CN113397980A

CN113397980A - Be used for quick filling device of capsule class medicine granule

Info

Publication number: CN113397980A
Application number: CN202110853263.7A
Authority: CN
Inventors: 徐竞峰; 刘汝常; 徐国兵; 邱兴浩; 倪志强; 罗伟平
Original assignee: Jiangsu Kaiwei Medical Packing Co ltd
Current assignee: Jiangsu Kaiwei Medical Packing Co ltd
Priority date: 2021-07-27
Filing date: 2021-07-27
Publication date: 2021-09-17
Anticipated expiration: 2041-07-27
Also published as: CN113397980B

Abstract

The invention relates to the field of medicine packaging machinery, in particular to a rapid filling device for capsule medicine particles, which comprises a blanking mechanism, a filling mechanism, a covering and pressing mechanism, a supporting seat and a finished product box, wherein the blanking mechanism is arranged on the supporting seat; the filling mechanism is fixedly arranged on the supporting seat, the filling mechanism is arranged below the blanking mechanism, the covering and pressing mechanism is arranged on the finished product box, and the finished product box is fixedly arranged on the supporting seat. The invention realizes the operation of the whole device through one power source, greatly improves the automation degree and improves the working efficiency; the invention realizes the filling of different capsule medicine particles by arranging the blanking mechanism, thereby improving the working efficiency; according to the invention, the medicine particles are stirred by arranging the filling device, so that the phenomenon of mutual adhesion in the process of filling the medicine particles is avoided.

Description

Be used for quick filling device of capsule class medicine granule

Technical Field

The invention relates to the field of medicine packaging machinery, in particular to a rapid filling device for capsule medicine particles.

Background

The working pressure of people in the current society is getting bigger and bigger, and the life rule of people is changed, so people are easy to suffer from diseases, a large amount of capsules are consumed regardless of hospitalization or self-medication conditioning, but the filling of the capsule shell with the medicine by the capsule medicine is a complicated matter. The patent with application number CN03800656.1 discloses a capsule filling machine, and the technical scheme of the patent is as follows: having first and second stations, sliding means for supporting and moving the capsule body between one first and one second station, in a first station, the capsule body is distanced from the lower end of the cylindrical hole, and in a second station, the capsule body is positioned exactly below the lower end of the cylindrical hole, the sliding means comprising a first and a second carriage, the first and second carriage working in association with each other, the first carriage being carried by the first station, and the second support is carried by the second station; there is also drive means acting on at least the first support to move the first support towards the second support in a radial and lateral movement until the first support comes into contact gradually with the second support, and by the subsequent thrust of the first carriage on the second carriage, the second carriage is pushed away from the first station back to the second station, which enables the dose to be released into the capsule body. The technical scheme of this patent can only solve the problem that fills a capsule medicine granule and work like this efficiency very low, invents a kind and is used for quick filling device of capsule class medicine granule to this defect.

Disclosure of Invention

Aiming at the technical problem, the device for quickly filling the capsule type medicine particles comprises a blanking mechanism, a filling mechanism, a covering and pressing mechanism, a supporting seat and a finished product box; the blanking mechanism comprises a particle box, a partition plate, a leakage ring, a support plate, a middle pipe, a reversing assembly, a blanking assembly and an installation shaft; the granule box lower surface evenly distributed have a plurality of through-holes that only hold the granule to pass through, granule box inner surface evenly fixed mounting have a plurality of division boards, a plurality of division board even fixed mounting on installation axle, installation axle fixed mounting on the granule box, switching-over subassembly and blanking subassembly all install on the granule box, the hourglass ring install in blanking subassembly below, backup pad fixed mounting leak the ring on, the hourglass ring on have three-section evenly distributed's recess, all have a through-hole that only holds the granule to pass through in every recess, the internal surface of hourglass ring be the spill, leak the concave minimum point of internal surface of hourglass ring in through-hole department, the hourglass ring on fixed mounting have a plurality of intermediate ducts, carry the interior hourglass ring through switching-over subassembly and blanking subassembly with granule in the granule box.

