CN112076841A

CN112076841A - Raw materials reducing mechanism for bio-pharmaceuticals

Info

Publication number: CN112076841A
Application number: CN202010907307.5A
Authority: CN
Inventors: 陈志湘
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-02
Filing date: 2020-09-02
Publication date: 2020-12-15

Abstract

The invention discloses a raw material crushing device for bio-pharmaceuticals, and relates to the technical field of bio-pharmaceuticals. The bio-pharmaceutical grinding device comprises a supporting device, a driving device, a grinding device, a material returning device, a removing device and a filtering device, wherein the supporting device is horizontally arranged, the driving device is arranged at the top of the supporting device, the grinding device is arranged below the driving device, the material returning device is arranged at the side end of the supporting device, the removing device is arranged at one side of the grinding device, and the filtering device is arranged below the grinding device.

Description

Raw materials reducing mechanism for bio-pharmaceuticals

Technical Field

The invention relates to the technical field of biological pharmacy, in particular to a raw material crushing device for biological pharmacy.

Background

Biopharmaceuticals are methods for producing drugs by using living organisms, such as human antibodies and the like by using transgenic corn, the biopharmaceutical raw materials are mainly natural biological materials including microorganisms, human bodies, animals, plants, marine organisms and the like, and the raw materials need to be crushed in the biopharmaceutical process to improve the pharmaceutical efficiency.

Raw materials reducing mechanism for bio-pharmaceuticals among the prior art is to smashing the completion back, directly will smashing the raw materials and deriving, and some raw materials are not smashed completely, cause crushing degree lower, and raw materials powder lacks the accuracy not of uniform size after through the filter screen, and after whole work is accomplished, can't clear up the residue in the whole equipment, brought the inconvenient problem of obscuring next time the pharmacy.

Disclosure of Invention

The invention provides a raw material crushing device for bio-pharmaceuticals, which aims to solve the technical problems that in the prior art, pharmaceutical raw material powder is different in size and lacks accuracy, the pharmaceutical raw materials cannot be circularly crushed and cannot be cleaned of residues in the whole equipment, and confusion and inconvenience are brought to next pharmaceutical.

The utility model provides a raw materials reducing mechanism for bio-pharmaceuticals, strutting arrangement, drive arrangement, reducing mechanism, feed back device, remove device and filter equipment, strutting arrangement becomes the level setting, drive arrangement sets up at strutting arrangement's top, the reducing mechanism sets up the below at drive arrangement, the feed back device sets up the side at strutting arrangement, the remove device sets up one side at the reducing mechanism, filter equipment sets up the bottom of reducing mechanism.

Furthermore, the supporting device comprises a supporting panel, a supporting column, a supporting box, a supporting plate, a supporting block and a fixing seat, wherein the supporting panel is horizontally arranged, the supporting column is arranged above the supporting panel, the supporting box is arranged at the side end of the supporting column, the crushing device is arranged at the inner side of the supporting box, the supporting plate is arranged at the top of the supporting box, the driving device is arranged on the supporting plate, the supporting block is arranged above the supporting plate, and the fixing seat is arranged at the side end of the supporting block.

Furthermore, four universal wheels are arranged and are respectively arranged at the bottom of the supporting panel.

Furthermore, drive arrangement includes driving motor, drive post, first drive ring, second drive ring and driving belt, driving motor sets up the below at the fixing base, the drive post sets up the bottom at driving motor, first drive ring sets up the cooperation rotation below the drive post, the second drive ring cover is established on smashing the rotation post, driving belt sets up cooperation work on first drive ring and second drive ring, the second drive ring cover is established on smashing the rotation post, the driving belt cover is established on first drive ring and second drive ring.

Further, the reducing mechanism is including smashing the rotation post, smashing rotation axis, erection column, material loading chassis, material loading lid, material loading bolt, smashing rotation piece, crushing screw spare and crushing casing, it sets up in smashing the casing to smash the rotation post, it sets up in smashing the rotation post below to smash the rotation axis, the erection column sets up on the bearing board, the material loading chassis sets up the top at the erection column, the material loading lid sets up in material loading chassis top, material loading lid is equipped with the material loading bolt with material loading chassis linking department, smash to rotate to set up on the rotation post, smash the bottom cooperation that the screw spare set up crushing rotation axis and rotate, it sets up the below at the bearing board to smash the casing.

