CN212221758U - Medicine powder production system - Google Patents

Abstract

The utility model discloses a medicine powder production system, include and loop through the feeding station of pipe connection along material direction of delivery, crushing unit, airtight type list shakes the source circle and shakes the sieve, three-dimensional motion blendor and vacuum material loading machine II, wherein smash the unit by the frame and set up vacuum material loading machine I in the frame, rubbing crusher and buffer storage feed bin constitute, the feeding station discharge end passes through the pipeline and is connected with vacuum material loading machine I feed inlet, vacuum material loading machine I discharge end is connected with the rubbing crusher feed inlet, rubbing crusher discharge end is connected with buffer storage feed bin feed inlet, buffer storage feed bin discharge end shakes the source circle through pipeline and airtight type and shakes the sieve feed inlet and be connected. The utility model discloses novel structure can realize automatic feeding, totally enclosed smashes and carry, sieves, the medicine powder production automatic system of compounding, not only can realize the dustless transport of medicine raw materials, can also reduce the intensity of labour of work, improves the production site environment.

Description

Medicine powder production system

Technical Field

The utility model belongs to the technical field of medicine raw materials apparatus for producing, concretely relates to medicine powder production system.

Background

At present in the medicine raw materials production process, degree of automation is not very high, has many links in the material processing production process, and the material holds and transports through the turnover storage bucket between each process, and this in-process can cause flying upward of dust probably, has both wasted the material, has polluted the place again, has increased work intensity of labour.

Disclosure of Invention

The utility model provides a technical problem provide a medicine powder production system that can realize automatic feeding, totally enclosed smashes and carry, sieve, compounding.

The utility model discloses a solve above-mentioned technical problem and adopt following technical scheme, a medicine powder production system, its characterized in that is including the feeding station that loops through the pipe connection, crushing unit, airtight type list shakes the source circle and shakes the sieve, three-dimensional motion blendor and vacuum material loading machine II, wherein smash the unit by the frame and set up vacuum material loading machine I in the frame, rubbing crusher and buffer storage feed bin constitute, the feeding station discharge end passes through the pipeline and is connected with vacuum material loading machine I feed inlet, vacuum material loading machine I discharge end is connected with the rubbing crusher feed inlet, rubbing crusher discharge end is connected with buffer storage feed bin feed inlet, buffer storage discharge end shakes the source circle through pipeline and airtight type and shakes the sieve feed inlet and be connected.

Further limiting, a pipeline iron remover and a pipeline glass sight glass are arranged on a pipeline between the feeding station and the vacuum feeding machine I and are respectively used for eliminating magnetic impurities in materials and realizing visualization of material conveying.

Further limiting, the feeding station comprises a frame, a storage bin arranged on the frame and a storage hopper arranged at the bottom of the storage bin, one side of the storage bin is provided with a feeding bin door, the top of the storage bin is provided with a dust removal fan linked with the feeding bin door for automatically starting the dust removal fan when the feeding bin door is opened and automatically stopping the dust removal fan when the feeding bin door is closed, an air inlet pipe of the dust removal fan extends to the inside of the storage bin and a powder filtering device is arranged at the tail end of the air inlet pipe, the storage bin opposite to the feeding bin door is provided with a pulse back-blowing device linked with the feeding bin door for realizing back-blowing of the powder filtering device, the pulse back-blowing device is automatically started after the feeding bin door is closed and automatically stopped after the pulse back-blowing device works for a set time, the bottom of the storage hopper is connected with a discharging device, the discharging device consists of a discharging pipe and a spherical discharging hopper fixed on the discharging pipe, wherein spherical hopper passes through clamp sealing connection with the storage hopper discharge end, and the discharge tube passes through the pipeline and is connected with vacuum feeding machine I's feed inlet.

Further limiting, the vacuum feeding machine I comprises a sealing top cover, a negative pressure feeding barrel, a discharging barrel and a discharging barrel which are sequentially connected in a sealing and buckling mode from top to bottom, a scavenging valve communicated with an inner cavity of the negative pressure barrel is arranged at the upper part of the sealing top cover, the other end of the scavenging valve is connected with an air outlet/inlet and used for providing a negative pressure environment for material negative pressure feeding and providing a positive pressure environment for smooth discharging of materials through switching the scavenging valve, a feed inlet hermetically connected with a material input pipeline is arranged on the outer side wall of the negative pressure feeding barrel, a conical necking-type discharge outlet extending into the discharging barrel is arranged at the bottom end of the negative pressure feeding barrel, air inlets are respectively arranged on the outer side wall of the discharging barrel and used for providing a positive pressure environment for smooth discharging of the materials, a turnover valve is arranged on the inner side wall of the discharging barrel, and a turnover, the locking sealing and opening discharging of the discharge port at the bottom end of the negative pressure feeding barrel are realized through the turnover type locking plate.

