CN113559772B - Raw material mixer of granule medicine processing usefulness - Google Patents

Abstract

The invention relates to the technical field of mixing equipment, in particular to a raw material mixer for processing granular medicines, which comprises a mixing cylinder, wherein the opening of the mixing cylinder is upward, and the bottom of the mixing cylinder is provided with a discharge pipe and a discharge valve; a plurality of material guide hoppers are mounted on the outer side wall of the stirring barrel and are communicated with the stirring barrel, a material guide mechanism is arranged in each material guide hopper, and a material guide pipeline is communicated with the outer ends of the material guide hoppers; an annular fixed groove plate is arranged at the bottom of the inner wall of the stirring cylinder and is communicated with the output end of the material guide pipeline, and an annular rotating groove plate is rotationally buckled on the annular fixed groove plate; mix the mixed processing through stirring the raw materials, can effectively improve the variety of raw materials mixed mode, improve equipment functionality, the homogeneity that the raw materials mixed simultaneously improves, effectively improves raw materials processingquality, improves work efficiency.

Description

Raw material mixer of granule medicine processing usefulness

Technical Field

The invention relates to the technical field of mixing equipment, in particular to a raw material stirring machine for processing granular medicines.

Background

It is known that medicine processing mixer stirs the medicine raw materials, thereby make a processing equipment of all kinds of raw materials misce bene, for the homogeneity that improves the raw materials and mix, the raw materials generally need to be dissolved and stirs in aquatic or other solutions again, current mixer mainly relies on the special-shaped puddler that is the rotation state in it when the operation stirs the processing, however this kind of agitated vessel's stirring mode is comparatively single, it can only stir the raw materials and carry out unidirectional rotation flow, the functional of equipment is relatively poor, raw materials misce bene homogeneity is lower, the work efficiency of equipment is lower simultaneously.

Disclosure of Invention

In order to solve the technical problem, the invention provides a raw material stirring machine for processing granular medicines.

In order to achieve the purpose, the invention adopts the technical scheme that:

the raw material stirrer for processing the granular medicines comprises a stirring cylinder, wherein the opening of the stirring cylinder is upward, and the bottom of the stirring cylinder is provided with a discharge pipe and a discharge valve;

a plurality of material guide hoppers are mounted on the outer side wall of the stirring barrel and are communicated with the stirring barrel, a material guide mechanism is arranged in each material guide hopper, and a material guide pipeline is communicated with the outer ends of the material guide hoppers;

an annular fixed groove plate is arranged at the bottom of the inner wall of the stirring cylinder and is communicated with the output end of the material guide pipeline, an annular rotating groove plate is rotatably buckled on the annular fixed groove plate and is communicated with the annular rotating groove plate, a sealing groove is formed in the side wall of the annular fixed groove plate, a sealing ring is arranged in the sealing groove in a sliding mode, and the sealing ring is fixed on the inner wall of the annular rotating groove plate;

a plurality of bulk material barrels are vertically and rotatably arranged at the top of the annular rotating groove plate, and a plurality of bulk material holes are formed in the outer wall of each bulk material barrel;

the inner wall of the material guide pipeline and the inner wall of the bulk material barrel are provided with a plurality of bulk stirring rods, the bottom of the stirring barrel is provided with a power mechanism, and the power mechanism is in transmission connection with the annular rotating groove plate.

Furthermore, the material guide mechanism comprises two rotating cylinders positioned in the material guide hopper, the two rotating cylinders are mutually butted and rotatably connected, flanges are arranged at the outer ends of the two rotating cylinders, the flanges are rotatably arranged on the inner wall of the material guide hopper, teeth are arranged on the side walls of the flanges, and the teeth on the flanges are positioned between the two flanges;

a first gear is arranged between the two flange plates and meshed with the teeth on the two flange plates;

a sieve plate is installed on one rotating cylinder inner wall close to the material guide pipeline in the two rotating cylinders, a rotating disc is installed on the other rotating cylinder inner wall, a material guide port is formed in the middle of the rotating disc, two port positions of the material guide port are set to be conical, a plurality of material guide plates are obliquely arranged on the conical surface, far away from the material guide port, of the material guide pipeline, and a plurality of material pushing plates are obliquely arranged on the conical surface, close to the material guide pipeline, of the material guide port.

Further, a shunting screen plate is arranged inside the stirring barrel, the bulk material barrel penetrates through the shunting screen plate, and a plurality of stirring vertical rods are arranged on the upper surface and the lower surface of the shunting screen plate.

Furthermore, the power mechanism comprises a first motor arranged at the bottom of the stirring cylinder and a square transmission shaft vertically positioned in the stirring cylinder, and the output end of the first motor is in transmission connection with the bottom of the square transmission shaft;

a plurality of transmission scrapers are obliquely arranged on the outer wall of the square transmission shaft, the outer ends of the transmission scrapers are arranged on the circumferential inner wall of the annular rotating groove plate, and the bottoms of the transmission scrapers are in sliding contact with the bottom of the inner wall of the stirring cylinder;

the outer wall of the square transmission shaft is sleeved with a circular sleeve, the top of the circular sleeve penetrates through the shunt screen plate, the circular sleeve is fixedly connected with the shunt screen plate, the outer wall of the square transmission shaft and the outer wall of the circular sleeve are provided with a plurality of centrifugal plates, and the plurality of centrifugal plates on the circular sleeve are located on the upper side of the shunt screen plate.

Furthermore, the flow distribution net plate is connected with the bulk material barrel in a sliding mode, and the circular sleeve is connected with the square transmission shaft in a sliding mode;

a supporting shaft is mounted at the top of the bulk material barrel, second gears are arranged on the supporting shaft, inner gear rings are sleeved on the outer sides of the second gears, the inner gear rings are meshed with the second gears, and the top of each inner gear ring is fixed to the top of the stirring barrel;

the top of the supporting shaft is rotatably provided with a sliding block, an annular sliding rail is arranged in the inner gear ring and fixed at the top of the stirring barrel, the sliding block is connected with the annular sliding rail in a sliding manner, and a connecting plate is arranged on the side wall of the sliding block;

reciprocating threads are arranged on the upper side of the outer wall of the circular sleeve, a threaded sleeve is mounted at the top of the stirring barrel, the top of the circular sleeve penetrates through the threaded sleeve, and the threaded sleeve is in threaded connection with the reciprocating threads on the circular sleeve;

a plurality of sliding grooves are vertically formed in the outer wall of the circular sleeve, and the outer end of the connecting plate is slidably mounted in the sliding grooves.

Furthermore, a rotating shaft is mounted at the top of the first gear, penetrates through the material guide hopper and is rotatably connected with the material guide hopper, and a third gear is mounted at the top of the rotating shaft;

an outer gear ring is rotatably sleeved on the outer wall of the stirring barrel and meshed with the plurality of third gears, a second motor is mounted on the outer wall of the stirring barrel, and the output end of the second motor is in transmission connection with one third gear.

Further, the stirring device further comprises an annular isolation cover, wherein the annular isolation cover is positioned on the outer sides of the third gear and the outer gear ring, and the annular isolation cover is fixed on the outer wall of the stirring barrel.

Further, the stirring device further comprises a buckling cover, wherein the buckling cover is arranged at the top of the stirring barrel, and the buckling cover is buckled on the outer side of the top of the circular sleeve.

Compared with the prior art, the invention has the beneficial effects that: rotate frid and a plurality of bulk cargo bucket through making the annular and rotate, and the raw materials in the bulk cargo bucket is discharged to stirring a section of thick bamboo through a plurality of bulk cargo holes on it, thereby realize the purpose that the rotatory diffusion formula of raw materials mixes, through setting up guide hopper and passage, can conveniently carry out continuous water conservancy diversion with the bulk cargo bucket diffusion exhaust raw materials of rotation state and handle, conveniently spread near the raw materials of guide hopper to other positions in stirring a section of thick bamboo, improve the homogeneity of raw materials diffusion, thereby improve the variety of raw materials hybrid mode, improve equipment functionality, the homogeneity that the raw materials mixes simultaneously improves, effectively improve raw materials processingquality, and work efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic cross-sectional view of the agitating barrel of FIG. 1;

FIG. 3 is a schematic top view of the flow distribution grid of FIG. 2;

FIG. 4 is an enlarged view of a portion A of FIG. 2;

FIG. 5 is an enlarged view of a portion B of FIG. 2;

FIG. 6 is an enlarged view of a portion of the structure of FIG. 2 at C;

FIG. 7 is an enlarged view of the rotary drum of FIG. 4;

FIG. 8 is a schematic cross-sectional view of the right rotary cylinder of the first gear of FIG. 7;

FIG. 9 is a schematic view of the left rotary cylinder of the first gear of FIG. 7;

in the drawings, the reference numbers: 1. a stirring cylinder; 2. a material guide hopper; 3. a material guide pipeline; 4. an annular fixed groove plate; 5. an annular rotating groove plate; 6. a seal ring; 7. a bulk bucket; 8. a spreading rod; 9. a rotating cylinder; 10. a flange plate; 11. a first gear; 12. a material sieving plate; 13. rotating the disc; 14. a material guide plate; 15. a material pushing plate; 16. a flow distribution screen plate; 17. stirring the vertical rod; 18. a first motor; 19. a square drive shaft; 20. a transmission scraper plate; 21. a circular sleeve; 22. a centrifugal plate; 23. a support shaft; 24. a second gear; 25. an inner gear ring; 26. a slider; 27. an annular slide rail; 28. a connecting plate; 29. a threaded sleeve; 30. a rotating shaft; 31. a third gear; 32. an outer ring gear; 33. a second motor; 34. an annular cage; 35. buckling a cover; 36. a discharge pipe; 37. a discharge valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it should be noted that the orientations or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like are based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; either directly or indirectly through intervening media, or may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. This embodiment is written in a progressive manner.

As shown in fig. 1 to 9, the raw material mixer for processing granular medicine of the present invention comprises an agitating cylinder 1, wherein the opening of the agitating cylinder 1 is upward, and the bottom of the agitating cylinder 1 is provided with a discharge pipe 36 and a discharge valve 37;

a plurality of material guide hoppers 2 are mounted on the outer side wall of the stirring cylinder 1, the material guide hoppers 2 are communicated with the stirring cylinder 1, a material guide mechanism is arranged in each material guide hopper 2, and the outer ends of the material guide hoppers 2 are communicated with a material guide pipeline 3;

an annular fixed groove plate 4 is arranged at the bottom of the inner wall of the stirring cylinder 1, the annular fixed groove plate 4 is communicated with the output end of the material guide pipeline 3, an annular rotating groove plate 5 is rotatably and fixedly arranged on the annular fixed groove plate 4, the annular fixed groove plate 4 is communicated with the annular rotating groove plate 5, a sealing groove is formed in the side wall of the annular fixed groove plate 4, a sealing ring 6 is arranged in the sealing groove in a sliding mode, and the sealing ring 6 is fixed on the inner wall of the annular rotating groove plate 5;

a plurality of bulk material barrels 7 are vertically and rotatably arranged at the top of the annular rotating groove plate 5, and a plurality of bulk material holes are formed in the outer wall of each bulk material barrel 7;

the inner wall of the guide pipeline 3 and the inner wall of the bulk material barrel 7 are provided with a plurality of bulk stirring rods 8, the bottom of the stirring barrel 1 is provided with a power mechanism, and the power mechanism is in transmission connection with the annular rotating groove plate 5.

In the embodiment, the medicine raw materials are poured into the stirring barrel 1 through the opening of the stirring barrel 1, the power mechanism drives the annular rotating groove plate 5 to rotate, the annular rotating groove plate 5 drives the sealing ring 6 to rotate on the annular fixed groove plate 4, meanwhile, the annular rotating groove plate 5 drives the plurality of bulk material barrels 7 to synchronously revolve around the axis of the annular rotating groove plate 5 as the rotating axis, the bulk material barrels 7 rotationally stir the raw materials in the stirring barrel 1, the material guiding mechanism sucks the raw materials in the stirring barrel 1 into the material guiding hopper 2 and discharges the raw materials into the annular fixed groove plate 4 through the sealing ring 6, the raw materials in the annular fixed groove plate 4 enter the bulk material barrels 7 through the annular rotating groove plate 5, the raw materials in the bulk material barrels 7 are uniformly diffused into the stirring barrel 1 through the plurality of bulk material holes on the material guiding mechanism, so as to realize the purpose of rotational diffusion type mixing of the raw materials, and the raw materials in the material guiding pipeline 3 and the plurality of bulk material barrels 7 can be subjected to shunting stirring treatment, thereby improve raw materials mixing homogeneity, through setting up sealing washer 6, can conveniently seal processing to annular fixed frid 4 and annular rotation frid 5, mix the hybrid processing through stirring the raw materials, can effectively improve the variety of raw materials hybrid mode, improve equipment functionality, the homogeneity that the raw materials mixed simultaneously improves, effectively improves raw materials processingquality, improves work efficiency.

In this embodiment, by providing the material guiding hopper 2 and the material guiding pipeline 3, the raw material discharged by the bulk material barrel 7 in a rotating state can be conveniently subjected to continuous flow guiding treatment, so that the raw material near the material guiding hopper 2 can be conveniently diffused to other positions in the stirring barrel 1, the uniformity of raw material diffusion is improved, and the raw material mixing effect is improved.

As a preference of the above embodiment, the material guiding mechanism includes two rotating cylinders 9 located in the material guiding hopper 2, the two rotating cylinders 9 are butted with each other and rotatably connected, flanges 10 are respectively provided at outer ends of the two rotating cylinders 9, the flanges 10 are rotatably mounted on an inner wall of the material guiding hopper 2, teeth are provided on side walls of the flanges 10, and the teeth on the flanges 10 are located between the two flanges 10;

a first gear 11 is arranged between the two flange plates 10, and the first gear 11 is meshed with teeth on the two flange plates 10;

a sieve plate 12 is installed on the inner wall of one rotating cylinder 9 close to the material guide pipeline 3 in the two rotating cylinders 9, a rotating disc 13 is installed on the inner wall of the other rotating cylinder 9, a material guide port is formed in the middle of the rotating disc 13, two port positions of the material guide port are set to be conical, a plurality of material guide plates 14 are obliquely arranged on the conical surface far away from the material guide pipeline 3 on the material guide port, and a plurality of material pushing plates 15 are obliquely arranged on the conical surface close to the material guide pipeline 3 on the material guide port.

In this embodiment, the first gear 11 is rotated, the first gear 11 drives the two flanges 10 to rotate synchronously, the rotation directions of the two flanges 10 are opposite, the two flanges 10 drive the sieve plate 12, the rotating disc 13, the guide plate 14 and the pushing plate 15 to rotate synchronously, the rotation directions of the sieve plate 12 and the rotating disc 13 are opposite, the guide plate 14 in the rotating state pushes the stirring cylinder 1 to flow into the guide hopper 2, the raw material flows towards the sieve plate 12, the raw material passes through the flow guide opening in the middle of the rotating disc 13 and flows to the surface of the sieve plate 12, the pushing plate 15 in the rotating state pushes the raw material on the surface of the sieve plate 12 to the gap between the sieve plate 12 and the rotating disc 13, the sieve plate 12 and the rotating disc 13 in the rotating state grind the raw material particles between the sieve plate 12 and the rotating disc 13, thereby facilitating the crushing of the particles and blending into the fluid raw material, improving the uniformity of the mixing of the raw material, the crushed raw material flows into the guide pipeline 3 through the sieve plate 12, thereby realizing the material guiding work of the raw materials.

As a preferred example of the above embodiment, a flow distribution screen plate 16 is arranged inside the stirring barrel 1, the bulk material barrel 7 penetrates through the flow distribution screen plate 16, and a plurality of stirring vertical rods 17 are arranged on the upper and lower surfaces of the flow distribution screen plate 16.

In this embodiment, when a plurality of bulk bins 7 rotate, reposition of redundant personnel otter board 16 rotates in step, reposition of redundant personnel otter board 16 drives stirring montant 17 synchronous rotation on it, the raw materials of stirring a 1 inside upside can pass reposition of redundant personnel otter board 16 and flow to stirring a 1 inside downside, the reposition of redundant personnel otter board 16 of pivoted state can carry out the diffusion reposition of redundant personnel processing to the raw materials to improve the homogeneity that the raw materials mixes, stir montant 17 simultaneously and can stir mixing processing between the raw materials in stirring a 1.

As a preference of the above embodiment, the power mechanism includes a first motor 18 installed at the bottom of the stirring cylinder 1 and a square transmission shaft 19 vertically located in the stirring cylinder 1, and an output end of the first motor 18 is in transmission connection with the bottom of the square transmission shaft 19;

a plurality of transmission scrapers 20 are obliquely arranged on the outer wall of the square transmission shaft 19, the outer ends of the transmission scrapers 20 are arranged on the circumferential inner wall of the annular rotating groove plate 5, and the bottoms of the transmission scrapers 20 are in sliding contact with the bottom of the inner wall of the stirring cylinder 1;

the outer wall of the square transmission shaft 19 is sleeved with a circular sleeve 21, the top of the circular sleeve 21 penetrates through the flow distribution screen plate 16, the circular sleeve 21 is fixedly connected with the flow distribution screen plate 16, a plurality of centrifugal plates 22 are arranged on the outer wall of the square transmission shaft 19 and the outer wall of the circular sleeve 21, and the centrifugal plates 22 on the circular sleeve 21 are located on the upper side of the flow distribution screen plate 16.

In this embodiment, first motor 18 drives a plurality of transmission scraper blades 20 through square transmission shaft 19 and rotates, transmission scraper blade 20 drives the annular and rotates frid 5 and rotate, thereby drive the equipment operation, because transmission scraper blade 20 bottom and the contact of stirring a 1 inner wall bottom, the transmission scraper blade 20 of pivoted condition can promote near its raw materials upwards to flow, thereby avoid the raw materials at near transmission scraper blade 20 deposit, square transmission shaft 19 drives circular sleeve pipe 21 and centrifugal plate 22 simultaneously and rotates, centrifugal plate 22 can promote the raw materials at stirring a 1 middle part and flow to the outside, thereby avoid the raw materials at stirring a 1 middle part gathering and lead to its insufficient phenomenon of mixing to take place.

As a preference of the above embodiment, the flow dividing net plate 16 is slidably connected with the bulk material barrel 7, and the circular sleeve 21 is slidably connected with the square transmission shaft 19;

a supporting shaft 23 is mounted at the top of the bulk material barrel 7, second gears 24 are arranged on the supporting shaft 23, inner toothed rings 25 are sleeved on the outer sides of the second gears 24, the inner toothed rings 25 are meshed with the second gears 24, and the tops of the inner toothed rings 25 are fixed at the top of the stirring barrel 1;

the top of the support shaft 23 is rotatably provided with a sliding block 26, an annular sliding rail 27 is arranged in the inner toothed ring 25, the annular sliding rail 27 is fixed at the top of the stirring barrel 1, the sliding block 26 is connected with the annular sliding rail 27 in a sliding manner, and a connecting plate 28 is arranged on the side wall of the sliding block 26;

reciprocating threads are arranged on the upper side of the outer wall of the circular sleeve 21, a threaded sleeve 29 is mounted at the top of the stirring cylinder 1, the top of the circular sleeve 21 penetrates through the threaded sleeve 29, and the threaded sleeve 29 is in threaded connection with the reciprocating threads on the circular sleeve 21;

a plurality of sliding grooves are vertically formed in the outer wall of the circular sleeve 21, and the outer end of the connecting plate 28 is slidably mounted in the sliding grooves.

In this embodiment, when the circular sleeve 21 rotates, because the circular sleeve 21 is screwed with the threaded sleeve 29, the circular sleeve 21 moves up and down on the threaded sleeve 29, the circular sleeve 21 slides on the square transmission shaft 19, and the circular sleeve 21 drives the flow distribution screen plate 16 to move up and down, and the flow distribution screen plate 16 slides on the bulk material barrel 7, so that the flow distribution screen plate 16 moves up and down along with the rotation of the bulk material barrel 7, when the flow distribution screen plate 16 moves up, the raw material on the upper side of the flow distribution screen plate 16 naturally passes through the flow distribution screen plate 16 due to the influence of gravity, and when the flow distribution screen plate 16 flows down, the flow distribution screen plate 16 presses the raw material on the lower side thereof, so that the raw material on the lower side of the flow distribution screen plate 16 passes through the flow distribution screen plate 16 to flow up, thereby facilitating the flow distribution screen plate 16 to perform active material screening and flow distribution processing on the raw material, improving the raw material flow distribution effect, and improving the raw material mixing uniformity, the flow dividing screen plate 16 drives the stirring vertical rod 17 to synchronously move up and down, so that the stirring vertical rod 17 can comprehensively stir the raw materials in the stirring cylinder 1.

In this embodiment, because the annular rotates frid 5 and drives bulk cargo bucket 7 and rotate, bulk cargo bucket 7 rolls on ring gear 25 including driving second gear 24 through back shaft 23, thereby make second gear 24 drive back shaft 23 and bulk cargo bucket 7 carry out the rotation motion, bulk cargo bucket 7 of rotation state can be with the raw materials in it evenly swing to stirring a section of thick bamboo 1 in, thereby raw materials discharge velocity and diffusion velocity in bulk cargo bucket 7 accelerate, improve and stir a section of thick bamboo 1 interior raw materials mixing homogeneity, it follows bulk cargo bucket 7 and rotates and stir the processing to the raw materials in the bulk cargo bucket 7 to dial scattered pole 8.

In this embodiment, when the annular rotation frid 5 drives the bulk cargo bucket 7 to rotate, the bulk cargo bucket 7 drives the slider 26 to slide on the annular slide rail 27 through the back shaft 23, the annular slide rail 27 drives the connecting plate 28 and the circular sleeve 21 to rotate synchronously, because the circular sleeve 21 reciprocates, the connecting plate 28 slides in the spout on the circular sleeve 21, through setting up the slider 26, the annular slide rail 27, connecting plate 28 and spout, can conveniently be to bulk cargo bucket 7, back shaft 23 and second gear 24 support, stability and fastness when improving its operation.