Furthermore, the reversing assembly comprises a sliding arc plate, a left fixing block, a right fixing block, a fixing rod, a fixing shaft, a rotating rod, an elliptical disc and a push rod; the blanking assembly comprises a fixing ring and a mounting plate; the left fixing block and the right fixing block are both fixedly arranged on the sliding arc plate, the sliding arc plate is slidably arranged on the fixing ring, the left fixing block and the right fixing block are symmetrically distributed on the sliding arc plate, the fixing ring is fixedly provided with the fixing shaft, the fixing shaft is fixedly arranged on the right fixing block, the rotating rod is rotatably arranged on the fixing shaft, a notch is formed in the rotating rod, and the rotating rod is slidably arranged on the left fixing block through the formed notch; the packing mechanism include the major axis, the major axis on fixed mounting have an oval dish, the major axis rotate and install on the mounting panel, oval dish on fixed mounting have two catch bars, two the catch bar at oval dish surface symmetric distribution, drive the catch bar through the rotation of oval dish and stir dwang and dead lever, drive the slip arc pole when dwang and dead lever move and slide on solid fixed ring surface.

Furthermore, the blanking assembly also comprises a connecting crankshaft, a toggle plate, a receiving disc, a linkage rod, an upper fixed block, a lower side plate and a connecting shaft; one end of the connecting crankshaft is fixedly arranged on the poking plate, the other end of the connecting crankshaft is fixedly arranged on the sliding arc plate, the poking plate is slidably arranged on the particle box, the poking plate is rotatably arranged on the installation shaft, the connecting disc is slidably arranged on the lower surface of the particle box, the connecting disc and the poking plate are coaxial, the connecting disc and the poking plate are both fan-shaped, the fan-shaped angle of the connecting disc is larger than that of the poking plate, the edge of the same side of the connecting disc and the edge of the same side of the poking plate are overlapped, the edge of the other side of the connecting disc and the edge of the same side of the poking plate are not overlapped, a through hole through which only particles can pass is arranged at the bottom of the connecting disc, the inner surface of the connecting disc is concave, the lowest concave point of the connecting disc is arranged at the through hole, the through hole at the bottom of the connecting disc always faces to the groove of the leakage ring in the motion process, an upper fixing block is fixedly arranged on the connecting disc, one end of the linkage rod is fixedly arranged on the upper fixing block, the other end of the linkage rod is fixedly arranged on a connecting shaft, and the connecting shaft is fixedly arranged on the sliding arc plate; lower curb plate fixed mounting at solid fixed ring downside, the lower curb plate on fixed mounting have the mounting panel, send into the flange through the rotation of stirring board box flange in with the granule in the granule box.

Furthermore, the filling mechanism also comprises a power assembly, a pin wheel, a sleeve, a filling assembly, a rotating disc and a placing groove; the power assembly is arranged on the supporting plate; the pin wheel is fixedly arranged on the long shaft; the sleeve is fixedly arranged on the fixing ring, the filling assembly is arranged together with the power assembly, the rotating disc is arranged below the filling assembly, a plurality of placing grooves are uniformly and fixedly arranged on the rotating disc, capsule shells are placed on the placing grooves, particles are filled into the capsule shells through the filling assembly, and the filled capsule shells are conveyed to the next procedure through the power assembly.

Furthermore, the power assembly comprises a motor, a motor shaft, a surrounding shaft, a central gear and a surrounding gear; the feeding assembly comprises a material containing box, and a surrounding shaft is fixedly arranged below the material containing box; each surrounding gear is fixedly arranged below the rotating disc, the rotating disc is rotatably arranged on the surrounding shaft, and the rotating disc is driven to rotate through the rotation of the central gear.

