CN108464935B - Timed unattended automatic medicine feeding medicine pot - Google Patents

Abstract

The invention discloses a timing unattended automatic dosing medicine pot, which comprises a round base, a toughened glass medicine pot controllable charcoal fire heating device and an intelligent controller, wherein the round base is provided with a round base; the upper end of the tank handle is connected with a time-delay doser which can automatically add the post-dosing into the toughened glass medicine tank; the time-delay doser comprises a conical medicine bin, a floating ball cover, a floating ball stop block, a dosing hole and a medicine bin cover, and is provided with an eccentric ash screening device for driving an ash screening grate to perform horizontal ash screening action and a spiral ash discharging device for discharging the ash in an ash receiving hopper out of a round base. The advantages are that: the structure is scientific, compact and novel, and the design is ingenious; the effective components of the medicinal materials can be fully separated out; the remote control and the timing ignition can be realized, the medicinal materials can be added in batches by automatic time delay, the separate input of the first decoction and the later decoction is realized, the unattended purpose is achieved, and the use is convenient; the dregs of a decoction are separated from the heated components, so that the device is suitable for household use; the medicine pot is widely applied to medicine boiling at regular time, and saves the on-duty time for people.

Description

Timed unattended automatic medicine feeding medicine pot

Technical Field

The invention relates to a traditional Chinese medicine pot, in particular to a novel household quick traditional Chinese medicine pot with short medicine-boiling time.

Background

The traditional Chinese medicine for treating diseases is prepared by taking decoction medicinal materials as main ingredients, wherein the decoction medicinal materials need to master the duration of heat, and need to be decocted for a long time, even some medicinal materials need to be put in batches, such as exterior-syndrome-relieving medicines like mint and wrinkled gianthyssop herb and precious medicinal materials like American ginseng contain volatile components, active ingredients of the medicinal materials are easy to be emitted into the air in the decocting process, and the medicinal materials are added finally when the medicinal materials are decocted well. That is, the decoction should be done first and then: the modern thinking that the decoction method of ancient people (II) is firstly realized is that the firstly decoction is mainly applied to minerals and shellfish drugs of which the effective components are insoluble in water, and some drugs with strong toxic and side effects need to be decocted for a long time to remove toxicity. In Shang Zhong Jing (treatise on miscellaneous diseases due to exogenous febrile disease) of Zhang Zhongjing of Han Dynasty, there is a requirement for decocting first, for example, there are prescriptions of "decocting first" for ephedra, pueraria root, poria, gardenia, ginger, hollyhock, rhubarb, trichosanthes fruit, fertile jujube, oriental wormwood, peony, phragmites, magnolia bark, immature bitter orange, etc.

Traditional Chinese medicine decoction is generally carried out by adopting a special Chinese medicine pot, the Chinese medicine pot is generally a sand pot, namely, a pot liner is made of ceramics or purple sand so as not to influence the medicine property. The duration of the fire should be controlled during the decoction process of the traditional Chinese medicine to ensure the amount of the medicine liquid required to be taken, and the phenomenon of medicine pasting caused by overlong decoction time or the defects of the medicine pot itself should be avoided. But need the people to take care of, it is not very convenient, also adopt split type electric heating ceramic traditional chinese medicine to stew in a pot and decoct among the prior art, this kind of split type ceramic traditional chinese medicine stew including the base that is used for the heating and the kettle body that is used for holding traditional chinese medicine, and the device that generates heat sets up respectively in base and kettle body to coupling connects, places the kettle body and can heat on the dish that generates heat. The Chinese medicine pot is directly contacted with the heating element, so the medicine pasting phenomenon is easy to occur. For another example, in an automatic Chinese medicine pot with patent number ZL 93245407.0, the heater is located in the middle of the bottom of the ceramic pot, and since the heater is in direct contact with the medicine, there is a possibility of medicine pasting when the amount of liquid medicine is small and the temperature controller is not operated, especially for medicine with high viscosity. In addition, the traditional Chinese medicine pot has fewer additional functions, for example, office workers can start to cook the medicine after going home, but the medicine cooking time is long, and the medicine cannot be taken half an hour after meals in time, so that some methods are urgently needed to quickly separate out active substance components in the medicinal materials into the medicine soup, and the medicine cooking time is shortened. Moreover, because the firepower required by different time periods during medicine boiling is different, namely, the slow fire and the strong fire, if the medicines are boiled by the strong fire at the beginning, the medicines are boiled by the slow fire after being boiled, and the effective ingredients in the medicinal materials are separated out into the medicine soup. In addition, the water quality of the water for boiling the medicine is polluted, and an iron pot and a stainless steel pot of the electromagnetic heating device are used as medicine pots contacting with food; some problems existing at present cannot be solved, and the problem of harmful toxin in medicinal materials is difficult to solve.