The material returning device comprises a material pipe, a material returning positioning frame, material returning connectors, material returning motors, material returning fixing blocks, rotating threaded rods, fixing bolts, two material returning positioning frames, two material returning lifting boxes, two material returning fixing boxes and a material returning conveying block, wherein the material pipe is provided with supporting column side ends, the material returning positioning frames are provided with two material returning positioning frames which are respectively sleeved on the rotating threaded rods, the material returning connectors are arranged at the tops of the material returning positioning frames, the material returning motors are provided with two material returning motors which are arranged on a supporting panel, the material returning fixing blocks are arranged on the material returning motors, the rotating threaded rods are provided with two rotating threaded rods which are arranged on shafts of the material returning motors, the fixing bolts are provided with four fixing bolts which are respectively sleeved on the rotating threaded rods, and the lifting clamping blocks are sleeved on the rotating threaded rods, the feed back link is arranged above the lifting clamping block, the feed back lifting box is arranged at the top of the feed back link, and the feed back fixing box is arranged above the bearing plate.

Further, remove device includes screening net, air-blower, first pipeline, second pipeline, storage powder box, drawer box, gas outlet and separates whitewashed cloth, the screening net sets up at crushing casing inboard, the air-blower sets up the side cooperation connection at crushing casing, first pipeline sets up the side at the air-blower, the second pipeline sets up the below at first pipeline, the storage powder box sets up the bottom at the second pipeline, the drawer box sets up the inboard at the storage powder box, the gas outlet sets up storage powder box top, separate whitewashed cloth setting on the gas outlet.

Further, filter equipment includes container, first filter screen, second filter screen, first cooperation board, second cooperation board, first motor element, second motor element, finished product box and tensile cabinet, the container sets up in crushing casing bottom, first filter screen sets up the bottom at the container, the second filter screen sets up the cooperation removal under first filter screen, first cooperation board sets up the top cooperation connection at first filter screen, the second cooperation board sets up the cooperation connection in second filter screen below, first motor element sets up on first cooperation board, second motor element sets up on second cooperation board, the finished product box sets up in second filter screen below, tensile cabinet sets up under the finished product box.

Furthermore, a raw materials reducing mechanism for bio-pharmaceuticals, control panel sets up on supporting box, switch sets up on control panel.

Compared with the prior art, the invention has the beneficial effects that:

firstly, through a material returning device, after medicine raw materials are crushed, the medicine raw materials pass through a filter screen and enter a container, while the medicine raw materials which do not pass through the filter screen flow into a material returning lifting box through a material pipe, the medicine returning lifting box is connected with a material returning motor in a matching way through a rotary threaded rod, the material returning lifting box is arranged in a tendency way, a material returning fixed block is driven to slide up and down on the rotary threaded rod through the rotation of the material returning motor, the material returning lifting box on the material returning fixed block is driven to slide up and down, when the material returning lifting box slides to the inlet of the material returning fixed block, the unfiltered raw materials pass through a material returning conveying block and enter a crushing shell again to be circularly crushed, and the pharmaceutical raw materials are crushed.

Secondly, the first filter screen and the second filter screen are matched and moved through the rotation of the first motor assembly and the second motor assembly of the filter device, so that the grinding of the pharmaceutical raw materials is more accurately controlled in size, and the finished products after the pharmaceutical raw materials are more accurately finished

Thirdly, through the removing device, after the pharmaceutical raw materials are finished, the residues in the whole equipment are cleaned through rotation of the air blower, and the residues discharged through the screening net are discharged to the powder storage box through the first pipeline and the second pipeline to be removed and cleaned.

