CN214553986U

CN214553986U - Moxa making devices

Info

Publication number: CN214553986U
Application number: CN202120214252.XU
Authority: CN
Inventors: 祝失
Original assignee: Hangzhou Xinhan Moxibustion Technology Co ltd
Current assignee: HANGZHOU XINHAN OPTOELECTRONICS TECHNOLOGY CO.,LTD.
Priority date: 2021-01-26
Filing date: 2021-01-26
Publication date: 2021-11-02
Anticipated expiration: 2031-01-26

Abstract

The utility model discloses a moxa production device, which comprises a controller, a controller and a controller, wherein the controller is used for sending a control instruction; the grinding device is used for grinding the folium artemisiae argyi and is connected with the controller; the moxa residue separation device is used for screening moxa residues outside the moxa ball and is connected with the controller; the hitting device is used for screening moxa residues wrapped in the moxa ball and is connected with the controller; the material conveying belt is used for conveying materials and is connected with the striking device; the first feeding device is used for transferring materials and is connected with the material conveying belt; the second feeding device is used for transferring materials and is connected with the grinding device; the third feeding device is used for transferring materials and is connected with the fluff residue separation device; the first driving motor is used for driving the material conveying belt to work and is connected with the controller; the utility model rubs the moxa leaves by the grinding device, so as to keep the moxa fiber not to be damaged to the maximum extent and improve the production quality; through fine hair sediment separator, can be more efficient screen the chinese mugwort sediment, the screening efficiency is high.

Description

Moxa making devices

Technical Field

The utility model relates to a plant fiber draws technical field, especially relates to a moxa making devices.

Background

Moxa used in moxibustion of ancient physicians is prepared by repeatedly kneading folium Artemisiae Argyi with hands like plait, so that long fiber of moxa is not damaged, mesophyll is stripped from fiber of moxa, and moxa is prepared by burning long fiber of moxa, wherein moxa burning is used for treating diseases, and mesophyll and petiole burning are used for damaging channels and collaterals. Therefore, long fiber of moxa is kept as much as possible, while mesophyll and petiole are peeled off from the fiber of moxa, and the peeled mesophyll and petiole are kneaded into powder and then sieved.

In the prior art, the moxa is extracted mostly in a manual process mode, and although some moxa production is performed by using a machine, the automatic production is difficult to realize really, a technician is often required to be arranged on a production line, so that a large amount of manpower resources are wasted, and the moxa manufacturing cost is increased.

For example, the invention patent of 'low-temperature stone-milled moxa extraction equipment and production process thereof' disclosed in Chinese patent has the following patent numbers: CN201710449195.1, which comprises a dust remover, a short fiber collector and three sets of moxa extraction devices connected in sequence, wherein the moxa extraction device consists of a movable first spiral feeder, a movable second spiral feeder, a movable third spiral feeder, a movable first rotary separator, a movable second rotary separator, a movable third rotary separator, a movable vertical electric stone mill grinder, a movable electric stone mill middle grinder, a movable electric stone mill fine grinder, a bamboo wind centrifugal coarse drum screen, a bamboo wind centrifugal fine drum screen and a bamboo closed air separation moxa purification screen; the first spiral feeding device is connected with the vertical electric stone mill grinding machine, a first discharge port is arranged at the bottom of the vertical electric stone mill grinding machine, the vertical electric stone mill grinding machine is driven by a driving motor and is connected and communicated with the first rotary separator and the bamboo and wood wind centrifugal coarse drum screen through a first feed delivery pipe, a first negative pressure fan is arranged on the first plastic pipe, the screened coarse materials are connected and communicated with the flat electric stone mill middle grinding machine through the second spiral feeding device, a first material receiving groove is arranged at the discharge port of the flat electric stone mill middle grinding machine, the first material receiving groove is connected and communicated with the second rotary separator and the bamboo and wood wind centrifugal fine drum screen through a second feed delivery pipe, a second negative pressure fan is arranged on the second feed delivery pipe, the screened coarse materials are connected with the flat electric stone mill fine grinding machine through the third spiral feeding device, the discharge gate department of flat electronic stone mill fine grinding machine be equipped with the second and connect the silo, the fine material that grinds out through the third conveying pipeline in proper order with third rotary separator and the closed selection by winnowing moxa purification sieve of bamboo wood system link to each other, the third conveying pipeline on be equipped with the third negative pressure fan, the dust remover respectively through first dust absorption pipeline and second dust absorption pipeline with first rotary separator, second rotary separator, third rotary separator link to each other, the short velvet collector through fine velvet collecting pipeline with the closed selection by winnowing moxa purification sieve of bamboo wood system link to each other, the closed selection by winnowing moxa purification sieve of bamboo wood system on be equipped with the second discharge gate. The moxa extraction equipment of this application can't accomplish real unmanned automatic production, and the equipment that uses can't carry out small regulation and control, destroys the long fiber easily in the manufacturing process of moxa, and is lower to the screening degree of moxa sediment, and the moxa purity of making is low.