In addition, the herbs should be decocted to a special heat source, for example, if Qing Chun you takes the best to supplement the firewood for decoction in Ben Cao gang mu, he should give cautions and fire, and carry it according to the prescription. The specific fire includes mulberry firewood, oak charcoal fire, chestnut fire, charcoal fire, reed fire, bamboo fire, etc. Mulberry firewood: mulberry can promote the function of joints and nourish body fluids, so it is good for fire. The cloud of the book of republic of Pubu (Kongpo): all the herbs should be decocted in mulberry for no use. Sang Yu Xue Huan can help the action of drugs and dispel wind-cold arthralgia. It can be taken for a long time without wind diseases. Therefore, some medicinal materials with special requirements are difficult to meet the requirements by adopting the conventional electric heating mode.

Disclosure of Invention

In order to solve the problems of the traditional Chinese medicine pot, the invention provides an unattended charcoal fire timing automatic medicine feeding pot which is novel in structure, short in medicine cooking time and unattended.

In order to achieve the purpose, the invention adopts the scheme that:

a timing unattended automatic dosing medicine pot comprises a round base, a toughened glass medicine pot, a controllable charcoal fire heating device and an intelligent controller; the intelligent controller comprises a movable monitoring bracket which can be placed at will and an intelligent control circuit; the intelligent control circuit comprises an MCU serving as a central processing unit, a wireless network circuit module, an LCD display screen, an induction button, an infrared temperature detector, a movable micro camera and a driving circuit, wherein the wireless network circuit module, the LCD display screen, the induction button, the infrared temperature detector, the movable micro camera and the driving circuit are all connected with the MCU and controlled by the MCU; the movable monitoring support comprises a random bent rod with a base, the infrared temperature detector and the movable miniature camera are arranged on the random bent rod, and when the movable monitoring support is used, the movable monitoring support is placed beside the round-bottom base, so that remote real-time monitoring can be realized through a wireless network and terminal communication equipment; the method is characterized in that: the round base is provided with a detachable base bottom, a charcoal fire burning frame is arranged in the round base, a round pit heating groove is arranged in the middle of the charcoal fire burning frame, an ash screening grate is arranged below the round pit heating groove of the charcoal fire burning frame, an electric heating ignition device is embedded on the ash screening grate, an ash tray is arranged below the ash screening grate on the round base, and air channels are arranged on two sides of the ash tray; the round pit heating groove is externally sleeved with a heat insulation basin, the edge of the upper part of the heat insulation basin is provided with a reversed waterproof flanging, the middle of the heat insulation basin is protruded to form a round boss, the bottom of the heat insulation basin forms a water collecting ring groove around the round boss, the center of the round boss is provided with a round hole, and the controllable charcoal fire heating device is arranged below the round hole; an air inlet chamber is arranged in the round base and is arranged on one side of the bottom of the round base; the air inlet chamber is provided with an air inlet, an air outlet, a hinge air partition plate and a turbine ventilation fan, the air inlet is arranged at the bottom of the air inlet chamber, the turbine ventilation fan is arranged above the air inlet, the air outlet is arranged above the turbine ventilation fan, the hinge air partition plate is arranged at the upper part of the air outlet and controls the air outlet to be communicated with or separated from an air channel, and when the turbine ventilation fan works, the hinge air partition plate is automatically blown away by wind power; the toughened glass medicine pot comprises a pot mouth, a pot cover and a pot handle; the tank handle is arranged on the side surface of the toughened glass medicine tank, and the upper end of the tank handle is connected with a time-delay medicine feeder which can automatically feed the later medicine into the toughened glass medicine tank; the bottom of the toughened glass medicine pot is provided with a heated round bottom with both