CN114655480B

CN114655480B - Icariin slow-release nano microcapsule intelligent packaging equipment and method

Info

Publication number: CN114655480B
Application number: CN202210187816.4A
Authority: CN
Inventors: 李舒庆
Original assignee: Anhui Jinyuan Pharmaceutical Co ltd
Current assignee: Anhui Jinyuan Pharmaceutical Co ltd
Priority date: 2022-02-28
Filing date: 2022-02-28
Publication date: 2024-04-09
Anticipated expiration: 2042-02-28
Also published as: CN114655480A

Abstract

The invention belongs to the technical field of medicine packaging, in particular to icariin slow-release nano microcapsule intelligent packaging equipment and a packaging method. According to the icariin slow-release nano microcapsule intelligent packaging equipment and the packaging method, the capsule is conveyed into the medicine bottle through the filling device, the medicine bottle is placed by the material receiving seat in the filling device, the in-situ condition of the medicine bottle is detected through the connection condition of the emission end of the correlation switch and the receiving end of the correlation switch, and after medicine filling is finished, the medicine bottle is weighed one by one through the gravity sensor in the material receiving seat, so that the actual dosage in the medicine bottle is conveniently adjusted, and the intelligent packaging device has the characteristic of being convenient for intelligent packaging of the nano microcapsule.

Description

Icariin slow-release nano microcapsule intelligent packaging equipment and method

Technical Field

The invention relates to the technical field of medicine packaging, in particular to intelligent icariin slow-release nano microcapsule packaging equipment and a packaging method.

Background

Icariin (synonym icaritin) is the main active ingredient of herba Epimedii, and is 8-isopentenyl flavonoid glycoside compound. Can be extracted from dried stems and leaves of Epimedium sagittatum, epimedium pubescens, epimedium wushanense, epimedium koreanum nakai, etc. Is light yellow needle crystal, and is soluble in ethanol and ethyl acetate, and insoluble in ether, benzene and chloroform. The aerial part of herba Epimedii mainly contains flavonoids, and the underground part mainly contains flavonoids and alkaloids. In addition, the epimedium plant contains more than hundred chemical components of lignans, anthraquinones, anthocyanins, sesquiterpenes, phenethyl alcohol glycosides, polysaccharides, glucose, fructose, phytosterols, palmitic acid, stearic acid, linolenic acid, potassium chloride and the like, and the components are distributed in different epimedium plants. Icariin can increase cardiovascular and cerebrovascular blood flow, promote hematopoiesis, immunity, promote bone metabolism, and has effects of invigorating kidney, supporting yang, and resisting aging;

when the traditional icariin slow-release nano microcapsule is packaged, the situation that the quantity of capsules in a medicine bottle is insufficient is easy to exist, the detection is inconvenient after the filling, so that the public praise of a manufacturer is influenced, and meanwhile, the dosage of the capsules is insufficient and is more difficult to detect, so that the economic benefit of the manufacturer is influenced.

Disclosure of Invention

Based on the technical problem that the existing packaging equipment is inconvenient to detect the quality of products, the invention provides intelligent icariin slow-release nano microcapsule packaging equipment and a packaging method.

The invention provides an intelligent icariin slow-release nano microcapsule packaging device and a packaging method, wherein the intelligent icariin slow-release nano microcapsule packaging device comprises a storage box and a medicine bottle, a filling device is arranged on the surface of the medicine bottle, the filling device comprises a filling tube, the lower end of the filling tube is funnel-shaped, the lower end of the filling tube is aligned with an opening at the upper end of the medicine bottle, and a capsule in the filling tube slides into the medicine bottle; the upper end of the filling pipe is provided with a screening device, the screening device comprises a fan, and the screening device rejects capsules with insufficient dosage through the fan; the conveying device is arranged above the screening device and comprises a conveying belt, and the conveying device is used for arranging and conveying the capsules through the conveying belt.

