阅读说明：本技术 一种易于吸收的中药 (Easy-to-absorb traditional Chinese medicine ) 是由 王双炎 田长存 于 2019-11-07 设计创作，主要内容包括：本发明公开了一种易于吸收的中药,该中药由下述重量份原料制备得到：红景天3-5份、阿胶3-5份和枣膏10-14份；该中药通过下述步骤制备得到：步骤一、红景天滤液的制备；步骤二、将称取的阿胶于高速粉碎机粉碎,将其粉碎均匀备用；步骤三、在步骤一制备的滤液中加入步骤二经过粉碎的阿胶,静置4-8h后搅拌,边搅拌边加入8-11份枣膏,得到料液；本发明中添加了天然药食兼用原料红景天和阿胶；阿胶性味甘平,入肝、肾经,能滋阴润燥,有明显治疗贫血的功效；红景天,具有扶正固体、补齐养血、滋阴益肺的神奇功效,经合理调配强化中药功能特性,产品具有较好的补肾补血、滋阴壮阳、抗疲劳、抗衰老、抗癌等功能。(The invention discloses an easily-absorbed traditional Chinese medicine which is prepared from the following raw materials in parts by weight: 3-5 parts of rhodiola rosea, 3-5 parts of donkey-hide gelatin and 10-14 parts of jujube paste; the traditional Chinese medicine is prepared by the following steps: step one, preparing rhodiola rosea filtrate; step two, crushing the weighed donkey-hide gelatin in a high-speed crusher, and uniformly crushing the donkey-hide gelatin for later use; step three, adding the crushed donkey-hide gelatin in the step two into the filtrate prepared in the step one, standing for 4-8 hours, stirring, and adding 8-11 parts of jujube paste while stirring to obtain feed liquid; the invention adds natural medicine and food dual purpose raw materials of rhodiola rosea and donkey-hide gelatin; the donkey-hide gelatin is sweet in taste and neutral in nature, enters liver and kidney channels, can nourish yin and moisten dryness, and has the obvious effect of treating anemia; the rhodiola root has the magical effects of strengthening body resistance, tonifying and nourishing blood, and nourishing yin and benefiting lung, strengthens the functional characteristics of traditional Chinese medicines through reasonable blending, and has better functions of tonifying kidney and enriching blood, nourishing yin and strengthening yang, resisting fatigue, resisting aging, resisting cancer and the like.)

1. The traditional Chinese medicine easy to absorb is characterized by being prepared from the following raw materials in parts by weight: 3-5 parts of rhodiola rosea, 3-5 parts of donkey-hide gelatin and 10-14 parts of jujube paste;

the traditional Chinese medicine is prepared by the following steps:

step one, preparing rhodiola rosea filtrate;

step two, crushing the weighed donkey-hide gelatin in a high-speed crusher, and uniformly crushing the donkey-hide gelatin for later use;

step three, adding the crushed donkey-hide gelatin in the step two into the filtrate prepared in the step one, standing for 4-8 hours, stirring, and adding 8-11 parts of jujube paste while stirring to obtain feed liquid;

step four, transferring the feed liquid prepared in the step three into a concentration pot, adding 2-3 parts of jujube paste while stirring, and concentrating the feed liquid;

step five, homogenizing and degassing the concentrated feed liquid in sequence;

step six, the degassed material liquid is thermally filtered and filled into a clean material storage box of filling equipment, a conveying mechanism conveys the medicine bottles, the medicine bottles enter from a feed port of a sliding ring and are clamped in a convex groove of a rotary disc, a third motor is driven, the rotary disc is driven to rotate through a transmission shaft, the medicine bottles are driven to rotate, when the medicine bottles rotate to the position below an insertion pipe, a pump body is driven, the material liquid in the material storage box is conveyed to a filling barrel through a liquid discharge pipe, then a first air cylinder is driven to work, and the filling barrel is driven to descend through driving a lifting block to descend until the insertion pipe is inserted into the medicine bottles, and filling is carried out;

seventhly, after filling is finished, the first air cylinder drives the intubation tube to reset, the medicine bottle rotates to the position below the cap screwing mechanism, the bottle cap is placed on the medicine bottle through the mechanical arm, then the second air cylinder is driven, the movable plate is pushed to move through the piston rod, further the mechanical arm is pushed to drive the second clamp to fix the medicine bottle, then the servo motor is driven to work, the lead screw is driven to rotate, the sliding block is driven to descend, further the first clamp is driven to descend, the second motor is driven to work, the first clamp is driven to rotate, further the bottle cap is covered, and finally the first clamp and the second clamp are loosened; the medicine bottle continues to rotate and is finally discharged from the discharge port.

