CN210816141U

CN210816141U - Medicinal active carbon screening installation

Info

Publication number: CN210816141U
Application number: CN201920593967.3U
Authority: CN
Inventors: 黄裕明; 曾兴; 曾旺
Original assignee: Honeycomb Activated Carbon Co ltd
Current assignee: Honeycomb Activated Carbon Co ltd
Priority date: 2019-04-28
Filing date: 2019-04-28
Publication date: 2020-06-23
Anticipated expiration: 2029-04-28

Abstract

The utility model relates to a medicinal active carbon screening device, which comprises a screening tower, wherein the top of the screening tower is provided with a cover body, the side surface of the top of the screening tower is provided with a feed inlet, one side of the screening tower, which is far away from the feed inlet, is provided with three discharge ports, namely a large particle screening discharge port, a medium particle screening discharge port and a small particle screening discharge port, and the inner wall of the screening tower is respectively articulated with a large particle sieve plate, a medium particle sieve plate and a small particle sieve plate from top to bottom; the bottom of screening tower has the installing port, be equipped with the gyro wheel in the installing port, the axis of rotation is connected to the gyro wheel, the axis of rotation is rotated with the bottom of screening tower and is connected, the below of screening tower is equipped with activated carbon powder dust collecting box, the surface of activated carbon dust collecting box is equipped with the guide rail groove, the gyro wheel is located the guide rail inslot, install shock dynamo on the activated carbon dust collecting box, shock dynamo is connected with the fixed plate of screening tower bottom, can not have the problem of vibrations about the sieve, to a great extent has reduced the collision breakage rate of medicinal activated carbon granule, the screening quality has been improved.

Description

Medicinal active carbon screening installation

Technical Field

The utility model belongs to the technical field of the active carbon processing and specifically relates to a medicinal active carbon screening installation.

Background

The medicinal activated carbon is a novel activated carbon and is specially used in the field of pharmacy. The method is mainly used for decoloring the solution in the pharmaceutical process and adsorbing impurities and small molecular heavy metals in the solution, and is the most common method for removing pyrogen. The activated carbon is generally applied to the field of medicine, so that the activated carbon is called as 'medicinal activated carbon', has the greatest characteristics of high decoloring speed, strong adsorption capacity, developed internal pore structure, thick pores and the like, can effectively adsorb pigments in liquid medicine, and can reduce impurities of the liquid medicine without influencing the concentration of other components of the liquid medicine and the medicine property.

After the medicinal active carbon machine-shaping, for convenient use, need filter medicinal active carbon particle, guarantee that the medicinal active carbon particle size of batch use is unanimous, present medicinal active carbon sieve separator is equipped with a screen cloth basically, only can filter the medicinal active carbon of a particle size, the level of screening is not enough, and medicinal active carbon's hardness is very low, traditional medicinal active carbon sieve separator all is the ordinary active carbon sieve separator in market, vibrating motor or bent axle structure can be installed to the screen cloth bottom of this kind of sieve separator, it shakes through vibrating motor or bent axle structure drive screen cloth high frequency and carries out medicinal active carbon screening, the defect of this kind of structure lies in that the range of screen cloth vibrations from top to bottom leads to medicinal active carbon particle damaged too big easily, influence the quality of medicinal active carbon particle very easily.

Disclosure of Invention

The utility model aims at solving the defects existing in the prior art and providing a medicinal activated carbon screening device.

In order to realize the purpose, the utility model discloses a technical scheme as follows:

the medicinal activated carbon screening equipment comprises a screening tower, wherein the top of the screening tower is provided with a cover body, the side surface of the top of the screening tower is provided with a feed inlet, three discharge outlets are arranged on one side, away from the feed inlet, of the screening tower, a large particle screening discharge outlet, a medium particle screening discharge outlet and a small particle screening discharge outlet are respectively arranged from top to bottom, and a large particle sieve plate, a medium particle sieve plate and a small particle sieve plate are respectively hinged to the inner wall of the screening tower from top to bottom;

the large particle sieve plate is obliquely arranged, the free end of the large particle sieve plate extends out of the large particle screening discharge port, the medium particle sieve plate is obliquely arranged, the free end of the medium particle sieve plate extends out of the medium particle screening discharge port, and the small particle sieve plate is obliquely arranged, and the free end of the small particle sieve plate extends out of the small particle screening discharge port;

the bottom of screening tower has the installing port, is equipped with the gyro wheel in the installing port, and the axis of rotation is connected to the center both sides of gyro wheel, and the axis of rotation rotates with the bottom of screening tower to be connected, and the below of screening tower is equipped with activated carbon dust collecting box, and the surface of activated carbon dust collecting box is equipped with the guide rail groove, and the gyro wheel is located the guide rail inslot, installs shock dynamo on the activated carbon dust collecting box, and shock dynamo is connected with the fixed plate of screening tower bottom.

