CN109604019B

CN109604019B - New-type bio-pharmaceuticals tablet grinds forming device

Info

Publication number: CN109604019B
Application number: CN201811637862.XA
Authority: CN
Inventors: 于桂华
Original assignee: Zhejiang Doudoubao Traditional Chinese Medicine Research Co ltd
Current assignee: ZHEJIANG DOUDOUBAO TRADITIONAL CHINESE MEDICINE RESEARCH Co.,Ltd.
Priority date: 2018-12-29
Filing date: 2018-12-29
Publication date: 2020-08-07
Anticipated expiration: 2038-12-29
Also published as: CN109604019A

Abstract

The invention relates to a medical instrument, in particular to a novel grinding and forming device for biopharmaceutical tablets. Including grinding case base, forming box, can solve the biological only punching press tablet in the pharmacy and be the common method in the medicament production, the tablet need be through grinding the problem that mixed transportation was being accomplished in the loaded down with trivial details manual mode of the most adoption of the punching press process before the punching press, can also solve current stamping equipment and support the easy not real cracked phenomenon of production of punching press of the tablet that carries out single one-time punching press stamping forming to one-time stamping forming extrudes the problem of mould with the medicament powder in the mould easily.

Description

New-type bio-pharmaceuticals tablet grinds forming device

Technical Field

The invention relates to a medical instrument, in particular to a novel grinding and forming device for biopharmaceutical tablets.

Background

The tablet punching is a common method in the drug production in the bio-only pharmacy, the tablet is needed to be grinded, mixed and transported before punching, most of the tablet punching processes are complicated and completed in a manual mode, the tablet which is subjected to single one-time punching and stamping forming is supported by the existing punching equipment, the tablet is easy to punch and is not broken, and the one-time stamping forming is easy to extrude the drug powder in the die out of the die.

Disclosure of Invention

The invention relates to a medical instrument, in particular to a novel grinding and forming device for biopharmaceutical tablets. Can solve the problem that the tablet needs to be ground and mixed and transported to accomplish the complicated most manual mode of the process of punching press before the punching press, and can also solve the problem that the tablet that carries out single one-time stamping and forming is easy to punch and is not really cracked to the one-time stamping and forming is easy to extrude the mould with the medicament powder in the mould.

A grinding box base limiting block, a grinding box discharging hole, a grinding box rotating shaft, a grinding box spiral fan blade, a grinding box rotating shaft conical gear, a grinding box anti-sticking arm rotating sleeve, a grinding box anti-sticking arm, a grinding box anti-sticking strip, a grinding box rotating shaft supporting sleeve supporting arm, a buckle base supporting plate, a buckle base slideway, a buckle base sliding plate, a buckle base sliding plate supporting arm, a buckle base sliding plate spring, a box cover clamping groove, a box cover handle, a box cover motor base, a box cover motor, a box cover concave gear, a transport box base, a transport box motor, a transport box belt, a transport roller, a transport plate supporting arm, an anti-sticking clamping block, a transport plate, an anti-sticking triangular block of the transport plate, a transport box discharging hole, a grinding box base limiting block welded, the grinding box comprises a grinding box base, a grinding box discharging hole, a grinding box rotating shaft, a grinding box spiral fan blade, a grinding box rotating shaft bevel gear, a grinding box anti-sticking arm rotating sleeve, a grinding box anti-sticking strip, a grinding box anti-sticking shaft supporting sleeve, a grinding box rotating shaft supporting sleeve supporting arm, a fastening base supporting plate, a fastening base slide way, a fastening base sliding plate, a grinding box spiral fan blade, a grinding box rotating shaft bevel gear, a grinding box anti-sticking arm rotating sleeve, a grinding box anti-sticking strip, a grinding box rotating shaft supporting sleeve supporting arm, a fastening base support plate, a fastening base slide way and a fastening base sliding, a buckle base sliding plate is welded with a buckle, a buckle base sliding plate supporting arm is welded on the buckle base sliding plate, a buckle base sliding plate spring is arranged on the buckle base sliding plate supporting arm, a box cover clamping groove is arranged on a box cover, a box cover handle is welded on the box cover, a box cover motor base is welded inside the box cover, a box cover motor is fixed on the box cover motor base, a box cover concave gear is connected at the lower end of the box cover motor, a transport box is welded at the lower end of a grinding box base, a transport box base is welded inside the transport box, a transport box motor is fixed on the transport box base, a belt pulley is arranged on the transport box motor, a transport box belt is arranged on the transport box motor belt pulley, a transport roller is rotated inside the transport box, a transport plate supporting arm is welded on the transport roller, an anti, the conveying plate is welded with a conveying plate anti-sticking triangular block, and a conveying box discharge port is arranged on the conveying box.