narrowed inner diameter and outer diameter, and the heated round bottom of the toughened glass medicine pot is placed in the heat insulation basin when in use; the time-delay doser comprises a conical medicine bin, a floating ball cover, a floating ball stop block, a dosing hole and a medicine bin cover; the medicine bin cover is buckled on the conical medicine bin, and the medicine adding hole is formed in the neck of the toughened glass medicine tank; the conical medicine bin is obliquely connected to the upper end of the tank handle, is connected with the tank handle into a whole and is also used as a connecting part between the upper part of the tank handle and the toughened glass medicine tank; the bottom of the conical medicine bin is provided with an inclined medicine bin neck which is communicated with the medicine feeding hole; a floating ball transverse arm is arranged on the left side or the right side of the floating ball cover, the floating ball transverse arm can be rotatably hinged on the inner wall of the neck part of the toughened glass medicine tank, the floating ball cover covers the medicine adding hole under the buoyancy action of water, and a floating ball stop block for limiting the floating ball cover to float excessively is arranged above the floating ball transverse arm; the opening of the floating ball cover is controlled by the falling of the water level, when the water level falls, the floating ball cover rotates downwards around a hinge point through a floating ball cross arm under the action of gravity to be separated from a dosing hole, and the post-dosing in the dosing hole immediately falls into a toughened glass medicine tank from a conical medicine bin; the electric heating ignition device and the turbine ventilation fan are driven by the driving circuit to work. Because the water in the medicine is continuously evaporated during the medicine decocting, the water level in the medicine is slowly reduced, and when the medicine is well decocted, the water level is lower than the water level when the medicine is started to be decocted; the principle is fully utilized, the technical effect of adding the medicine after the water level control of adding the medicine is achieved, and the technical characteristic has higher creativity.

Furthermore, the inner wall of the heated round bottom is provided with a poison dispelling silver ring, and the wall part of the poison dispelling silver ring is provided with a plurality of alternating current holes; a residue isolating pore plate for preventing the contact of the residue with the heated round bottom and the poison removing silver ring is arranged above the poison removing silver ring. The main technical effect that this main technical feature produced here is that, the water-collecting ring groove prevents that liquid such as the water that toughened glass medicinal cupping spilled over from overflowing elastic silica gel round platform circle and take place the hidden danger that the round base intake. The residue separating pore plate has the function of preventing medicinal materials, especially starch-based medicinal materials such as Chinese yam, from directly contacting with the toxic-removing silver ring, and preventing the medicinal materials from being burnt when the local heating is not uniform.

Furthermore, a thermocouple is arranged on the charcoal fire burning frame; inside being equipped with of circle base is used for man-machine to exchange arc PCB, and arc PCB sets up at charcoal fire burning frame side, is located the inboard on round base top, and response button and LCD display screen set up on arc PCB, and the LCD display screen sets up the intermediate position at PCB, and response button evenly distributed is on the PCB of LCD display screen both sides. The main technical effect that this main technical feature produced is that, when the toughened glass medicinal cupping was placed in the round hole heating tank, the bottom of toughened glass medicinal cupping was under the toughened glass medicinal cupping gravity effect, and the thermocouple hugged closely toughened glass medicinal cupping bottom, made the thermocouple reflect the temperature of toughened glass medicinal cupping sooner, was favorable to controlling. A user can set a fire curve of medicine stewing, namely so-called slow fire, strong fire and corresponding time intervals through the induction button and the LCD display screen, so that the medicine stewing can be realized at regular time according to the requirement, and the automatic starting and the automatic closing are realized.