2. The easily absorbable traditional Chinese medicine of claim 1, wherein the rhodiola rosea filtrate is prepared by the following steps:

weighing rhodiola rosea, removing impurities contained in the rhodiola rosea, washing the rhodiola rosea with clear water, taking out the rhodiola rosea, and soaking the rhodiola rosea in clean water which is 5-8 times of the weight of the rhodiola rosea for 1-3 hours to fully wet the rhodiola rosea;

adding wet rhodiola rosea into a clean leaching tank, adding purified water according to the amount which is 10 times of the weight of the rhodiola rosea, decocting for 1-3h, and filtering out liquid medicine; adding purified water 5 times the weight of radix Rhodiolae, decocting for O.5-2 hr, and filtering to obtain medicinal liquid; adding purified water in an amount which is 1 time of the weight of the rhodiola rosea for the third time, decocting for 0.2-1h, and filtering out liquid medicine; the filtrates are combined for further use.

3. The readily absorbable traditional Chinese medicine of claim 1, wherein the homogenizing step comprises: and (3) feeding the concentrated feed liquid into a homogenizer or a colloid mill for homogenization, and adjusting the particle size of the feed liquid to be less than or equal to 2 um.

4. The readily absorbable traditional Chinese medicine of claim 1, wherein the degassing step is: transferring the homogenized material liquid to a vacuum concentrator, and degassing at 60-65 deg.C and 0.06-0.08MPa for 20-60 min.

5. An easily absorbable traditional Chinese medicine as claimed in claim 1, wherein the filling equipment comprises the following working steps:

hot filtering the degassed feed liquid, filling the feed liquid into a clean feed storage box of filling equipment, and filling the feed liquid in the feed storage box according to 68 ml/bottle in a clean environment; the conveying mechanism conveys the medicine bottles, the medicine bottles enter from the feed inlet of the sliding ring and are clamped in the convex groove of the rotary table, the third motor is driven, the rotary table is driven to rotate through the transmission shaft, the medicine bottles are driven to rotate, when the medicine bottles rotate to the position below the insertion pipe, the pump body is driven, the material liquid in the material storage box is conveyed to the filling barrel through the liquid discharge pipe, then the first air cylinder is driven to work, the filling barrel is driven to descend by driving the lifting block to descend until the insertion pipe is inserted into the medicine bottles, and filling is carried out;

after filling, the first air cylinder drives the cannula to reset, the medicine bottle rotates to the position below the cap screwing mechanism, the bottle cap is placed on the medicine bottle through the mechanical arm, then the second air cylinder is driven, the movable plate is pushed to move through the piston rod, further the mechanical arm is pushed to drive the second clamp to fix the medicine bottle, then the servo motor is driven to work, the lead screw is driven to rotate, further the sliding block is driven to descend, further the first clamp is driven to descend, the second motor is driven to work, the first clamp is driven to rotate, further the bottle cap is capped, and finally the first clamp and the second clamp are loosened; the medicine bottle continues to rotate and is finally discharged from the discharge port.

6. The readily absorbable traditional Chinese medicine of claim 1, wherein the volume of the vial is 70-80 mL.

7. The easily absorbable traditional Chinese medicine as claimed in claim 1, wherein the operation steps of the delivery mechanism are: the first motor of drive work drives the rotation axis through the belt and rotates, and then drives the conveyer belt and rotate, puts the medicine bottle in the medicine bottle bucket on the conveyer belt and carries, and two first curb plates carry on spacingly to the medicine bottle.

Technical Field

The invention relates to the technical field of traditional Chinese medicine processing, in particular to an easily-absorbed traditional Chinese medicine.

Background

The donkey-hide gelatin has sweet and mild taste, enters liver and kidney channels, can nourish yin and moisten dryness, and has obvious effect of treating anemia as proved by modern medical research; rhodiola rosea, a perennial herb, is a common traditional medicinal material in Asian regions, and is a 'lucky three treasures' by Tibetan medicine in all times due to the miraculous effects of strengthening body resistance, tonifying and nourishing blood, and nourishing yin and lung. Modern medicine shows that the medicine has the effects of stimulating the nervous system, increasing the working efficiency, eliminating fatigue, preventing alpine disease and the like. Red dates have been classified as one of the five fruits (peach, plum, apricot and jujube) since ancient times, and have a long history. The most prominent characteristic of the Chinese date is high vitamin content, so the Chinese date has the reputation of 'natural vitamin pills'. Chinese herbal medicine books' Benjing records that the red dates have sweet taste and warm property, enter spleen and stomach meridians, and have the functions of tonifying middle-jiao and Qi, nourishing blood and tranquilization and relieving medicine property; modern pharmacology finds that the red dates contain rich nutritional ingredients such as protein, fat, saccharides, organic acid, vitamin A, vitamin C, trace calcium, various amino acids and the like, and the red date paste is prepared by decocting the red dates;