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, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

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

FIG. 2 is a schematic sectional view of the crushing apparatus and the driving apparatus according to the present invention;

FIG. 3 is a schematic view of the removing apparatus according to the present invention;

FIG. 4 is a schematic sectional view of the feeding back device of the present invention;

FIG. 5 is a schematic view of the structure of the filtering apparatus of the present invention:

FIG. 6 is a schematic sectional view of the feeding back device and the pulverizing device of the present invention;

FIG. 7 is a schematic view of the driving device of the present invention:

reference numerals: the device comprises a supporting device 1, a supporting panel 11, a supporting column 12, a supporting box 13, a supporting plate 14, a supporting block 15, a fixed seat 16, a universal wheel 2, a driving device 3, a driving motor 31, a driving column 32, a first driving ring 33, a second driving ring 34, a driving belt 35, a crushing device 4, a crushing rotating column 41, a crushing rotating shaft 42, a mounting column 43, a feeding chassis 44, a feeding cover 45, a feeding bolt 46, a crushing rotating piece 47, a crushing threaded piece 48, a crushing shell 49, a return device 5, a material pipe 51, a return positioning frame 52, a return connector 53, a return motor 54, a return fixed block 55, a rotating threaded rod 56, a fixed bolt 57, a lifting clamping block 58, a return connecting frame 59, a return lifting box 591, a return fixed box 592, a return conveying block 593, a removing device 6, a screening net 61, a blower 62, a first pipeline 63, a second pipeline 64, a powder box 65, a powder storage box 65, a powder box lifting box, Drawer box 66, air outlet 67, powder separating cloth 68, filtering device 7, first filter screen 71, second filter screen 72, first matching board 73, second matching board 74, first motor component 75, second motor component 76, finished product box 77, stretching cabinet 78, container 79, control panel 8 and power switch 81.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention.

The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

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; they may be connected directly or indirectly through intervening media, or they 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.

Referring to fig. 1 to 7, an embodiment of the present invention provides a raw material crushing apparatus for bio-pharmaceuticals, which includes a supporting device 1, a driving device 3, a crushing device 4, a material returning device 5, a removing device 6 and a filtering device 7, wherein the supporting device 1 is disposed horizontally, the driving device 3 is disposed on the top of the supporting device 1, the crushing device 4 is disposed below the driving device 3, the material returning device 5 is disposed on a side end of the supporting device 1, the removing device 6 is disposed on one side of the crushing device 4, the filtering device 7 is disposed on the bottom of the crushing device 4, the driving device 3 is drivingly connected to the crushing device 4, the crushing device 4 can be drivingly operated by the driving device 3, the crushing device 4 is connected to the filtering device 7, the medicine raw material is crushed by the crushing device 4 and then is filtered by the filtering device 7, the removing device 6 is arranged at the side end of the crushing device 4, the removing device 6 is communicated to the crushing device 4, residues generated in the crushing process of the medicine raw materials in the crushing device 4 can be removed through the removing device 6, the bottom of the crushing device 4 is provided with a pipeline communicated to the material returning device 5, the medicine raw materials pass through the filtering device 7 when being crushed to be in a proper size, the medicine raw materials do not reach the proper size after being crushed and can slide to the material returning device 5 through the pipeline, the unfiltered crushed raw materials are driven to be repeatedly crushed through the material returning device 5, and after the pharmaceutical raw materials are finished, the residues in the crushing shell 49 are discharged to the powder storage box 65 through the rotation of the air blower 62, and the residues are removed and cleaned through the first pipeline 63 and the second pipeline 64.

The supporting device 1 comprises a supporting panel 11, a supporting column 12, a supporting box 13, a supporting plate 14, a supporting block 15 and a fixing seat 16, wherein the supporting panel 11 is provided with the top of a universal wheel 2, the supporting column 12 is arranged above the supporting panel 11, the supporting box 13 is arranged at the side end of the supporting column 12, the crushing device 4 is arranged at the inner side of the supporting box 13, the supporting plate 14 is arranged at the top of the supporting box 13, the driving device 3 is arranged on the supporting plate 14, the supporting block 15 is arranged above the supporting plate 14, the fixing seat 16 is arranged at the side end of the supporting block 15, the supporting column 12 is fixed through the supporting panel 11 to enable the supporting column 12 to support the whole supporting box 13, and the driving device 3 is supported through the supporting plate 14 arranged on the supporting box 13.

