阅读说明：本技术 一种麸炒苍术饮片的生产工艺 (Production process of bran-fried rhizoma atractylodis decoction pieces ) 是由 刘保杰 高峰 王亚平 胡颖 豆环宇 杨丹丹 杨百艳 于 2021-10-26 设计创作，主要内容包括：本申请涉及苍术饮片加工的技术领域,尤其是涉及一种麸炒苍术饮片的生产工艺,包括以下步骤,S1：除泥,去除苍术表面附着的泥土；S2：净选,去除杂质和非药用部分；S3：清洗润泡,采用清洗润泡一体设备先后对苍术进行冲洗、清理和润泡,直至苍术内外软硬一致；S4：切制,将苍术切成薄片；S5：干燥,对苍术薄片进行烘干,检测苍术薄片所含水分低于10%后,停止烘干并将苍术薄片移至阴凉处自然降温；S6：炒制,先将麸皮放入热锅中炒至冒烟后,加入苍术薄片,翻炒至表面为深黄色,放凉后,得到麸炒苍术饮片。本申请具有提高工作效率的效果。(The application relates to the technical field of processing of rhizoma atractylodis decoction pieces, in particular to a production process of bran-fried rhizoma atractylodis decoction pieces, which comprises the following steps of S1: removing mud, namely removing mud attached to the surface of the rhizoma atractylodis; s2: cleaning and removing impurities and non-medicinal parts; s3: cleaning and soaking, namely washing, cleaning and soaking the rhizoma atractylodis by adopting cleaning and soaking integrated equipment until the hardness of the inside and the outside of the rhizoma atractylodis is consistent; s4: cutting rhizoma Atractylodis into slices; s5: drying, namely drying the rhizoma atractylodis slices, stopping drying and moving the rhizoma atractylodis slices to a shade place for natural cooling after detecting that the moisture content of the rhizoma atractylodis slices is lower than 10%; s6: parching, namely putting bran into a hot pot, parching until smoke is produced, adding rhizoma atractylodis slices, stir-frying until the surface is dark yellow, and cooling to obtain the bran-fried rhizoma atractylodis decoction pieces. This application has the effect that improves work efficiency.)

1. A production process of bran-fried rhizoma atractylodis decoction pieces is characterized by comprising the following steps,

s1: removing mud, namely removing mud attached to the surface of the rhizoma atractylodis;

s2: cleaning and removing impurities and non-medicinal parts;

s3: cleaning and soaking, namely washing, cleaning and soaking the rhizoma atractylodis by adopting a cleaning and soaking integrated device (1) until the hardness of the inside and the outside of the rhizoma atractylodis is consistent;

s4: cutting rhizoma Atractylodis into slices;

s5: drying, namely drying the rhizoma atractylodis slices, stopping drying and moving the rhizoma atractylodis slices to a shade place for natural cooling after detecting that the moisture content of the rhizoma atractylodis slices is lower than 10%;

s6: parching, namely putting bran into a hot pot, parching until smoke is produced, adding rhizoma atractylodis slices, stir-frying until the surface is dark yellow, and cooling to obtain the bran-fried rhizoma atractylodis decoction pieces.

2. The production process of the rhizoma atractylodis decoction pieces stir-fried with bran according to claim 1, which is characterized in that: in step S1, the vibration sieve is used to vibrate the atractylodes rhizome with high frequency to remove mud.

3. The production process of the rhizoma atractylodis decoction pieces stir-fried with bran according to claim 1, which is characterized in that: the cleaning and foam moistening integrated equipment (1) in the step S3 comprises a machine body (11), wherein a washing area (12), a cleaning area (13) and a foam moistening area (14) are sequentially arranged in the machine body (11), a washing device (2) is arranged in the washing area (12), a cleaning device (3) is arranged in the cleaning area (13), and a soaking device (4) is arranged in the foam moistening area (14); a feeding port (15) is arranged at the top of the machine body (11) corresponding to the position of the flushing area (12); a common sewage collecting tank (5) is arranged right below the flushing area (12) and the cleaning area (13).