Preferably, the lower extreme fixed surface of filling tube has cup jointed the mounting panel, and the fixed surface of mounting panel is connected with the correlation switch transmitting end, and the surface slip of medicine bottle has cup jointed and has connect the material seat, and the upper surface fixedly connected with of receiving the material seat is penetrated the switch receiving end.

Through the technical scheme, the connection condition of the receiving end of the correlation switch and the transmitting end of the correlation switch is utilized to carry out the in-place judgment of the material receiving seat, so that the installation condition of the material receiving seat is convenient to monitor.

Preferably, the upper surface of receiving seat has seted up the bottle groove, and the inner wall in bottle groove and the surface sliding connection of medicine bottle, and gravity sensor is installed to the interior bottom wall in bottle groove, and gravity sensor's upper surface installs weighing plate, weighing plate's upper surface and the lower surface sliding connection of medicine bottle.

Through the technical scheme, the gravity sensor is used for detecting the quality of the filled medicine bottles, so that the actual medicine quantity in the medicine bottles is calculated conveniently.

Preferably, the air outlet end surface fixedly connected with collection fan housing of fan, the surface fixedly connected with reposition of redundant personnel pole of collection fan housing, the wind groove has been seted up to the inside of reposition of redundant personnel pole, the inside of wind groove and the inside intercommunication of collection fan housing, the surface fixedly connected with control pipe of reposition of redundant personnel pole, the inside of control pipe and the inside intercommunication of wind groove.

Through the technical scheme, the air flow of the fan is collected by the air collecting cover, so that the utilization rate of the air flow generated by the fan is improved conveniently.

Preferably, the internally mounted of control pipe has the valve, and the terminal fixedly connected with monitoring pipe of control pipe, and the surface mounting of monitoring pipe has pipeline wind speed sensor, and the terminal fixedly connected with of monitoring pipe sieves the bin, and the lower surface fixedly connected with filling tube of sieve bin, the inside of sieve bin and the inside of monitoring pipe and filling tube all communicate.

Through the technical scheme, the valve is utilized to adjust the wind speed of the air flow in the control tube, so that the difference of the wind speeds of the air flow in the three control tubes is avoided.

Preferably, the lower surface fixedly connected with waste pipe of sieve bin, the upper end of waste pipe and the inside intercommunication of sieve bin, waste pipe and monitoring pipe are located the both sides of filling tube respectively, the upper surface fixedly connected with discharging pipe of sieve bin, the inside of discharging pipe and the inside intercommunication of sieve bin, the discharging pipe is located directly over the filling tube.

Through above-mentioned technical scheme, utilize the waste pipe to install in one side below of keeping away from the monitoring pipe to the upper end of hollow capsule to waste pipe is skew under the effect of wind power of being convenient for.

Preferably, the lower surface fixedly connected with of storage tank is the hopper down, and the inside of hopper communicates with the inside of storage tank down, and the lower extreme fixedly connected with row material pole of hopper down, the intercommunication groove has been seted up to the front end upper surface of row material pole, and the transport groove has been seted up to the inside of row material pole, and the lower extreme of hopper communicates with the inside of transport groove through the intercommunication groove, and the conveyer belt is installed in the inside of transport groove.

Through the technical scheme, the conveying belt is utilized to provide power for conveying the capsules, so that the capsules can be conveyed conveniently.

Preferably, the surface fixedly connected with row material motor of row material pole, the output shaft surface fixedly connected with row material axle of row material motor, row material axle is located the inside of transportation groove, and the one end of row material axle rotates with the inner wall of transportation groove to be connected.

Through above-mentioned technical scheme, utilize only carrying out the installation of arranging the material axle in one side of transportation groove to the material of capsule is carried out through arranging the material axle to the convenience.

Preferably, the end of the discharging rod is fixedly sleeved with a discharging hopper, the inside of the discharging hopper is provided with a discharging chute which is in a funnel shape, the inside of the discharging chute is communicated with the end of the transportation chute, the lower end of the discharging hopper is fixedly connected with a discharging pipe, and the inside of the discharging chute is communicated with the upper end of the discharging pipe.

