control for a high current TRIAC or a thyristor, the triggered current and the isolated voltage range are large, and the conduction angle of the thyristor Q31 is adjusted at zero-crossing time through the PWM signal output by the central controller in the control panel 80 to regulate and control the first smoke-purifying control machine 601, The rotating speed of the second smoke purifying machine 602 reaches the speed of adjusting the first smoke purifying machine 601 and the second smoke purifying machine 602 to smoke, so that the variable-frequency speed regulation of the smoke purifying machines is realized.

In the present invention, as shown in fig. 6 and fig. 15, the zero-cross detection circuit 320 includes a voltage-stabilizing power supply module, a first optocoupler U1, a second optocoupler U2, a resistor R1, a resistor R2, a resistor R3, a resistor R4, a resistor R5, a capacitor C1, a capacitor C2, a capacitor C3, an inductor L1, and a triode Q1, one end of the resistor R1 is connected to a live line AC220_ L of the utility power, the other end of the resistor R1 is connected to one end of the capacitor C1, an anode of the first optocoupler U1, and an anode of the second optocoupler U2, a cathode of the first optocoupler U1 and a cathode of the second optocoupler U2 are connected to a neutral line AC220_ N of the utility power, a collector of the first optocoupler U2 and a collector of the second optocoupler U2 are connected to one end of the resistor R2, one end of the resistor R2 and one end of the capacitor C2 are connected to one end of the capacitor C2, the other end of the inductor L2 is connected to a power output end of the regulated power supply module, the other end of the resistor R3 is connected to one end of a capacitor C4, one end of a resistor R4 and a base of a triode Q1, a collector of the triode Q1 is connected to one end of a resistor R5 and a detection input end of the control panel 80, and the other end of the capacitor C1, the other end of the capacitor C2, the other end of the capacitor C3, the other end of the capacitor C3, the other end of the resistor R4, the other end of the resistor R5, an emitter of the first optocoupler U1 and an emitter of the second optocoupler U2 are connected to ground. The zero-crossing detection circuit 320 is connected with a mains supply, the time that the voltage of the alternating current passes through a zero point is detected, the collected voltage of the detected alternating current is subjected to coupling isolation and RC phase-shifting filtering through the parallel optical coupler, the resistor R3, the capacitor C3 and the capacitor C4, the voltage is amplified through the triode Q1 and then is input into an interrupt input port INT0 of a central controller (single chip microcomputer) in the control panel 80, the voltage signal after zero crossing is subjected to interrupt delay at an interrupt input port INT0 of the central controller (single chip microcomputer), the on-time of the optical coupling drivers in the infrared switch driving circuit 310 and the smoke purifying control circuit 61 is controlled, the on-angle of the bidirectional controllable silicon is controlled after isolation to control the output power of infrared rays and the rotation speed of the smoke purifying machine, the aims of light adjustment and frequency conversion regulation are achieved, meanwhile, the phenomenon of shaking in the adjusting process can be avoided, and the phenomenon that false triggering cannot occur when the alternating-current voltage rises instantly and rapidly can be guaranteed.

With reference to fig. 1 to 6, a pillow 11 capable of horizontally rotating is disposed on the pillow area 4 to facilitate the movement of the head of a patient during moxibustion treatment, a body part of the patient lies on a support frame 20 (moxibustion area) formed by the downward depression of the surface of the bed body 1, the head of the patient is placed in the pillow area 3 on the upper surface of the air control chamber 8, and at this time, the electric push rod motor 13 of the cover is operated to cover the cover 3 downward and cover the body part of the patient in the upper surfaces of the cover 3 and the bed body 1 (the body part of the patient is on the plane where the smoke cleaning chamber 6 and the ignition chamber 7 are located, and the head of the patient extends from the cover 2). When the manual operation regulation switch group presses a corresponding operation switch, the central controller outputs a corresponding control signal to drive the power supply of the ignition column to be turned on, the moxa sticks in the tray 714 are ignited, the moxa sticks are combusted at high temperature to carry out moxa therapy, after the moxa therapy time is finished and the smoke is exhausted by the smoke purification system for 1-2 minutes, the infrared lamp tube 30 is automatically closed, the tray 714 automatically descends to the bottom of the ignition chamber 7, and then the manual regulation switch group 12 or the emergency switch button 33 is pressed to drive the smoke purification system to be closed and the chamber cover 3 to be automatically opened, so that the control process of the moxa therapy is finished.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. The utility model provides a multi-functional moxa-moxibustion health care bed, includes the bed body (1), bed surface (2) and hatch board (3), hatch board (3) lid closes the regional top at bed surface (2) place, a long limit of the bed body (1) with a long limit edge of hatch board (3) articulates and rotates and is connected its characterized in that: the bed surface (2) is provided with a support frame (20) after the surface of the bed body (1) is sunken downwards and hollowed out, the bed plate (21) is arranged on the support frame (20), a through hole (22) and a sunken blind hole (23) are formed in the bed plate (21), an upwards-protruding electrotherapy stone and an electrode column (82) are arranged in the sunken blind hole (23), an infrared lamp tube (30) is arranged on the inner wall of the cabin cover (3), a headrest area (4) is formed by upward protrusion of one side of the bed body (1), a touch display screen (40) is arranged on the bed body close to one side of the headrest area (4), a closable ignition cabin (7) is arranged below the bed plate (21) inside the bed body (1), a closable smoke cleaning cabin (6) and an electric control cabin (8) are respectively arranged on two sides of the ignition cabin (7), and an ignition support device which is arranged in the ignition cabin (7) and is adjusted up, down, left and right Put (71) be provided with control panel (80) in electrical control cabin (8), be provided with clean cigarette system (60) in clean cigarette cabin (6), this clean cigarette system (60) respectively through discharge fume the pipe with hatch board (3) and ignition cabin (7) intercommunication, infrared lamp tube (30), touch display screen (40), clean cigarette system (60), ignition post (70) and electrode post (82) respectively with control panel (80) electrical connection.