Furthermore, the feeding assembly also comprises a connecting plate and an agitator, the agitator is fixedly arranged on the long shaft, the agitator is arranged in the material containing box, the lower surface of the material containing box is provided with a through hole for the particles to pass through, the inner surface of the material containing box is concave, the lowest concave point of the material containing box is arranged at the through hole, one end of the connecting plate is fixedly arranged on the material containing box, the other end of the connecting plate is fixedly arranged below the leakage ring, the upper surface of the material containing box is provided with a through hole for only allowing particles to pass through, the through hole on the upper surface of the material containing box and the middle pipe are coaxial, the through hole on the upper surface of the material containing box and the through hole on the lower surface of the material containing box are not coaxial, the lower surface of the material containing box is superposed with the lower surface of the lower side plate, the particles entering the material containing box are stirred under the action of the stirrer, so that the particles entering the material containing box are prevented from being adhered.

Furthermore, the cover pressing mechanism comprises a special-shaped rack, a lifting plate, a charging barrel, a rotating cam, a rotating gear, a limiting column, a pin and a long nail; the special-shaped racks are uniformly and fixedly provided with a plurality of long nails, the special-shaped racks are distributed in a staggered manner in the vertical direction, each special-shaped rack is meshed with one rotating gear, the rotating gear is fixedly arranged with a rotating cam, the surface of the rotating cam is provided with a groove, a pin is slidably arranged on the groove of the surface of the rotating cam, the pin is fixedly arranged on a lifting plate, a material discharging barrel is fixedly arranged on the lifting plate, a capsule shell is arranged on the material discharging barrel, the lifting plate is slidably arranged on a limiting column, the limiting column is fixedly arranged on a sleeve, the lifting plate slides up and down along the rotating cam, and the capsule shell cover on the material discharging barrel is pressed on a filling mechanism.

Furthermore, the cover pressing mechanism also comprises a feeding box, the feeding box is fixedly arranged below the fixing ring, and a large number of capsule shells are arranged in the feeding box.

Furthermore, the upper surface of the finished product box is provided with a plurality of arc-shaped convex blocks, and the special-shaped rack is slidably mounted on the arc-shaped convex blocks of the finished product box.

Furthermore, a plurality of right small holes are uniformly distributed on the rotating disc, the small holes in the rotating disc and the placing groove are coaxial, and the diameter of the small holes in the rotating disc is larger than the inner diameter of the placing groove and smaller than the outer diameter of the placing groove.

Further, a rotating cam is mounted on the lifting plate.

Compared with the prior art, the invention has the beneficial effects that: (1) the invention realizes the operation of the whole device through one power source, greatly improves the automation degree and improves the working efficiency; (2) the invention realizes the filling of different capsule medicine particles by arranging the blanking mechanism, thereby improving the working efficiency; (3) according to the invention, the medicine particles are stirred by arranging the filling device, so that the phenomenon of mutual adhesion in the process of filling the medicine particles is avoided.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural diagram of the blanking mechanism of the invention.

Fig. 3 is a schematic diagram of a partially enlarged structure of a reversing component of the blanking mechanism.

FIG. 4 is a schematic diagram of a partially enlarged structure of a blanking assembly of the blanking mechanism of the invention.

FIG. 5 is a schematic view of the filling mechanism according to the present invention.

Fig. 6 is a partially enlarged structural schematic diagram of the filling mechanism of the present invention.

FIG. 7 is a partially enlarged schematic view of the power assembly of the filling mechanism of the present invention.

Fig. 8 is a schematic view of the capping mechanism of the present invention.

Fig. 9 is a partially enlarged schematic view of the capping mechanism of the present invention.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example (b): a rapid filling device for capsule type medicine particles as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8 and fig. 9 comprises a blanking mechanism 1, a filling mechanism 2, a capping mechanism 3, a supporting seat 4 and a finished product box 5.