4. The production process of the rhizoma atractylodis decoction pieces stir-fried with bran according to claim 3, which is characterized in that: the washing device (2) comprises a belt conveyor (21) which is fixed in the washing area (12) and horizontally arranged towards the direction of the cleaning area (13), a plurality of water conveying pipes (23) which are positioned above the belt conveyor (21) and are distributed at equal intervals, and spray heads which are arranged on each water conveying pipe (23) and are arranged towards the belt conveyor (21), wherein the water conveying direction of each water conveying pipe (23) is vertical to the conveying direction of the belt conveyor (21); the feeding port (15) is arranged at the position of the machine body (11) close to the starting end of the belt conveyor (21).

5. The production process of the rhizoma atractylodis decoction pieces stir-fried with bran according to claim 4, which is characterized in that: the spray heads are fan-shaped spray head nozzles, and the spray areas between adjacent fan-shaped spray head nozzles are partially overlapped.

6. The production process of the rhizoma atractylodis decoction pieces stir-fried with bran according to claim 4, which is characterized in that: meshes (24) are processed on a conveying belt of the belt conveyor (21); the machine frames on both sides of the belt conveyor (21) are fixedly connected with baffle plates (22) arranged along the conveying direction.

7. The production process of the rhizoma atractylodis decoction pieces stir-fried with bran according to claim 4, which is characterized in that: the washing area (12) is also internally provided with an adjusting device (6), and the adjusting device (6) comprises an adjusting plate (61) which extends into the machine body (11) and is in sliding fit with the machine body (11) and a positioning assembly (62) for positioning the adjusting plate (61);

the adjusting plate (61) is positioned between the feeding port (15) and the water conveying pipe (23) and is vertical to the belt conveyor (21), and one side, facing the water conveying pipe (23), of the adjusting plate (61) is provided with a plurality of positioning grooves (64) which are vertically arranged at equal intervals;

locating component (62) is including fixing casing (621) on organism (11) outer parietal, one end slides in casing (621) and the other end stretches out casing (621) to outside locating lever (622), connect spring (623) between locating lever (622) and casing (621) inner wall, and rigid coupling just stretches out driving lever (624) of casing (621) towards deviating from organism (11) direction on locating lever (622), casing (621) correspond the position processing that driving lever (624) stretch out and have and supply driving lever (624) towards gliding spout (625) of regulating plate (61), locating lever (622) can be pegged graft in order to fix a position regulating plate (61) in constant head tank (64).

8. The production process of the rhizoma atractylodis decoction pieces stir-fried with bran according to claim 3, which is characterized in that: the cleaning device (3) comprises a bottom plate (31) horizontally arranged towards the direction of the soaking area (14) and a top plate (32) positioned right above the bottom plate (31), and two side plates (33) connected between the bottom plate (31) and the top plate (32), wherein a feeding channel (34) for conveying materials from the washing area (12) to the soaking area (14) is formed among the bottom plate (31), the top plate (32) and the side plates (33), the feeding channel (34) is lower than the conveying terminal of the belt conveyor (21), one opposite side of the bottom plate (31) and the top plate (32) is rotatably connected with a plurality of roller brushes (35), the plurality of roller brushes (35) on the bottom plate (31) and the plurality of roller brushes (35) on the top plate (32) are respectively driven by independent power sources (7), and the rotation direction of the roller brush (35) on the bottom plate (31) is opposite to the rotation direction of the roller brush (35) on the top plate (32).

9. The process for producing rhizoma atractylodis decoction pieces stir-fried with bran according to claim 8, wherein the process comprises the following steps: a first material guide plate (25) is arranged between the belt conveyor (21) and the feeding channel (34).

10. The production process of the rhizoma atractylodis decoction pieces stir-fried with bran according to claim 3, which is characterized in that: the soaking device (4) comprises a purified water tank (41) which is arranged in the soaking area (14) and is lower than the cleaning device (3), and a fishing net woven bag (42) which is arranged in the purified water tank (41) and is used for containing rhizoma atractylodis; a second material guide plate (39) is arranged between the cleaning device (3) and the clean water tank (41).

Technical Field

The application relates to the technical field of processing of rhizoma atractylodis decoction pieces, in particular to a production process of rhizoma atractylodis decoction pieces stir-fried with bran.