Universal wheel 2 is equipped with four, four universal wheel 2 becomes the level setting, support panel 11 sets up at 2 tops of universal wheel, is connected with universal wheel 2 through

support panel

11, and 2 users can mobile device to required assigned position through the universal wheel.

The driving device 3 comprises a driving motor 31, a driving column 32, a first driving ring 33, a second driving ring 34 and a driving belt 35, the driving motor 31 is arranged below the fixed seat 16, the driving column 32 is arranged at the bottom of the driving motor 31, the first driving ring 33 is arranged below the driving column 32 to rotate in a matching manner, the second driving ring 34 is sleeved on the crushing rotating column 41, the driving belt 35 is arranged on the first driving ring 33 and the second driving ring 34 to work in a matching manner, the first driving ring 33 and the second driving ring 34 are sleeved with the driving belt 35 to be connected in a matching manner, the second driving ring 34 is sleeved on the crushing rotating column 41, the driving belt 35 is sleeved on the first driving ring 33 and the second driving ring 34, and the first driving ring 33 on the driving column 32 is driven to rotate by the driving motor 31, the driving belt 35 drives the second driving ring 34 to rotate, and the second driving ring 34 is sleeved on the crushing rotating column 41, so as to drive the crushing rotating column 41 to rotate in the crushing shell 49.

The crushing device 4 comprises a crushing rotating column 41, a crushing rotating shaft 42, a mounting column 43, a feeding chassis 44, a feeding cover 45, a feeding bolt 46, a crushing rotating piece 47, a crushing screw piece 48 and a crushing shell 49, wherein the crushing rotating column 41 is arranged in the crushing shell 49, the crushing rotating shaft 42 is arranged below the crushing rotating column 41, the mounting column 43 is arranged on the bearing plate 14, the feeding chassis 44 is arranged at the top of the mounting column 43, the feeding cover 45 is arranged above the feeding chassis 44, the feeding bolt 46 is arranged at the joint of the feeding cover 45 and the feeding chassis 44, the crushing rotating piece 47 is arranged on the crushing rotating column 41, the crushing screw piece 48 is arranged at the bottom of the crushing rotating shaft 42 to rotate in a matching manner, the crushing shell 49 is arranged below the bearing plate 14, and the crushing rotating column 41 rotates to drive the crushing rotating piece 47 and the crushing rotating shaft 42 to rotate, the crushing screw thread piece 48 is arranged on the crushing rotating shaft 42, and rotates through the crushing rotating shaft 42, so that the crushing screw thread piece 48 is driven to crush in the crushing shell 49, and the feeding cover 45 and the feeding base plate 44 are connected with the feeding plug 46 in a matched mode, so that the feeding cover 45 is opened, medicine raw materials are put into the crushing shell 49, and the medicine raw materials flow into the crushing shell 49 through the mounting column 43 to be crushed.