As shown in fig. 2 to 5, in the blanking mechanism 1, a plurality of through holes for only allowing particles to pass through are uniformly distributed on the lower surface of a particle box 101, a plurality of partition plates 103 are uniformly and fixedly mounted on the inner surface of the particle box 101, a plurality of partition plates 103 are uniformly and fixedly mounted on a mounting shaft 122, the mounting shaft 122 is fixedly mounted on the particle box 101, a support plate 120 is fixedly mounted on a leakage ring 119, three sections of uniformly distributed grooves are formed on the leakage ring 119, a through hole for only allowing particles to pass through is formed in each groove on the leakage ring 119, the inner surface of the leakage ring 119 is concave, the lowest point of the concave shape of the inner surface of the leakage ring 119 is at the through hole, a support plate 120 is fixedly mounted on the leakage ring 119, a plurality of intermediate pipes 121 are fixedly mounted on the leakage ring 119, the intermediate pipes 121 and the through holes on the leakage ring 119 are coaxial, a left fixing block 108 and a right fixing block 110 are both fixedly mounted on a sliding arc plate 123, the sliding arc plate 123 is slidably mounted on a fixing ring 107, the left fixing block 108 and the right fixing block 110 are symmetrically distributed on the sliding arc plate 123, the fixing ring 107 is fixedly provided with a fixing shaft 112, the fixing rod 111 is fixedly arranged on the right fixing block 110, the rotating rod 113 is rotatably arranged on the fixing shaft 112, the rotating rod 113 is provided with a notch, the rotating rod 113 is slidably arranged on the left fixing block 108 through the notch, the long shaft 208 is fixedly provided with an elliptical disk 114, the long shaft 205 is rotatably arranged on the mounting plate 115, the elliptical disk 114 is fixedly provided with two pushing rods 117, the two pushing rods 117 are symmetrically distributed on the surface of the elliptical disk 114, one end of the connecting crankshaft 102 is fixedly arranged on the toggle plate 104, the other end of the connecting crankshaft 102 is fixedly arranged on the sliding arc plate 123, the toggle plate 104 is slidably arranged on the particle box 101, the toggle plate 104 is rotatably arranged on the mounting shaft 122, the connecting plate 105 is slidably arranged on the lower surface of the particle box 101, and the connecting plate 105 and the shifting plate 104 are coaxial, the connecting disc 105 and the poking plate 104 are both in a fan shape, the fan-shaped angle of the connecting disc 105 is larger than that of the poking plate 104, the edge of the same side of the connecting disc 105 and the edge of the same side of the poking plate 104 are overlapped, the edge of the other side of the same side of the connecting disc 105 is not overlapped, a through hole which only allows particles to pass through is formed in the bottom of the connecting disc 105, the inner surface of the connecting disc 105 is concave, the lowest concave point of the connecting disc is located at the through hole, the through hole in the bottom of the connecting disc 105 always faces to a groove of the leakage ring 119 in the movement process, an upper fixing block 109 is fixedly installed on the connecting disc 105, one end of a linkage rod 106 is fixedly installed on the upper fixing block 109, the other end of the linkage rod 106 is fixedly installed on a connecting shaft 118, and the connecting shaft 118 is fixedly installed on a sliding arc plate 123; the lower plate 116 is fixedly mounted on the lower side of the fixing ring 107, and the mounting plate 115 is fixedly mounted on the lower plate 116.

As shown in the filling mechanism 2 of fig. 3 to 7, the pinwheel 204 is fixedly mounted on the long shaft 205; the sleeve 203 is fixedly arranged on the fixed ring 107, the rotating disc 206 is uniformly and fixedly provided with a plurality of placing grooves 207, capsule shells are placed on the placing grooves 207, the motor 201 is fixedly arranged below the supporting plate 120, the output end of the motor 201 is fixedly provided with a motor shaft 202, the motor shaft 202 is fixedly provided with a central gear 212, the central gear 212 is meshed with a plurality of surrounding gears 213, the surrounding gears 213 are rotatably arranged on a surrounding shaft 210, and the surrounding shaft 210 is fixedly arranged below the material containing box 208; each surrounding gear 213 is fixedly arranged below the rotating disc 206, the rotating disc 206 is rotatably arranged on the surrounding shaft 210, the agitator 211 is fixedly arranged on the long shaft 205, the agitator 210 is arranged inside the material containing box 208, the lower surface of the material containing box 208 is provided with a through hole through which only particles pass, the inner surface of the material containing box 208 is concave, the lowest concave point of the material containing box 208 is arranged at the through hole, one end of a connecting plate 209 is fixedly arranged on the material containing box 208, the other end of the connecting plate 209 is fixedly arranged below the leakage ring 119, the upper surface of the material containing box 208 is provided with a through hole through which only particles pass, the through hole on the upper surface of the material containing box 208 is coaxial with the middle pipe 121, the through hole on the upper surface of the material containing box 208 is not coaxial with the through hole on the lower surface, and the lower surface of the material containing box 208 is coincident with the lower surface of the lower side plate 116.