however, the donkey-hide gelatin is a hard gelatinous substance, and needs to be melted by heat to dissolve in water before being taken, which is very inconvenient and has low absorption rate. In addition, single donkey-hide gelatin can only play a single blood enriching role; in the process of preparing traditional Chinese medicine, the traditional Chinese medicine is required to be filled, so that the drug effect is prevented from being reduced and the traditional Chinese medicine is not easy to absorb due to long-time exposure, but the filling equipment in the prior art has low automation degree, cannot seal the filled medicine bottle, is inconvenient to feed and discharge, and cannot operate continuously.

Disclosure of Invention

In order to overcome the technical problems, the invention aims to provide a traditional Chinese medicine which is easy to absorb.

The purpose of the invention can be realized by the following technical scheme:

an easily-absorbed traditional Chinese medicine is prepared from the following raw materials in parts by weight: 3-5 parts of rhodiola rosea, 3-5 parts of donkey-hide gelatin and 10-14 parts of jujube paste;

the traditional Chinese medicine is prepared by the following steps:

step one, preparing rhodiola rosea filtrate;

step two, crushing the weighed donkey-hide gelatin in a high-speed crusher, and uniformly crushing the donkey-hide gelatin for later use;

step three, adding the crushed donkey-hide gelatin in the step two into the filtrate prepared in the step one, standing for 4-8 hours, stirring, and adding 8-11 parts of jujube paste while stirring to obtain feed liquid;

step four, transferring the feed liquid prepared in the step three into a concentration pot, adding 2-3 parts of jujube paste while stirring, and concentrating the feed liquid;

step five, homogenizing and degassing the concentrated feed liquid in sequence;

step six, the degassed material liquid is thermally filtered and filled into a clean material storage box of filling equipment, a conveying mechanism conveys the medicine bottles, the medicine bottles enter from a feed port of a sliding ring and are clamped in a convex groove of a rotary disc, a third motor is driven, the rotary disc is driven to rotate through a transmission shaft, the medicine bottles are driven to rotate, when the medicine bottles rotate to the position below an insertion pipe, a pump body is driven, the material liquid in the material storage box is conveyed to a filling barrel through a liquid discharge pipe, then a first air cylinder is driven to work, and the filling barrel is driven to descend through driving a lifting block to descend until the insertion pipe is inserted into the medicine bottles, and filling is carried out;

seventhly, after filling is finished, the first air cylinder drives the intubation tube to reset, the medicine bottle rotates to the position below the cap screwing mechanism, the bottle cap is placed on the medicine bottle through the mechanical arm, then the second air cylinder is driven, the movable plate is pushed to move through the piston rod, further the mechanical arm is pushed to drive the second clamp to fix the medicine bottle, then the servo motor is driven to work, the lead screw is driven to rotate, the sliding block is driven to descend, further the first clamp is driven to descend, the second motor is driven to work, the first clamp is driven to rotate, further the bottle cap is covered, and finally the first clamp and the second clamp are loosened; the medicine bottle continues to rotate and is finally discharged from the discharge port.

As a further scheme of the invention: the preparation method of the rhodiola rosea filtrate comprises the following steps:

weighing rhodiola rosea, removing impurities contained in the rhodiola rosea, washing the rhodiola rosea with clear water, taking out the rhodiola rosea, and soaking the rhodiola rosea in clean water which is 5-8 times of the weight of the rhodiola rosea for 1-3 hours to ensure that the rhodiola rosea is fully moistened;

adding wet rhodiola rosea into a clean leaching tank, adding purified water according to the amount which is 10 times of the weight of the rhodiola rosea, decocting for 1-3h, and filtering out liquid medicine; adding purified water 5 times the weight of radix Rhodiolae, decocting for O.5-2 hr, and filtering to obtain medicinal liquid; adding purified water in an amount which is 1 time of the weight of the rhodiola rosea for the third time, decocting for 0.2-1h, and filtering out liquid medicine; the filtrates are combined for further use.

As a further scheme of the invention: the homogenizing step comprises the following steps: and (3) feeding the concentrated feed liquid into a homogenizer or a colloid mill for homogenization, and adjusting the particle size of the feed liquid to be less than or equal to 2 um.

As a further scheme of the invention: the degassing step comprises: transferring the homogenized material liquid to a vacuum concentrator, and degassing at 60-65 deg.C and 0.06-0.08MPa for 20-60 min.

