CN116116697A - Preparation process and preparation equipment of agastache rugosa vital energy powder - Google Patents

Abstract

The invention relates to the technical field of preparation of agastache powder, in particular to a preparation process of agastache powder and preparation equipment thereof, wherein the preparation equipment comprises a preparation cavity, a feed pipe, a filter cylinder and a suction mechanism, after the filter screen can not continuously adsorb powder, the part of the filter cylinder, which does not adsorb the powder, can be cleaned by moving the filter cylinder, so that the powder can be continuously screened under the condition that the equipment does not need to be stopped, the screening efficiency of the powder is improved, the cleaned filter cylinder can be repeatedly used by a cleaning component, the cleaning component is driven by the rotation of a recovery platform, the cleaning effect on the inner wall of the filter cylinder is improved, meanwhile, the powder can better slide off by the rotating recovery platform, the powder is not easy to adhere to the recovery platform, the recovery efficiency of the powder is further improved, and the recovered powder can be conveyed into a grinding device for secondary grinding by the arrangement of a recovery channel and recovery holes, so that automatic circulation operation is formed, and the operation efficiency is improved.

Description

Preparation process and preparation equipment of agastache rugosa vital energy powder

Technical Field

The invention relates to the technical field of preparation of agastache zhengqi powder, in particular to a preparation process and preparation equipment of agastache zhengqi powder.

Background

The agastache powder is a traditional Chinese medicine prescription name, is a damp-clearing agent, has the effects of relieving exterior syndrome, resolving dampness, regulating vital energy and regulating middle warmer, is generally solid, is prepared by grinding and stirring various traditional Chinese medicines together, and is required to be screened by a screening machine after grinding.

Disclosure of Invention

According to the preparation process and the preparation equipment of the agastache rugosa healthy-energy powder, after powder cannot be adsorbed continuously, the filter screen can enable the part of the filter drum, which is not adsorbed with the powder, to clean the powder by moving the filter drum, so that the equipment can screen the powder continuously under the condition that the equipment does not need to be stopped, the screening efficiency of the powder is improved, the cleaned filter drum can be used repeatedly by the cleaning assembly, the cleaning assembly is driven by the rotation of the recovery platform, the cleaning effect on the inner wall of the filter drum is improved, meanwhile, the powder slides better by the rotating recovery platform, the powder is not easy to adhere to the recovery platform, the recovery efficiency of the powder is further improved, and the recovered powder can be conveyed into the grinding device for secondary grinding by the arrangement of the recovery channel and the recovery hole, so that automatic circulation operation is formed, and the operation efficiency is improved.

In order to solve the problems in the prior art, the invention adopts the following technical scheme:

a preparation process of Huoxiang Zhengqi powder comprises a preparation cavity, a feed pipe, a filter cylinder and a material sucking mechanism, and is characterized in that the feed pipe is positioned in the preparation cavity in a vertical state, and a feed port is arranged on the side wall of the top of the feed pipe;

the filter cylinder can slide along the axial direction of the feeding pipe and is positioned in the preparation cavity;

the material sucking mechanism is fixedly connected to the middle part of the preparation cavity, and is sleeved on the outer side of the filter cylinder, and the filter cylinder is in sliding fit with the material sucking mechanism;

the feeding pipe is provided with a plurality of equidistant recovery platforms along the axis of the feeding pipe, the distance between two adjacent recovery platforms is matched with the height of the material sucking mechanism, and the filter cylinder is in sliding fit with the recovery platforms;

the filter cylinder, the material sucking mechanism and two adjacent recycling platforms form a screening cavity for screening the powder; the preparation process comprises the following steps:

s1, conveying ground powder into a feeding pipe through an external feeding device, and enabling the powder to enter a screening cavity along a feeding port of the feeding pipe;

s2a, the powder moves to the inner wall of the filter cylinder, and the powder is screened through the inner wall of the filter cylinder;

s2b, starting a material sucking mechanism, and assisting powder in the filter cylinder through the material sucking mechanism so that the powder can pass through meshes of the filter cylinder;