Furthermore, an eccentric ash screening device for driving the ash screening grate to perform horizontal ash screening action is arranged above the ash screening grate; the eccentric ash screening device comprises a fixed seat, an eccentric wheel and an ash screening motor; the ash screening motor is arranged on the fixed seat, and the eccentric wheel is driven to rotate by the ash screening motor; a plurality of ash screening seats are uniformly distributed on the upper edge of the ash screening fire grate in the circumferential direction, an eccentric short shaft deviating from the axis of the eccentric wheel is arranged on the eccentric wheel, and the eccentric short shaft is connected with the ash screening seats through a bearing; the ash screening motor is driven by a driving circuit to work. When the ash screening motor rotates, the ash screening grate is driven to shake, accumulated ash is shaken off the ash tray, and the ash discharge hole of the ash screening grate is prevented from being blocked to influence charcoal fire combustion.

Furthermore, the ash tray is provided with a spiral ash discharging device which discharges the furnace ash in the ash receiving hopper out of the round base, and the spiral ash discharging device comprises a conveying pipe, a spiral conveying shaft arranged in the middle of the conveying pipe and an ash discharging motor; the periphery of the spiral conveying shaft is provided with a spiral blade for conveying ash, and the ash discharging motor is arranged at the end part of the spiral conveying shaft; the ash discharging motor is driven by the driving circuit to work. When the ash in the ash tray reaches a certain amount, the spiral ash discharging device can be started to discharge the ash out of the round bottom seat.

The main technical effect produced by the main technical characteristics of the scheme is that after the water in the toughened glass medicine tank is heated, convection is generated, and rising water flow washes through meshes of the residue isolation pore plate to separate out components in the medicinal materials above the residue isolation pore plate. Here, the poison-removing silver ring is placed on the inner wall of the toughened glass medicine pot and is directly contacted with the medicine soup; the toxic-removing Argyrolon has the function of removing toxic components in medicinal materials, and can be taken out without the toxic-removing Argyrolon. The cross flow hole can increase the contact area of the liquid and the poison dispelling silver ring, and is beneficial to fully dispelling the toxin in the medicinal materials.

From the above, the present invention has the following advantages: the structure is scientific, compact and novel, and the design is ingenious; the effective components of the medicinal materials can be fully separated out; the remote control and the timing ignition can be realized, the medicinal materials can be added in batches by automatic time delay, the separate input of the first decoction and the later decoction is realized, the unattended purpose is achieved, and the use is convenient; the dregs of a decoction are separated from the heated components, so that the device is suitable for household use; the toxin in the medicinal materials is removed by skillfully using the detoxified silver ring; the medicine pot is widely applied to medicine boiling at regular time, and saves the on-duty time for people.

Drawings

Fig. 1 is a perspective view of a preferred embodiment of the present invention.

Fig. 2 is an exploded view of fig. 1.

Fig. 3 is a perspective half-sectional view of fig. 1.

Fig. 4 is an exploded view of the toughened glass canister of fig. 2.

Fig. 5 is a perspective view of the detoxified silver ring.

Fig. 6 is a perspective view of an arc-shaped PCB.

FIG. 7 is a schematic structural diagram of an eccentric ash screening device.

Fig. 8 is a top view of an ash grate.

FIG. 9 is a top view of the spiral ash hoist.

FIG. 10 is a functional block diagram of an intelligent controller.

The reference numbers illustrate:

the reference numbers illustrate: 1-round base, 2-toughened glass medicine tank, 3-controllable charcoal fire heating device, 4-intelligent controller, 5-detoxified silver ring, 6-cross flow hole, 7-charcoal fire burning rack, 8-round pit heating groove, 9-movable monitoring support, 10-round hole, 11-random bent rod, 12-infrared temperature detector, 13-thermocouple, 14-water collecting ring groove, 15-ash screening grate, 16-electric heating ignition device, 17-spiral ash discharging device, 18-movable micro camera, 19-arc PCB, 20-induction button, 21-LCD display screen, 22-eccentric ash screening device, 23-turbo ventilation fan; 24-heat insulation basin, 25-waterproof flanging, 26-tank mouth, 27-tank cover, 28-tank handle, 29-heated round bottom, 30-time-delay doser, 31-conical medicine bin, 32-medicine bin neck, 33-floating ball cover, 34-floating ball stopper, 35-dosing hole, 36-floating ball cross arm, 37-medicine bin cover, 38-ash tray, 39-detachable base, 40-air inlet chamber, 41-air inlet, 42-air outlet, 43-loose-leaf air partition plate, 44-fixed base, 45-eccentric wheel, 46-ash screening motor, 47-eccentric short shaft, 48-ash screening base, 49-conveying pipe, 50-spiral conveying shaft and 51-ash discharging motor; 52-slag separation orifice plate.

Detailed Description

The invention and its advantageous technical effects are explained in further detail below with reference to the drawings and preferred embodiments.

Referring to fig. 1-10, a timing unattended automatic dosing medicine pot comprises a round base 1, a toughened glass medicine pot 2, a controllable charcoal fire heating device 3 and an intelligent controller 4; referring to fig. 1, 6 and 10, the intelligent controller 4 comprises a movable monitoring support 9 which can be placed freely and an intelligent control circuit; the intelligent control circuit comprises an MCU serving as a central processing unit, a wireless network circuit module, an LCD display screen 21, an induction button 20, an infrared temperature detector 12, a movable micro camera 18 and a driving circuit, wherein the wireless network circuit module is connected with the MCU and controlled by the MCU; the movable monitoring support 9 comprises a random bent rod 11 with a base, the infrared temperature detector 12 and the movable miniature camera 18 are both arranged on the random bent rod 11, and when the movable monitoring support 9 is used, the movable monitoring support 9 is placed beside the round base 1, and remote real-time monitoring can be realized through a wireless network and terminal communication equipment; the method is characterized in that: the round base 1 is provided with a detachable base bottom 39, referring to fig. 3, a charcoal fire combustion rack 7 is arranged in the round base 1, a round pit heating groove 8 is arranged in the middle of the charcoal fire combustion rack 7, an ash screening grate 15 is arranged below the round pit heating groove 8 of the charcoal fire combustion rack 7, an electric heating ignition device 16 is embedded on the ash screening grate 15, an ash tray 38 is arranged below the ash screening grate 15 of the round base 1, and air channels are arranged at two sides of the ash tray 38; a heat insulation basin 24 is sleeved outside the round pit heating groove 8, an inverted waterproof flanging 25 is arranged on the edge of the upper part of the heat insulation basin 24, a round boss is formed in the middle of the heat insulation basin 24 in a protruding mode, a water collecting ring groove 14 is formed in the periphery of the round boss at the bottom of the heat insulation basin 24, a round hole 10 is formed in the center of the round boss, and the controllable charcoal fire heating device 3 is arranged below the round hole 10; an air inlet chamber 40 is arranged in the round base 1, and the air inlet chamber 40 is arranged on one side of the bottom of the round base 1; the air inlet chamber 40 is provided with an air inlet 41, an air outlet 42, a hinge air partition plate 43 and a turbine ventilation fan 23, the air inlet 41 is arranged at the bottom of the air inlet chamber 40, the turbine ventilation fan 23 is arranged above the air inlet 41, the air outlet 42 is arranged above the turbine ventilation fan 23, the hinge air partition plate 43 is arranged at the upper part of the air outlet 42 and controls the air outlet 42 to be communicated with or separated from an air channel, and when the turbine ventilation fan 23 works, wind power automatically blows the hinge air partition plate 43 away; referring to fig. 2 to 4, the toughened glass medicine tank 2 comprises a tank mouth 26, a tank cover 27 and a tank handle 28; the tank handle 28 is arranged on the side surface of the toughened glass medicine tank 2, and the upper end of the tank handle 28 is connected with a time-delay medicine feeder 30 which can delay the later medicine feeding and automatically feed the later medicine into the toughened glass medicine tank; the bottom of the toughened glass medicine tank 2 is provided with a heated round bottom 29 with both narrowed inner diameter and outer diameter, and the heated round bottom 29 of the toughened glass medicine tank 2 is placed in the heat insulation basin 24 when in use; referring to fig. 3 to 4, the delayed doser 30 comprises a conical medicine bin 31, a floating ball cover 33, a floating ball stop 34, a dosing hole 35 and a medicine bin cover 37; the medicine bin cover 37 is buckled on the conical medicine bin 31, and the medicine adding hole 35 is arranged at the neck part of the toughened glass medicine tank 2; the conical medicine bin 31 is obliquely connected to the upper end of the tank handle 28, is connected with the tank handle 28 into a whole and is also used as a connecting part between the upper part of the tank handle 28 and the toughened glass medicine tank 2; the bottom of the conical medicine bin 31 is provided with an inclined medicine bin neck 32, and the medicine bin neck 32 is communicated with the medicine feeding hole 35; a floating ball cross arm 36 is arranged on the left side or the right side of the floating ball cover 33, the floating ball cross arm 36 is rotatably hinged on the inner wall of the neck part of the toughened glass medicine tank 2, the floating ball cover 33 covers the medicine adding hole 35 under the buoyancy action of water, and a floating ball stopper 34 for limiting the floating ball cover to float excessively is arranged above the floating ball cross arm 36; the opening of the floating ball cover 33 is controlled by the descending of the water level, when the water level descends, the floating ball cover 33 rotates downwards around a hinge point through the floating ball cross arm 36 under the action of gravity to be separated from the dosing hole 35, and the post-dosing in the dosing hole 35 immediately falls into the toughened glass medicine tank 2 from the conical medicine bin 31; the electric heating ignition device 16 and the turbine ventilation fan 23 are driven by a driving circuit to work.