Disclosure of Invention

The utility model mainly solves the problem of low purity of moxa produced in the moxa production process in the prior art; the utility model provides a moxa making devices realizes the automated production of moxa, furthest keeps the long fiber of folium artemisiae argyi, and the screening efficiency is high, and the moxa purity of making is high.

The above technical problem of the present invention can be solved by the following technical solutions: a moxa production device comprises a controller, a controller and a controller, wherein the controller is used for sending a control instruction; the grinding device is used for grinding the folium artemisiae argyi and is connected with the controller; the moxa residue separation device is used for screening moxa residues outside the moxa ball and is connected with the controller; the hitting device is used for screening moxa residues wrapped in the moxa ball and is connected with the controller; the material conveying belt is used for conveying materials and is connected with the striking device; the first feeding device is used for transferring materials and is connected with the material conveying belt; the second feeding device is used for transferring materials and is connected with the grinding device; the third feeding device is used for transferring materials and is connected with the fluff residue separation device; and the first driving motor is used for driving the material conveying belt to work and is connected with the controller. Control the manufacture process of moxa through the controller, realize the automated production of moxa, need not to be equipped with material loading workman and technical staff, reduce manpower resources's waste, simultaneously, carry out the regulation control of different degrees to the manufacture process of moxa, can furthest remain the long fiber of folium artemisiae argyi, the screening efficiency is high for the moxa purity of making is higher.

As preferred, grinder include base, runner stone, lower mill, receive pocket and second driving motor, receive the pocket setting in the upper end of base, lower mill fixed mounting is in receiving the pocket, be formed with the receipts silo when lower mill is installed in receiving the pocket, it has the discharge gate to receive the silo to open, the runner stone sets up the top at the lower mill, be provided with the gap between runner stone and the lower mill, the runner stone is provided with the feeding chamber that link up from top to bottom, the runner stone is connected with second driving motor, second driving motor's control end is connected with the controller. In the production process of moxa, a plurality of times of grinding are required, after each grinding, the proportion of moxa and moxa dregs is different, meanwhile, the quality of the moxa leaves is also different, the quality parameters of the moxa leaves and the proportion of the moxa and the moxa dregs are input into a controller, the controller presets the size of a gap of a grinding mechanism through an adjusting device, meanwhile, a second driving motor is started to drive the grinding mechanism to rotate at a certain rotating speed to grind the moxa leaves, in the grinding process, the method of manually twisting braids by a human is fully simulated, the moxa leaves are rubbed, the moxa wool fibers are kept to be not damaged to the maximum extent, meanwhile, the mesophyll is stripped from the moxa fibers to be powder, the grinding mechanism is a stone mill, the moxa leaves are cold-crushed, the effective components of the moxa wool and the moxa powder are prevented from being damaged by high temperature, the curative effect is influenced, and the moxa leaves are not contacted with metal in the whole process from the beginning of grinding to the separation, prevent the change of the physical and chemical properties of the moxa and improve the production quality of the moxa.