As a further scheme of the invention: the filling equipment comprises the following working steps:

hot filtering the degassed feed liquid, filling the feed liquid into a clean feed storage box of filling equipment, and filling the feed liquid in the feed storage box according to 68 ml/bottle in a clean environment; the conveying mechanism conveys the medicine bottles, the medicine bottles enter from the feed inlet of the sliding ring and are clamped in the convex groove of the rotary table, the third motor is driven, the rotary table is driven to rotate through the transmission shaft, the medicine bottles are driven to rotate, when the medicine bottles rotate to the position below the insertion pipe, the pump body is driven, the material liquid in the material storage box is conveyed to the filling barrel through the liquid discharge pipe, then the first air cylinder is driven to work, the filling barrel is driven to descend by driving the lifting block to descend until the insertion pipe is inserted into the medicine bottles, and filling is carried out;

after filling, the first air cylinder drives the cannula to reset, the medicine bottle rotates to the position below the cap screwing mechanism, the bottle cap is placed on the medicine bottle through the mechanical arm, then the second air cylinder is driven, the movable plate is pushed to move through the piston rod, further the mechanical arm is pushed to drive the second clamp to fix the medicine bottle, then the servo motor is driven to work, the lead screw is driven to rotate, further the sliding block is driven to descend, further the first clamp is driven to descend, the second motor is driven to work, the first clamp is driven to rotate, further the bottle cap is capped, and finally the first clamp and the second clamp are loosened; the medicine bottle continues to rotate and is finally discharged from the discharge port.

As a further scheme of the invention: the volume of the medicine bottle is 70-80 mL.

As a further scheme of the invention: the working steps of the conveying mechanism are as follows: the first motor of drive work drives the rotation axis through the belt and rotates, and then drives the conveyer belt and rotate, puts the medicine bottle in the medicine bottle bucket on the conveyer belt and carries, and two first curb plates carry on spacingly to the medicine bottle.

As a further scheme of the invention: the filling equipment comprises a workbench, a conveying mechanism, a material storage box, a filling mechanism, a screwing-cover mechanism, a clamping mechanism, a discharge hopper and a rotating mechanism, wherein the conveying mechanism is fixedly installed at one end of the top of the workbench and comprises a medicine bottle barrel, a first motor, a rotating shaft, a belt, first side plates, a rubber seat and medicine bottles; the other ends of the two first side plates are in contact with the feed inlet;

one end of the conveying mechanism is provided with a rotating mechanism, the rotating mechanism comprises a third motor, a transmission shaft, a sliding ring and a rotary table, the third motor is arranged inside the workbench, the top of the third motor is connected with the rotary table through the transmission shaft, four convex grooves for conveying medicine bottles are circumferentially arranged on the rotary table, and the rotary table is arranged in the sliding ring to rotate;

the sliding ring comprises a transverse plate and a vertical plate, the transverse plate and the vertical plate are both of circular structures, the vertical plate is vertically arranged on the outer diameter of the upper end face of the transverse plate, a feed port for conveying medicine bottles is formed in the vertical plate, a discharge port for outputting the medicine bottles is formed in the transverse plate, the discharge port is not in contact with the feed port, the inner diameter of the vertical plate is the same as the diameter of the rotary table, the bottom of the transverse plate is connected with the workbench through a plurality of support rods, and the upper end face of the transverse plate is in contact with the rotary table; a discharge hopper is arranged at the bottom of the discharge opening;

the automatic filling machine is characterized in that a material storage box, a filling mechanism, a screwing mechanism and a clamping mechanism are sequentially arranged around the rotating mechanism in an arc shape, the screwing mechanism is located between the filling mechanism and the clamping mechanism, a pump body is mounted on one side of the material storage box and is connected with a filling barrel on the filling mechanism through a liquid discharge pipe, the filling mechanism comprises a first air cylinder, a lifting block, a supporting plate, a supporting column, an insertion pipe, a guide rod and the filling barrel, the supporting plate is mounted on the supporting column, the first air cylinder is mounted on the supporting plate, a bottom piston rod of the first air cylinder is connected with the lifting block, the lifting block is connected with the supporting plate through two guide rods, the filling barrel is fixedly mounted on one side of the lifting block, and the insertion pipe is mounted;

the screw capping mechanism comprises a first support, a screw rod, a first clamp, a second motor, a sliding block and a servo motor, wherein the servo motor is fixedly installed on the first support, the screw rod is vertically installed on an output shaft of the servo motor, the sliding block is in threaded connection with the screw rod, the second motor is fixedly installed on the sliding block, and the second motor drives the first clamp to rotate;

clamping mechanism includes second support, second cylinder, fixed plate, fly leaf, second curb plate, arm and second clamp, fixed mounting has the fixed plate on the second support, the top one end fixed mounting of fixed plate has the second cylinder, the piston rod and the fly leaf of second cylinder are connected, the one end swing joint that the second cylinder was kept away from to the fly leaf has the arm, the one end fixed mounting that the fly leaf was kept away from to the arm has the second clamp, the top parallel mounting of fixed plate has two second curb plates, and two second curb plates are located arm and fly leaf both sides, fly leaf and the inboard sliding connection of two second curb plates.