Referring to fig. 3 to 5, preferably, the inner wall of the heated round bottom 29 is provided with a poison removing silver ring 5, and the wall of the poison removing silver ring 5 is provided with a plurality of alternating current holes 6; a slag isolating pore plate 52 which prevents the contact of the medicine dregs with the heated round bottom 29 and the poison removing silver ring 5 is arranged above the poison removing silver ring 5.

Referring to fig. 2 and 6, preferably, a thermocouple 13 is arranged on the charcoal fire burning rack 7; circle base 1 is inside to be equipped with the arc PCB19 that is used for man-machine to exchange, and arc PCB19 sets up at charcoal fire burning frame 7 side, is located the inboard on round base 1 top, and response button 20 and LCD display screen 21 set up on arc PCB19, and LCD display screen 21 sets up the intermediate position at PCB, and response button 20 evenly distributed is on the PCB of LCD display screen 21 both sides.

Referring to fig. 3, 7 and 8, an eccentric ash screening device 22 for driving the ash screening grate 15 to perform horizontal ash screening is arranged above the ash screening grate 15; the eccentric ash screening device 22 comprises a fixed seat 44, an eccentric wheel 45 and an ash screening motor 46; the ash screening motor 46 is arranged on the fixed seat 44, and the eccentric wheel 45 is driven to rotate by the ash screening motor 46; a plurality of ash screening seats 48 are uniformly distributed on the upper edge of the ash screening fire grate 15 in the circumferential direction, an eccentric short shaft 47 deviating from the axis of the eccentric wheel 45 is arranged on the eccentric wheel 45, and the eccentric short shaft 47 is connected with the ash screening seats 48 through a bearing; the ash screening motor 46 is driven by a driving circuit.

Referring to fig. 3 and 9, the ash tray 38 is provided with a spiral ash discharging device 17 for discharging the furnace ash in the ash receiving hopper out of the round base 1, and the spiral ash discharging device 17 comprises a conveying pipe 49, a spiral conveying shaft 50 arranged in the middle of the conveying pipe 49, and an ash discharging motor 51; the periphery of the spiral conveying shaft 50 is provided with a spiral blade for conveying ash, and the ash discharging motor 51 is arranged at the end part of the spiral conveying shaft 50; the ash discharge motor 51 is driven by a driving circuit.

When in use, a proper amount of charcoal is placed on the ash screening fire grate 15 in the round base 1, the prepared main medicinal materials are placed in the toughened glass medicine tank 2, water is added until the floating ball stop block 34 covers the medicine adding hole 35, and the tank cover 27 is covered; the medicine adding hole 35 is sealed by a floating ball cover 33, the medicine added later is placed in a conical medicine bin 31 of the delayed medicine adding device 30, a medicine bin cover 37 is covered, and then the toughened glass medicine tank 2 is placed on the round bottom seat 1; the fire curve, the automatic starting time and the automatic closing time of the medicine stewing are set through remote setting or through the induction button 20 on the arc-shaped PCB19, and the unattended timing automatic quick medicine stewing can be realized. The intelligent controller 4 controls the wind power by controlling the rotating speed of the turbine ventilation fan 23, the generated wind blows the loose-leaf wind partition plate 43, the larger the wind power is, the larger the space opened by the loose-leaf wind partition plate 43 is, the more the air passes, and the more the charcoal fire is; the turbine ventilation fan 23 is stopped, the hinge air partition plate 43 is closed, the outside air can not enter, the upper part is covered by the heated round bottom 29 of the toughened glass medicine pot 2, and the charcoal is out slowly due to the lack of oxygen. Therefore, the amount of the fire power of the charcoal fire, that is, the adjustment of the so-called slow fire or strong fire, can be adjusted by controlling the turbo ventilation fan 23.

The invention is not limited in any way by the above description and the specific examples, which are not limited to the specific embodiments disclosed and described above, but rather, several modifications and variations of the invention are possible within the scope of the invention as defined in the claims.

Claims (5)

1. A timing unattended automatic dosing medicine pot comprises a round base, a toughened glass medicine pot, a controllable charcoal fire heating device and an intelligent controller; the intelligent controller comprises a movable monitoring bracket which can be placed at will and an intelligent control circuit; the intelligent control circuit comprises an MCU serving as a central processing unit, a wireless network circuit module, an LCD display screen, an induction button, an infrared temperature detector, a movable micro camera and a driving circuit, wherein the wireless network circuit module, the LCD display screen, the induction button, the infrared temperature detector, the movable micro camera and the driving circuit are all connected with the MCU and controlled by the MCU; the movable monitoring support comprises a random bent rod with a base, the infrared temperature detector and the movable miniature camera are arranged on the random bent rod, and when the movable monitoring support is used, the movable monitoring support is placed beside the round-bottom base, so that remote real-time monitoring can be realized through a wireless network and terminal communication equipment; the method is characterized in that: the round base is provided with a detachable base bottom, a charcoal fire burning frame is arranged in the round base, a round pit heating groove is arranged in the middle of the charcoal fire burning frame, an ash screening grate is arranged below the round pit heating groove of the charcoal fire burning frame, an electric heating ignition device is embedded on the ash screening grate, an ash tray is arranged below the ash screening grate on the round base, and air channels are arranged on two sides of the ash tray; the round pit heating groove is externally sleeved with a heat insulation basin, the edge of the upper part of the heat insulation basin is provided with a reversed waterproof flanging, the middle of the heat insulation basin is protruded to form a round boss, the bottom of the heat insulation basin forms a water collecting ring groove around the round boss, the center of the round boss is provided with a round hole, and the controllable charcoal fire heating device is arranged below the round hole; an air inlet chamber is arranged in the round base and is arranged on one side of the bottom of the round base; the air inlet chamber is provided with an air inlet, an air outlet, a hinge air partition plate and a turbine ventilation fan, the air inlet is arranged at the bottom of the air inlet chamber, the turbine ventilation fan is arranged above the air inlet, the air outlet is arranged above the turbine ventilation fan, the hinge air partition plate is arranged at the upper part of the air outlet and controls the air outlet to be communicated with or separated from an air channel, and when the turbine ventilation fan works, the hinge air partition plate is automatically blown away by wind power; the toughened glass medicine pot comprises a pot mouth, a pot cover and a pot handle; the tank handle is arranged on the side surface of the toughened glass medicine tank, and the upper end of the tank handle is connected with a time-delay medicine feeder which can automatically feed the later medicine into the toughened glass medicine tank; the bottom of the toughened glass medicine pot is provided with a heated round bottom with both narrowed inner diameter and outer diameter, and the heated round bottom of the toughened glass medicine pot is placed in the heat insulation basin when in use; the time-delay doser comprises a conical medicine bin, a floating ball cover, a floating ball stop block, a dosing hole and a medicine bin cover; the medicine bin cover is buckled on the conical medicine bin, and the medicine adding hole is formed in the neck of the toughened glass medicine tank; the conical medicine bin is obliquely connected to the upper end of the tank handle, is connected with the tank handle into a whole and is also used as a connecting part between the upper part of the tank handle and the toughened glass medicine tank; the bottom of the conical medicine bin is provided with an inclined medicine bin neck which is communicated with the medicine feeding hole; a floating ball transverse arm is arranged on the left side or the right side of the floating ball cover, the floating ball transverse arm can be rotatably hinged on the inner wall of the neck part of the toughened glass medicine tank, the floating ball cover covers the medicine adding hole under the buoyancy action of water, and a floating ball stop block for limiting the floating ball cover to float excessively is arranged above the floating ball transverse arm; the opening of the floating ball cover is controlled by the falling of the water level, when the water level falls, the floating ball cover rotates downwards around a hinge point through a floating ball cross arm under the action of gravity to be separated from a dosing hole, and the post-dosing in the dosing hole immediately falls into a toughened glass medicine tank from a conical medicine bin; the electric heating ignition device and the turbine ventilation fan are driven by the driving circuit to work.

2. The automatic timed unattended medicine feeding pot as claimed in claim 1, wherein: the inner wall of the heated round bottom is provided with a poison dispelling silver ring, and the wall part of the poison dispelling silver ring is provided with a plurality of alternating current holes; a residue isolating pore plate for preventing the contact of the residue with the heated round bottom and the poison removing silver ring is arranged above the poison removing silver ring.

3. The automatic timed unattended medicine feeding pot according to claim 1 or 2, wherein: a thermocouple is arranged on the charcoal fire combustion rack; inside being equipped with of circle base is used for man-machine to exchange arc PCB, and arc PCB sets up at charcoal fire burning frame side, is located the inboard on round base top, and response button and LCD display screen set up on arc PCB, and the LCD display screen sets up the intermediate position at PCB, and response button evenly distributed is on the PCB of LCD display screen both sides.

4. The automatic timed unattended medicine feeding pot as claimed in claim 3, wherein: an eccentric ash screening device for driving the ash screening grate to perform horizontal ash screening action is arranged above the ash screening grate; the eccentric ash screening device comprises a fixed seat, an eccentric wheel and an ash screening motor; the ash screening motor is arranged on the fixed seat, and the eccentric wheel is driven to rotate by the ash screening motor; a plurality of ash screening seats are uniformly distributed on the upper edge of the ash screening fire grate in the circumferential direction, an eccentric short shaft deviating from the axis of the eccentric wheel is arranged on the eccentric wheel, and the eccentric short shaft is connected with the ash screening seats through a bearing; the ash screening motor is driven by a driving circuit to work.

5. The automatic timed unattended medicine feeding pot as claimed in claim 4, wherein: the ash tray is provided with a spiral ash discharging device which discharges furnace ash in the ash receiving hopper out of the round base, and the spiral ash discharging device comprises a conveying pipe, a spiral conveying shaft arranged in the middle of the conveying pipe and an ash discharging motor; the periphery of the spiral conveying shaft is provided with a spiral blade for conveying ash, and the ash discharging motor is arranged at the end part of the spiral conveying shaft; the ash discharging motor is driven by the driving circuit to work.

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