Further inject, the rubbing crusher is including smashing the box, set up in the inside rubbing crusher who smashes the box and set up in the motor power who smashes box one side, the driving shaft in the rubbing crusher passes through the drive belt with the motor power who sets up in the frame and is connected the transmission, the toper feeder hopper on smashing the box upper portion is connected with ejection of compact barrel discharge end in the vacuum material loading machine I, it is connected with buffer memory feed bin feed inlet to smash box lower part toper play hopper, buffer memory feed bin's bottom is connected with discharging device, this discharging device comprises discharging pipe and the spherical play hopper that is fixed in on the discharging pipe, wherein spherical play hopper passes through clamp sealing connection with storage bin discharge end, the discharging pipe is connected with the feed inlet of the single source circle of shaking sieve.

Further inject, the single circular sieve that shakes of airtight type shakes includes that the circle shakes sieve check and support, install the toper shield with airtight type binder ring at sieve check top, install the rack in sieve check bottom flange, install below the rack and leak hopper-shaped and connect the hopper, be connected with the discharging pipe on connecing the export of hopper bottom, the flange inboard periphery of sieve check is downward and is installed a circle vibration dish in connecing the peripheral clearance fit of hopper, install damping spring with the bolt between vibration dish and support, install vibrating motor on the outer wall of vibration dish, it is equipped with the feed inlet to lean on upper portion in one side of sieve check, equal height is equipped with the trash removal mouth above sieve check one side bottom and the rack, install the airtight type sealing washer of double-deck area boss at the peripheral flange internally mounted of rack, install on the flange and can fix the rack and connect the closing device between the hopper.

Further inject, three-dimensional motion blendor includes that the frame sets up driven shaft, driving shaft and the direction controller in the frame, wherein is equipped with the universal joint on the driving shaft, and driven shaft and driving shaft are connected with the compounding bucket through U type operation arm respectively, and the port sealing connection of compounding bucket has the tee bend, and this tee bend is through pipeline and airtight type single vibration source circle sieve discharge end and vacuum feeding machine II feed inlet sealing connection respectively, and wherein the pipeline of being connected with airtight type single vibration source circle sieve discharge end extends to the inside of compounding bucket.

Compared with the prior art, the utility model following beneficial effect has:

1. the utility model discloses novel structure can realize automatic feeding, totally enclosed smashes and carry, sieves, the medicine powder production automatic system of compounding, not only can realize the dustless transport of medicine raw materials, can also reduce the intensity of labour of work, improves the production site environment.

2. The utility model discloses a medium vacuum feeder's simple structure and reasonable in design, its seal cap upper portion is equipped with the scavenging valve with feeding barrel inner chamber intercommunication for provide the negative pressure environment and the material unloads smoothly for the material negative pressure feeding and provide the malleation environment, be equipped with the flap valve on the inside wall of the unloading barrel, convertible buckling plate is relative with the discharge gate of feeding barrel bottom in this flap valve, is used for realizing the lock of feeding barrel bottom discharge gate through convertible buckling plate and seals and open the unloading; adopt collar locking device locking, open and shut and fixed, both labour saving and time saving, very convenient operation again has very big improvement negative pressure material feeding unit's maintenance and dismouting efficiency.

3. The utility model discloses the single source circle that shakes of well gas tightness type not only can adapt to the needs of automatic online continuous screening, has advantages such as complete machine is small, light in weight, sealing performance is good, efficient, trade the net convenience, convenient maintenance moreover.

4. The utility model discloses well three-dimensional motion blendor has effectively avoided the dust diffusion of reinforced in-process, and this three-dimensional motion blendor passes through the pipeline and links to each other with vacuum feeding machine II and can effectively reduce the dust diffusion that the ejection of compact in-process caused, makes the dust in the air subside, prevents that environmental pollution and harm staff are healthy, has that the compounding is even, the controllability is high and dust pollution advantage such as little.

Drawings

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

FIG. 2 is a schematic structural view of a feeding station of the present invention;

FIG. 3 is a schematic structural diagram of the pulverizing unit of the present invention;

FIG. 4 is a schematic structural view of the gas-tight single-vibration-source circular vibrating screen of the present invention;

FIG. 5 is a schematic structural view of the three-dimensional moving material mixing machine of the present invention;

fig. 6 is a schematic structural diagram of the middle vacuum feeder II of the present invention.

In the figure: 1-feeding station, 2-pipeline iron remover, 3-pipeline glass sight glass, 4-vacuum feeding machine I, 5-pulverizer, 6-buffer storage bin, 7-airtight single-vibration-source circular vibrating screen, 8-three-dimensional moving mixer and 9-vacuum feeding machine II.

Detailed Description

Combine the technical scheme of the utility model, a medicine powder production system, including the throw material station 1 that loops through pipe connection, smash the unit, airtight type singly shakes source circle and shakes sieve 7, three-dimensional motion blendor 8 and vacuum feeding machine II 9, wherein smash the unit by the frame and set up vacuum feeding machine I4 in the frame, rubbing crusher 5 and buffer memory feed bin 6 and constitute, throw material 1 discharge end in station and pass through the pipeline and be connected with vacuum feeding machine I4 feed inlet, vacuum feeding machine I4 discharge end is connected with rubbing crusher 5 feed inlet, 5 discharge ends of rubbing crusher are connected with 6 feed inlets of buffer memory feed bin, 6 discharge ends of buffer memory feed bin pass through the pipeline and the airtight type singly shakes source circle and shake sieve 7 feed inlets and be connected.