Background

Rhizoma atractylodis is a medicinal herb plant and is mainly grown in the area with the altitude of 50-1900 m. After being used as a medicine, the rhizoma atractylodis has the effects of drying dampness, strengthening spleen, dispelling wind and dispelling cold, so that the rhizoma atractylodis is widely used by people.

The rhizoma atractylodis is required to be cleaned, selected, cleaned, soaked and the like in the processing process, at present, the rhizoma atractylodis is cleaned mainly in a manual mode, namely the rhizoma atractylodis is poured into a cleaning pool and is cleaned one by one through a soft brush, at least two times of clean water needs to be replaced in the cleaning process, and due to the fact that the whole cleaning time is long, more manpower is consumed, and the working efficiency is greatly reduced.

In view of the above-mentioned related technologies, the inventor believes that the manual cleaning of the atractylodes rhizome has a drawback of low working efficiency.

Disclosure of Invention

In order to improve the working efficiency, the application provides a production process of rhizoma atractylodis decoction pieces stir-fried with bran.

The application provides a production process of bran-fried rhizoma atractylodis decoction pieces, which adopts the following technical scheme:

a production process of bran-fried rhizoma Atractylodis decoction pieces comprises the following steps,

s1: removing mud, namely removing mud attached to the surface of the rhizoma atractylodis;

s2: cleaning and removing impurities and non-medicinal parts;

s3: cleaning and soaking, namely washing, cleaning and soaking the rhizoma atractylodis by adopting cleaning and soaking integrated equipment until the hardness of the inside and the outside of the rhizoma atractylodis is consistent;

s4: cutting rhizoma Atractylodis into slices;

s5: drying, namely drying the rhizoma atractylodis slices, stopping drying and moving the rhizoma atractylodis slices to a shade place for natural cooling after detecting that the moisture content of the rhizoma atractylodis slices is lower than 10%;

s6: parching, namely putting bran into a hot pot, parching until smoke is produced, adding rhizoma atractylodis slices, stir-frying until the surface is dark yellow, and cooling to obtain the bran-fried rhizoma atractylodis decoction pieces.

Through adopting above-mentioned technical scheme, adopt among the whole process flow of this application to wash, clear up and moist bubble the integrative equipment of washing moist bubble successively to the rhizoma atractylodis, until the inside and outside hardness of rhizoma atractylodis is unanimous, compare in the mode of moist bubble again after present manual cleaning, not only the cleanness of clearance is cleaner, has improved work efficiency moreover greatly.

Preferably, in step S1, the atractylodes lancea is vibrated and collided by a vibrating screen through high frequency vibration to remove mud.

By adopting the technical scheme, the large soil is removed in a high-frequency vibration mode for subsequent treatment.

Preferably, the cleaning and foam moistening integrated equipment in the step S3 includes a machine body, a washing area, a cleaning area and a foam moistening area are sequentially arranged in the machine body, a washing device is arranged in the washing area, a cleaning device is arranged in the cleaning area, and a soaking device is arranged in the foam moistening area; a feeding port is arranged at the top of the machine body corresponding to the position of the flushing area; a shared sewage collecting tank is arranged right below the flushing area and the cleaning area.

Through adopting above-mentioned technical scheme, the back is put in by the dog-house to the rhizoma atractylodis, and washing unit transports the limit to the rhizoma atractylodis and washes simultaneously, then transports in proper order to cleaning device department and clear up the rhizoma atractylodis, transports to soak device department and carries out the moist bubble to the rhizoma atractylodis.

Preferably, the flushing device comprises a belt conveyor fixed in the flushing area and horizontally arranged towards the cleaning area, a plurality of water conveying pipes located above the belt conveyor and distributed at equal intervals, and spray heads installed on each water conveying pipe and arranged towards the belt conveyor, wherein the water conveying direction of each water conveying pipe is perpendicular to the conveying direction of the belt conveyor; the dog-house sets up the position that is close to band conveyer initiating terminal at the organism.

Through adopting above-mentioned technical scheme, the in-process that the band conveyer was carried to the atractylodes root, the shower nozzle is washed the atractylodes root to wash the adnexed earth in atractylodes root surface.