The invention has the beneficial effects that:

the invention adds natural medicine and food dual purpose raw materials of rhodiola rosea and donkey-hide gelatin; the donkey-hide gelatin is sweet in taste and neutral in nature, enters liver and kidney channels, can nourish yin and moisten dryness, and has the obvious effect of treating anemia; the rhodiola root has the magical effects of strengthening body resistance, tonifying and nourishing blood, and nourishing yin and benefiting lung, strengthens the functional characteristics of traditional Chinese medicines through reasonable blending, and has better functions of tonifying kidney and enriching blood, nourishing yin and strengthening yang, resisting fatigue, resisting aging, resisting cancer and the like. The traditional Chinese medicine beverage containing rhodiola rosea and donkey-hide gelatin can be effectively digested and absorbed by human body through reasonable formula combination, and has good taste, convenient use and balanced nutrition. The production method of the invention has little damage to the raw materials, can keep good flavor and nutrient substances of the traditional Chinese medicine, avoids the adverse effect on the traditional Chinese medicine caused by strong physical operation, has low energy consumption and is beneficial to saving the cost;

the degassed liquid material is filtered and filled into a clean material storage box of filling equipment, a conveying mechanism conveys the medicine bottles, a first motor is driven to work, a rotating shaft is driven to rotate through a belt, a conveying belt is further driven to rotate, the medicine bottles in a medicine bottle barrel are placed on the conveying belt to be conveyed, the medicine bottles are limited by two first side plates, the conveying stability of the medicine bottles can be ensured, and rubber seats are arranged at the bottoms of the medicine bottles, so that the medicine bottles can be protected, the medicine bottles are prevented from being damaged, and the automatic feeding can be realized; the medicine bottle enters from the feed port of the sliding ring, the turntable is provided with four convex grooves for conveying the medicine bottle, so that the medicine bottle is clamped in the convex grooves and rotates along with the turntable, subsequent processing is facilitated, the third motor is driven, the turntable is driven to rotate through the transmission shaft, the medicine bottle is driven to rotate, only one feed port is arranged on the vertical plate, so that the stability of the medicine bottle during rotation is better, when the medicine bottle rotates to the position below the insertion pipe, the pump body is driven, feed liquid in the storage box is conveyed to the filling barrel through the liquid discharge pipe, then the first air cylinder is driven to work, the lifting block is driven to descend, the filling barrel is driven to descend until the insertion pipe is inserted into the medicine bottle, filling is carried out, the insertion pipe is inserted into the filling barrel, and liquid medicine is;

after filling, the first air cylinder drives the cannula to reset, the medicine bottle rotates to the position below the cap screwing mechanism, the bottle cap is placed on the medicine bottle through the mechanical arm, then the second air cylinder is driven, the movable plate is pushed to move through the piston rod, further the mechanical arm is pushed to drive the second clamp to fix the medicine bottle, the problem that the medicine bottle is loosened in the cap screwing process to cause untightening and leakage is avoided, then the servo motor is driven to work, the lead screw is driven to rotate, the sliding block is driven to descend, further the first clamp is driven to descend, the second motor is driven to work, the first clamp is driven to rotate, the bottle cap is covered, and finally the first clamp and the second clamp are loosened; the medicine bottle continues to rotate and is finally discharged from the discharge port; the filling equipment has high automation degree, can automatically perform filling and screwing, improves the working efficiency and reduces the labor intensity; automatic feeding and discharging can be carried out, and continuous operation can be carried out; through this filling equipment, can be so that more even of liquid medicine filling, the dispersibility is good, easily human absorption can carry out the filling with the liquid medicine of preparation fast and preserve, avoids it to expose for a long time outside, causes its drug effect to reduce, difficult absorption.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the filling apparatus of the present invention;

FIG. 2 is a schematic view of the overall structure of the conveying mechanism of the present invention;

FIG. 3 is a schematic view of the overall structure of the filling mechanism of the present invention;

FIG. 4 is a schematic view of the entire structure of the screw capping mechanism according to the present invention;

FIG. 5 is a schematic view of the overall structure of the clamping mechanism of the present invention;

FIG. 6 is an exploded view of the rotary mechanism of the present invention;

fig. 7 is a schematic top view of the slip ring of the present invention.