As shown in fig. 6 to 9, in the capping mechanism 3, there are a plurality of profile racks 301, each profile rack 301 is uniformly and fixedly provided with a plurality of spikes 308, the plurality of profile racks 301 are distributed in a staggered manner in the vertical direction, each profile rack 301 is engaged with a rotating gear 306, the rotating gear 306 is fixedly provided with a rotating cam 305, the surface of the rotating cam 305 is provided with a groove, the rotating cam 305 is mounted on a lifting plate 303, the groove on the surface of the rotating cam 305 is slidably provided with a pin 307, the pin 307 is fixedly mounted on the lifting plate 303, the lifting plate 303 is fixedly provided with a material discharging barrel 304, the material discharging barrel 304 is provided with a capsule shell, the lifting plate 303 is slidably mounted on a limiting column 309, the limiting column 309 is fixedly mounted on the sleeve 203, the material feeding box 302 is fixedly mounted below a fixing ring 107, the material feeding box 302 is provided with a large number of capsule shells, the upper surface of the finished product box 5 is provided with a plurality of circular arc-shaped projections, the special-shaped rack 301 is slidably mounted on the arc-shaped convex block of the finished box.

The working principle is as follows: before the device starts to work, different types of medicine particles are filled between the three partition plates 103 of the particle box 101, when the medicine particles flow into the receiving disc 105 along the through holes uniformly distributed on the particle box 101, the motor 201 is started, the motor 201 drives the motor shaft 202 to rotate, the motor shaft 202 drives the central gear 212 to rotate, the central gear 212 drives the plurality of surrounding gears 213 to rotate, the surrounding gears 213 drive the special-shaped racks 301 to rotate, the special-shaped racks 301 drive the long nails 308 fixedly arranged on the special-shaped racks 301 to move when rotating, the long nails 307 drive the pin wheels 204 to rotate when moving, the pin wheels 204 drive the long shafts 205 to rotate when rotating, the long shafts 205 drive the elliptical discs 114 to rotate when rotating, the push rods 117 are driven to move when rotating the push rods 117, the rotating rods 113 drive the sliding arc plates 123 to slide on the surfaces of the fixing rings 107 under the action of the fixing shafts 112, when the push rod 117 is separated from the rotating rod 113, the sliding arc plate 123 stops sliding, the elliptical disk 114 continues to rotate to drive the push rod 117 to move, when the push rod 117 contacts with the fixing rod 111, the elliptical plate 114 continues to rotate to drive the push rod 117 to push the fixing rod 111, the fixing rod 111 drives the sliding arc plate 123 to slide along the direction opposite to the previous direction under the action of the right fixing block 110, the poking plate 104 slides along with the sliding arc plate 123 under the action of the connecting crankshaft 102 in the sliding process of the sliding arc plate 123, and the poking plate 104 gradually shields through holes in the particle box 101 in the sliding process, so that medicine particles in the particle box 101 cannot fall down.

Because the inner surface of the receiving disc 105 is concave, particles in the receiving disc 105 flow back to the leakage ring 119 along the through hole on the receiving disc, then flow into the material containing box 208 along the middle pipe 121 below the leakage ring 119, the long shaft 205 rotates to drive the stirrer 211 to rotate to stir the drug particles flowing into the material containing box 208, so that the drug particles are prevented from being adhered, the rotating disc 206 is driven to rotate when the surrounding gear 213 rotates, the placing groove 207 is driven to rotate when the rotating disc 206 rotates, and the stirred particles in the material containing box 208 flow into the capsule shell on the placing groove 207 along the through hole below the material containing box 208.