The beneficial effects of the invention are as follows:

1. the capsule is conveyed into the medicine bottle through the filling device, the medicine bottle is placed by the material receiving seat in the filling device, the in-place condition of the medicine bottle is detected through the connection condition of the emission end of the correlation switch and the receiving end of the correlation switch, and after the medicine filling is finished, the medicine bottle is weighed one by one through the gravity sensor in the material receiving seat, so that the actual medicine amount in the medicine bottle is conveniently adjusted, and the nano microcapsule intelligent packaging device has the characteristic of being convenient for carrying out intelligent packaging on the nano microcapsule.

2. Through setting up the installation of sieving mechanism on the surface of filling tube, utilize sieving mechanism to screen the capsule, last input air current to the sieving box through the fan in the sieving mechanism for before the capsule gets into the filling tube through the sieving box, the capsule of dose is insufficient takes place the skew under the effect of air current and gets into the useless intraductal, and the capsule of dose sufficient receives the effect of air current lower, in entering the filling tube that can be smooth, thereby the capsule of rejecting dose inadequately of being convenient for.

3. Through setting up the below installation conveyor at the storage tank, when utilizing the conveyer belt in the conveyor to carry the capsule, utilize the row's of conveyer belt surface material axle and transport tank inner wall to hinder and comb the capsule surface for the capsule is arranged one by one and is transported at the surface of conveyer belt, makes the capsule get into sieving mechanism one by one, thereby is convenient for improve sieving mechanism's degree of accuracy.

Drawings

FIG. 1 is a schematic diagram of intelligent icariin slow-release nano microcapsule packaging equipment and a packaging method provided by the invention;

FIG. 2 is a cross-sectional view of a bottle groove structure of intelligent icariin slow-release nano microcapsule packaging equipment and a packaging method provided by the invention;

FIG. 3 is a perspective view of a blower structure of intelligent icariin slow-release nano microcapsule packaging equipment and a packaging method provided by the invention;

FIG. 4 is a cross-sectional view of a screening box structure of icariin slow-release nano microcapsule intelligent packaging equipment and a packaging method provided by the invention;

FIG. 5 is a cross-sectional view of a wind collecting cover structure of intelligent icariin slow-release nano microcapsule packaging equipment and a packaging method provided by the invention;

FIG. 6 is a sectional view of a structure of a discharging rod of the icariin slow-release nano microcapsule intelligent packaging device and the packaging method provided by the invention;

fig. 7 is a cross-sectional view of a discharge hopper structure of the icariin slow-release nano microcapsule intelligent packaging device and the packaging method provided by the invention.

In the figure: 1. a storage box; 2. a medicine bottle; 3. filling tubes; 31. a mounting plate; 32. a correlation switch transmitting end; 33. a receiving seat; 34. a correlation switch receiving end; 35. a bottle groove; 36. a gravity sensor; 37. a weighing plate; 4. a blower; 41. a wind collecting hood; 42. a diverter rod; 43. a wind groove; 44. a control tube; 45. a valve; 46. monitoring a tube; 47. a pipeline wind speed sensor; 48. a screening box; 49. a waste material pipe; 410. a discharge pipe; 5. a conveyor belt; 51. discharging a hopper; 52. a discharging rod; 53. a communication groove; 54. a transport tank; 55. a discharging motor; 56. a discharging shaft; 57. discharging a hopper; 58. and a discharge chute.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-7, an intelligent icariin slow-release nano microcapsule packaging device and a packaging method thereof comprise a storage box 1 and a medicine bottle 2, wherein a filling device is arranged on the surface of the medicine bottle 2, the filling device comprises a filling tube 3, the lower end of the filling tube 3 is funnel-shaped, the lower end of the filling tube 3 is aligned with an opening at the upper end of the medicine bottle 2, and the capsule in the filling tube 3 slides into the medicine bottle 2; the upper end of the filling pipe 3 is provided with a screening device, the screening device comprises a fan 4, and the screening device rejects capsules with insufficient dosage through the fan 4; a conveyor is mounted above the screening device, and comprises a conveyor belt 5, and the conveyor belt 5 is used for arranging and conveying the capsules.