Preferably, the spray head is a fan-shaped spray head nozzle, and the spray areas of the adjacent fan-shaped spray head nozzles are partially overlapped.

Through adopting above-mentioned technical scheme, the intensity greatly increased of the water jet of overlap portion can make and wash more abundant.

Preferably, meshes are processed on the conveying belt of the belt conveyor; the machine frames on the two sides of the belt conveyor are fixedly connected with baffle plates arranged along the conveying direction.

By adopting the technical scheme and the arrangement of the meshes, the used wastewater can directly flow into the sewage collection tank for collection; the main effect of baffle is to carry out the interception to the rhizoma atractylodis, prevents that the rhizoma atractylodis from dropping from one side.

Preferably, an adjusting device is further arranged in the flushing area, and the adjusting device comprises an adjusting plate extending into the machine body and in sliding fit with the machine body and a positioning assembly used for positioning the adjusting plate;

the adjusting plate is positioned between the feeding port and the water conveying pipe and is vertical to the belt conveyor, and one side of the adjusting plate, facing the water conveying pipe, is provided with a plurality of positioning grooves which are vertically arranged at equal intervals;

the locating component comprises a shell fixed on the top wall of the machine body, a locating rod, a spring, a fixed connection and a driving rod, wherein one end of the locating component slides in the shell, the other end of the locating component stretches out of the shell to the outside, the spring is connected between the locating rod and the inner wall of the shell, the fixed connection is arranged on the locating rod and stretches out of the shell towards the direction deviating from the machine body, a sliding groove for the driving rod to slide towards the adjusting plate is machined in the position, where the shell stretches out, corresponding to the driving rod, and the locating rod can be inserted into the locating groove to locate the adjusting plate.

By adopting the technical scheme, the adjusting device is mainly used for controlling the thickness of the rhizoma atractylodis laid on the belt conveyor so as to be matched with the flushing device to clean the rhizoma atractylodis; when the positioning rod is used, the shifting rod is shifted along the sliding groove, and the spring is gradually compressed until the positioning rod is separated from the positioning groove, so that the positioning is released; after the position of the adjusting plate is adjusted, the deflector rod is loosened, so that the positioning rod is inserted into the corresponding positioning groove under the action of the elastic force of the spring, and the adjusting plate is positioned.

Preferably, cleaning device includes the bottom plate towards moist bubble district direction level setting, be located the roof directly over the bottom plate, and connect two blocks of curb plates between bottom plate and roof, the bottom plate, form the pay-off passageway of carrying the material to moist bubble district by the washing district between roof and the curb plate, the pay-off passageway is less than band conveyer's transport terminal, one side that bottom plate and roof are relative all rotates and is connected with a plurality of cylinder brushes, a plurality of cylinder brushes on the bottom plate and a plurality of cylinder brushes on the roof are respectively through independent power supply drive, and the rotation direction of the cylinder brush on the bottom plate is opposite with the rotation direction of the cylinder brush on the roof.

Through adopting above-mentioned technical scheme, when starting the driving source, upper and lower two sets of cylinder brushes rotate towards opposite direction simultaneously for the cylinder brush can cross on the one hand and carry out omnidirectional clearance to the rhizoma atractylodis, and on the other hand can carry the rhizoma atractylodis.

Preferably, a first material guide plate is arranged between the belt conveyor and the feeding channel.

Through adopting above-mentioned technical scheme, the setting of first stock guide makes the rhizoma atractylodis can be carried to the pay-off passageway smoothly in.

Preferably, the soaking device comprises a clean water reservoir which is arranged in the soaking area and is lower than the cleaning device, and a fishing net woven bag which is arranged in the clean water reservoir and is used for containing rhizoma atractylodis; a second material guide plate is arranged between the cleaning device and the clean water tank.

Through adopting above-mentioned technical scheme, after the cleaning work, the atractylodes gets into the clean water reservoir through the second stock guide and carries out the moist bubble, treats that the inside and outside hardness of atractylodes is unanimous, with the fishing net braided bag take out from the clean water reservoir can, simple structure, convenient operation.