Foretell medicinal active carbon screening installation, the reciprocating vibration direction of the level that shock dynamo drove the screening tower is the extending direction in guide rail groove.

According to the medicinal activated carbon screening equipment, the top of the activated carbon dust collecting box is provided with the opening, the opening is communicated with the screening tower, and one side of the bottom of the activated carbon dust collecting box is provided with the movable sealing door.

Foretell medicinal active carbon screening installation, the sieve mesh aperture on large granule sieve, well granule sieve and the tiny particle sieve reduces in proper order.

Foretell medicinal active carbon screening installation, the outside of large granule screening discharge gate, well granule screening discharge gate and tiny particle screening discharge gate is equipped with the conveyer belt.

According to the medicinal activated carbon screening equipment, the bottom of the activated carbon powder dust collecting box is provided with the roller.

The utility model has the advantages that: when the screening mechanism is used, medicinal activated carbon particles are fed from a feed inlet, the medicinal activated carbon particles firstly fall on a large particle sieve plate, at the moment, a vibration motor drives the whole screening tower to vibrate horizontally and reciprocally at high frequency at the top of an activated carbon powder dust collecting box, the large particle sieve plate in the screening tower, a medium particle sieve plate and a small particle sieve plate vibrate horizontally and reciprocally at high frequency along with the screening tower, the large particle sieve plate, the medium particle sieve plate and the small particle sieve plate screen the medicinal activated carbon particles in a layered mode, and the medicinal activated carbon particles are led out from a large particle screening discharge port, a medium particle screening discharge port and a small particle screening discharge port in sequence and conveyed to the next packaging process by a conveyor belt, the mechanism realizes multi-level screening of the medicinal activated carbon particles, improves screening efficiency, and adopts the vibration motor to drive the whole screening tower to vibrate horizontally and reciprocally at high frequency, big granule sieve, well granule sieve and little granule sieve are along with the reciprocal vibrations of level together, the problem of vibrations about can not having the sieve, to a great extent has reduced the collision breakage rate of medicinal active carbon granule, the screening quality has been improved, and the top of active carbon powder dirt collecting box has the opening, opening and screening tower intercommunication, the active carbon dust that the screening tower leaked down after the three-layer screening is collected by active carbon powder dirt collecting box and is made things convenient for later stage centralized processing, the excessive problem of active carbon powder dirt can not appear.

Drawings

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

fig. 2 is an enlarged view of region a in fig. 1.

Detailed Description

As shown in fig. 1 and fig. 2, a medicinal activated carbon screening apparatus comprises a screening tower 1, wherein the top of the screening tower 1 is provided with a cover body 2, the side surface of the top of the screening tower 1 is provided with a feed inlet 3, three discharge outlets are arranged on one side of the screening tower 1 far away from the feed inlet, a large particle screening discharge outlet 4, a medium particle screening discharge outlet 5 and a small particle screening discharge outlet 6 are respectively arranged from top to bottom, and a large particle sieve plate 7, a medium particle sieve plate 8 and a small particle sieve plate 9 are respectively hinged on the inner wall of the screening tower 1 from top to bottom;

the large particle sieve plate 7 is obliquely arranged, the free end of the large particle sieve plate extends out of the large particle screening discharge port 4, the medium particle sieve plate 8 is obliquely arranged, the free end of the medium particle sieve plate extends out of the medium particle screening discharge port 5, and the small particle sieve plate 9 is obliquely arranged, and the free end of the small particle sieve plate extends out of the small particle screening discharge port 6;

further, the bottom of screening tower 1 has the installing port, is equipped with gyro wheel 10 in the installing port, and axis of rotation 11 is connected to the center both sides of gyro wheel 10, and axis of rotation 11 rotates with the bottom of screening tower 1 to be connected, and the below of screening tower 1 is equipped with activated carbon dust collecting box 12, and the surface of activated carbon dust collecting box 12 is equipped with guide rail groove 13, and gyro wheel 10 is located guide rail groove 13, installs vibrating motor 14 on the activated carbon dust collecting box 12, and vibrating motor 14 is connected with the fixed plate 15 of screening tower 1 bottom.