The forming box is provided with a forming box feeding port, a forming box punching hole, a forming box discharging port, a material conveying hinge roller base, a material conveying hinge roller, a conveying hinge hinged block, a punching box clapboard, a punching box sliding plate sleeve, a punching box sliding plate supporting column, a punching box sliding plate spring, a punching box sliding plate supporting column base, a punching box sliding plate rack, a punching sleeve sliding block, a punching sleeve spring, a punching sleeve supporting column, a linkage belt, a punching box motor belt, a fan-shaped gear supporting arm and a fan-shaped gear, the forming box is welded with the forming box feeding port, the forming box feeding port is communicated with the forming box, the lower end of the forming box is welded with the forming box discharging port, the material conveying hinge roller base is rotated with the material conveying hinge roller, the, a transportation hinge block is hinged on the transportation hinge, a transportation hinge is arranged on a transportation hinge roller, a transportation hinge roller base is welded inside the molding box, a stamping box is welded on the molding box, a stamping box partition plate is welded inside the stamping box, a stamping box sliding plate sleeve is welded on the stamping box sliding plate, a stamping box sliding plate support column is arranged on the stamping box sliding plate sleeve in a sliding manner, a stamping box sliding plate spring is arranged on the stamping box sliding plate support column, a stamping box sliding plate support column base is welded at the lower end of the stamping box sliding plate support column, a stamping box sliding plate support column is welded on the stamping box partition plate, a stamping box sliding plate rack is welded on the stamping box sliding plate, a stamping sleeve sliding block is arranged inside the stamping sleeve in a sliding manner, a stamping block is welded at the lower end of the stamping sleeve sliding block, a stamping sleeve spring is fixed, the lower extreme welding of punching press case sliding plate has the punching press sleeve support column, be provided with the linkage belt on the fortune material hinge roller, the inside of punching press case is fixed with punching press case motor, be provided with the belt pulley on the punching press case motor, be provided with the linkage belt on the punching press case motor belt pulley, be provided with punching press case motor belt on the punching press case motor belt pulley, the lower extreme welding of punching press case baffle has fortune material hinge roller base, it has sector gear to rotate on the fortune material hinge roller base, sector gear and punching press case sliding plate rack, be provided with punching press case motor belt on the sector gear.

The discharge port of the transport box is connected with a forming box feeding port.

As a further optimization of the technical scheme, the grinding box rotating shaft, the grinding box spiral fan blade, the grinding box rotating shaft conical gear, the grinding box anti-sticking arm rotating sleeve, the grinding box anti-sticking arm and the grinding box rotating shaft supporting sleeve of the novel biopharmaceutical tablet grinding and forming device share a common central line.

As a further optimization of the technical scheme, the grinding box base and the anti-sticking strip of the grinding box of the novel biopharmaceutical tablet grinding and forming device are concentric.

As a further optimization of the technical scheme, the grinding box base and the forming box of the novel biopharmaceutical tablet grinding and forming device are made of stainless steel.

As a further optimization of the technical scheme, the belt of the conveying box, the linkage belt and the motor belt of the punching box of the novel bio-pharmaceutical tablet grinding and forming device are made of rubber.

The novel grinding and forming device for the biopharmaceutical tablets has the beneficial effects that:

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic diagram showing the overall structure of a novel biopharmaceutical tablet grinding and forming device according to the present invention.

Fig. 2 is a schematic view of a grinding box base structure of the new biopharmaceutical tablet grinding and molding device of the present invention.

Fig. 3 is a schematic view of a grinding box of the new biopharmaceutical tablet grinding and forming device according to the present invention.

FIG. 4 is a schematic view of the structure of the rotating shaft of the grinding box of the new biopharmaceutical tablet grinding and molding device of the present invention.

FIG. 5 is a schematic view of a fastening base of the new biopharmaceutical tablet grinding and molding apparatus of the present invention.

Fig. 6 is a schematic view of a cover of the new biopharmaceutical tablet milling and forming device of the present invention.