The feed back device 5 comprises a material pipe 51, a feed back positioning frame 52, a feed back connector 53, a feed back motor 54, a feed back fixing block 55, two rotary threaded rods 56, two fixing bolts 57, a lifting clamping block 58, a feed back connecting frame 59, a feed back lifting box 591, a feed back fixing box 592 and a feed back conveying block 593, wherein the material pipe 51 is provided with a supporting column 12 side end, the two feed back positioning frames 52 are arranged, the two feed back positioning frames 52 are respectively sleeved on the rotary threaded rods 56, the feed back connector 53 is arranged at the top of the feed back positioning frame 52, the two feed back motors 54 are arranged on the supporting panel 11, the feed back fixing block 55 is arranged on the feed back motor 54, the two rotary threaded rods 56 are arranged on the shafts of the feed back motors 54 and are matched and connected, the four fixing bolts 57 are arranged, the four fixing bolts 57 are respectively sleeved on the rotary threaded rods 56, the lifting clamping block 58 is sleeved on the rotary threaded rods 56, the feed back connection frame 59 is arranged above the lifting clamping block 58, the feed back lifting box 591 is arranged at the top of the feed back connection frame 59, the feed back fixing box 592 is arranged above the supporting plate 14, the feed back conveying block 593 is arranged at the side end of the feed back fixing box 592, unfiltered raw materials are moved into the feed back lifting box 591 through a material pipe 51, the rotary threaded rods 56 are matched and connected with the feed back motor 54, the feed back lifting box 591 is inclined, the feed back fixing block 55 is driven to slide up and down on the rotary threaded rods 56 through the rotation of the feed back motor 54, the feed back lifting box 591 on the feed back fixing block 55 is driven to slide up and down, when the feed back lifting box 591 slides to the overlapping position of the feed back fixing box 592, unfiltered raw materials pass through the feed back conveying block 593 and enter the crushing shell 49 again for circular crushing operation, and the lifting height is fixed by rotating a fixing bolt on a threaded rod.

The removing device 6 comprises a screening net 61, an air blower 62, a first pipeline 63, a second pipeline 64, a powder storage box 65, a drawer box 66, an air outlet 67 and powder separating cloth 68, the screening net 61 is arranged on the inner side of the crushing shell 49, the air blower 62 is arranged on the side end of the crushing shell 49 and is connected in a matched mode, the first pipeline 63 is arranged on the side end of the air blower 62, the second pipeline 64 is arranged below the first pipeline 63, the powder storage box 65 is arranged at the bottom of the second pipeline 64, the drawer box 66 is arranged on the inner side of the powder storage box 65, the air outlet 67 is arranged above the powder storage box 65, the powder separating cloth 68 is arranged on the air outlet 67, and residues in the crushing shell 49 are discharged to the powder storage box 65 through the rotation of the air blower 62 to the screening net 61, and are discharged to the first pipeline 63 and the second pipeline 64 for removing and cleaning.

Filter equipment 7 includes container 79, first filter screen 71, second filter screen 72, first cooperation board 73, second cooperation board 74, first motor element 75, second motor element 76, finished product box 77 and tensile cabinet 78, container 79 sets up and connects in the cooperation of smashing casing 49 bottom, first filter screen 71 sets up the bottom at container 79, second filter screen 72 sets up the cooperation under first filter screen 71 and removes, first cooperation board 73 sets up the cooperation and connects in the top of first filter screen 71, second cooperation board 74 sets up the cooperation and connects in second filter screen 72 below, first motor element 75 sets up on first cooperation board 73, second motor element 76 sets up on second cooperation board 74, finished product box 77 sets up in second filter screen 72 below, tensile cabinet 78 sets up under finished product box 77, advances first filter screen 71 and second filter screen 72 through the rotation of first motor element 75 with second motor element 76 The line cooperation removes, makes to be about to make the raw materials powder grind and carry out fixed size control to the finished product of raw materials for pharmacy is more accurate.

The control panel 8 is arranged on the supporting box 13, the power switch 81 is arranged on the control panel 8, and the equipment is started to run through the power switch 81.