In the figure: 1. a work table; 2. a conveying mechanism; 3. a material storage box; 4. a liquid discharge pipe; 5. a filling mechanism; 6. a cap screwing mechanism; 7. a clamping mechanism; 8. a discharge hopper; 9. a rotation mechanism; 10. a support bar; 21. a medicine bottle barrel; 22. a first motor; 23. a rotating shaft; 24. a belt; 25. a first side plate; 26. a rubber seat; 27. a medicine bottle; 51. a first cylinder; 52. a lifting block; 53. a support plate; 54. a support pillar; 55. inserting a tube; 56. a guide bar; 57. filling the barrel; 61. a first bracket; 62. a screw rod; 63. a first clamp; 64. a second motor; 65. a slider; 66. a servo motor; 71. a second bracket; 72. a second cylinder; 73. a fixing plate; 74. a movable plate; 75. a second side plate; 76. a mechanical arm; 77. a second clamp; 91. a third motor; 92. a drive shaft; 93. a slip ring; 94. a turntable; 941. a convex groove; 931. a transverse plate; 932. a vertical plate; 933. a feed inlet; 934. a discharge outlet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, an easily absorbable Chinese medicine is prepared from the following raw materials in parts by weight: 5 parts of rhodiola rosea, 5 parts of donkey-hide gelatin and 14 parts of jujube paste;

the traditional Chinese medicine is prepared by the following steps:

step one, preparing rhodiola rosea filtrate;

step two, crushing the weighed donkey-hide gelatin in a high-speed crusher, and uniformly crushing the donkey-hide gelatin for later use;

step three, adding the crushed donkey-hide gelatin in the step two into the filtrate prepared in the step one, standing for 4 hours, stirring, and adding 8 parts of jujube paste while stirring;

step four, transferring the feed liquid prepared in the step three into a concentration pot, adding 2 parts of jujube paste while stirring, and concentrating the feed liquid;

step five, homogenizing and degassing the concentrated feed liquid in sequence;

step six, the degassed material liquid is thermally filtered and filled into a clean material storage box of filling equipment, a conveying mechanism conveys the medicine bottles, the medicine bottles enter from a feed port of a sliding ring and are clamped in a convex groove of a rotary disc, a third motor is driven, the rotary disc is driven to rotate through a transmission shaft, the medicine bottles are driven to rotate, when the medicine bottles rotate to the position below an insertion pipe, a pump body is driven, the material liquid in the material storage box is conveyed to a filling barrel through a liquid discharge pipe, then a first air cylinder is driven to work, and the filling barrel is driven to descend through driving a lifting block to descend until the insertion pipe is inserted into the medicine bottles, and filling is carried out;

seventhly, after filling is finished, the first air cylinder drives the intubation tube to reset, the medicine bottle rotates to the position below the cap screwing mechanism, the bottle cap is placed on the medicine bottle through the mechanical arm, then the second air cylinder is driven, the movable plate is pushed to move through the piston rod, further the mechanical arm is pushed to drive the second clamp to fix the medicine bottle, then the servo motor is driven to work, the lead screw is driven to rotate, the sliding block is driven to descend, further the first clamp is driven to descend, the second motor is driven to work, the first clamp is driven to rotate, further the bottle cap is covered, and finally the first clamp and the second clamp are loosened; the medicine bottle continues to rotate and is finally discharged from the discharge port.

The preparation method of the rhodiola rosea filtrate comprises the following steps:

weighing rhodiola rosea, removing impurities contained in the rhodiola rosea, washing the rhodiola rosea with clear water, taking out the rhodiola rosea, and soaking the rhodiola rosea in clean water which is 5-8 times of the weight of the rhodiola rosea for 1 hour to ensure that the rhodiola rosea is fully moistened;

adding wet rhodiola rosea into a clean leaching tank, adding purified water according to the amount which is 10 times of the weight of the rhodiola rosea, decocting for 1 hour, and filtering out liquid medicine; adding purified water in an amount which is 5 times the weight of the rhodiola rosea for the second time, decocting for O.5 hours, and filtering out liquid medicine; adding purified water in an amount which is 1 time of the weight of the rhodiola rosea for the third time, decocting for 0.2h, and filtering out liquid medicine; the filtrates are combined for further use.

The homogenizing step comprises the following steps: and (3) feeding the concentrated feed liquid into a homogenizer or a colloid mill for homogenization, and adjusting the particle size of the feed liquid to be less than or equal to 2 um.

The degassing step comprises: transferring the homogenized material liquid to a vacuum concentrator, and degassing at 60 deg.C and 0.06MPa for 20 min.