Fig. 7 is a schematic view of a conveying roller of the new biopharmaceutical tablet milling and forming device of the present invention.

Fig. 8 is a schematic diagram of a forming box of the new biopharmaceutical tablet grinding and forming device of the present invention.

Fig. 9 is a schematic view of the base structure of the material conveying hinge roller of the new biopharmaceutical tablet grinding and forming device of the present invention.

Fig. 10 is a schematic view of a stamping box of the new biopharmaceutical tablet milling and forming device of the present invention.

FIG. 11 is a schematic diagram of a slide plate structure of a punching box of the new biopharmaceutical tablet grinding and forming device of the present invention.

Fig. 12 is a schematic view of a punch sleeve of the new biopharmaceutical tablet milling and forming device of the present invention.

In the figure: a grinding box base 1; a grinding box base limiting block 1-1; grinding box 1-2; grinding a discharge hole 1-3 of the grinding box; grinding box rotating shaft 1-4; grinding box spiral fan blades 1-5; a grinding box rotating shaft bevel gear 1-6; rotating the sleeve 1-7 by using an anti-sticking arm of the grinding box; 1-8 parts of an anti-sticking arm of a grinding box; 1-9 parts of grinding box anti-adhesion strips; a grinding box rotating shaft supporting sleeve 1-10; the grinding box rotating shaft supports the sleeve supporting arms 1-11; 1-12 of a buckle base; buckling base support plates 1-13; snap base slides 1-14; a buckle base sliding plate 1-15; 1-16 of a buckle; the buckle base sliding plate supports arms 1-17; snap base slide plate springs 1-18; case covers 1-19; a box cover clamping groove 1-20; case cover handles 1-21; case cover motor bases 1-22; a case cover motor 1-23; case cover concave gears 1-24; 1-25 of transport boxes; transport case bases 1-26; transport case motors 1-27; transport case belts 1-28; transport rollers 1-29; the transport plate supports arms 1-30; 1-31 parts of anti-sticking fixture blocks; 1-32 parts of transport plate; anti-sticking triangular blocks 1-33 of a transport plate; a discharge port of the transport box is 1-34; a forming box 2; a forming box feeding port 2-1; forming box punching holes 2-2; 2-3 of a discharge port of the forming box; a material conveying hinge roller base 2-4; conveying hinge rollers 2-5; a transport hinge 2-6; transport hinge blocks 2-7; 2-8 parts of a punching box; 2-9 parts of a stamping box partition plate; 2-10 of a stamping box sliding plate; stamping a box sliding plate sleeve 2-11; punching a box sliding plate supporting column 2-12; stamping box sliding plate springs 2-13; the stamping box sliding plate supports column bases 2-14; stamping a box sliding plate rack 2-15; 2-16 parts of a stamping sleeve; punching sleeve sliding blocks 2-17; 2-18 parts of a punching block; stamping sleeve springs 2-19; 2-20 parts of a sleeve support column; 2-21 parts of a linkage belt; a ram box motor 2-22; punching a box motor belt 2-23; sector gear supporting arms 2-24; sector gears 2-25.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present invention relates to a medical apparatus, and more specifically to a novel biopharmaceutical tablet grinding and forming apparatus, which comprises a grinding box base 1 and a forming box 2, and can solve the problems that tablet punching in biopharmaceuticals is a common method in pharmaceutical production, tablet punching is complicated and needs to be carried out by grinding, mixing and transporting before punching, and most manual methods are adopted to complete the tablet punching process, and the problem that tablet supporting by the existing punching equipment for single-time punching and forming is easy to punch and not actually generate fragmentation, and the single-time punching and forming is easy to extrude the medicament powder in the mold out of the mold.