s3, powder smaller than meshes on the filter cylinder passes through the filter cylinder and enters a material sucking mechanism, and the powder is conveyed to the next production link through the material sucking mechanism; powder larger than the mesh holes on the filter cartridge cannot pass through the filter cartridge to be adsorbed on the inner wall of the filter cartridge;

s4, after more powder which cannot pass through is adsorbed on the inner wall of the filter cylinder, the filter screen which is not adsorbed with the powder on the filter cylinder is moved to the inside of the material sucking mechanism by moving the filter cylinder; after the part of the filter cylinder adsorbed with the powder is far away from the material absorbing mechanism, the powder can fall on the recycling platform and is collected by the recycling platform;

s5, repeating the steps of S1, S2a, S2b, S3 and S4.

Preferably, the recovery platform is further provided with a cleaning assembly for cleaning the inner wall of the filter cartridge, and the step S4 further includes the following steps:

s4a, when the filter cartridge moves, the part of the filter cartridge, which is adsorbed with powder, is contacted with a cleaning component on the recovery platform, and the powder adsorbed in the meshes of the filter cartridge is cleaned through the cleaning component.

Preferably, the feeding pipe is located to the cover that a plurality of recovery platforms homoenergetic rotated, and all fixedly connected with a plurality of connecting rods between two adjacent recovery platforms, still include the following step in step S4:

s4b, through rotating one of them recovery platform, recovery platform passes through the connecting rod and drives the remaining recovery platform of being connected with it, and recovery platform' S rotation drives the clean subassembly of being connected with it, can rotate around the axis of conveying pipe when the inner wall to straining a section of thick bamboo through clean subassembly.

Preferably, the conveying pipe is double-deck structure setting, and the outside of conveying pipe is provided with the recovery passageway, is provided with on the recovery passageway and retrieves the recovery hole that platform quantity is the same and one-to-one, and a plurality of recovery platforms are the bucket structure, still include the following step in step S4:

s4c, the powder falls down and slides along the inner wall of the recovery platform under the action of gravity until the powder enters the recovery hole, enters the recovery channel through the recovery hole, and recovers the powder on the recovery platform through the recovery channel.

A preparation device of Huoxiang Zhengqi powder is applied to a preparation process of Huoxiang Zhengqi powder, and a conical material guide head is arranged at the top of a material conveying pipe.

Preferably, the top of the preparation cavity is provided with a wind feeding hole.

Preferably, the material sucking mechanism comprises an annular cover, a transmission pipe and a plurality of supporting legs fixedly connected with the inner wall of the preparation cavity are arranged on the side wall of the annular cover, and the transmission pipe is positioned on the side wall of the annular cover and penetrates through the side wall of the preparation cavity to be connected with the external collecting device.

Preferably, the top and the bottom of annular cover all are provided with elastic sand grip, are provided with a plurality of along the axis of filter screen cylinder and equidistant spaced recess on the filter screen cylinder, recess and sand grip mutually match.

Preferably, a lifting assembly for driving the filter cartridge to move is arranged below the filter cartridge.

Preferably, a rotary shaft is arranged on the recovery platform at the bottommost part of the feeding pipe, and a driving component for driving the rotary shaft to rotate is arranged beside the rotary shaft.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, through the arrangement of the sliding filter cylinder and the recovery platform, after the filter screen can not continuously adsorb the powder, the part of the filter cylinder, which does not adsorb the powder, can be cleaned by moving the filter cylinder, so that the powder can be continuously screened under the condition that the equipment does not need to be stopped, and the screening efficiency of the powder is improved.

2. According to the invention, through the arrangement of the cleaning component, the inner wall of the filter cylinder can be cleaned through the cleaning brush, so that powder clamped in the meshes of the filter cylinder can more easily fall on the recovery platform, the recovery efficiency of the powder is improved, and the cleaned filter cylinder can be reused.