In order to be convenient for pack the capsule, be provided with the filling device and carry out the filling of capsule, the lower extreme fixed surface of filling tube 3 has cup jointed mounting panel 31 in the filling device, fixedly connected with correlation switch transmitting terminal 32 at the surface of mounting panel 31, the surface sliding sleeve of medicine bottle 2 has connect material seat 33, the upper surface fixedly connected with correlation switch receiving terminal 34 of material seat 33, utilize correlation switch receiving terminal 34 and correlation switch transmitting terminal 32's the condition of being connected to carry out the judgement of taking one's place of material seat 33, thereby be convenient for monitor the installation condition of material seat 33, the bottle groove 35 has been seted up to the upper surface of material seat 33, the inner wall of bottle groove 35 and the surface sliding connection of medicine bottle 2, gravity sensor 36 is installed to the interior bottom wall of bottle groove 35, the upper surface mounting of gravity sensor 36 has weighing plate 37, the upper surface of weighing plate 37 and the lower surface sliding connection of medicine bottle 2, utilize gravity sensor 36 to carry out quality detection after medicine bottle 2 fills, thereby be convenient for calculate the actual dose in the medicine bottle 2.

The capsule is conveyed into the medicine bottle 2 by arranging the filling device, the medicine bottle 2 is placed by utilizing the material receiving seat 33 in the filling device, the in-place condition of the medicine bottle 2 is detected by the connection condition of the opposite-shot switch transmitting end 32 and the opposite-shot switch receiving end 34, and after the medicine filling is finished, the medicine bottles 2 are weighed one by the gravity sensor 36 in the material receiving seat 33, so that the actual medicine amount in the medicine bottle 2 is conveniently adjusted, and the nano microcapsule intelligent packaging device has the characteristic of being convenient for intelligently packaging the nano microcapsule.

In order to facilitate the detection of the filled capsules, a screening device is arranged for rejecting unqualified capsules, the surface of the air outlet end of a fan 4 in the screening device is fixedly connected with a wind collecting cover 41, the outer surface of the wind collecting cover 41 is fixedly connected with a flow dividing rod 42, the inside of the flow dividing rod 42 is provided with a wind groove 43, the inside of the wind groove 43 is communicated with the inside of the wind collecting cover 41, the surface of the flow dividing rod 42 is fixedly connected with a control tube 44, the inside of the control tube 44 is communicated with the inside of the wind groove 43, the air flow of the fan 4 is collected by utilizing the wind collecting cover 41, thereby being convenient for improving the utilization rate of the air flow generated by the fan 4, a valve 45 is arranged in the inside of the control tube 44, the tail end of the control tube 44 is fixedly connected with a monitoring tube 46, the surface of the monitoring tube 46 is provided with a pipeline wind speed sensor 47, the tail end of the monitoring tube 46 is fixedly connected with a screening box 48, the lower surface fixedly connected with filling tube 3 of sieve bin 48, the inside of sieve bin 48 and the inside of monitor tube 46 and the inside of filling tube 3 all communicate, utilize valve 45 to adjust the wind speed of the air current in the control tube 44, thereby be convenient for avoid the air current wind speed in the three control tube 44 different, the lower surface fixedly connected with waste pipe 49 of sieve bin 48, the upper end and the inside intercommunication of sieve bin 48 of waste pipe 49, waste pipe 49 and monitor tube 46 are located the both sides of filling tube 3 respectively, the upper surface fixedly connected with discharging pipe 410 of sieve bin 48, the inside of discharging pipe 410 and the inside intercommunication of sieve bin 48, discharging pipe 410 is located the filling tube 3 directly over, utilize waste pipe 49 to install in the one side below of keeping away from monitor tube 46, thereby be convenient for hollow capsule to deflect to the upper end of waste pipe 49 under the effect of wind.