Wherein, the horizontal reciprocating vibration direction of the screening tower 1 driven by the vibration motor 14 is the extension direction of the guide rail groove 13. The top of the activated carbon dust collecting box 12 is provided with an opening 16, the opening 16 is communicated with the screening tower 1, and one side of the bottom of the activated carbon dust collecting box 12 is provided with a movable sealing door 17.

The utility model discloses in, the sieve mesh aperture on large granule sieve 7, well granule sieve 8 and the small granule sieve 9 reduces in proper order. The outside of large granule screening discharge gate 4, well granule screening discharge gate 5 and tiny particle screening discharge gate 6 is equipped with conveyer belt 18. The bottom of the activated carbon dust collection box 12 is provided with a roller 19.

When the screening mechanism is used, medicinal activated carbon particles are fed from a feed inlet 3 and fall on a large particle sieve plate 7 firstly, at the moment, a vibration motor 14 drives the whole screening tower 1 to vibrate horizontally and reciprocally at a high frequency at the top of an activated carbon powder dust collecting box 12, the large particle sieve plate 7 in the screening tower 1, a medium particle sieve plate 8 and a small particle sieve plate 9 vibrate horizontally and reciprocally at a high frequency along with the screening tower 1, the large particle sieve plate 7, the medium particle sieve plate 8 and the small particle sieve plate 9 screen the medicinal activated carbon particles in a layered mode, and the medicinal activated carbon particles are led out from a large particle screening discharge port 4, a medium particle screening discharge port 5 and a small particle screening discharge port 6 in sequence and conveyed to the next packaging process by a conveyor belt 18, the mechanism realizes multi-layer screening of the medicinal activated carbon particles, the screening efficiency is improved, the mechanism adopts the vibration motor 14 to drive the whole screening tower 1 to vibrate horizontally and reciprocally at a high frequency, big granule sieve 7, well granule sieve 8 and little granule sieve 9 along with the reciprocal vibrations of level together, the problem of vibrations about can not having the sieve, to a great extent has reduced the collision breakage rate of medicinal active carbon granule, the screening quality has been improved, and the top of active carbon powder dirt collecting box 12 has opening 16, opening 16 and screening tower 1 intercommunication, the active carbon dust that leaks down after the three-layer screening of screening tower 1 is collected by active carbon powder dirt collecting box 12 and is made things convenient for later stage centralized processing, the excessive problem of active carbon powder dirt can not appear.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the principles of the present invention may be applied to any other embodiment without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The medicinal activated carbon screening equipment comprises a screening tower, wherein the top of the screening tower is provided with a cover body, the side surface of the top of the screening tower is provided with a feed inlet, three discharge outlets are arranged on one side, away from the feed inlet, of the screening tower, and a large particle screening discharge outlet, a medium particle screening discharge outlet and a small particle screening discharge outlet are respectively arranged from top to bottom;

2. The active carbon screening apparatus as claimed in claim 1, wherein the horizontal reciprocating vibration direction of the screening tower driven by the vibration motor is the extension direction of the guide rail groove.

3. The active carbon screening device for the medicine according to claim 1 or 2, wherein an opening is formed in the top of the active carbon dust collection box and communicated with the screening tower, and a movable sealing door is arranged on one side of the bottom of the active carbon dust collection box.

4. The active carbon screening apparatus according to claim 3, wherein the screen hole diameters on the large particle screen plate, the medium particle screen plate and the small particle screen plate are sequentially reduced.

5. The active carbon screening device for medicine as claimed in claim 4, wherein the large particle screening outlet, the medium particle screening outlet and the small particle screening outlet are provided with conveyer belts on the outer sides.

6. The activated carbon screening apparatus for medicines according to claim 5, wherein the bottom of the activated carbon dust collection box is provided with rollers.