In the operation process of the invention: the first filter screen 71 and the second filter screen 72 are moved in a matching manner by the rotation of the first motor assembly 75 and the second motor assembly 76, so that the grinding of the pharmaceutical raw material is controlled in a fixed size, and the finished product of the pharmaceutical raw material is more accurate, the driving belt 35 is sleeved on the first driving ring 33 and the second driving ring 34, the driving motor 31 rotates to drive the first driving ring 33 on the driving column 32 to rotate, so that the driving belt 35 drives the second driving ring 34 to rotate, the second driving ring 34 is sleeved on the grinding rotating column 41 to drive the grinding rotating column 41 to rotate in the grinding shell 49, the grinding rotating column 41 rotates to drive the grinding rotating piece 47 and the grinding rotating shaft 42 to rotate, the grinding screw 48 is arranged on the grinding rotating shaft 42, and the grinding screw 48 rotates through the grinding rotating shaft 42 to drive the grinding screw 48 to grind in the grinding shell 49, through the matching connection of the feeding cover 45 and the feeding base plate 44 with the feeding bolt 46, the feeding cover 45 is opened, the medicine raw materials are put into the crushing shell 49 through the mounting columns 43 for crushing, after the medicine raw materials are crushed, the medicine raw materials enter the container 79 through the filter screen, while the medicine raw materials which do not pass through the filter screen flow into the feed back lifting box 591 through the material pipe 51, the feed back lifting box 591 is matched and connected with the feed back motor 54 through the rotary threaded rod 56, the feed back lifting box 591 is inclined, the feed back fixing block 55 is driven to slide up and down on the rotary threaded rod 56 through the rotation of the feed back motor 54, the feed back lifting box 591 on the feed back fixing block 55 is driven to slide up and down, when the feed back lifting box 591 slides to the inlet of the feed back fixing box 592, the unfiltered crushed raw materials pass through the feed back conveying block 593 and enter the crushing shell 49 again for circulating crushing operation, after the pharmaceutical raw materials, the residue in the grinding case 49 discharged to the screen 61 by the rotation of the blower 62 is discharged to the powder storage box 65 through the first duct 63 and the second duct 64, and is removed and cleaned.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. A raw material crushing device for bio-pharmaceuticals is characterized by comprising a supporting device (1), a driving device (3), a crushing device (4), a material returning device (5), a removing device (6) and a filtering device (7), wherein the supporting device (1) is horizontally arranged, the driving device (3) is arranged at the top of the supporting device (1), the crushing device (4) is arranged below the driving device (3), the material returning device (5) is arranged at the side end of the supporting device (1), the removing device (6) is arranged at one side of the crushing device (4), the filtering device (7) is arranged at the bottom of the crushing device (4), the driving device (3) is in transmission connection with the crushing device (4), the crushing device (4) is communicated with the filtering device (7), and the crushing device (4) is communicated with the filtering device (7), the removing device (6) is communicated into the crushing device (4), and a pipeline is arranged at the bottom of the crushing device (4) and communicated into the feed back device (5).

2. A raw material crushing apparatus for bio-pharmaceuticals according to claim 1, wherein the supporting device (1) comprises a supporting panel (11), a supporting column (12), a supporting box (13), a supporting plate (14), a supporting block (15) and a fixing seat (16), the supporting panel (11) is horizontally disposed, the supporting column (12) is disposed above the supporting panel (11), the supporting box (13) is disposed at a side end of the supporting column (12), the crushing device (4) is mounted at an inner side of the supporting box (13), the supporting plate (14) is disposed at a top of the supporting box (13), the driving device (3) is mounted on the supporting plate (14), the supporting block (15) is disposed above the supporting plate (14), and the fixing seat (16) is disposed at a side end of the supporting block (15).

3. A raw material crushing apparatus for bio-pharmaceuticals according to claim 2, wherein four universal wheels (2) are provided, and four universal wheels (2) are respectively provided at the bottom of the supporting panel (11).

4. The raw material crushing device for bio-pharmaceuticals according to claim 2, wherein the driving device (3) comprises a driving motor (31), a driving column (32), a first driving ring (33), a second driving ring (34) and a driving belt (35), the driving motor (31) is disposed below the fixing base (16), the driving column (32) is disposed at the bottom of the driving motor (31), the first driving ring (33) is disposed below the driving column (32), the second driving ring (34) is sleeved on the crushing rotating column (41), the driving belt (35) is disposed on the first driving ring (33) and the second driving ring (34), the second driving ring (34) is sleeved on the crushing rotating column (41), the driving belt (35) is sleeved on the first driving ring (33) and the second driving ring (34), the driving belt (35) is sleeved on the first driving ring (33) and the second driving ring (34).