The filling equipment comprises the following working steps:

hot filtering the degassed feed liquid, filling the feed liquid into a clean feed storage box of filling equipment, and filling the feed liquid in the feed storage box according to 68 ml/bottle in a clean environment; the conveying mechanism conveys the medicine bottles, the medicine bottles enter from the feed inlet of the sliding ring and are clamped in the convex groove of the rotary table, the third motor is driven, the rotary table is driven to rotate through the transmission shaft, the medicine bottles are driven to rotate, when the medicine bottles rotate to the position below the insertion pipe, the pump body is driven, the material liquid in the material storage box is conveyed to the filling barrel through the liquid discharge pipe, then the first air cylinder is driven to work, the filling barrel is driven to descend by driving the lifting block to descend until the insertion pipe is inserted into the medicine bottles, and filling is carried out;

after filling, the first air cylinder drives the cannula to reset, the medicine bottle rotates to the position below the cap screwing mechanism, the bottle cap is placed on the medicine bottle through the mechanical arm, then the second air cylinder is driven, the movable plate is pushed to move through the piston rod, further the mechanical arm is pushed to drive the second clamp to fix the medicine bottle, then the servo motor is driven to work, the lead screw is driven to rotate, further the sliding block is driven to descend, further the first clamp is driven to descend, the second motor is driven to work, the first clamp is driven to rotate, further the bottle cap is capped, and finally the first clamp and the second clamp are loosened; the medicine bottle continues to rotate and is finally discharged from the discharge port.

The vial had a volume of 70 mL.

The working steps of the conveying mechanism are as follows: the first motor of drive work drives the rotation axis through the belt and rotates, and then drives the conveyer belt and rotate, puts the medicine bottle in the medicine bottle bucket on the conveyer belt and carries, and two first curb plates carry on spacingly to the medicine bottle.

The filling equipment comprises a workbench 1, a conveying mechanism 2, a material storage box 3, a filling mechanism 5, a screwing cover mechanism 6, a clamping mechanism 7, a discharging hopper 8 and a rotating mechanism 9, wherein the conveying mechanism 2 is fixedly arranged at one end of the top of the workbench 1, the conveying mechanism 2 comprises a medicine bottle barrel 21, a first motor 22, a rotating shaft 23, a belt 24, a first side plate 25, a rubber seat 26 and a medicine bottle 27, the first motor 22 is fixed on the workbench 1, the first motor 22 drives the rotating shaft 23 to rotate through the belt 24, the rotating shaft 23 drives the conveying belt to rotate, the L-shaped first side plate 25 which is inverted is arranged at two sides of the conveying belt, the conveying belt is suitable for conveying the rubber seat 26 and the medicine bottle 27, the conveying belt is limited by the rubber seat 26 and the medicine bottle 27, the conveying is stable, the rubber seat 26 is arranged between the first side plates 25, the medicine bottle 27, a medicine bottle barrel 21 is arranged at one end of the first side plate 25, which is far away from the rotating mechanism 9; the other ends of the two first side plates 25 are in contact with the feed inlet 933;

the rotary mechanism 9 is installed at one end of the conveying mechanism 2, the rotary mechanism 9 comprises a third motor 91, a transmission shaft 92, a sliding ring 93 and a rotary table 94, the third motor 91 is installed inside the workbench 1, the top of the third motor 91 is connected with the rotary table 94 through the transmission shaft 92, four convex grooves 941 for conveying the medicine bottles 27 are circumferentially arranged on the rotary table 94, the rotary table 94 is arranged in the sliding ring 93 for rotation, and the arrangement of the rotary table 94 and the sliding ring 93 facilitates stable conveying of the medicine bottles and facilitates blanking and feeding of the medicine bottles;

the sliding ring 93 comprises a horizontal plate 931 and a vertical plate 932, the horizontal plate 931 and the vertical plate 932 are both circular structures, the vertical plate 932 is vertically installed on the outer diameter of the upper end surface of the horizontal plate 931, a feed inlet 933 for conveying medicine bottles 27 is formed in the vertical plate 932, a discharge outlet 934 for outputting the medicine bottles 27 is formed in the horizontal plate 931, the discharge outlet 934 and the feed inlet 933 are not in contact, the inner diameter of the vertical plate 932 is the same as the diameter of the rotary table 94, the bottom of the horizontal plate 931 is connected with the workbench 1 through a plurality of support rods 10, and the upper end surface of the horizontal plate 931 is in contact with the placing rotary table 94; a discharge hopper 8 is arranged at the bottom of the discharge opening 934;