In summary, the present application includes at least one of the following beneficial technical effects:

1. according to the method, the rhizoma atractylodis is washed, cleaned and soaked sequentially by adopting the cleaning and soaking integrated equipment until the hardness of the inside and the outside of the rhizoma atractylodis is consistent, so that compared with the conventional mode of soaking after manual cleaning, the cleaning is cleaner, and the working efficiency is greatly improved;

2. adopt two sets of cylinder brushes on the upper and lower sets of cylinder pivoted mode towards opposite direction, can cross on the one hand and carry out omnidirectional clearance to the rhizoma atractylodis, on the other hand can carry the rhizoma atractylodis.

Drawings

FIG. 1 is a schematic view of the overall structure of an integrated apparatus for cleaning and moistening bubbles in the embodiment of the present application;

FIG. 2 is a schematic view showing the structure of a baffle plate and a mesh on a belt conveyor;

FIG. 3 is an enlarged partial schematic view of portion A of FIG. 1;

fig. 4 is a partially enlarged schematic view of a portion B in fig. 1.

Description of reference numerals: 1. cleaning and soaking integrated equipment; 11. a body; 12. a rinsing zone; 13. a cleaning area; 14. a foam moistening area; 15. a feeding port; 2. a flushing device; 21. a belt conveyor; 22. a baffle plate; 23. a water delivery pipe; 24. mesh openings; 25. a first material guide plate; 3. a cleaning device; 31. a base plate; 32. a top plate; 33. a side plate; 34. a feed channel; 35. a roller brush; 36. a rotating shaft; 37. an atomizing nozzle; 38. water permeable holes; 39. a second material guide plate; 4. a soaking device; 41. a clear water tank; 42. a fishing net woven bag; 5. a sewage collection tank; 6. an adjustment device; 61. an adjusting plate; 62. a positioning assembly; 621. a housing; 622. positioning a rod; 623. a spring; 624. a deflector rod; 625. a chute; 63. a handle; 64. positioning a groove; 7. a power source; 71. a gear; 72. and a chain.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a production process of rhizoma atractylodis decoction pieces stir-fried with bran. The production process of the rhizoma atractylodis decoction pieces stir-fried with bran comprises the following steps: s1: removing mud; s2: cleaning and selecting; s3: cleaning and soaking; s4: cutting; s5: drying; s6: and (5) frying.

In step S1, after the atractylodes rhizome is purchased in bulk, the soil attached to the surface of the atractylodes rhizome is removed for subsequent processing; when the rhizoma atractylodis is removed, the rhizoma atractylodis is vibrated and collided to remove mud by adopting a vibrating screen in a high-frequency vibration mode.

In step S2, the atractylodes rhizome is placed on a medicinal material sorting table, and is manually selected to remove impurities, and meanwhile, the non-medicinal parts are removed, and after the sorting is completed, the medicinal material is placed in a designated area, and the impurities are poured into a waste barrel.

Referring to fig. 1, in step S3, the rhizoma atractylodis is cleaned and soaked by the cleaning and soaking integrated device 1; the cleaning and foam moistening integrated equipment 1 comprises a machine body 11, wherein a washing area 12, a cleaning area 13 and a foam moistening area 14 are sequentially arranged in the machine body 11 along the processing direction; a washing device 2 is arranged in the washing area 12 and is mainly used for further removing soil attached to the surface of the rhizoma atractylodis; a cleaning device 3 is arranged in the cleaning area 13 and is mainly used for performing omnibearing fine cleaning on the rhizoma atractylodis; a soaking device 4 is arranged in the soaking area 14 and is mainly used for soaking the cleaned rhizoma atractylodis so as to facilitate the subsequent cutting; a feed port 15 is arranged at the top of the machine body 11 corresponding to the position of the flushing area 12, and the feed port 15 and the machine body 11 are integrally processed and mainly used for feeding materials; a shared sewage collecting tank 5 is arranged right below the flushing area 12 and the cleaning area 13, and the sewage collecting tank 5 is connected with a designated area through a sludge pump and a pipeline and is mainly used for collecting wastewater generated in the processing process of the flushing device 2 and the cleaning device 3.