Preferably, the grinding device further comprises a material pushing plate, a connecting rod, a material scraping plate and a fence, wherein the fence is fixedly installed at the upper end of the upper grinding disc, the connecting rod is fixedly connected with the material receiving pocket, the material scraping plate is fixedly connected with the connecting rod, the material scraping plate is abutted against the upper grinding disc, the material pushing plate is arranged in the material receiving groove, and the material pushing plate is fixedly connected with the upper grinding disc. The prior art also has to set up on the head stone and scrapes material mechanism, but current scrape material mechanism often all with pivot fixed connection, and the pivot drives the head stone when rotating and scrapes material mechanism and rotate simultaneously, scrapes material mechanism so and just hardly plays the effect of scraping the material, and the utility model discloses a scrape the flitch and pass through the connecting rod and be connected with the border of receiving the pocket, scrape the flitch and can not rotate along with the rotation of head stone, when the head stone rotates, scrape the flitch and be in the original position, scrape in the inlet port with chinese mugwort leaf or the moxa on the head stone up end, reduce the waste of raw materials, reduction in production cost.

Preferably, the feeding cavity is spiral, the surface of the spiral feeding hole contacting with the folium artemisiae argyi is provided with inverse triangular textures, and the lower end face of the upper grinding disc and the upper end face of the lower grinding disc are both provided with inverse triangular textures. Present feed inlet all is smooth basically, does not have sufficient frictional force to the chinese mugwort leaf, only can flatten a large amount of chinese mugwort leaves, and the chinese mugwort leaf flattens and just can not move, will stop up the feed inlet, just must the people manually draw out the flattened chinese mugwort leaf, so relapse delay production, and every stone mill just must join in marriage a manual work moreover, consequently can't large-scale production, influences the production efficiency of chinese mugwort fine hair, and the utility model discloses set up the texture of down the triangle at the feed inlet for the feed inlet has sufficient frictional force, can rub into the braid the chinese mugwort leaf of feeding into, can not press from both sides the material, can realize automatic feed, can realize large-scale production, improves production efficiency.

Preferably, the fluff residue separation device comprises a fixing support, a first-stage cylindrical sieve, a second-stage cylindrical sieve, a third-stage cylindrical sieve and a third driving motor, wherein the first-stage cylindrical sieve, the second-stage cylindrical sieve, the third-stage cylindrical sieve and the third driving motor are all installed on the fixing support, the first-stage cylindrical sieve, the second-stage cylindrical sieve and the third-stage cylindrical sieve are all connected with the third driving motor, a control end of the third driving motor is connected with a controller, the first-stage cylindrical sieve is connected with the second-stage cylindrical sieve, the second-stage cylindrical sieve is connected with the third-stage cylindrical sieve, a first-stage screen mesh is arranged on the first-stage cylindrical sieve, a second-stage screen mesh is arranged on the second-stage cylindrical sieve, a third-stage screen mesh is arranged on the third-stage cylindrical sieve, screen meshes of the first-stage screen mesh are smaller than meshes of the second-stage screen mesh, and screen meshes of the second-stage screen mesh are smaller than meshes of the third-stage screen mesh. The moxa wool separation device is characterized in that a first-stage cylindrical sieve, a second-stage cylindrical sieve and a third-stage cylindrical sieve are arranged, sieve pores are formed from the first-stage sieve to the third-stage sieve, the moxa wool is gradually enlarged and is gradually enlarged along with rotation, as long as the degree of enlargement of the moxa wool is greater than the pore diameter of the sieve pores, the moxa wool is kept in the cylindrical sieve and cannot be sieved off, when materials enter from a feed inlet, the whole separation mechanism is in a rotating state or a stopping state, no matter which state the separation mechanism is in, as long as the sieve pores of the first-stage sieve are designed to be smaller, the moxa wool in the materials is difficult to drop out from the sieve pores, and along with the rotation of the first-stage cylindrical sieve, the materials in the cylindrical sieve rotate, the moxa wool is gradually enlarged along with the rotation, and the moxa slag has certain hardness, cannot be agglomerated, is originally large along with the size, along with the rotation, and is large, therefore, as the first-stage cylindrical sieve rotates, the moxa slag smaller than the sieve pores can be sieved, and along with holding a ball of moxa, the moxa piece slowly grow gets into second grade drum sieve and tertiary drum sieve for the moxa sediment is slowly fallen by the sieve, and in whole screening process, the at utmost has remain the moxa in the material, reduces the volume that the moxa was fallen by the sieve, improves the screening efficiency of drum sieve, reduces moxa cost of manufacture.