The grinding box base 1 is provided with a grinding box base limiting block 1-1, a grinding box 1-2, a grinding box discharge hole 1-3, a grinding box rotating shaft 1-4, a grinding box spiral fan blade 1-5, a grinding box rotating shaft bevel gear 1-6, a grinding box anti-sticking arm rotating sleeve 1-7, a grinding box anti-sticking arm 1-8, a grinding box anti-sticking strip 1-9, a grinding box rotating shaft supporting sleeve 1-10, a grinding box rotating shaft supporting sleeve supporting arm 1-11, a buckle base 1-12, a buckle base supporting plate 1-13, a buckle base slideway 1-14, a buckle base sliding plate 1-15, a buckle 1-16, a buckle base sliding plate supporting arm 1-17, a buckle base sliding plate spring 1-18, a box cover 1-19, a box cover and a box cover, 1-20 parts of box cover clamping grooves, 1-21 parts of box cover handles, 1-22 parts of box cover motor bases, 1-23 parts of box cover motors, 1-24 parts of box cover concave gears, 1-25 parts of transport boxes, 1-26 parts of transport box bases, 1-27 parts of transport box motors, 1-28 parts of transport box belts, 1-29 parts of transport rollers, 1-30 parts of transport plate supporting arms, 1-31 parts of anti-sticking clamping blocks, 1-32 parts of transport plates, 1-33 parts of transport plate anti-sticking triangular blocks and 1-34 parts of transport box discharge holes, 1-1 parts of grinding box base limiting blocks are welded inside the grinding box base 1, 1-2 parts of grinding box base are welded inside the grinding box base 1, 1-3 parts of grinding box discharge holes are arranged on the grinding box 1-2, 1-4 parts of grinding box rotating shafts are rotated inside the grinding box 1-2, grinding box rotating shafts 1-4 are welded with grinding box spiral fan blades 1-5, grinding box rotating shafts 1-4 are welded with grinding box rotating shaft conical gears 1-6, grinding box rotating shafts 1-4 are welded with grinding box anti-sticking arm rotating sleeves 1-7, grinding box anti-sticking arms 1-8 are welded on the grinding box anti-sticking arm rotating sleeves 1-7, grinding box anti-sticking strips 1-9 are fixed on the grinding box anti-sticking arms 1-8, grinding box rotating shafts 1-4 are rotated with grinding box rotating shaft supporting sleeves 1-10, grinding box rotating shaft supporting sleeves 1-10 are welded with grinding box rotating shaft supporting sleeve arms 1-11, grinding box bases 1-12 are welded with buckling bases 1-12, lower ends of the buckling bases 1-12 are welded with buckling base supporting plates 1-13, buckle bases 1-12 are provided with buckle base slideways 1-14, buckle base sliding plates 1-15 are slid on the buckle base slideways 1-14, buckles 1-16 are welded on the buckle base sliding plates 1-15, buckle base sliding plate support arms 1-17 are welded on the buckle base sliding plates 1-15, buckle base sliding plate springs 1-18 are provided on the buckle base sliding plate support arms 1-17, case cover 1-19 is provided with case cover slots 1-20, case cover 1-19 is welded with case cover handles 1-21, case cover 1-19 is internally welded with case cover motor bases 1-22, case cover motor bases 1-22 are fixed with case cover motors 1-23, the lower ends of the case cover motors 1-23 are connected with case cover concave gears 1-24, the grinding box comprises a grinding box base 1, a conveying box base 1-25, conveying box motors 1-27, belt pulleys arranged on the conveying box motors 1-27, conveying box belts 1-28 arranged on the belt pulleys of the conveying box motors 1-27, conveying rollers 1-29 rotating inside the conveying box 1-25, conveying plate supporting arms 1-30 welded on the conveying rollers 1-29, anti-sticking clamping blocks 1-31 welded on the conveying plate supporting arms 1-30, conveying plates 1-32 welded on the anti-sticking clamping blocks 1-31, conveying plate anti-sticking triangular blocks 1-33 welded on the conveying plates 1-32, and conveying box discharge ports 1-34 arranged on the conveying box 1-25.