When the special-shaped rack 301 rotates, the rotating gear 306 is driven to rotate, when the rotating gear 306 rotates, the rotating cam 305 is driven to rotate, the lifting plate 303 slides up and down along the rotating cam 305 under the action of the pin 307 and the limiting column 309 on the lifting plate 303, when the lifting plate 303 slides downwards, the capsule shell cover on the material discharging barrel 304 is pressed on the capsule shell of the placing groove 207, and when the lifting plate 303 slides downwards to the lowest point, the filled capsule is pressed into the finished product box 5.

The present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make various modifications without creative efforts from the above-described conception and fall within the scope of the present invention.

Claims

1. A fast filling device for capsule type medicine particles comprises a blanking mechanism, a filling mechanism, a covering and pressing mechanism, a supporting seat and a finished product box; the method is characterized in that: the blanking mechanism comprises a particle box, a partition plate, a leakage ring, a support plate, a middle pipe, a reversing assembly, a blanking assembly and an installation shaft; granule box lower surface evenly distributed have a plurality of through-holes that only hold the granule and pass through, granule box inner surface evenly fixed mounting have a plurality of division boards, it is a plurality of the even fixed mounting of division board on the installation axle, installation axle fixed mounting on the granule box, switching-over subassembly and blanking subassembly all install on the granule box, the hourglass ring install in blanking subassembly below, backup pad fixed mounting leak the ring on, the hourglass ring on have multistage evenly distributed's recess, all have a through-hole that only holds the granule and pass through in every recess, the hourglass intra-annular surface be the spill, leak the concave minimum of intra-annular surface at the through-hole department, the hourglass ring on fixed mounting have a plurality of intermediate ducts, carry the hourglass intra-annular through granule in switching-over subassembly and the blanking subassembly in with the granule box.

2. A rapid filling device for pharmaceutical particles in the form of capsules as claimed in claim 1, wherein: the reversing assembly comprises a sliding arc plate, a left fixing block, a right fixing block, a fixing rod, a fixing shaft, a rotating rod, an elliptical disc and a push rod; the blanking assembly comprises a fixing ring and a mounting plate; the left fixing block and the right fixing block are both fixedly arranged on the sliding arc plate, the sliding arc plate is slidably arranged on the fixing ring, the left fixing block and the right fixing block are symmetrically distributed on the sliding arc plate, the fixing ring is fixedly provided with the fixing shaft, the fixing shaft is fixedly arranged on the right fixing block, the rotating rod is rotatably arranged on the fixing shaft, a notch is formed in the rotating rod, and the rotating rod is slidably arranged on the left fixing block through the formed notch; the packing mechanism include the major axis, the major axis on fixed mounting have an oval dish, the major axis rotate and install on the mounting panel, oval dish on fixed mounting have two catch bars, two the catch bar at oval dish surface symmetric distribution, drive the catch bar through the rotation of oval dish and stir dwang and dead lever, drive the slip arc pole when dwang and dead lever move and slide on solid fixed ring surface.