Preferably, the fluff residue separating device further comprises a weighing device and an electric push rod, the weighing device is installed at the bottom of the fixing support and used for detecting the mass of the separated moxa residue, the weighing device is connected with the controller, the controller is connected with the driving device, the electric push rod is arranged on the fixing support, the control end of the electric push rod is connected with the controller, and the output end of the electric push rod is connected with the first-level cylindrical sieve. In the manufacturing process of moxa, need pass through the screening many times, during every screening, the proportion of moxa and chinese mugwort sediment is all different, through the proportion size of acquireing chinese mugwort sediment, according to the material quality that drops into, the controller can obtain the quality size of chinese mugwort sediment, when the material major part in the separating mechanism has all reached tertiary drum sieve, if the chinese mugwort sediment quality size that weighing device called is less, then the accessible controller improves the rotational speed of drum sieve, increases the centrifugal acceleration of material, increases centrifugal force for chinese mugwort sediment can be as early as possible sifted out.

Preferably, needle-shaped bulges are arranged on the sieve pores of the first-stage sieve, the second-stage sieve and the third-stage sieve. Because the moxa is that to have certain softness, and the moxa sediment is the hardness material, when one-level cylinder sieve, second grade cylinder sieve and tertiary cylinder sieve are at the pivoted in-process, although the moxa cluster is hardly sieved from the sieve mesh, but along with the change of rotational speed, still have some moxa to come too late to the cluster, probably along with the effect of centrifugal force, get into in the sieve mesh, and set up acicular arch in the sieve mesh, even if the moxa has got into the sieve mesh, also can be caught by acicular arch, the moxa can't be thrown out from the sieve mesh, be blockked by acicular arch, reduce the loss of moxa, reduce moxa manufacturing cost.

Preferably, the striking device comprises a fourth driving motor, a rotating mechanism, a wooden feather and a base frame, the rotating mechanism is rotatably mounted on the base frame, the fourth driving motor is mounted on the base frame, the rotating mechanism is connected with an output shaft of the fourth driving motor, a control end of the fourth driving motor is connected with the controller, the wooden feather is provided with a plurality of parts, and the wooden feather is mounted on the rotating mechanism. Be provided with the casing outside, the casing is provided with the mesh that has certain inclination, the moxa sediment of parcel in moxa briquette inside, and the moxa sediment of adhering to on the moxa fibre, it is unable to get rid of totally through reciprocating sieve and drum sieve, utilize wooden feather to break up the moxa briquette, and break up the moxa sediment of adhering to on the moxa fibre, wooden feather can produce wind when rotating, blow off the moxa sediment from the moxa fibre, the moxa sediment can be followed the mesh of inclination and sieved out, and although the moxa fibre is broken up, but because the mesh has the inclination, can not be followed the mesh and sieved, this mechanism just can remove the moxa sediment, furthest remains the moxa simultaneously.

The utility model has the advantages that: (1) the whole device can realize unmanned automatic production of moxa and automatic production of moxa; (2) the folium artemisiae argyi is grated through the grinding device, so that the moxa fiber is kept to the maximum extent and is not damaged, and the production quality is improved; (3) through the fluff residue separation device, the moxa residue can be screened more efficiently, and the screening efficiency is high; (4) the moxa residue in the moxa ball is screened out by the beating device, so that the purity of the manufactured moxa is higher.

Drawings

Fig. 1 is a schematic structural view of a polishing apparatus according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of the fluff residue separation device according to the embodiment of the present invention.

Fig. 3 is a schematic structural view of the striking device according to the embodiment of the present invention.

In the figure, the device comprises a base 1, a base 2, a material receiving pocket 3, a lower grinding disc 4, an upper grinding disc 5, a feeding cavity 6, a fence 7, a discharge hole 8, a rotating shaft 9, a connecting rod 10, a scraping plate 11, a material pushing plate 12, a fixing support 13, a first-level cylindrical screen 14, a second-level cylindrical screen 15, a third-level cylindrical screen 16, a third driving motor 17, a motor mounting base 18, a transmission belt 19, a driven wheel 20, a nylon wheel 21, a directional wheel 22, a base frame 23, a rotating mechanism 24, a fourth driving motor 25 and a wooden feather.