2. The multifunctional moxibustion health bed of claim 1, characterized in that: a temperature sensor (31) is further arranged in the hatch cover (3), a loudspeaker (9) is arranged on the shell of the electric control cabin (8), and the temperature sensor (31) and the loudspeaker (9) are respectively and electrically connected with the control panel (80).

3. The multifunctional moxibustion health bed of claim 1, characterized in that: a hatch cover electric push rod motor (13) is arranged in the smoke purification cabin (6), a telescopic shaft of the hatch cover electric push rod motor (13) extends upwards from the inside of the smoke purification cabin (6) and then is in transmission connection with the hatch edge section of the hatch cover (3), and the control panel (80) is electrically connected with the hatch cover electric push rod motor (13).

4. The multifunctional moxibustion health bed of claim 1, 2 or 3, characterized in that: the control panel (80) is provided with an infrared switch driving circuit (310) and a zero-crossing detection circuit (320), the acquisition output end of the zero-crossing detection circuit (320) is electrically connected with the acquisition input end of the control panel (80), and the control panel (80) is electrically connected with the infrared lamp tube (30) through the infrared switch driving circuit (310).

5. The multifunctional moxibustion health bed of claim 2, characterized in that: be provided with low cycle pulse generating circuit (81) and MP3 playback module (83) on control panel (80), control panel (80) pass through low cycle pulse generating circuit (81) with electrode post (82) electrical connection, control panel (80) through MP3 playback module (83) with loudspeaker (9) electrical connection.

6. The multifunctional moxibustion health bed of claim 1, characterized in that: the novel smoke purification device is characterized in that a cover smoke exhaust hole (32) is formed in the inner portion of a cover (3) close to one end of a smoke purification cabin (6), a smoke suction hole (24) is formed in a bed surface (2) above the smoke purification cabin (6), when the smoke purification cabin (6) is covered on the bed surface (2), the cover smoke exhaust hole (32) is communicated with the smoke suction hole (24), and a smoke purification system (60) is communicated with the smoke suction hole (24) through a smoke exhaust pipe.

7. The multifunctional moxibustion health bed of claim 1, characterized in that: an emergency switch button (33) and a first smoke sensor (34) are arranged on the edge of the inner wall of the hatch cover (3), one long edge of the emergency switch button (33) and one long edge of the smoke sensor (34) close to the bed body (1) are hinged to one side of the long edge of the hatch cover (3), a second smoke sensor (72) is arranged in the ignition cabin (7), and the first smoke sensor (34) and the second smoke sensor (72) are respectively electrically connected with the control panel (80).

8. The multifunctional moxibustion health bed of claim 1, characterized in that: the ignition supporting device (71) comprises a lower supporting frame (710), a transverse sliding supporting frame (711), a vertical guide rail (712), an upper supporting frame (713) and a tray (714), the lower support frame (710) is transversely fixed above the bottom of the ignition chamber (7), the transverse sliding support frame (711) can be transversely arranged on the lower support frame (710) in a sliding manner, the vertical guide rail (712) is vertically fixed on the lower support frame (710) through a transverse sliding support frame (711), the upper supporting frame (713) is sleeved on the vertical guide rail (712), a vertical push rod motor is arranged on the vertical guide rail (712), the push rod motor is in transmission connection with the upper support frame (713), the tray (714) is horizontally fixed on the upper support frame (713), the ignition column (70) penetrates from the bottom of the tray (714) to the inside of the tray (714).

9. The multifunctional moxibustion health bed of claim 8, characterized in that: the ignition supporting device (71) further comprises a transverse driving device (715) fixed on the lower supporting frame (710), the transverse driving device (715) comprises a transverse driving motor (716), a driving turntable (717) and a curved rod (718), the transverse driving motor (716) is fixed on the lower supporting frame (710) on one side close to the vertical guide rail (712), a supporting plate (719) is fixed on the lower supporting frame (710) on one side far away from the vertical guide rail (712), the supporting plate (719) is vertically connected with the lower supporting frame (710), the driving turntable (717) is horizontally arranged above the lower supporting frame (710), the transverse driving motor (716) upwards extends out to be in transmission connection with the driving turntable (717), a plurality of eccentric holes (720) are formed in the surface of the driving turntable (717), one end of the curved rod (718) is connected with the eccentric holes (720), the other end of the curved rod (718) is connected with the supporting plate (719), and the transverse driving motor (716) is electrically connected with the control panel (80).

10. The multifunctional moxibustion health bed of claim 1, characterized in that: a manual regulation switch group (12) is buckled on the headrest area (4), and the manual regulation switch group (12) is electrically connected with the control panel (80) through a lead (110).