3. According to the invention, the cleaning brush can rotate through the rotation of the recovery platform, so that the cleaning assembly can better clean the inner wall of the filter cylinder, the problem that powder is adsorbed on the inner wall of the filter cylinder and cannot be cleaned is avoided, the cleaning effect on the inner wall of the filter cylinder is improved, meanwhile, the rotating recovery platform can drive the powder with the surface sliding down to better slide down, the powder is not easy to adhere to the recovery platform, and the recovery efficiency of the powder is further improved.

4. According to the invention, the powder collected on the recovery platform can be recovered through the arrangement of the recovery channel and the recovery hole, so that the recovered powder can be conveyed into the grinding device, the powder is subjected to secondary grinding through the grinding device, so that automatic circulating operation is formed, the waste of materials and the waiting time for the transportation of the recovered powder are reduced, and the operation efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of a three-dimensional structure of a preparation device of Huoxiang Zhengqi powder;

FIG. 2 is a schematic cross-sectional view of a device for preparing Huoxiang Zhengqi powder;

FIG. 3 is a schematic cross-sectional view of a cartridge in a manufacturing apparatus for Huoxiang Zhengqi san;

FIG. 4 is a front view of the recovery platform and cleaning assembly of the Huoxiang Zhengqi san preparation device;

FIG. 5 is a schematic perspective view of a cleaning assembly, a recycling platform and a feeding pipe in a Huoxiang Zhengqi san preparation device;

FIG. 6 is an enlarged view at A in the drawing;

FIG. 7 is a schematic view showing a three-dimensional cross-sectional structure of a feed pipe in a manufacturing apparatus of Huoxiang Zhengqi san;

FIG. 8 is a schematic perspective view of a suction mechanism in a manufacturing apparatus of Huoxiang Zhengqi powder;

FIG. 9 is a schematic perspective view of a suction mechanism, a filter cartridge, a frame and a feed pipe in a Huoxiang Zhengqi san preparation device;

fig. 10 is an enlarged view at B in the drawing;

fig. 11 is a schematic perspective view of a frame, a lifting assembly and a driving assembly in a agastache zhengqi powder preparation device.

The reference numerals in the figures are:

1-preparing a cavity;

11-an air supply port;

12-a frame;

2-a feeding pipe;

21-a feeding port; 211-connecting pipes; 212, a material guiding head;

22-a recovery platform; 221-cleaning assembly; 2211—a cleaning brush; 2212-a mounting ring; 222-connecting rod;

23-recovery channel; 231-recovery holes;

24-rotating shaft;

25-a drive assembly; 251-drive shaft; 252-synchronous belt; 253-a second rotary drive motor; 254-synchronizing wheel;

3-a filter cartridge;

31-grooves;

32-a lifting assembly; 321-a support plate; 322-a first rotary drive motor; 323-screw rod; 324-guide post;

4-a material sucking mechanism;

41-an annular cover; 411-transfer tube; 412-feet; 413-convex strips.

Detailed Description

The invention will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the invention and the specific objects and functions achieved.

As shown in fig. 1 to 3: a preparation process of Huoxiang Zhengqi powder comprises a preparation cavity 1, a feed pipe 2, a filter cylinder 3 and a suction mechanism 4, wherein the feed pipe 2 is positioned in the preparation cavity 1 in a vertical state, and a feed port 21 is arranged on the side wall of the top of the feed pipe 2; the filter cylinder 3 can slide along the axial direction of the feeding pipe 2 and is positioned in the preparation cavity 1; the material sucking mechanism 4 is fixedly connected to the middle part of the preparation cavity 1, the material sucking mechanism 4 is sleeved on the outer side of the filter cylinder 3, and the filter cylinder 3 is in sliding fit with the material sucking mechanism 4; the feeding pipe 2 is provided with a plurality of equidistant recovery platforms 22 along the axis of the feeding pipe 2, the distance between two adjacent recovery platforms 22 is matched with the height of the material sucking mechanism 4, and the filter cylinder 3 is in sliding fit with the recovery platforms 22; the filter cylinder 3, the material suction mechanism 4 and two adjacent recovery platforms 22 form a screening cavity for screening the powder; the preparation process comprises the following steps:

s1, conveying ground powder into a feed pipe 2 through an external feeding device, and enabling the powder to enter a screening cavity along a feed port 21 of the feed pipe 2;

s2a, the powder moves to the inner wall of the filter cylinder 3, and the powder is screened through the inner wall of the filter cylinder 3;

s2b, starting a material sucking mechanism 4, and assisting the powder in the filter cylinder 3 through the material sucking mechanism 4 so that the powder can pass through meshes of the filter cylinder 3;

s3, powder smaller than meshes on the filter cylinder 3 passes through the filter cylinder 3 and enters the material sucking mechanism 4, and the powder is conveyed to the next production link through the material sucking mechanism 4; powder larger than the mesh holes on the filter cartridge 3 cannot pass through the filter cartridge 3 to be adsorbed on the inner wall of the filter cartridge 3;

s4, after more powder which cannot pass through is adsorbed on the inner wall of the filter cylinder 3, the filter screen which is not adsorbed with the powder on the filter cylinder 3 is moved to the inside of the material sucking mechanism 4 by moving the filter cylinder 3; after the part of the filter cylinder 3 adsorbed with the powder is far away from the material sucking mechanism 4, the powder falls on the recovery platform 22 and is collected by the recovery platform 22;

s5, repeating the steps of S1, S2a, S2b, S3 and S4.

As shown in fig. 1 to 6: the recovery platform 22 is further provided with a cleaning assembly 221 for cleaning the inner wall of the filter cartridge 3, and the step S4 further includes the following steps:

and S4a, when the filter cartridge 3 moves, the part adsorbed with the powder is contacted with the cleaning component 221 on the recovery platform 22, and the powder adsorbed in the meshes of the filter cartridge 3 is cleaned by the cleaning component 221.

The cleaning component 221 comprises a mounting ring 2212 and a plurality of cleaning brushes 2211, the mounting ring 2212 is sleeved on the edge of the recovery platform 22, the cleaning brushes 2211 are horizontally sleeved on the mounting ring 2212, the cleaning brushes 2211 are elastically connected with the mounting ring 2212, when the filter cylinder 3 slides along the axis of the feeding pipe 2, powder adsorbed on the filter cylinder 3 is easy to clamp in meshes of the filter cylinder 3 due to the dual actions of blowing of the feeding pipe 2 and sucking of the sucking mechanism 4, the powder is difficult to directly fall on the recovery platform 22, through the arrangement of the cleaning brushes 2211, the filter cylinder 3 can be moved, the inner wall of the filter cylinder 3 can be cleaned through the cleaning brushes 2211, the powder clamped in the meshes of the filter cylinder 3 can fall on the recovery platform 22 more easily, the powder which cannot pass through can be recovered conveniently, the recovery efficiency of the powder can be improved, the cleaned filter cylinder 3 can be repeatedly used, the maintenance time of the whole filter cylinder 3 is reduced, the equipment is not required to be stopped, and the burden of workers is reduced.

As shown in fig. 2 to 6: the plurality of recovery platforms 22 are rotatably sleeved on the feeding pipe 2, and a plurality of connecting rods 222 are fixedly connected between two adjacent recovery platforms 22, and the step S4 further comprises the following steps:

s4b, one recovery platform 22 is rotated, the recovery platform 22 drives the rest recovery platform 22 connected with the recovery platform 22 through a connecting rod 222, the rotation of the recovery platform 22 drives a cleaning component 221 connected with the recovery platform 22, and the cleaning component 221 cleans the inner wall of the filter cartridge 3 and simultaneously can rotate around the axis of the feeding pipe 2.