Detailed Description

The technical solution of the present invention is further specifically described below by way of examples and with reference to the accompanying drawings.

Example (b): a moxa production device comprises a controller, a controller and a controller, wherein the controller is used for sending a control instruction; the grinding device is used for grinding the folium artemisiae argyi and is connected with the controller; the moxa residue separation device is used for screening moxa residues outside the moxa ball and is connected with the controller; the hitting device is used for screening moxa residues wrapped in the moxa ball and is connected with the controller; the material conveying belt is connected with a first driving motor, and the control end of the first driving motor is connected with a controller.

As shown in figure 1, the grinding device comprises a base 1, an upper grinding disc 4, a lower grinding disc 3, a material receiving pocket 2, a second driving motor, a material pushing plate 11, a connecting rod 9, a material scraping plate 10 and a fence 6, wherein the material receiving pocket 2 is arranged at the upper end of the base 1, the lower grinding disc 3 is fixedly arranged in the material receiving pocket 2, a material receiving groove is formed when the lower grinding disc 3 is arranged in the material receiving pocket 2, the material receiving groove is provided with a discharge hole 7, the upper grinding disc 4 is arranged above the lower grinding disc 3, a gap is arranged between the upper grinding disc 4 and the lower grinding disc 3, the upper grinding disc 4 is provided with a feeding cavity 5 which is communicated up and down, the upper grinding disc 4 is connected with the second driving motor through a rotating shaft 8, the control end of the second driving motor is connected with a controller, the fence is fixedly arranged at the upper end of the upper grinding disc 4, the connecting rod is fixedly connected with the material receiving pocket 2, the material scraping plate is fixedly connected with the connecting rod, the scraping plate is abutted against the upper grinding disc 4, the material pushing plate is arranged in the material receiving groove, the material pushing plate is fixedly connected with the upper grinding disc 4, the shape of the feeding cavity is spiral, the surface of the spiral feeding hole, which is contacted with the folium artemisiae argyi, is provided with inverse triangular textures, and the lower end surface of the upper grinding disc 4 and the upper end surface of the lower grinding disc 3 are both provided with inverse triangular textures.

As shown in fig. 2, the lint separating device comprises a fixing support 12, a first-stage cylindrical sieve 13, a second-stage cylindrical sieve 14, a third-stage cylindrical sieve 15, a third driving motor 16, a transmission belt 18, a bearing, a driven wheel 19, a nylon wheel 20, a directional wheel 21, a weighing device and an electric push rod, wherein the bearing is mounted on the fixing support 12, the first-stage cylindrical sieve, the second-stage cylindrical sieve and the third-stage cylindrical sieve are mounted on the fixing support, the fixing support is provided with a motor mounting base 17, the third driving motor is mounted on the motor mounting base, the first-stage cylindrical sieve, the second-stage cylindrical sieve and the third-stage cylindrical sieve are connected with the third driving motor, a control end of the third driving motor is connected with a controller, the first-stage cylindrical sieve is connected with the second-stage cylindrical sieve, the second-stage cylindrical sieve is connected with the third-stage cylindrical sieve, the first-stage cylindrical sieve is provided with the first-stage screen, the second-stage cylindrical sieve is provided with the third-stage screen, the sieve pores of the first-stage sieve mesh are smaller than those of the second-stage sieve mesh, the sieve pores of the second-stage sieve mesh are smaller than those of the third-stage sieve mesh, the weighing device is arranged at the bottom of the fixed support and used for detecting the mass of the separated moxa slag, the weighing device is connected with the controller, the controller is connected with the driving device, the electric push rod is arranged on the fixed support, the control end of the electric push rod is connected with the controller, the output end of the electric push rod is connected with the first-stage cylindrical sieve, the first-stage sieve mesh, needle-shaped bulges are arranged on the sieve pores of the second-level sieve mesh and the third-level sieve mesh, the driven wheel is fixedly arranged on a bearing and is connected with an output shaft of a third driving motor through a transmission belt, two nylon wheels are arranged on the bearing, two directional wheels are arranged on the other side of the cylindrical sieve opposite to the bearing, and the directional wheels are connected with the nylon wheels through a guard ring.

As shown in fig. 3, the striking device includes a fourth driving motor 24, a rotating mechanism 23, a wooden feather 25 and a base frame 22, the rotating mechanism is rotatably mounted on the base frame, the fourth driving motor is mounted on the base frame, the rotating mechanism is connected with an output shaft of the fourth driving motor, a control end of the fourth driving motor is connected with the controller, the wooden feather is provided with a plurality of wooden feathers, and the plurality of wooden feathers are mounted on the rotating mechanism.

The hitting device is externally provided with a shell, the shell is provided with a sieve mesh with a certain inclination angle, and the moxa residues are thrown out of the sieve mesh.

In the specific application, firstly, dry folium artemisiae argyi is selected, the dry folium artemisiae argyi is placed into a feeding cavity of a grinding device, the quality parameters of the folium artemisiae argyi and the ratio of moxa wool to moxa slag are input into a controller, the size of a gap of the grinding mechanism is preset by the controller through an adjusting device, meanwhile, a second driving motor is started, the grinding mechanism is driven to rotate at a certain rotating speed to grind the folium artemisiae argyi, in the grinding process, the mode of manually twisting the moxa rope by a human is fully simulated, the folium artemisiae argyi is rubbed, the moxa wool fibers are kept from being damaged to the maximum extent, meanwhile, mesophyll is peeled from the moxa wool fibers to be powder, after a period of grinding, the material mixed with the moxa slag enters a material receiving groove, the material in the material receiving groove is pushed to a feeding hole of a second feeding device from a discharging hole of the grinding device through a material pushing plate fixedly connected with a grinding disc 4, and enters a moxa slag separating device through the discharging hole of the second feeding device, the moxa wool enters the first-stage cylindrical sieve from a feed port of the first-stage cylindrical sieve, along with the rotation of the cylindrical sieve, the moxa wool begins to be agglomerated and cannot be thrown out of the cylindrical sieve, the moxa slag smaller than the sieve pores can be thrown out of the sieve pores, the moxa slag outside the moxa wool agglomeration is removed, the moxa wool in the material is retained to the maximum extent, the amount of the moxa wool which is screened off is reduced, when part of the moxa wool does not reach the agglomeration and is thrown into the sieve pores, needle-shaped protrusions are arranged in the sieve pores and hooked by the needle-shaped protrusions, the moxa wool cannot be thrown out of the sieve pores and blocked by the needle-shaped protrusions, the loss of the moxa wool is reduced, after the material is discharged from a discharge port of the third-stage cylindrical sieve, the material enters a beating device through a third feeding device and enters from the feed port of the shell, a rotating mechanism is similar to the shape of a waterwheel, the wood feather drives the wood to beat the moxa wool agglomeration blocks, the moxa slag attached to the moxa wool fibers is beaten, and the wood of the feather can generate wind when the feather rotates, blow down the chinese mugwort sediment from the chinese mugwort fine hair fibre, the chinese mugwort sediment can be followed the mesh of having the inclination and sifted out, and the chinese mugwort fine hair fibre is broken up, but because the mesh has the inclination, can not be followed the mesh and sifted out, the material is gone out the back from the discharge gate of casing, get back to grinder through the material conveyer belt, size and the rotational speed of last mill 4 of grinder's grinding gap are adjusted to the controller, adjust the rotational speed of drum sieve and the inclination of drum sieve, adjust slewing mechanism's rotational speed, repeatedly carry out 7 times the grinding, coarse screen and fine screen, finally obtain pure chinese mugwort fine hair.

The above-described embodiments are only preferred embodiments of the present invention, and are not intended to limit the present invention in any way, and other variations and modifications may be made without departing from the scope of the claims.