Through setting up the installation of sieving mechanism on the surface of filling tube 3, utilize sieving mechanism to screen the capsule, last input air current to the sieving box through fan 4 in the sieving mechanism for before the capsule gets into filling tube 3 through the sieving box, the capsule that the dose is not enough takes place the skew under the effect of air current and gets into in the useless material pipe 49, and the capsule that the dose is sufficient receives the effect of air current lower, can be smooth get into filling tube 3 in, thereby be convenient for reject the capsule that the dose is not enough.

In order to avoid a plurality of capsules to get into sieving mechanism simultaneously, be provided with conveyor and carry out the transportation one by one to the capsule, the lower fixed surface at storage tank 1 is connected with hopper 51 down, the inside of hopper 51 communicates with the inside of storage tank 1 down, the lower extreme fixedly connected with discharge rod 52 of hopper 51, the intercommunication groove 53 has been seted up to the front end upper surface of discharge rod 52, the transport tank 54 has been seted up to the inside of discharge rod 52, the lower extreme of hopper 51 communicates with the inside of transport tank 54 through intercommunication groove 53, conveyer belt 5 installs in the inside of transport tank 54, utilize conveyer belt 5 to provide power for the capsule transportation, thereby be convenient for carry out the transportation of capsule, the surface fixedly connected with discharge motor 55 of discharge rod 52, the output shaft surface fixedly connected with of discharge motor 55 has discharge shaft 56, discharge shaft 56 is located the inside of transport tank 54, the one end of discharge shaft 56 rotates with the inner wall of transport tank 54, the installation of discharge shaft 56 is carried out in one side of transport tank 54 only, thereby the convenience for carrying out the discharge of capsule through discharge shaft 56, the end fixedly cup joints discharge hopper 57, the inside 58 of discharge shaft 52 has been provided with hopper 58, the inside 58 is connected with the inside of discharge hopper 410, the inside of discharge hopper 58 is provided with the inside of discharge hopper 58, the inside hopper 410 is connected with the inside of discharge hopper 58, the inside of discharge hopper 410 is connected with the inside of discharge hopper 58.

Through setting up the conveyor in the below of storage tank 1, when utilizing conveyer belt 5 among the conveyor to carry the capsule, utilize the row's of conveyer belt 5 surface material axle 56 and transport tank 54 inner wall to hinder and comb the capsule surface for the capsule is arranged one by one and is transported at the surface of conveyer belt 5, makes the capsule get into sieving mechanism one by one, thereby is convenient for improve sieving mechanism's degree of accuracy.

Working principle:

firstly, pouring the capsules into a storage box 1, enabling the capsules in the storage box to enter a transport groove 54 through a discharging hopper 51, starting a fan 4, blowing air into a control pipe 44 and a monitoring pipe 46 through a gas collecting hood and a flow dividing rod 42 by the fan 4, adjusting the wind power of the fan 4 and an air valve according to the standard quality of the capsules, and enabling the wind speeds in the three monitoring pipes 46 to be the same according to the measurement result of a pipeline wind speed sensor 47;

step two, starting a conveying belt 5 and a discharging motor 55, wherein the conveying belt 5 drives the capsules to move in a conveying groove 54, the discharging motor 55 drives a discharging shaft 56 to rotate towards the other side of the conveying groove 54, the discharging shaft 56 pushes the surfaces of the capsules so as to fall on the surface of the conveying belt 5, and meanwhile, the capsules accumulated on the surface of the conveying belt 5 are blocked by the inner bottom wall of the conveying groove 54;