The forming box 2 is provided with a forming box inlet 2-1, a forming box punching hole 2-2, a forming box outlet 2-3, a material conveying hinge roller base 2-4, a material conveying hinge roller 2-5, a conveying hinge 2-6, a conveying hinge block 2-7, a punching box 2-8, a punching box partition plate 2-9, a punching box sliding plate 2-10, a punching box sliding plate sleeve 2-11, a punching box sliding plate support column 2-12, a punching box sliding plate spring 2-13, a punching box sliding plate support column base 2-14, a punching box sliding plate rack 2-15, a punching sleeve 2-16, a punching sleeve sliding block 2-17, a punching block 2-18, a punching sleeve spring 2-19, a punching sleeve support column 2-20, a linkage belt 2-21, a forming box material inlet 2-1, a forming box punching hole 2-2, a stamping box motor 2-22, a stamping box motor belt 2-23, a sector gear supporting arm 2-24 and a sector gear 2-25, wherein a molding box inlet 2-1 is welded on the molding box 2, the molding box inlet 2-1 is communicated with the molding box 2, a molding box outlet 2-3 is welded at the lower end of the molding box 2, a material conveying hinge roller 2-5 is rotated on a material conveying hinge roller base 2-4, a groove is arranged on the material conveying hinge 2-6, a conveying hinge hinging block 2-7 is hinged on the conveying hinge 2-6, a conveying hinge 2-6 is arranged on the material conveying hinge roller 2-5, a material conveying hinge roller base 2-4 is welded inside the molding box 2, a stamping box 2-8 is welded on the molding box 2, a stamping box clapboard 2-9 is welded inside the stamping box 2-8, a stamping box sliding plate sleeve 2-11 is welded on the stamping box sliding plate 2-10, a stamping box sliding plate support column 2-12 is slid on the stamping box sliding plate sleeve 2-11, a stamping box sliding plate spring 2-13 is arranged on the stamping box sliding plate support column 2-12, a stamping box sliding plate support column base 2-14 is welded at the lower end of the stamping box sliding plate support column 2-12, a stamping box sliding plate support column 2-12 is welded on the stamping box partition plate 2-9, a stamping box sliding plate rack 2-15 is welded on the stamping box sliding plate 2-10, a stamping sleeve sliding block 2-17 is slid in the stamping sleeve 2-16, a stamping block 2-18 is welded at the lower end of the stamping sleeve sliding block 2-17, and a stamping sleeve spring 2-19 is fixed on the stamping sleeve sliding block 2-17, the stamping sleeve 2-16 is welded with a stamping sleeve support column 2-20, the lower end of a stamping box sliding plate 2-10 is welded with a stamping sleeve support column 2-20, a linkage belt 2-21 is arranged on a material conveying hinge roller 2-5, a stamping box motor 2-22 is fixed inside a stamping box 2-8, a belt pulley is arranged on the stamping box motor 2-22, the linkage belt 2-21 is arranged on the stamping box motor 2-22 belt pulley, a stamping box motor belt 2-23 is arranged on the stamping box motor 2-22 belt pulley, a material conveying hinge roller base 2-4 is welded at the lower end of a stamping box clapboard 2-9, a sector gear 2-25 is rotated on the material conveying hinge roller base 2-4, the sector gear 2-25 and a stamping box sliding plate rack 2-15, the sector gear 2-25 is provided with a punching box motor belt 2-23.

The discharge port 1-34 of the transport box is connected with the feeding port 2-1 of the forming box.

The second embodiment is as follows:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11 and 12. the present embodiment will be further described with reference to the embodiment in which the grinding box 1-2, the grinding box rotating shaft 1-4, the grinding box helical blades 1-5, the grinding box rotating shaft bevel gear 1-6, the grinding box anti-sticking arm rotating sleeve 1-7, the grinding box anti-sticking arm 1-8 and the grinding box rotating shaft supporting sleeve 1-10 are concentric.

The third concrete implementation mode:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment in which the grinding box base 1 and the grinding box antiadhesive strips 1 to 9 are concentric.

The fourth concrete implementation mode:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment will further describe the first embodiment, in which the polishing box base 1 and the molding box 2 are made of stainless steel.

The fifth concrete implementation mode:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the present embodiment, wherein the transportation box belts 1 to 28, the linkage belts 2 to 21, and the punching box motor belts 2 to 23 are made of rubber.

The working principle of the invention is as follows:

a novel bio-pharmaceutical tablet grinding and forming device has the working principle that medicament powder is placed inside a grinding box 1-2, a box cover 1-19 is placed on a grinding box base 1, the box cover 1-19 is inserted inside a buckle base 1-12 and is clamped inside a box cover clamping groove 1-20 through a buckle 1-16 for fixing, after mixing, a buckle base sliding plate supporting arm 1-17 is pulled to drive a buckle base sliding plate 1-15 to slide on a buckle base slideway 1-14 and compress a buckle base sliding plate spring 1-18, the buckle base sliding plate 1-15 is moved to drive the buckle 1-16 to move away from a box cover clamping groove 1-20 so as to take down the box cover 1-19, the box cover 1-19 is placed on the grinding box base 1, a box cover concave gear 1-24 is meshed with a grinding box rotating shaft conical gear 1-6, the rotation of a box cover motor 1-23 drives a box cover concave gear 1-24 to rotate, the rotation of the box cover concave gear 1-24 drives a meshed grinding box rotating shaft conical gear 1-6 to rotate, the rotation of the grinding box rotating shaft conical gear 1-6 drives a grinding box rotating shaft 1-4 to rotate, the rotation of the grinding box rotating shaft 1-4 drives a grinding box spiral fan blade 1-5 to rotate, the rotation of the grinding box spiral fan blade 1-5 drives the medicament powder in the grinding box 1-2 to rotate and mix, the rotation of the grinding box rotating shaft 1-4 drives a grinding box anti-sticking arm rotating sleeve 1-7 to rotate, the rotation of the grinding box anti-sticking arm rotating sleeve 1-7 drives a grinding box anti-sticking arm 1-8 to rotate, the grinding box anti-sticking arm 1-8 slides on the inner wall of the grinding box 1-2 to prevent the medicament powder from sticking to the inner part of the grinding box 1-, the anti-sticking arm 1-8 of the mixing grinding box can push out the medicament through the discharge hole 1-3 of the grinding box along with the rotation of the medicament, the medicament falls into the grinding box base 1, the medicament slides into the conveying box 1-25 through the limiting action of the limiting block 1-1 of the grinding box base, the conveying box motor 1-27 rotates to drive the conveying box belt 1-28 to rotate, the conveying box belt 1-28 rotates to drive the conveying roller 1-29 to rotate the conveying roller 1-29 to drive the conveying plate supporting arm 1-30 to rotate, the conveying plate supporting arm 1-30 rotates to drive the medicament in the conveying box 1-25 to rotate and push out through the conveying box discharge hole 1-34, and the conveying plate anti-sticking triangular block 1-33 can prevent medicament powder from sticking to the conveying plate supporting arm 1-30 to influence the conveying effect, the transport plate anti-sticking triangular blocks 1-33 can prevent the agent from excessively clamping the transport plates 1-32, the agent is pushed out through the transport box discharge ports 1-34 and falls into the grooves at the upper ends of the transport hinges 2-6 through the forming box feed ports 2-1, the punch box motors 2-22 rotate to drive the linkage belts 2-21 to rotate, the linkage belts 2-21 rotate to drive the material conveying hinge rollers 2-5 to rotate, the material conveying hinge rollers 2-5 rotate to drive the transport hinges 2-6 to rotate, when the transport hinges 2-6 rotate to the lower ends of the forming box punch holes 2-2, the punch box motors 2-22 rotate to drive the punch box motor belts 2-23 to rotate, the punch box motor belts 2-23 rotate to drive the sector gears 2-25 to rotate, the sector gears 2-25 rotate to drive the meshed punch box sliding plate racks 2-15 to move downwards, the rack 2-15 of the punching box sliding plate moves downwards to drive the supporting columns 2-12 of the punching box sliding plate to slide downwards and simultaneously compress springs 2-13 of the punching box sliding plate, the sliding columns 2-10 of the punching box sliding plate move downwards to drive the supporting columns 2-20 of the punching sleeve to move downwards, the supporting columns 2-20 of the punching sleeve move downwards to drive the punching sleeve 2-16 to move downwards, the punching sleeve 2-16 moves downwards to drive the punching blocks 2-18 to move downwards to match with the grooves at the upper end of the transportation hinge 2-6 to punch and compact the medicament powder in the grooves of the transportation hinge 2-6 for one time, the punching sleeve 2-16 continues to move downwards to compress springs 2-19 of the punching sleeve to impact the punching blocks 2-18, and the punching blocks 2-18 move downwards to punch and shape the medicament for the second, when the sector gears 2-25 rotate and are separated from the racks 2-15 of the sliding plates of the punching box which are meshed, the sector gears are driven to reset by the acting force of springs 2-13 of the sliding plates of the punching box, the hinge rollers 2-5 rotate to drive the transportation hinges 2-6 to rotate, and the transportation hinges 2-6 rotate to slide the punched tablets out through the discharge holes 2-3 of the forming box to be collected and bottled.

The description is not intended to limit the invention, and the invention is not limited to the examples described above, and variations, modifications, additions and substitutions which may be made by those skilled in the art within the spirit of the invention are within the scope of the invention.