Claims

1. A moxa production device is characterized by comprising

The controller is used for sending out a control instruction;

the grinding device is used for grinding the folium artemisiae argyi and is connected with the controller;

the moxa residue separation device is used for screening moxa residues outside the moxa ball and is connected with the controller;

the hitting device is used for screening moxa residues wrapped in the moxa ball and is connected with the controller;

the material conveying belt is used for conveying materials and is connected with the striking device;

the first feeding device is used for transferring materials and is connected with the material conveying belt;

the second feeding device is used for transferring materials and is connected with the grinding device;

the third feeding device is used for transferring materials and is connected with the fluff residue separation device;

and the first driving motor is used for driving the material conveying belt to work and is connected with the controller.

2. The moxa production device according to claim 1,

the grinding device comprises a base, an upper grinding disc, a lower grinding disc, a material receiving pocket and a second driving motor, the material receiving pocket is arranged at the upper end of the base, the lower grinding disc is fixedly installed in the material receiving pocket, a material receiving groove is formed when the lower grinding disc is installed in the material receiving pocket, a discharge hole is formed in the material receiving groove, the upper grinding disc is arranged above the lower grinding disc, a gap is formed between the upper grinding disc and the lower grinding disc, a feeding cavity which is communicated up and down is formed in the upper grinding disc, the upper grinding disc is connected with the second driving motor, and the control end of the second driving motor is connected with a controller.

3. The moxa production device according to claim 2,

the grinding device further comprises a material pushing plate, a connecting rod, a material scraping plate and a fence, wherein the fence is fixedly installed at the upper end of the upper grinding disc, the connecting rod is fixedly connected with the material receiving pocket, the material scraping plate is fixedly connected with the connecting rod, the material scraping plate is abutted against the upper grinding disc, the material pushing plate is arranged in the material receiving groove, and the material pushing plate is fixedly connected with the upper grinding disc.

4. The moxa production device according to claim 3,

the feeding cavity is spiral in shape, the spiral feeding cavity is provided with reverse triangular textures on one surface contacting with the folium artemisiae argyi, and the lower end face of the upper grinding disc and the upper end face of the lower grinding disc are both provided with reverse triangular textures.

5. The moxa production device according to claim 1 or 2,

the fluff residue separation device comprises a fixing support, a first-stage cylindrical sieve, a second-stage cylindrical sieve, a third-stage cylindrical sieve and a third driving motor, wherein the first-stage cylindrical sieve, the second-stage cylindrical sieve, the third-stage cylindrical sieve and the third driving motor are all installed on the fixing support, the first-stage cylindrical sieve, the second-stage cylindrical sieve and the third-stage cylindrical sieve are all connected with the third driving motor, a control end of the third driving motor is connected with a controller, the first-stage cylindrical sieve is connected with the second-stage cylindrical sieve, the second-stage cylindrical sieve is connected with the third-stage cylindrical sieve, a first-stage screen mesh is arranged on the first-stage cylindrical sieve, a second-stage screen mesh is arranged on the second-stage cylindrical sieve, a third-stage screen mesh is arranged on the third-stage cylindrical sieve, screen meshes of the first-stage screen mesh are smaller than meshes of the second-stage screen mesh, and screen meshes of the second-stage screen mesh are smaller than meshes of the third-stage screen mesh.

6. The moxa production device according to claim 5,

the fine hair sediment separator still includes weighing device and electric putter, the weighing device is installed in the fixed bolster bottom, the weighing device is used for detecting the size of the chinese mugwort sediment quality of separation, the weighing device is connected with the controller, the controller is connected with drive arrangement, electric putter sets up on the fixed bolster, electric putter's control end is connected with the controller, electric putter's output and one-level drum sieve are connected.

7. The moxa production device according to claim 5,

needle-shaped bulges are arranged on the sieve pores of the first-stage sieve mesh, the second-stage sieve mesh and the third-stage sieve mesh.

8. The moxa production device according to claim 1,

the hitting device comprises a fourth driving motor, a rotating mechanism, a wooden feather and a base frame, wherein the rotating mechanism is rotatably installed on the base frame, the fourth driving motor is installed on the base frame, the rotating mechanism is connected with an output shaft of the fourth driving motor, a control end of the fourth driving motor is connected with a controller, the wooden feather is provided with a plurality of wooden feathers, and the wooden feather is installed on the rotating mechanism.