3. A rapid filling device for pharmaceutical particles in the form of capsules as claimed in claim 2, wherein: the blanking assembly further comprises a connecting crankshaft, a poking plate, a connecting disc, a linkage rod, an upper fixing block, a lower side plate and a connecting shaft; one end of the connecting crankshaft is fixedly arranged on the poking plate, the other end of the connecting crankshaft is fixedly arranged on the sliding arc plate, the poking plate is slidably arranged on the particle box, the poking plate is rotatably arranged on the installation shaft, the connecting disc is slidably arranged on the lower surface of the particle box, the connecting disc and the poking plate are coaxial, the connecting disc and the poking plate are both fan-shaped, the fan-shaped angle of the connecting disc is larger than that of the poking plate, the edge of the same side of the connecting disc and the edge of the same side of the poking plate are overlapped, the edge of the other side of the connecting disc and the edge of the same side of the poking plate are not overlapped, a through hole through which only particles can pass is arranged at the bottom of the connecting disc, the inner surface of the connecting disc is concave, the lowest concave point of the connecting disc is arranged at the through hole, the through hole at the bottom of the connecting disc always faces to the groove of the leakage ring in the motion process, an upper fixing block is fixedly arranged on the connecting disc, one end of the linkage rod is fixedly arranged on the upper fixing block, the other end of the linkage rod is fixedly arranged on a connecting shaft, and the connecting shaft is fixedly arranged on the sliding arc plate; lower curb plate fixed mounting at solid fixed ring downside, the lower curb plate on fixed mounting have the mounting panel, send into the flange through the rotation of stirring board box flange in with the granule in the granule box.

4. A rapid filling device for pharmaceutical particles in the form of capsules as claimed in claim 2, wherein: the filling mechanism also comprises a power assembly, a pin wheel, a sleeve, a filling assembly, a rotating disc and a placing groove; the power assembly is arranged on the supporting plate; the pin wheel is fixedly arranged on the long shaft; the sleeve is fixedly arranged on the fixing ring, the filling assembly is arranged together with the power assembly, the rotating disc is arranged below the filling assembly, a plurality of placing grooves are uniformly and fixedly arranged on the rotating disc, capsule shells are placed on the placing grooves, particles are filled into the capsule shells through the filling assembly, and the filled capsule shells are conveyed to the next procedure through the power assembly.

5. A rapid filling device for pharmaceutical particles in the form of capsules as claimed in claim 4, wherein: the power assembly comprises a motor, a motor shaft, a surrounding shaft, a central gear and a surrounding gear; the feeding assembly comprises a material containing box, and a surrounding shaft is fixedly arranged below the material containing box; each surrounding gear is fixedly arranged below the rotating disc, the rotating disc is rotatably arranged on the surrounding shaft, and the rotating disc is driven to rotate through the rotation of the central gear.

6. A rapid filling device for pharmaceutical particles in the form of capsules as claimed in claim 5, wherein: the feeding assembly further comprises a connecting plate and an agitator, the agitator is fixedly mounted on the long shaft, the agitator is mounted inside the material containing box, the lower surface of the material containing box is provided with a through hole through which only particles pass, the inner surface of the material containing box is concave, the lowest point of the concave shape of the material containing box is arranged at the through hole, one end of the connecting plate is fixedly mounted on the material containing box, the other end of the connecting plate is fixedly mounted below the leakage ring, the upper surface of the material containing box is provided with a through hole through which only the particles pass, the through hole of the upper surface of the material containing box is coaxial with the middle pipe, the through hole of the upper surface of the material containing box is not coaxial with the through hole of the lower surface, the particles entering the material containing box are stirred under the action of the agitator, and the particles entering the material containing box are prevented from being adhered.

7. A rapid filling device for pharmaceutical particles in the form of capsules as claimed in claim 1, wherein: the covering and pressing mechanism comprises a special-shaped rack, a lifting plate, a charging barrel, a rotating cam, a rotating gear, a limiting column, a pin and a long nail; the special-shaped racks are uniformly and fixedly provided with a plurality of long nails, the special-shaped racks are distributed in a staggered manner in the vertical direction, each special-shaped rack is meshed with one rotating gear, the rotating gear is fixedly arranged with a rotating cam, the surface of the rotating cam is provided with a groove, a pin is slidably arranged on the groove of the surface of the rotating cam, the pin is fixedly arranged on a lifting plate, a material discharging barrel is fixedly arranged on the lifting plate, a capsule shell is arranged on the material discharging barrel, the lifting plate is slidably arranged on a limiting column, the lifting plate slides up and down along the rotating cam, and the capsule shell cover on the material discharging barrel is pressed on the filling mechanism.