5. The raw material crushing device for bio-pharmaceuticals according to claim 2, wherein the crushing device (4) comprises a crushing rotation column (41), a crushing rotation shaft (42), a mounting column (43), a feeding chassis (44), a feeding cover (45), a feeding plug (46), a crushing rotation member (47), a crushing screw (48) and a crushing shell (49), the crushing rotation column (41) is disposed in the crushing shell (49), the crushing rotation shaft (42) is disposed under the crushing rotation column (41), the mounting column (43) is disposed on the supporting plate (14), the feeding chassis (44) is disposed on top of the mounting column (43), the feeding cover (45) is disposed above the feeding chassis (44), the feeding plug (46) is disposed at the feeding cover (45) and the feeding chassis (44), the crushing rotation member (47) is disposed on the crushing rotation column (41), the crushing screw (48) is arranged at the bottom of the crushing rotating shaft (42), and the crushing shell (49) is arranged below the bearing plate (14).

6. The raw material crushing device for the bio-pharmaceuticals according to claim 2, wherein the material returning device (5) comprises a material pipe (51), a material returning positioning frame (52), a material returning connector (53), a material returning motor (54), a material returning fixing block (55), a rotary threaded rod (56), a fixing bolt (57), a lifting clamping block (58), a material returning connecting frame (59), a material returning lifting box (591), a material returning fixing box (592) and a material returning transmission block (593), the material pipe (51) is provided with a supporting column (12) side end, the material returning positioning frame (52) is provided with two, the two material returning positioning frames (52) are respectively sleeved on the rotary threaded rod (56), the material returning connector (53) is arranged at the top of the material returning positioning frame (52), the material returning motor (54) is provided with two, and the two material returning motors (54) are arranged on the supporting panel (11), the feed back fixed block (55) is arranged on a feed back motor (54), the number of the rotary threaded rods (56) is two, the rotary threaded rods (56) are arranged on a shaft of the feed back motor (54), the number of the fixed bolts (57) is four, the four fixed bolts (57) are respectively sleeved on the rotary threaded rods (56), the lifting clamping blocks (58) are sleeved on the rotary threaded rods (56), the feed back connecting frame (59) is arranged above the lifting clamping blocks (58), the feed back lifting box (591) is arranged at the top of the feed back connecting frame (59), and the feed back fixed box (592) is arranged above the supporting plate (14).

7. A raw material crushing apparatus for bio-pharmaceuticals according to claim 5, the removing device (6) comprises a screening net (61), a blower (62), a first pipeline (63), a second pipeline (64), a powder storage box (65), a drawer box (66), an air outlet (67) and a powder isolating cloth (68), the screening net (61) is arranged inside the crushing shell (49), the blower (62) is arranged at the side end of the crushing shell (49), the first duct (63) is provided at a side end of the blower (62), the second duct (64) is provided below the first duct (63), the powder storage box (65) is arranged at the bottom of the second pipeline (64), the drawer box (66) is arranged at the inner side of the powder storage box (65), the air outlet (67) is arranged above the powder storage box (65), and the powder separation cloth (68) is arranged on the air outlet (67).

8. A raw material crushing apparatus for bio-pharmaceuticals according to claim 1, wherein the filtering apparatus (7) comprises a container (79), a first filter screen (71), a second filter screen (72), a first matching plate (73), a second matching plate (74), a first motor assembly (75), a second motor assembly (76), a finished product box (77), and a stretching cabinet (78), the container (79) is disposed at the bottom of the crushing housing (49), the first filter screen (71) is disposed at the bottom of the container (79), the second filter screen (72) is disposed under the first filter screen (71), the first matching plate (73) is disposed above the first filter screen (71), the second matching plate (74) is disposed under the second filter screen (72), and the first motor assembly (75) is disposed on the first matching plate (73), the second motor assembly (76) is arranged on the second matching plate (74), the finished product box (77) is arranged below the second filter screen (72), and the stretching cabinet (78) is arranged below the finished product box (77).

9. A raw material crushing device for bio-pharmaceuticals according to claim 2, wherein the control panel (8) is provided on the support box (13), and the power switch (81) is provided on the control panel (8).