the automatic filling device is characterized in that the periphery of the rotating mechanism 9 is arc-shaped, a material storage box 3, a filling mechanism 5, a screwing mechanism 6 and a clamping mechanism 7 are sequentially arranged, the screwing mechanism 6 is located between the filling mechanism 5 and the clamping mechanism 7, a pump body is mounted on one side of the material storage box 3 and is connected with a filling barrel 57 on the filling mechanism 5 through a liquid discharge pipe 4, the filling mechanism 5 comprises a first air cylinder 51, a lifting block 52, a supporting plate 53, a supporting column 54, an insertion pipe 55, a guide rod 56 and the filling barrel 57, the supporting plate 54 is provided with the supporting plate 53, the supporting plate 53 is provided with the first air cylinder 51, a bottom piston rod of the first air cylinder 51 is connected with the lifting block 52, the lifting block 52 is connected with the supporting plate 53 through the two guide rods 56, the filling barrel 57 is fixedly mounted on one side of the lifting block 52, and the bottom of the filling barrel;

the cap screwing mechanism 6 comprises a first support 61, a screw rod 62, a first clamp 63, a second motor 64, a sliding block 65 and a servo motor 66, wherein the servo motor 66 is fixedly installed on the first support 61, the screw rod 62 is vertically installed on an output shaft of the servo motor 66, the sliding block 65 is connected to the screw rod 62 in a threaded manner, the second motor 64 is fixedly installed on the sliding block 65, and the second motor 64 drives the first clamp 63 to rotate;

clamping mechanism 7 includes second support 71, second cylinder 72, fixed plate 73, fly leaf 74, second curb plate 75, arm 76 and second clamp 77, fixed mounting has fixed plate 73 on the second support 71, the top one end fixed mounting of fixed plate 73 has second cylinder 72, the piston rod of second cylinder 72 is connected with fly leaf 74, the one end swing joint that second cylinder 72 was kept away from to fly leaf 74 has arm 76, the one end fixed mounting that arm 76 kept away from fly leaf 74 has second clamp 77, the top parallel mounting of fixed plate 73 has two second curb plates 75, and two second curb plates 75 are located arm 76 and fly leaf 74 both sides, and fly leaf 74 and the inboard sliding connection of two second curb plates 75.

The working principle of the invention is as follows: the degassed liquid material is filtered and filled into a clean material storage box of filling equipment, a conveying mechanism conveys the medicine bottles, a first motor is driven to work, a rotating shaft is driven to rotate through a belt, a conveying belt is further driven to rotate, the medicine bottles in the medicine bottle barrels are placed on the conveying belt to be conveyed, the medicine bottles are limited by two first side plates, the conveying stability of the medicine bottles can be guaranteed, and the rubber seats are arranged at the bottoms of the medicine bottles, so that the medicine bottles can be protected and prevented from being damaged; the medicine bottle enters from the feed port of the sliding ring, the turntable is provided with four convex grooves for conveying the medicine bottle, so that the medicine bottle is clamped in the convex grooves and rotates along with the turntable, subsequent processing is facilitated, the third motor is driven, the turntable is driven to rotate through the transmission shaft, the medicine bottle is driven to rotate, only one feed port is arranged on the vertical plate, so that the stability of the medicine bottle during rotation is better, when the medicine bottle rotates to the position below the insertion pipe, the pump body is driven, feed liquid in the storage box is conveyed to the filling barrel through the liquid discharge pipe, then the first air cylinder is driven to work, the lifting block is driven to descend, the filling barrel is driven to descend until the insertion pipe is inserted into the medicine bottle, filling is carried out, the insertion pipe is inserted into the filling barrel, and liquid medicine is;

after filling, the first air cylinder drives the cannula to reset, the medicine bottle rotates to the position below the cap screwing mechanism, the bottle cap is placed on the medicine bottle through the mechanical arm, then the second air cylinder is driven, the movable plate is pushed to move through the piston rod, further the mechanical arm is pushed to drive the second clamp to fix the medicine bottle, the problem that the medicine bottle is loosened in the cap screwing process to cause untightening and leakage is avoided, then the servo motor is driven to work, the lead screw is driven to rotate, the sliding block is driven to descend, further the first clamp is driven to descend, the second motor is driven to work, the first clamp is driven to rotate, the bottle cap is covered, and finally the first clamp and the second clamp are loosened; the medicine bottle continues to rotate and is finally discharged from the discharge port; the filling equipment has high automation degree, can automatically perform filling and screwing, improves the working efficiency and reduces the labor intensity.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is illustrative and explanatory only and is not intended to be exhaustive or to limit the invention to the precise embodiments described, and various modifications, additions, and substitutions may be made by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims.