CN107899504B

CN107899504B - Powder mixer for D-biotin

Info

Publication number: CN107899504B
Application number: CN201711396382.4A
Authority: CN
Inventors: 丁明浪
Original assignee: Zhejiang Jinlongbo Pharmaceutical Co Ltd
Current assignee: Zhejiang Jinlongbo Pharmaceutical Co Ltd
Priority date: 2017-12-21
Filing date: 2017-12-21
Publication date: 2021-06-15
Anticipated expiration: 2037-12-21
Also published as: CN107899504A

Abstract

The invention provides a powder mixer for D-biotin, which comprises a secondary powder mixing chamber, a first driving motor, a stirring shaft, an auxiliary stirring rod, a primary powder mixing chamber, a feeding mechanism and a storage hopper, wherein a plurality of stirring frames are arranged in the primary powder mixing chamber, bristles are arranged on the stirring frames, the feeding mechanism is arranged above the primary powder mixing chamber, a feeding frame is arranged in the feeding mechanism, a baffle is arranged on one side of the feeding frame, a plurality of storage hoppers are arranged on the feeding mechanism, a blanking baffle frame is arranged below the primary powder mixing chamber, the blanking baffle frame is communicated with the secondary powder mixing chamber, the first driving motor is arranged on the secondary powder mixing chamber, the stirring shaft is arranged in the center of the secondary powder mixing chamber, the auxiliary stirring rods are circumferentially distributed by taking the stirring shaft as the center, the feeding mechanism is used for feeding, and the primary mixing is carried out on materials through the primary powder mixing chamber, then thoroughly mix the material through the second grade powder mixing chamber, guarantee the material homogeneous mixing, can improve production efficiency.

Description

Powder mixer for D-biotin

Technical Field

The invention relates to the technical field of pharmaceutical production equipment, in particular to a powder mixer for D-biotin.

Background

The mixer is a mechanical device for uniformly mixing two or more materials by using mechanical force, gravity and the like. During the mixing process, the material contact surface area can be increased to promote chemical reaction; but also to accelerate physical changes. In the technical field of filling of a raw material powder mixing machine, the raw material is filled in a fully manual mode, and the actions of carrying, opening a cover, opening a valve, closing the valve, unloading a barrel and the like are all realized in a manual mode; and a semi-manual mode is adopted, namely the carrying step is manually completed by adopting mechanical assistance and actions of opening a cover, opening a valve, closing the valve, unloading the barrel and the like. Because the powder mixer has high production speed, frequent filling of the raw material medicines and strict requirements of the raw material medicines on the environment, the fully-artificial and semi-artificial raw material filling modes cannot achieve the speed required by production on one hand, and easily cause pollution to the environment on the other hand, and cannot meet the existing market requirements, which is the defect existing in the prior art, the powder mixer for the D-biotin is provided.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a powder mixer for D-biotin.

In order to achieve the purpose, the invention provides a powder mixer for D-biotin, which comprises a secondary powder mixing chamber, a first driving motor, a stirring shaft, an auxiliary stirring rod, a primary powder mixing chamber, a feeding mechanism and storage hoppers, wherein a plurality of stirring frames are arranged in the primary powder mixing chamber, bristles are arranged on the stirring frames, a partition plate is arranged below the bristles, a plurality of blanking grooves are formed in the partition plate, the feeding mechanism is arranged above the primary powder mixing chamber, a feeding frame is arranged in the feeding mechanism, a baffle is arranged on one side of the feeding frame, a plurality of storage hoppers are arranged on the feeding mechanism, a blanking baffle frame is arranged below the primary powder mixing chamber and communicated with the secondary powder mixing chamber, the first driving motor is arranged on the secondary powder mixing chamber, the stirring shaft is arranged at the center of the secondary powder mixing chamber, and the auxiliary stirring rods are circumferentially distributed by taking the stirring shaft as the center, the first driving motor drives the stirring shaft and the auxiliary stirring rod to rotate.

Preferably, the primary powder mixing chamber further comprises a second driving motor and a mixing box, the second driving motor is installed above the mixing box, the second driving motor controls the stirring frame to rotate through a driving shaft, the mixing box is circular in cross section, the partition plate is installed in the mixing box, and the blanking groove is circular in cross section.

Preferably, the driving motor is further provided with an upper driving disc and a lower supporting disc, the driving motor is connected with the upper driving disc through a driving shaft, a stirring shaft and an auxiliary stirring rod are mounted below the upper driving disc, and the lower supporting disc is arranged below the stirring shaft and the auxiliary stirring rod.

Preferably, the feeding mechanism further comprises an installation box and a driving cylinder, the number of the installation box is the same as that of the storage hoppers, a first through groove communicated with the storage hoppers is formed in the upper portion of the installation box, a second through groove communicated with the primary powder mixing chamber is formed in the lower portion of the installation box, the first through groove and the second through groove are the same in shape, a first guide groove and a second guide groove are formed in the side wall of the installation box, and the first guide groove and the second guide groove are matched with the feeding frame.