When the cleaning component 221 cleans the filter cylinder 3, if the interval between two adjacent cleaning brushes 2211 is larger, the cleaning component 221 has dead angles for cleaning the inner wall of the filter cylinder 3, so that the cleaning component 221 can not completely clean the inner wall of the filter cylinder 3, through one of the recovery platforms 22, the recovery platforms 22 can drive all the residual recovery platforms 22 to rotate together through the connecting rod 222, thereby simultaneously driving the cleaning brushes 2211 on the recovery platforms 22, enabling the cleaning brushes 2211 to rotate around the axis of the feeding pipe 2, the cleaning component 221 cooperates with the movement of the filter cylinder 3, so that the cleaning component 221 can clean the inner wall of the filter cylinder 3 better, the problem that powder can not be cleaned due to adsorption on the inner wall of the filter cylinder 3 is solved, the cleaning effect on the inner wall of the filter cylinder 3 is improved, meanwhile, the rotating recovery platforms 22 can drive the powder with the surface sliding better, so that the powder is not easy to adhere to the recovery platforms 22, the recovery efficiency of the powder is further improved, the filter cylinder 3 after the cleaning can be repeatedly used, the maintenance time of the whole filter cylinder 3 can be shortened, the equipment can be automatically stopped for the automatic stop for the cleaning machine, and the load of the filter cylinder 3 can be reduced for a plurality of the connecting rods surrounding the axis of the recovery platforms 222 is set.

As shown in fig. 2, 3 and 7: the conveying pipe 2 is a double-layer structure, a recovery channel 23 is arranged on the outer side of the conveying pipe 2, recovery holes 231 which are the same as the recovery platforms 22 in number and correspond to each other one by one are arranged on the recovery channel 23, the recovery platforms 22 are of a bucket-shaped structure, and the following steps are further included in the step S4:

s4c, the powder falls down and slides along the inner wall of the recovery platform 22 under the action of gravity until the powder enters the recovery hole 231, enters the recovery channel 23 through the recovery hole 231, and recovers the powder on the recovery platform 22 through the recovery channel 23.

The recovery platform 22 can collect the powder cleaned by the cleaning component 221, but when the powder is accumulated too much and the filter cartridge 3 moves to the recovery platform 22 again, the powder is blown again and secondarily adsorbed on the inner wall of the filter cartridge 3, which affects the recycling of the subsequent filter cartridge 3; through the setting of retrieving passageway 23 and retrieve hole 231, can retrieve the powder of collecting on retrieving the platform 22, still be provided with in the retrieving passageway 23 and be used for carrying out the transport mechanism who transports to the material that falls into in retrieving passageway 23, and retrieve the bottom and outside grinder of passageway 23 are connected, after the powder that does not adsorb gets into retrieving passageway 23, can carry again to grinder by transport mechanism in, carry out secondary grinding to the powder through grinder, make the powder can pass through the mesh of straining a section of thick bamboo 3, make the whole device can form automatic circulation operation, reduce the waste of material and the latency to the powder transportation after retrieving, improve the efficiency of operation, make the degree of automation of equipment better, alleviate staff's burden, the pay-off mouth 21 of conveying pipe 2 has the connecting pipe 211 of radial extension along retrieving passageway 23, make the powder that falls into the conveying pipe 2 top can pass in the retrieving passageway 23 through the gap between two adjacent connecting pipes 211, make the mutual noninterference between conveying pipe 2 and the retrieving passageway 23, make the powder of its inside separate transmission, locate the setting together through conveying pipe 2 and passageway 23, can form the stable space with the stable and make 1 more stable, the preparation space is more reasonable.

As shown in fig. 2, 3 and 7: a preparation device of Huoxiang Zhengqi powder is applied to a preparation process of Huoxiang Zhengqi powder, and a conical material guide head 212 is arranged at the top of a material conveying pipe 2.

Because the top of conveying pipe 2 is provided with a plurality of connecting pipes 211, when retrieving the powder at the top retrieve the platform 22, the powder falls on connecting pipe 211 probably to pile up on connecting pipe 211 for the powder can't in time retrieve through retrieving passageway 23, possibly adhesion other powder after the powder of piling up is too much, cause the recovery hole 231 at conveying pipe 2 top to block up even, through the setting of guide head 212, make the powder fall behind on guide head 212, make the powder can be under the effect of gravity quick to retrieving the passageway 23 in the landing, make the powder be difficult for forming to pile up, reduce the possibility that retrieving passageway 23 blockked up, improve equipment's stability, alleviate staff's burden.

As shown in fig. 1 and 2: the top of the preparation cavity 1 is provided with a wind feeding hole.