step three, the capsules enter the discharge chute 58 under the action of the conveying belt 5 and slide into the discharge pipe 410 through the discharge chute 58, the capsules slide out of the discharge chute 58 and enter the screening direction, the air flow in the monitoring pipe 46 is transmitted into the screening box 48, the capsules with insufficient quality in the screening box 48 are deflected under the action of the air flow and discharged through the waste material pipe 49, and the capsules with qualified quality are lower under the action of the air flow and enter the filling pipe 3;

step four, placing the material receiving seat 33 containing the empty medicine bottle 2 below the filling tube 3, so that the lower end of the filling tube 3 is aligned with the opening of the upper end of the medicine bottle 2, meanwhile, the emission end 32 of the correlation switch and the receiving end of the correlation switch are connected, a capsule enters the medicine bottle 2 through the filling tube 3, after filling, the material receiving seat 33 drives the medicine bottle 2 to leave the filling tube 3, the correlation switch is disconnected, the gravity sensor 36 is started, the medicine bottle 2 and the actual medicine amount are measured, and the number of capsules in the medicine bottle 2 is adjusted according to the measurement result.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The utility model provides a icariin slowly-releasing nanometer microcapsule intelligent packaging equipment, includes storage tank (1) and medicine bottle (2), its characterized in that: the surface mounting of the medicine bottle (2) is provided with a filling device, the filling device comprises a filling tube (3), the lower end of the filling tube (3) is funnel-shaped, the lower end of the filling tube (3) is aligned with an upper end opening of the medicine bottle (2), and a capsule in the filling tube (3) slides into the medicine bottle (2);

the upper end of the filling pipe (3) is provided with a screening device, the screening device comprises a fan (4), and the screening device rejects capsules with insufficient dosage through the fan (4);

a conveying device is arranged above the screening device and comprises a conveying belt (5), and the conveying device is used for arranging and conveying capsules through the conveying belt (5);

the air outlet end surface of the fan (4) is fixedly connected with an air collecting cover (41), the outer surface of the air collecting cover (41) is fixedly connected with a flow dividing rod (42), an air groove (43) is formed in the flow dividing rod (42), the air groove (43) is communicated with the air collecting cover (41), a control tube (44) is fixedly connected with the surface of the flow dividing rod (42), and the control tube (44) is communicated with the air groove (43);

the automatic control device is characterized in that a valve (45) is arranged in the control tube (44), the tail end of the control tube (44) is fixedly connected with a monitoring tube (46), a pipeline wind speed sensor (47) is arranged on the surface of the monitoring tube (46), a screening box (48) is fixedly connected with the tail end of the monitoring tube (46), a filling tube (3) is fixedly connected with the lower surface of the screening box (48), and the interior of the screening box (48) is communicated with the interior of the monitoring tube (46) and the interior of the filling tube (3);

the storage box comprises a storage box body, wherein the lower surface of the storage box body is fixedly connected with a discharging hopper (51), the inside of the discharging hopper (51) is communicated with the inside of the storage box body, the lower end of the discharging hopper (51) is fixedly connected with a discharging rod (52), the upper surface of the front end of the discharging rod (52) is provided with a communicating groove (53), the inside of the discharging rod (52) is provided with a conveying groove (54), the lower end of the discharging hopper (51) is communicated with the inside of the conveying groove (54) through the communicating groove (53), and a conveying belt (5) is arranged in the conveying groove (54);

the outer surface of the discharging rod (52) is fixedly connected with a discharging motor (55), the surface of an output shaft of the discharging motor (55) is fixedly connected with a discharging shaft (56), the discharging shaft (56) is positioned in the conveying groove (54), and one end of the discharging shaft (56) is rotationally connected with the inner wall of the conveying groove (54);

the discharging hopper (57) is fixedly sleeved at the tail end of the discharging rod (52), the discharging hopper (58) is arranged in the discharging hopper (57), the discharging hopper (58) is funnel-shaped, the inside of the discharging hopper (58) is communicated with the tail end of the transporting chute (54), the discharging pipe (410) is fixedly connected to the lower end of the discharging hopper (57), and the inside of the discharging hopper (58) is communicated with the upper end of the discharging pipe (410).