As a preference of the above embodiment, a rotating shaft 30 is mounted at the top of the first gear 11, the top of the rotating shaft 30 penetrates through the material guiding hopper 2, the rotating shaft 30 is rotatably connected with the material guiding hopper 2, and a third gear 31 is mounted at the top of the rotating shaft 30;

an outer gear ring 32 is rotatably sleeved on the outer wall of the stirring cylinder 1, the outer gear ring 32 is meshed with the plurality of third gears 31, a second motor 33 is installed on the outer wall of the stirring cylinder 1, and the output end of the second motor 33 is in transmission connection with one third gear 31.

In this embodiment, the second motor 33 drives the third gear 31 and the outer gear 32 to rotate synchronously, so that the plurality of rotating shafts 30 and the plurality of first gears 11 rotate synchronously, and the material guiding mechanisms in each material guiding hopper 2 are convenient to operate synchronously.

Preferably, the mixer further comprises an annular isolation cover 34, the annular isolation cover 34 is located outside the third gear 31 and the outer gear ring 32, and the annular isolation cover 34 is fixed on the outer wall of the mixing drum 1.

Preferably, the stirring device further comprises a buckle cover 35, wherein the buckle cover 35 is installed at the top of the stirring cylinder 1, and the buckle cover 35 is buckled outside the top of the circular sleeve 21.

In this embodiment, through setting up detain cover 35, can conveniently carry out isolation protection to the circular sleeve pipe 21 top of reciprocating state, cause the injury to the workman when avoiding it to remove.

The invention relates to a raw material stirrer for processing granular medicines, which comprises the following working processes: in the embodiment, the medicine raw materials are poured into the stirring barrel 1 through the opening of the stirring barrel 1, the power mechanism drives the annular rotating groove plate 5 to rotate, the annular rotating groove plate 5 drives the sealing ring 6 to rotate on the annular fixed groove plate 4, meanwhile, the annular rotating groove plate 5 drives the plurality of bulk material barrels 7 to synchronously revolve around the axis of the annular rotating groove plate 5 as the rotating axis, the bulk material barrels 7 rotationally stir the raw materials in the stirring barrel 1, the material guiding mechanism sucks the raw materials in the stirring barrel 1 into the material guiding hopper 2 and discharges the raw materials into the annular fixed groove plate 4 through the sealing ring 6, the raw materials in the annular fixed groove plate 4 enter the bulk material barrels 7 through the annular rotating groove plate 5, the raw materials in the bulk material barrels 7 are uniformly diffused into the stirring barrel 1 through the plurality of bulk material holes on the material guiding mechanism, so as to realize the purpose of rotational diffusion type mixing of the raw materials, and the raw materials in the material guiding pipeline 3 and the plurality of bulk material barrels 7 can be subjected to shunting stirring treatment, thereby improving the mixing uniformity of the raw materials, the annular fixed trough plate 4 and the annular rotary trough plate 5 can be conveniently sealed by arranging the sealing ring 6, the raw materials diffused and discharged by the bulk cargo bucket 7 in a rotary state can be conveniently and continuously guided by arranging the material guide hopper 2 and the material guide pipeline 3, so that the raw materials near the material guide hopper 2 can be conveniently diffused to other positions in the stirring cylinder 1, the uniformity of the diffusion of the raw materials is improved, the raw material mixing effect is improved, the first gear 11 is rotated, the first gear 11 drives the two flange plates 10 to synchronously rotate, the rotation directions of the two flange plates 10 are opposite, the two flange plates 10 synchronously drive the sieve plate 12, the rotary disc 13, the material guide plate 14 and the material pushing plate 15 to rotate, the rotation directions of the sieve plate 12 and the rotary disc 13 are opposite, the material guide plate 14 in the rotary state pushes the raw materials flowing into the material guide hopper 2 from the stirring cylinder 1 to flow towards the sieve plate 12, the raw material passes through the flow guide port in the middle of the rotating disc 13 and flows to the surface of the material sieving plate 12, meanwhile, the material pushing plate 15 in a rotating state pushes the raw material on the surface of the material sieving plate 12 to flow to the gap between the material sieving plate 12 and the rotating disc 13, the material sieving plate 12 and the rotating disc 13 in a relatively rotating state crush the raw material particles between the material sieving plate 12 and the rotating disc 13, so that the particles are conveniently crushed and are fused into the fluid raw material, the uniformity of the raw material mixing is improved, the crushed raw material passes through the material sieving plate 12 and flows into the material guide pipeline 3, so that the material guiding work of the raw material is realized, when a plurality of material scattering buckets 7 rotate, the flow distribution screen plate 16 synchronously rotates, the flow distribution screen plate 16 drives the stirring vertical rods 17 on the flow distribution screen plate to synchronously rotate, the raw material on the upper side inside the stirring bucket 1 can pass through the flow distribution screen plate 16 to flow to the lower side inside the stirring bucket 1, the flow distribution screen plate 16 in a rotating state can diffuse and distribute the raw material, so that the uniformity of the raw material mixing is improved, meanwhile, the vertical stirring rod 17 can stir and mix the raw materials in the stirring cylinder 1, the first motor 18 drives the plurality of transmission scrapers 20 to rotate through the square transmission shaft 19, the transmission scrapers 20 drive the annular rotating groove plate 5 to rotate, so as to drive the equipment to operate, the transmission scrapers 20 in a rotating state can push the raw materials nearby to flow upwards due to the fact that the bottoms of the transmission scrapers 20 are contacted with the bottom of the inner wall of the stirring cylinder 1, so as to avoid the raw materials from depositing nearby the transmission scrapers 20, meanwhile, the square transmission shaft 19 synchronously drives the circular sleeve 21 and the centrifugal plate 22 to rotate, the centrifugal plate 22 can push the raw materials in the middle of the stirring cylinder 1 to flow outwards, so as to avoid the phenomenon that the raw materials are gathered in the middle of the stirring cylinder 1 and are not fully mixed, when the circular sleeve 21 rotates, the circular sleeve 21 is in threaded connection with the threaded sleeve 29, and the circular sleeve 21 moves up and down on the threaded sleeve 29, the round sleeve 21 slides on the square transmission shaft 19, meanwhile, the round sleeve 21 drives the flow distribution screen plate 16 to move up and down, the flow distribution screen plate 16 slides on the bulk material barrel 7, thereby, the flow dividing net plate 16 moves up and down along with the rotation of the bulk material barrel 7, when the flow dividing net plate 16 moves up, the raw material on the upper side of the flow dividing screen plate 16 naturally flows through the flow dividing screen plate 16 due to the influence of gravity, when the flow dividing net plate 16 flows downwards, the flow dividing net plate 16 presses the raw material at the lower side thereof, so that the raw material at the lower side of the flow dividing screen plate 16 passes through the flow dividing screen plate 16 to flow upwards, thereby facilitating the flow dividing screen plate 16 to carry out active screening and flow dividing treatment on the raw material, improving the flow dividing effect of the raw material, thereby improve raw materials mixing uniformity, reposition of redundant personnel otter board 16 drives stirring montant 17 and reciprocates in step to make stirring montant 17 stir the processing comprehensively to the raw materials of stirring in the section of thick bamboo 1.

The raw material stirring machine for processing granular medicines is implemented in a common mechanical mode in an installation mode, a connection mode or a setting mode as long as the beneficial effects of the raw material stirring machine are achieved.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (4)

1. A raw material stirring machine for processing granular medicines is characterized by comprising a stirring cylinder (1), wherein the opening of the stirring cylinder (1) is upward, and the bottom of the stirring cylinder (1) is provided with a discharge pipe (36) and a discharge valve (37);

a plurality of material guide hoppers (2) are mounted on the outer side wall of the stirring cylinder (1), the material guide hoppers (2) are communicated with the stirring cylinder (1), a material guide mechanism is arranged in each material guide hopper (2), and the outer ends of the material guide hoppers (2) are communicated with a material guide pipeline (3);

an annular fixed groove plate (4) is arranged at the bottom of the inner wall of the stirring cylinder (1), the annular fixed groove plate (4) is communicated with the output end of the material guide pipeline (3), an annular rotating groove plate (5) is rotatably and fixedly arranged on the annular fixed groove plate (4), the annular fixed groove plate (4) is communicated with the annular rotating groove plate (5), a sealing groove is formed in the side wall of the annular fixed groove plate (4), a sealing ring (6) is arranged in the sealing groove in a sliding mode, and the sealing ring (6) is fixed on the inner wall of the annular rotating groove plate (5);

a plurality of bulk material barrels (7) are vertically and rotatably arranged at the top of the annular rotating groove plate (5), and a plurality of bulk material holes are formed in the outer wall of each bulk material barrel (7);

a plurality of scattering rods (8) are arranged on the inner wall of the material guide pipeline (3) and the inner wall of the scattering barrel (7), a power mechanism is mounted at the bottom of the stirring barrel (1), and the power mechanism is in transmission connection with the annular rotating groove plate (5);

the material guide mechanism comprises two rotating cylinders (9) positioned in the material guide hopper (2), the two rotating cylinders (9) are mutually butted and rotatably connected, flanges (10) are arranged at the outer ends of the two rotating cylinders (9), the flanges (10) are rotatably arranged on the inner wall of the material guide hopper (2), teeth are arranged on the side wall of each flange (10), and the teeth on each flange (10) are positioned between the two flanges (10);

a first gear (11) is arranged between the two flange plates (10), and the first gear (11) is meshed with teeth on the two flange plates (10);

a screening plate (12) is mounted on the inner wall of one rotating cylinder (9) close to the material guide pipeline (3) in the two rotating cylinders (9), a rotating disc (13) is mounted on the inner wall of the other rotating cylinder (9), a material guide port is formed in the middle of the rotating disc (13), two port positions of the material guide port are both set to be conical, a plurality of material guide plates (14) are obliquely arranged on the conical surface, far away from the material guide pipeline (3), of the material guide port, and a plurality of material pushing plates (15) are obliquely arranged on the conical surface, close to the material guide pipeline (3), of the material guide port;

a flow distribution screen plate (16) is arranged in the stirring barrel (1), the bulk material barrel (7) penetrates through the flow distribution screen plate (16), and a plurality of stirring vertical rods (17) are arranged on the upper surface and the lower surface of the flow distribution screen plate (16);

the power mechanism comprises a first motor (18) arranged at the bottom of the stirring cylinder (1) and a square transmission shaft (19) vertically positioned in the stirring cylinder (1), and the output end of the first motor (18) is in transmission connection with the bottom of the square transmission shaft (19);

a plurality of transmission scrapers (20) are obliquely arranged on the outer wall of the square transmission shaft (19), the outer ends of the transmission scrapers (20) are arranged on the circumferential inner wall of the annular rotating groove plate (5), and the bottoms of the transmission scrapers (20) are in sliding contact with the bottom of the inner wall of the stirring cylinder (1);

a circular sleeve (21) is sleeved on the outer wall of the square transmission shaft (19), the top of the circular sleeve (21) penetrates through the flow distribution screen plate (16), the circular sleeve (21) is fixedly connected with the flow distribution screen plate (16), a plurality of centrifugal plates (22) are arranged on the outer wall of the square transmission shaft (19) and the outer wall of the circular sleeve (21), and the centrifugal plates (22) on the circular sleeve (21) are positioned on the upper side of the flow distribution screen plate (16);

the flow distribution screen plate (16) is connected with the bulk material barrel (7) in a sliding manner, and the circular sleeve (21) is connected with the square transmission shaft (19) in a sliding manner;

a supporting shaft (23) is installed at the top of the bulk material barrel (7), second gears (24) are arranged on the supporting shaft (23), inner gear rings (25) are sleeved on the outer sides of the second gears (24), the inner gear rings (25) are meshed with the second gears (24), and the top of each inner gear ring (25) is fixed to the top of the stirring barrel (1);

the top of the supporting shaft (23) is rotatably provided with a sliding block (26), an annular sliding rail (27) is arranged in the inner gear ring (25), the annular sliding rail (27) is fixed to the top of the stirring barrel (1), the sliding block (26) is connected with the annular sliding rail (27) in a sliding mode, and a connecting plate (28) is installed on the side wall of the sliding block (26);

reciprocating threads are arranged on the upper side of the outer wall of the circular sleeve (21), a threaded sleeve (29) is installed at the top of the stirring barrel (1), the top of the circular sleeve (21) penetrates through the threaded sleeve (29), and the threaded sleeve (29) is in threaded connection with the reciprocating threads on the circular sleeve (21);

a plurality of sliding grooves are vertically formed in the outer wall of the circular sleeve (21), and the outer end of the connecting plate (28) is slidably mounted in the sliding grooves.

2. The raw material mixer for processing granular medicine according to claim 1, wherein a rotating shaft (30) is installed on the top of the first gear (11), the top of the rotating shaft (30) penetrates through the material guiding hopper (2), the rotating shaft (30) is rotatably connected with the material guiding hopper (2), and a third gear (31) is installed on the top of the rotating shaft (30);

the outer wall of the stirring barrel (1) is rotatably sleeved with an outer gear ring (32), the outer gear ring (32) is meshed with the plurality of third gears (31), the outer wall of the stirring barrel (1) is provided with a second motor (33), and the output end of the second motor (33) is in transmission connection with one third gear (31).

3. The material mixing machine for processing granular medicine according to claim 2, further comprising an annular isolation cover (34), wherein the annular isolation cover (34) is positioned outside the third gear (31) and the external gear ring (32), and the annular isolation cover (34) is fixed on the outer wall of the mixing cylinder (1).

4. A material mixing apparatus for particulate drug processing as claimed in claim 3, further comprising a cover (35), wherein said cover (35) is mounted on top of said mixing drum (1), said cover (35) being fastened to the outside of the top of said circular sleeve (21).

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