Referring to fig. 1 and 2, the flushing device 2 includes a belt conveyor 21 installed in the flushing area 12 and horizontally arranged toward the cleaning area 13, and baffles 22 arranged along the conveying direction are fixedly connected to the frames at both sides of the belt conveyor 21 and mainly used for intercepting. The dog-house 15 sets up in the position that organism 11 is close to band conveyer 21 initiating terminal, and the atractylodes can be carried to cleaning device 3 through band conveyer 21 after throwing in through dog-house 15. Many raceway 23 have been distributed to band conveyer 21's top equidistance, the direction of delivery of raceway 23 is mutually perpendicular with band conveyer 21's direction of delivery, the one end of raceway 23 is for closing, the other end is connected with the water source, all install a plurality of shower nozzles on every raceway 23, the shower nozzle is arranged towards band conveyer 21, the in-process that rhizoma atractylodis carried through band conveyer 21, the switch-on water source makes the shower nozzle wash the rhizoma atractylodis to wash the attached earth in rhizoma atractylodis surface. In this embodiment, the fan-shaped nozzles are used, and the areas of the adjacent fan-shaped nozzles are partially overlapped, so that the intensity of the water sprayed in the overlapped part is greatly increased, and the washing can be more sufficient.

In order to prevent the waste water from being conveyed into the cleaning device 3 together with the atractylodes rhizome, meshes 24 are processed on the conveying belt of the belt conveyor 21 so that the waste water flows into the sewage collecting tank 5 to be collected.

Referring to fig. 1 and 3, a regulating device 6 is further arranged in the washing area 12 and is mainly used for controlling the thickness of the rhizoma atractylodis laid on the belt conveyor 21 so as to be matched with the washing device 2 to clean the rhizoma atractylodis. The adjusting device 6 comprises an adjusting plate 61 extending into the machine body 11 and in sliding fit with the machine body 11 and a positioning assembly 62 for positioning the adjusting plate 61; the adjusting plate 61 is positioned between the feeding port 15 and the water conveying pipe 23 and is vertical to the belt conveyor 21, and one end of the adjusting plate 61 exposed outside the machine body 11 is fixedly connected with a handle 63 for facilitating operation of a worker; a plurality of positioning grooves 64 which are vertically arranged at equal intervals are formed in one side of the adjusting plate 61 facing the water conveying pipe 23; the positioning assembly 62 includes a housing 621 fixed on the top wall of the housing 11, a positioning rod 622 having one end sliding in the housing 621 and the other end extending out of the housing 621 to the outside, a spring 623 connected between the positioning rod 622 and the inner wall of the housing 621, and a shift lever 624 fixedly connected to the positioning rod 622, wherein the shift lever 624 extends out of the housing 621 in a direction away from the housing 11, and a sliding slot 625 for the shift lever 624 to slide towards the adjustment plate 61 is formed in the housing 621 corresponding to the position where the shift lever 624 extends; when the spring 623 is in a natural state, one end of the positioning rod 622 is inserted into the positioning groove 64, so that the positioning of the adjusting plate 61 is realized; when the lever 624 is moved along the sliding slot 625, the spring 623 is gradually compressed and the positioning rod 622 is gradually separated from the positioning slot 64, i.e., the positioning is released.

A window is arranged on the machine body 11 corresponding to the position of the adjusting device 6, and a worker can observe the specific position of the adjusting plate 61 through the window so as to adjust the position as required.

Referring to fig. 1 and 4, the cleaning device 3 includes a bottom plate 31 horizontally disposed toward the bubbling region 14, a top plate 32 disposed right above the bottom plate 31, and two side plates 33 connected between the bottom plate 31 and the top plate 32, a feeding channel 34 for conveying the material from the rinsing region 12 to the bubbling region 14 is formed between the bottom plate 31, the top plate 32, and the two side plates 33, one end of the feeding channel 34 close to the rinsing device 2 is a feeding end, the other end away from the rinsing device 2 is a discharging end, the feeding channel 34 is lower than the conveying terminal of the belt conveyor 21, in order to enable the rhizoma atractylodis to be smoothly conveyed into the feeding channel 34, a first material guide plate 25 is disposed between the belt conveyor 21 and the feeding channel 34, and the first material guide plate 25 is fixed on the frame of the belt conveyor 21.

The opposite sides of the bottom plate 31 and the top plate 32 are provided with roller brushes 35, the roller brushes 35 are rotatably connected to the bottom plate 31 and the top plate 32 through a rotating shaft 36, the number of the roller brushes 35 can be set to be multiple according to requirements, and in this embodiment, seven roller brushes 35 are shown and described as an example on the bottom plate 31 or the top plate 32. A plurality of cylinder brushes 35 on the bottom plate 31 are a set of and define for down the brush, and a plurality of cylinder brushes 35 on the roof 32 are a set of and define for last brush, and lower brush is through the drive of a set of independent power supply 7, goes up the brush and drives through another set of independent power supply 7, and the rotation opposite direction of brush and last brush down, and this kind of structural design can be crossed and carry out the omnidirectional clearance to the rhizoma atractylodis on the one hand, and on the other hand can carry the rhizoma atractylodis.

Referring to fig. 1 and 4, the power source 7 includes, but is not limited to, gears 71, chains 72, and motors, the gears 71 correspond to the rotating shafts 36 one by one and are fixedly connected to the rotating shafts 36, the gears 71 on each group of rotating shafts 36 are connected by one chain 72, the motor is installed outside the machine body 11, and an output shaft of the motor is connected to one of the rotating shafts 36, when the motor is started, the gears 71 and the chains 72 transmit power to each roller brush 35, so as to drive the roller brushes 35.

The lower surface of the top plate 32 near the feed end is machined with a ramp to flare the feed end of the cleaning device 3 for feeding. And an atomizing nozzle 37 is arranged on the lower surface of the top plate 32 and between the adjacent roller brushes 35 and used for assisting the roller brushes 35 in cleaning the rhizoma atractylodis. A water permeable hole 38 is formed on the bottom plate 31, and sewage water for cleaning the rhizoma atractylodis flows into the sewage collecting tank 5 through the water permeable hole 38.

Referring to fig. 1, the soaking device 4 comprises a clean water tank 41 which is arranged on the inner bottom wall of the soaking area 14 and is lower than the cleaning device 3, clean water is periodically replaced in the clean water tank 41, and a fishing net woven bag 42 for containing rhizoma atractylodis is sleeved in the clean water tank 41. In order to smoothly convey the rhizoma atractylodis into the clean water reservoir 41, a second material guiding plate 39 is arranged between the cleaning device 3 and the clean water reservoir 41, the second material guiding plate 39 is fixed at one end of the bottom plate 31, and the cleaned rhizoma atractylodis can enter the clean water reservoir 41 through the second material guiding plate 39 to be soaked.

In step S4, the soaked rhizoma atractylodis is poured into a rotating disk type herbal medicine slicing machine, the slicing thickness is adjusted to 2-3cm, the distance between the blades needs to be adjusted in time and the blades need to be sharpened during slicing, so as to reduce the generation of damaged blades, and after the slicing is completed, the rhizoma atractylodis is handed over to the next procedure.

In step S5, drying the rhizoma atractylodis slice by using an oven, before drying, spreading the rhizoma atractylodis slice on a tray, controlling the thickness of the tray to be 2-3cm, after finishing the tray loading, placing the tray in the oven, setting the drying temperature to be 80 ℃, opening a moisture discharge valve to discharge moisture every 40 minutes in the drying process, controlling the time to be 3-5 minutes, and when detecting that the moisture content in the rhizoma atractylodis slice is lower than 10%, stopping drying and moving the rhizoma atractylodis slice to a cool place to naturally cool.

In step S6, parching rhizoma Atractylodis with herbal medicine parching machine; during frying, preheating a medicine frying machine, then putting bran into a hot pot for frying until smoke is produced, then adding the rhizoma atractylodis slices, stir-frying the rhizoma atractylodis slices until the surface is dark yellow, taking out the rhizoma atractylodis slices, standing and cooling to obtain the rhizoma atractylodis decoction pieces fried with bran.

Adopt among the whole process flow of this application to wash, clear up and moist bubble the integrative equipment 1 of washing moist bubble successively to the rhizoma atractylodis, until the inside and outside hardness of rhizoma atractylodis unanimously, compare in the mode of moist bubble again after present manual cleaning, not only clear up cleaner, improved work efficiency moreover greatly.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.