Preferably, a material storage cavity is formed in the feeding frame, the length of the baffle is 3-4 times that of the material storage cavity, first protruding strips are arranged on two sides of the baffle, and second protruding strips are arranged on the side wall of the feeding frame.

Preferably, the periphery of (mixing) shaft is equipped with the spiral stirring wing, evenly be equipped with the horizontal stirring rod of a plurality of on the supplementary stirring rod, the periphery of horizontal stirring rod evenly is equipped with a plurality of stirring post.

Preferably, an infrared sensing unit is arranged in the spiral conveying mechanism and connected with an alarm mechanism.

The invention has the beneficial effects that: according to the invention, through the matching of the secondary powder mixing chamber, the first driving motor, the stirring shaft, the auxiliary stirring rod, the primary powder mixing chamber, the feeding mechanism, the storage hopper and the like, the feeding mechanism is adopted for feeding materials, the materials are primarily mixed through the primary powder mixing chamber, and then are thoroughly mixed through the secondary powder mixing chamber, so that the uniform mixing of the materials is ensured, and the production efficiency can be improved.

The features and advantages of the present invention will be described in detail by embodiments in conjunction with the accompanying drawings.

Drawings

FIG. 1 is a schematic structural diagram of a powder mixer for D-biotin according to the present invention;

FIG. 2 is a schematic left side view showing a partial structure of a powder mixer for D-biotin according to the present invention;

FIG. 3 is a left side view of the feeding frame of the powder mixer for D-biotin according to the present invention.

Detailed Description

Referring to fig. 1 to 3, the powder mixer for D-biotin of the present invention comprises a secondary powder mixing chamber 1, a first driving motor 2, a stirring shaft 3, an auxiliary stirring rod 4, a primary powder mixing chamber 5, a feeding mechanism 6 and a storage hopper 7, wherein a plurality of stirring frames 53 are arranged in the primary powder mixing chamber 5, a brush 531 is mounted on each stirring frame 53, a partition plate 54 is arranged below each brush 531, a plurality of blanking slots 541 are formed on each partition plate 54, the feeding mechanism 6 is arranged above the primary powder mixing chamber 5, a feeding frame 63 is arranged in each feeding mechanism 6, a baffle 631 is arranged on one side of each feeding frame 63, a plurality of storage hoppers 7 are arranged on each feeding mechanism 6, a blanking baffle frame 55 is arranged below the primary powder mixing chamber 5, the blanking baffle frame 55 is communicated with the secondary powder mixing chamber 1, the first driving motor 2 is mounted on the secondary powder mixing chamber 1, the second-stage powder mixing chamber 1 is provided with a stirring shaft 3 at the center, the auxiliary stirring rods 4 are circumferentially distributed by taking the stirring shaft 3 as the center, and the first driving motor 2 drives the stirring shaft 3 and the auxiliary stirring rods 4 to rotate. The first-stage powder mixing chamber 5 further comprises a second driving motor 51 and a mixing box 52, the second driving motor 51 is installed above the mixing box 52, the second driving motor 51 controls the stirring frame 53 to rotate through the driving shaft, the cross section of the mixing box 52 is circular, the partition plate 54 is installed in the mixing box 52, and the cross section of the blanking groove 541 is circular. The powder mixing device is characterized in that a top cover 11 is arranged on the secondary powder mixing chamber 1, the driving motor 2 is installed on the top cover 11, an upper driving disc 21 and a lower supporting disc 22 are further arranged on the driving motor 2, the driving motor 2 is connected with the upper driving disc 21 through a driving shaft, a stirring shaft 3 and an auxiliary stirring rod 4 are installed below the upper driving disc 21, and the lower supporting disc 22 is arranged below the stirring shaft 3 and the auxiliary stirring rod 4. The feeding mechanism 6 further comprises a mounting box 61 and a driving cylinder 62, the number of the mounting box 61 is the same as that of the storage hopper 7, a first through groove 611 communicated with the storage hopper 7 is formed above the mounting box 61, a second through groove 612 communicated with the primary powder mixing chamber 5 is formed below the mounting box 61, the first through groove 611 and the second through groove 612 are the same in shape, a first guide groove 613 and a second guide groove 614 are formed in the side wall of the mounting box 61, and the first guide groove 613 and the second guide groove 614 are matched with the feeding frame 63. Be equipped with storage cavity 630 in the material loading frame 63, the length of baffle 631 is 3~4 times of the length of storage cavity 630, the both sides of baffle 631 are equipped with first sand grip 632, the lateral wall of material loading frame 63 is equipped with second sand grip 634. The periphery of (mixing) shaft 3 is equipped with spiral stirring wing 31, evenly be equipped with the horizontal stirring rod 41 of a plurality of on the supplementary stirring rod 4, the periphery of horizontal stirring rod 41 evenly is equipped with a plurality of stirring post. An infrared sensing unit 71 is arranged in the spiral conveying mechanism 7, and the infrared sensing unit 71 is connected with an alarm mechanism.