Through the setting of air feed hole for can form the environment of a malleation in preparation chamber 1, when the axis of straining a 3 along conveying pipe 2 slides, after straining a 3 part of absorbing powder on the section of thick bamboo and keeping away from suction mechanism 4, form certain pressure to straining a mesh on the section of thick bamboo 3 through the malleation in preparation chamber 1, make the powder can drop from the mesh, thereby fall on retrieving platform 22, strain a 3 and can be better clean on the cooperation feeding platform's rotation and cleaning assembly 221's work, it can be better to strain a 3 inner wall to improve, make the section of thick bamboo 3 after the clearance can repeatedly use, reduce later stage to whole maintenance time of straining a 3, make equipment need not to shut down and just can carry out self-cleaning to straining a 3, alleviate staff's burden, and make things convenient for retrieving platform 22 to the collection of powder, improve the recovery efficiency to the powder.

As shown in fig. 2, 3 and 8: the material sucking mechanism 4 comprises an annular cover 41, a transmission pipe 411 and a plurality of supporting legs 412 fixedly connected with the inner wall of the preparation cavity 1 are arranged on the side wall of the annular cover 41, and the transmission pipe 411 is positioned on the side wall of the annular cover 41 and penetrates through the side wall of the preparation cavity 1 to be connected with an external collecting device.

Through setting up of stabilizer blade 412 for annular cover 41 can be fixed on the inner wall of preparation chamber 1, is convenient for strain a section of thick bamboo 3 and slide between annular cover 41 and conveying pipe 2, improves the stability of equipment, and conveying pipe 411 is used for absorbing the powder that passes the mesh of straining a section of thick bamboo 3, makes the powder after sieving can be collected by outside collection device through conveying pipe 411, then will sieve qualified powder transportation to next production link.

As shown in fig. 8 and 10: the top and the bottom of annular cover 41 all are provided with elastic sand grip 413, are provided with a plurality of along the axis of filter screen cylinder and equidistant spaced recess 31 on the filter screen cylinder, recess 31 and sand grip 413 mutually mate.

The interval between two adjacent recesses 31 and the height of annular cover 41 match each other, can separate filter cartridge 3 into a plurality of intervals through a plurality of recesses 31, the mesh setting of filter cartridge 3 in on the interval, after filter cartridge 3 removes, can block in the recess 31 of filter cartridge 3 through the sand grip 413 on the annular cover 41, because sand grip 413 has elasticity for it can not influence the removal of filter cartridge 3, can improve the gas tightness of the screening chamber that forms between annular cover 41, filter cartridge 3 and two recovery platform 22 through this, be convenient for better by the screening of powder, improve the stability of equipment.

As shown in fig. 3, 5, 9 and 11: a lifting assembly 32 for driving the filter cartridge 3 to move is provided below the filter cartridge 3.

The filter cylinder 3 is of a cylindrical structure with an opening at the bottom, the bottom of the filter cylinder 3 is provided with a supporting disc 321, the bottom of the preparation cavity 1 is provided with a frame 12, the lifting component 32 comprises a first rotary driving motor 322, a screw rod 323 and two guide posts 324, the screw rod 323 and the two guide posts 324 are all located on the frame 12 in a vertical state, the supporting disc 321 of the filter cylinder 3 is sleeved on the screw rod 323 and the two guide posts 324, the screw rod 323 is in threaded fit with the supporting disc 321, the guide posts 324 are in sliding fit with the screw rod 323, the first rotary driving motor 322 is fixedly connected to the frame 12 and is located below the screw rod 323, an output shaft of the first rotary driving motor 322 is in transmission connection with the screw rod 323, when the filter cylinder 3 is required to move, the first rotary driving motor 322 drives the screw rod 323 fixedly connected with the first rotary driving motor, the support disc 321 connected with the first rotary driving motor is driven by the rotation of the screw rod 323, so that the support disc 321 moves along the axis of the guide post 324, the filter cylinder 3 is driven to move through the screw rod 323, the self-locking characteristic is realized, the moving position of the filter cylinder 3 can be kept fixed, the filter cylinder 3 can be conveniently screened by the screw rod 323, and meanwhile, the moving position of the filter cylinder 3 can be more accurately matched with the filter cylinder 3, and the device can be more conveniently matched with a device.