Claims

1. A novel bio-pharmaceutical tablet grinding and forming device comprises a grinding box base (1) and a forming box (2), and is characterized in that: the grinding box comprises a grinding box base (1), a grinding box base limiting block (1-1), a grinding box (1-2), a grinding box discharging hole (1-3), a grinding box rotating shaft (1-4), a grinding box spiral fan blade (1-5), a grinding box rotating shaft conical gear (1-6), a grinding box anti-sticking arm rotating sleeve (1-7), a grinding box anti-sticking arm (1-8), a grinding box anti-sticking strip (1-9), a grinding box rotating shaft supporting sleeve (1-10), a grinding box rotating shaft supporting sleeve supporting arm (1-11), a buckle base (1-12), a buckle base supporting plate (1-13), a buckle base slideway (1-14), a buckle base sliding plate (1-15), a buckle (1-16), a buckle base sliding plate supporting arm (1-17), Buckle base sliding plate springs (1-18), box covers (1-19), box cover clamping grooves (1-20), box cover handles (1-21), box cover motor bases (1-22), box cover motors (1-23), box cover concave gears (1-24), transport boxes (1-25), transport box bases (1-26), transport box motors (1-27), transport box belts (1-28), transport rollers (1-29), transport plate supporting arms (1-30), anti-sticking clamping blocks (1-31), transport plates (1-32), transport plate anti-sticking triangular blocks (1-33) and transport box discharge ports (1-34), grinding box base limiting blocks (1-1) are welded inside the grinding box base (1), grinding boxes (1-2) are welded inside the grinding box base (1), a grinding box discharging hole (1-3) is arranged on the grinding box (1-2), a grinding box rotating shaft (1-4) is rotated in the grinding box (1-2), a grinding box spiral fan blade (1-5) is welded on the grinding box rotating shaft (1-4), a grinding box rotating shaft conical gear (1-6) is welded on the grinding box rotating shaft (1-4), a grinding box anti-sticking arm rotating sleeve (1-7) is welded on the grinding box rotating shaft (1-4), a grinding box anti-sticking arm (1-8) is welded on the grinding box anti-sticking arm rotating sleeve (1-7), a grinding box anti-sticking strip (1-9) is fixed on the grinding box anti-sticking arm (1-8), a grinding box rotating shaft supporting sleeve (1-10) is rotated on the grinding box rotating shaft (1-4), grinding box rotating shaft supporting sleeve supporting arms (1-11) are welded on the grinding box rotating shaft supporting sleeves (1-10), buckle bases (1-12) are welded on a grinding box base (1), buckle base supporting plates (1-13) are welded at the lower ends of the buckle bases (1-12), buckle base slideways (1-14) are arranged on the buckle bases (1-12), buckle base sliding plates (1-15) are arranged on the buckle base slideways (1-14) in a sliding mode, buckles (1-16) are welded on the buckle base sliding plates (1-15), buckle base sliding plate supporting arms (1-17) are welded on the buckle base sliding plates (1-15), buckle base sliding plate springs (1-18) are arranged on the buckle base sliding plate supporting arms (1-17), a box cover clamping groove (1-20) is arranged on the box cover (1-19), a box cover handle (1-21) is welded on the box cover (1-19), a box cover motor base (1-22) is welded inside the box cover (1-19), a box cover motor (1-23) is fixed on the box cover motor base (1-22), a box cover concave gear (1-24) is connected at the lower end of the box cover motor (1-23), a transport box (1-25) is welded at the lower end of the grinding box base (1), a transport box base (1-26) is welded inside the transport box (1-25), a transport box motor (1-27) is fixed on the transport box base (1-26), a belt pulley is arranged on the transport box motor (1-27), a transport box belt pulley (1-28) is arranged on the transport box motor (1-27), conveying rollers (1-29) are rotatably arranged in the conveying boxes (1-25), conveying plate supporting arms (1-30) are welded on the conveying rollers (1-29), anti-sticking clamping blocks (1-31) are welded on the conveying plate supporting arms (1-30), conveying plates (1-32) are welded on the anti-sticking clamping blocks (1-31), conveying plate anti-sticking triangular blocks (1-33) are welded on the conveying plates (1-32), and conveying box discharge ports (1-34) are formed in the conveying boxes (1-25);