The working process of the invention is as follows:

the invention relates to a powder mixer for D-biotin, which has the working principle of material conveying as follows: the working principle of feeding by controlling the action of the driving cylinder is as follows: according to the proportion of each material component, the corresponding time interval and feeding times of the reciprocating motion of the control cylinder are set, the material in the storage hopper 7 can enter the feeding frame 63 through the first through groove 611 for temporary storage, the extension of the telescopic rod of the control driving cylinder 62 can drive the feeding frame 63 to move rightwards until the storage cavity 630 is matched with the second through groove 612, the material is input into the primary powder mixing chamber 5, then the telescopic rod of the auxiliary driving cylinder 62 is reset, the storage cavity 630 is matched with the first through groove 611, the material enters the feeding frame 63 again for waiting for the next feeding, the feeding mechanism 6 can input a plurality of materials in different times, the same material is prevented from being accumulated at the same position in a large amount due to the hierarchical input of the materials, the subsequent mixing can be guaranteed to be effectively carried out, the material is fed into the storage hopper 7, when the height of the material is lower than the set height, the infrared sensing unit 71 obtains a signal, control alarm mechanism sends out the police dispatch newspaper, reminds the staff in time to supply the material, rotates through second driving motor 51 control stirring frame 53, can carry out elementary mixture to the material, and the material is discharged from silo 541, enters into second grade and mixes in powder room 1, rotates through driving-disc 21 in the control of first driving motor 2, (mixing) shaft 3, supplementary stirring rod 4 can carry out intensive mixing to the material and mix, can improve production efficiency.

The above embodiments are illustrative of the present invention, and are not intended to limit the present invention, and any simple modifications of the present invention are within the scope of the present invention.

Claims

1. A powder mixer for D-biotin is characterized in that: comprises a second-stage powder mixing chamber (1), a first driving motor (2), a stirring shaft (3), an auxiliary stirring rod (4), a first-stage powder mixing chamber (5), a feeding mechanism (6) and a storage hopper (7), wherein a plurality of stirring frames (53) are arranged in the first-stage powder mixing chamber (5), a brush (531) is installed on each stirring frame (53), a partition plate (54) is arranged below each brush (531), a plurality of blanking grooves (541) are formed in each partition plate (54), the feeding mechanism (6) is arranged above the first-stage powder mixing chamber (5), a feeding frame (63) is arranged in each feeding mechanism (6), a baffle (631) is arranged on one side of each feeding frame (63), a plurality of storage hoppers (7) are arranged on each feeding mechanism (6), a blanking blocking frame (55) is arranged below the first-stage powder mixing chamber (5), and each blanking blocking frame (55) is communicated with the second-stage powder mixing chamber (1), the first driving motor (2) is installed on the second-stage powder mixing chamber (1), a stirring shaft (3) is arranged at the center of the second-stage powder mixing chamber (1), the auxiliary stirring rods (4) are circumferentially distributed by taking the stirring shaft (3) as the center, and the first driving motor (2) drives the stirring shaft (3) and the auxiliary stirring rods (4) to rotate; the feeding mechanism (6) further comprises an installation box (61) and a driving cylinder (62), the number of the installation box (61) is the same as that of the storage hoppers (7), a first through groove (611) communicated with the storage hoppers (7) is formed above the installation box (61), a second through groove (612) communicated with the primary powder mixing chamber (5) is formed below the installation box (61), the first through groove (611) and the second through groove (612) are the same in shape, a first guide groove (613) and a second guide groove (614) are formed in the side wall of the installation box (61), and the first guide groove (613) and the second guide groove (614) are matched with the feeding frame (63); be equipped with storage cavity (630) in material loading frame (63), the length of baffle (631) is 3~4 times of the length of storage cavity (630), the both sides of baffle (631) are equipped with first sand grip (632), the lateral wall of material loading frame (63) is equipped with second sand grip (634).

2. A mill for D-biotin according to claim 1, characterized in that: first-level mixes powder room (5) and still includes second driving motor (51) and mixing box (52), second driving motor (51) are installed to the top of mixing box (52), second driving motor (51) are rotated through drive shaft control stirring frame (53), the cross sectional shape of mixing box (52) is circular, baffle (54) are installed in mixing box (52), the cross sectional shape of silo (541) is circular.

3. A mill for D-biotin according to claim 1, characterized in that: still be equipped with last driving-disc (21) and lower supporting plate (22) on first driving motor (2), first driving motor (2) link to each other with last driving-disc (21) through the drive shaft, (mixing) shaft (3), supplementary stirring rod (4) are installed to the below of last driving-disc (21), the below of (mixing) shaft (3), supplementary stirring rod (4) is equipped with lower supporting plate (22).

4. A mill for D-biotin according to claim 1, characterized in that: the periphery of (mixing) shaft (3) is equipped with spiral stirring wing (31), evenly be equipped with horizontal stirring rod of a plurality of (41) on supplementary stirring rod (4), the periphery of horizontal stirring rod (41) evenly is equipped with a plurality of stirring post.

5. A mill for D-biotin according to claim 1, characterized in that: an infrared sensing unit (71) is arranged in the storage hopper (7), and the infrared sensing unit (71) is connected with an alarm mechanism.