2. The icariin slow-release nano microcapsule intelligent packaging device according to claim 1, which is characterized in that: the lower extreme fixed surface of filling tube (3) has cup jointed mounting panel (31), the fixed surface of mounting panel (31) is connected with correlation switch transmitting terminal (32), the surface slip of medicine bottle (2) has cup jointed and has connect material seat (33), the upper surface fixedly connected with correlation switch receiving terminal (34) of material seat (33).

3. The icariin slow-release nano microcapsule intelligent packaging equipment according to claim 2, which is characterized in that: the upper surface of receiving seat (33) has seted up bottle groove (35), the inner wall in bottle groove (35) and the surface sliding connection of medicine bottle (2), gravity sensor (36) are installed to the interior bottom wall in bottle groove (35), weighing plate (37) are installed to the upper surface of gravity sensor (36), the upper surface of weighing plate (37) and the lower surface sliding connection of medicine bottle (2).

4. The icariin slow-release nano microcapsule intelligent packaging device according to claim 1, which is characterized in that: the utility model discloses a filling pipe, including sieve bin (48), waste pipe (49) are connected with lower fixed surface of sieve bin (48), the inside intercommunication of upper end and sieve bin (48) of waste pipe (49), waste pipe (49) and monitoring pipe (46) are located the both sides of filling pipe (3) respectively, the upper fixed surface of sieve bin (48) is connected with discharging pipe (410), the inside of discharging pipe (410) communicates with the inside of sieve bin (48), discharging pipe (410) are located directly over filling pipe (3).

5. The packaging method of the icariin slow-release nano microcapsule intelligent packaging equipment according to any one of claims 1 to 4, which is characterized by comprising the following steps:

firstly, pouring capsules into a storage box (1), enabling the capsules in the storage box to enter a transport groove (54) through a discharging hopper (51), starting a fan (4), blowing air into a control pipe (44) and a monitoring pipe (46) through a gas collecting cover and a flow dividing rod (42) by the fan (4), adjusting the wind force of the fan (4) and an air valve according to the standard quality of the capsules, and enabling the wind speeds in three monitoring pipes (46) to be the same according to the measurement result of a pipeline wind speed sensor (47);

step two, starting a conveying belt (5) and a discharging motor (55), wherein the conveying belt (5) drives capsules to move in a conveying groove (54), the discharging motor (55) drives a discharging shaft (56) to rotate towards the other side of the conveying groove (54), and the discharging shaft (56) pushes the surfaces of the capsules to fall on the surface of the conveying belt (5), and meanwhile, the capsules accumulated on the surface of the conveying belt (5) are blocked by the inner bottom wall of the conveying groove (54);

step three, the capsules enter a discharge chute (58) under the action of a conveying belt (5), slide into a discharge pipe (410) through the discharge chute (58), enter a screening direction after sliding out of the discharge chute (58), the air flow in a monitoring pipe (46) is transmitted into a screening box (48), the capsules with insufficient quality in the screening box (48) are deflected under the action of the air flow and discharged through a waste material pipe (49), and the qualified capsules are lower under the action of the air flow and enter a filling pipe (3);

and fourthly, placing a receiving seat (33) containing the empty medicine bottle (2) below the filling tube (3) so that the lower end of the filling tube (3) is aligned with an upper end opening of the medicine bottle (2), simultaneously, a transmitting end (32) of the correlation switch and a receiving end of the correlation switch are connected, a capsule enters the medicine bottle (2) through the filling tube (3), after filling, the receiving seat (33) drives the medicine bottle (2) to leave the filling tube (3), the correlation switch is disconnected, a gravity sensor (36) is started, the medicine bottle (2) and the actual medicine amount are measured, and the number of the capsules in the medicine bottle (2) is adjusted according to a measurement result.