a forming box feeding port (2-1), a forming box punching hole (2-2), a forming box discharging port (2-3), a material conveying hinge roller base (2-4), a material conveying hinge roller (2-5), a conveying hinge (2-6), a conveying hinge block (2-7), a punching box (2-8), a punching box partition plate (2-9), a punching box sliding plate (2-10), a punching box sliding plate sleeve (2-11), a punching box sliding plate support column (2-12), a punching box sliding plate spring (2-13), a punching box sliding plate support column base (2-14), a punching box sliding plate rack (2-15), a punching sleeve (2-16), a punching sleeve sliding block (2-17) and the like are arranged on the forming box (2), The stamping device comprises stamping blocks (2-18), stamping sleeve springs (2-19), stamping sleeve supporting columns (2-20), linkage belts (2-21), a stamping box motor (2-22), a stamping box motor belt (2-23), sector gear supporting arms (2-24) and sector gears (2-25), a forming box feeding port (2-1) is welded on a forming box (2), the forming box feeding port (2-1) is communicated with the forming box (2), a forming box discharging port (2-3) is welded at the lower end of the forming box (2), material conveying hinge rollers (2-5) are rotated on a material conveying hinge roller base (2-4), grooves are formed in conveying hinges (2-6), and conveying hinge blocks (2-7) are hinged on the conveying hinges (2-6), a conveying hinge (2-6) is arranged on the conveying hinge roller (2-5), a conveying hinge roller base (2-4) is welded inside the forming box (2), a stamping box (2-8) is welded on the forming box (2), a stamping box partition plate (2-9) is welded inside the stamping box (2-8), a stamping box sliding plate sleeve (2-11) is welded on the stamping box sliding plate (2-10), a stamping box sliding plate support column (2-12) is slidably arranged on the stamping box sliding plate sleeve (2-11), a stamping box sliding plate spring (2-13) is arranged on the stamping box sliding plate support column (2-12), a stamping box sliding plate support column base (2-14) is welded at the lower end of the stamping box sliding plate support column (2-12), a stamping box sliding plate support column (2-12) is welded on the stamping box partition plate (2-9), a stamping box sliding plate rack (2-15) is welded on a stamping box sliding plate (2-10), a stamping sleeve sliding block (2-17) is arranged in a stamping sleeve (2-16) in a sliding manner, a stamping block (2-18) is welded at the lower end of the stamping sleeve sliding block (2-17), a stamping sleeve spring (2-19) is fixed on the stamping sleeve sliding block (2-17), a stamping sleeve support column (2-20) is welded on the stamping sleeve (2-16), a stamping sleeve support column (2-20) is welded at the lower end of the stamping box sliding plate (2-10), a linkage belt (2-21) is arranged on a material conveying hinge roller (2-5), a stamping box motor (2-22) is fixed in a stamping box (2-8), and a belt pulley is arranged on the stamping box motor (2-22), a linkage belt (2-21) is arranged on a belt pulley of a stamping box motor (2-22), a stamping box motor belt (2-23) is arranged on the belt pulley of the stamping box motor (2-22), a material conveying hinge roller base (2-4) is welded at the lower end of a stamping box partition plate (2-9), a sector gear (2-25) is rotated on the material conveying hinge roller base (2-4), the sector gear (2-25) and a stamping box sliding plate rack (2-15) are arranged, and the stamping box motor belt (2-23) is arranged on the sector gear (2-25);

the discharge port (1-34) of the transport box is connected with a forming box feed port (2-1).

2. The new biopharmaceutical tablet milling and forming device of claim 1, further comprising: the grinding box (1-2), the grinding box rotating shaft (1-4), the grinding box spiral fan blades (1-5), the grinding box rotating shaft conical gear (1-6), the grinding box anti-sticking arm rotating sleeve (1-7), the grinding box anti-sticking arm (1-8) and the grinding box rotating shaft supporting sleeve (1-10) share a common central line.

3. The new biopharmaceutical tablet milling and forming device of claim 1, further comprising: the grinding box base (1) and the grinding box anti-adhesion strips (1-9) are concentric.

4. The new biopharmaceutical tablet milling and forming device of claim 1, further comprising: the grinding box base (1) and the forming box (2) are made of stainless steel.

5. The new biopharmaceutical tablet milling and forming device of claim 1, further comprising: the materials of the conveying box belts (1-28), the linkage belts (2-21) and the stamping box motor belts (2-23) are rubber.