As shown in fig. 3, 4 and 11: the recovery platform 22 positioned at the bottommost part of the feeding pipe 2 is provided with a rotating shaft 24, and a driving component 25 for driving the rotating shaft 24 to rotate is arranged beside the rotating shaft 24.

The drive assembly 25 comprises a drive shaft 251, a synchronous belt 252, a second rotary drive motor 253 and two synchronous wheels 254, wherein the drive shaft 251 can rotate and is positioned beside the rotary shaft 24, the axis of the drive shaft 251 is parallel to the rotary shaft 24, the second rotary drive motor 253 is positioned below the drive shaft 251, the drive shaft 251 is in transmission connection with the output shaft of the second rotary drive motor 253, the two synchronous wheels 254 are respectively sleeved on the rotary shaft 24 and the drive shaft 251, the synchronous belt 252 is sleeved on the two synchronous wheels 254, when the recovery platform 22 needs to be driven to rotate, the output shaft of the second rotary drive motor 253 drives the drive shaft 251 in transmission connection with the synchronous belt, one synchronous wheel 254 is driven by the drive shaft 251, the synchronous belt 252 is sleeved on the synchronous wheel 254 on the rotary shaft 24, thereby driving the rotary shaft 24, the rotary shaft 24 drives the recovery platform 22, the connecting rod 222 on the recovery platform 22 drives the rest recovery platform 22, the recovery platform 22 can better collect the powder, and simultaneously drives the cleaning assembly 221 to rotate through the rotation of the recovery platform 22, so that the cleaning effect of the filter cartridge 3 can be improved, the cleaning effect of the filter cartridge 3 can be repeated after the filter cartridge 3 is reduced, the filter cartridge 3 can be cleaned, and the maintenance time of the filter cartridge 3 can be reduced, and the filter cartridge 3 can be repeatedly used, and the maintenance time can be reduced.

The foregoing examples merely illustrate one or more embodiments of the invention, which are described in greater detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (10)

1. The preparation process of the agastache rugosa vital energy powder comprises a preparation cavity (1), a feed pipe (2), a filter cylinder (3) and a material sucking mechanism (4), and is characterized in that the feed pipe (2) is positioned in the preparation cavity (1) in a vertical state, and a feed port (21) is arranged on the side wall of the top of the feed pipe (2);

the filter cylinder (3) can slide along the axial direction of the feeding pipe (2) and is positioned in the preparation cavity (1);

the material sucking mechanism (4) is fixedly connected to the middle part of the preparation cavity (1), the material sucking mechanism (4) is sleeved on the outer side of the filter cylinder (3), and the filter cylinder (3) is in sliding fit with the material sucking mechanism (4);

a plurality of equidistant recovery platforms (22) are arranged on the feeding pipe (2) along the axis of the feeding pipe (2), the distance between two adjacent recovery platforms (22) is matched with the height of the material sucking mechanism (4), and the filter cylinder (3) is in sliding fit with the recovery platforms (22);

the filter cylinder (3), the material sucking mechanism (4) and two adjacent recovery platforms (22) form a screening cavity for screening powder; the preparation process comprises the following steps:

s1, conveying ground powder into a feed pipe (2) through an external feeding device, and enabling the powder to enter a screening cavity along a feed port (21) of the feed pipe (2);

s2a, the powder moves to the inner wall of the filter cylinder (3), and the powder is screened through the inner wall of the filter cylinder (3);

s2b, starting a material sucking mechanism (4), and assisting powder in the filter cylinder (3) through the material sucking mechanism (4) so that the powder can pass through meshes of the filter cylinder (3);

s3, powder smaller than meshes on the filter cylinder (3) passes through the filter cylinder (3) and enters a material sucking mechanism (4), and the powder is conveyed to the next production link through the material sucking mechanism (4); powder larger than the mesh holes on the filter cartridge (3) cannot pass through the filter cartridge (3) to be adsorbed on the inner wall of the filter cartridge (3);

s4, after more powder which cannot pass through is adsorbed on the inner wall of the filter cylinder (3), the filter screen which is not adsorbed with the powder on the filter cylinder (3) is moved to the inside of the material sucking mechanism (4) by moving the filter cylinder (3); after the part of the filter cylinder (3) adsorbed with the powder is far away from the material sucking mechanism (4), the powder can fall on the recovery platform (22) and is collected by the recovery platform (22);

s5, repeating the steps of S1, S2a, S2b, S3 and S4.

2. The preparation process of the agastache powder according to claim 1, wherein the recovery platform (22) is further provided with a cleaning component (221) for cleaning the inner wall of the filter cartridge (3), and the step S4 further includes the following steps:

s4a, when the filter cylinder (3) moves, the part adsorbed with the powder can be contacted with a cleaning component (221) on the recovery platform (22), and the powder adsorbed in the meshes of the filter cylinder (3) is cleaned through the cleaning component (221).

3. The preparation process of the agastache zhengqi powder according to claim 2, wherein the plurality of recovery platforms (22) are rotatably sleeved on the feeding pipe (2), and a plurality of connecting rods (222) are fixedly connected between two adjacent recovery platforms (22), and the step S4 further comprises the following steps:

s4b, through rotating one of them recovery platform (22), recovery platform (22) drive through connecting rod (222) with its remaining recovery platform (22) of being connected, the rotation of recovery platform (22) drives clean subassembly (221) of being connected with it, can rotate around the axis of conveying pipe (2) when clean the inner wall of straining a section of thick bamboo (3) through clean subassembly (221).

4. A preparation process of agastache rugosa healthy energy powder according to claim 3, wherein the feeding pipe (2) is of a double-layer structure, the outer side of the feeding pipe (2) is provided with recovery channels (23), the recovery channels (23) are provided with recovery holes (231) which are the same as the recovery platforms (22) in number and correspond to each other one by one, the recovery platforms (22) are of a bucket-shaped structure, and the step S4 further comprises the following steps:

s4c, the powder falls down and slides along the inner wall of the recovery platform (22) under the action of gravity until the powder enters the recovery hole (231), enters the recovery channel (23) through the recovery hole (231), and recovers the powder on the recovery platform (22) through the recovery channel (23).

5. The preparation equipment of the agastache rugosa vital energy powder is applied to the preparation process of the agastache rugosa vital energy powder in claim 4, and is characterized in that the top of the feeding pipe (2) is provided with a guide head (212) with a conical structure.

6. The preparation device of the agastache rugosa vital energy powder according to claim 5, wherein the top of the preparation cavity (1) is provided with a wind-feeding hole.

7. The preparation device of the agastache rugosa vital energy powder according to claim 5, wherein the material sucking mechanism (4) comprises an annular cover (41), a transmission pipe (411) and a plurality of supporting legs (412) fixedly connected with the inner wall of the preparation cavity (1) are arranged on the side wall of the annular cover (41), and the transmission pipe (411) is positioned on the side wall of the annular cover (41) and penetrates through the side wall of the preparation cavity (1) to be connected with an external collecting device.

8. The preparation device of Huoxiang Zhengqi powder according to claim 7, wherein the top and the bottom of the annular cover (41) are provided with elastic raised strips (413), the filter screen cylinder is provided with a plurality of grooves (31) which are equidistantly spaced along the axis of the filter screen cylinder, and the grooves (31) are matched with the raised strips (413).

9. The preparation device of the agastache rugosa health powder according to claim 5, wherein a lifting component (32) for driving the filter cartridge (3) to move is arranged below the filter cartridge.

10. The preparation device of the agastache rugosa health powder according to claim 5, wherein a rotating shaft (24) is arranged on a recovery platform (22) positioned at the bottommost part of the feeding pipe (2), and a driving component (25) for driving the rotating shaft (24) to rotate is arranged beside the rotating shaft (24).

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