Throw and be equipped with pipeline de-ironing separator 2 and pipeline glass sight glass 3 on the pipeline between material station 1 and the vacuum feeding machine I4, be arranged in eliminating the magnetic impurities in the material respectively and realize that the material carries visual.

The feeding station 1 of the utility model comprises a frame, a storage bin arranged on the frame and a storage hopper arranged at the bottom of the storage bin, one side of the storage bin is provided with a feeding bin door, the top of the storage bin is provided with a dust removing fan linked with the feeding bin door for realizing automatic starting of the dust removing fan when the feeding bin door is opened and automatic stopping of the dust removing fan when the feeding bin door is closed, an air inlet pipe of the dust removing fan extends to the inside of the storage bin and a powder filtering device is arranged at the tail end of the air inlet pipe, the storage bin opposite to the feeding bin door is provided with a pulse back-blowing device linked with the feeding bin door for realizing back-blowing of the powder filtering device, the pulse back-blowing device is automatically started after the feeding bin door is closed and automatically stopped after the working set time of the pulse back-blowing device, the bottom of the storage hopper is connected with a discharging device, the discharging device consists of a discharging pipe and a spherical discharging hopper fixed on the, wherein spherical hopper passes through clamp sealing connection with the storage hopper discharge end, and the discharge tube passes through the pipeline and is connected with vacuum feeding machine I's feed inlet.

The vacuum feeding machine I4 of the utility model comprises a sealing top cover, a negative pressure feeding barrel, an unloading barrel and an unloading barrel which are sequentially connected in a sealing and buckling way from top to bottom, the upper part of the sealing top cover is provided with a scavenging valve communicated with the inner cavity of the negative pressure barrel, the other end of the scavenging valve is connected with an air outlet/inlet for providing a negative pressure environment for the negative pressure feeding of materials and providing a positive pressure environment for the smooth unloading of the materials by switching the scavenging valve, the outer side wall of the negative pressure feeding barrel is provided with a feed inlet hermetically connected with a material input pipeline, the bottom end of the negative pressure feeding barrel is provided with a tapered necking type discharge port extending to the inside of the unloading barrel, the outer side wall of the unloading barrel is respectively provided with an air inlet for providing a positive pressure environment for the smooth unloading of the materials, the inner side wall of the unloading barrel is provided with a, the locking sealing and opening discharging of the discharge port at the bottom end of the negative pressure feeding barrel are realized through the turnover type locking plate.

Rubbing crusher 5 is including smashing the box, set up in the inside rubbing crusher of smashing the box and set up in the motor power who smashes box one side, the driving shaft in the rubbing crusher passes through the drive belt with the motor power who sets up in the frame and is connected the transmission, the toper feeder hopper on smashing box upper portion is connected with ejection of compact barrel discharge end in the vacuum feeding machine I, it is connected with buffer memory feed bin feed inlet to smash box lower part toper play hopper, buffer memory feed bin's bottom is connected with discharging device, this discharging device comprises discharging pipe and the spherical play hopper that is fixed in on the discharging pipe, wherein spherical play hopper passes through clamp sealing connection with storage bin discharge end, the discharging pipe is connected through the feed inlet that pipeline and airtight type list shake source circle sieve.

The utility model discloses a single source circle of shaking of airtight type 7 includes that the circle shakes sieve check and support, install the toper shield with airtight type binder ring at sieve check top, install the rack in sieve check bottom flange, install below the rack and leak hopper-shaped and connect the hopper, be connected with the discharging pipe in connecing the export of hopper bottom, install circle vibration dish in the inboard peripheral clearance fit of flange of sieve check in connecing the peripheral clearance fit of hopper downwards, install damping spring with the bolt between vibration dish and support, install vibrating motor on the outer wall of vibration dish, it is equipped with the feed inlet to lean on upper portion in one side of sieve check, wait to be equipped with row's miscellaneous mouth above sieve check one side bottom and the rack, there is the airtight type sealing washer of boss at the peripheral flange internally mounted of rack, install on the flange and to compress tightly the rack and fix the closing device between sieve check and connect the hopper.

Three-dimensional motion blendor 8 includes that the frame sets up driven shaft, driving shaft and the direction controller in the frame, wherein is equipped with the universal joint on the driving shaft, and driven shaft and driving shaft are connected with the compounding bucket through U type operation arm respectively, and the port sealing connection of compounding bucket has the tee bend, and this tee bend shakes and sieves discharge end and vacuum feeding machine II feed inlet sealing connection through pipeline and airtight type list vibration source circle respectively, wherein shakes the pipeline that the sieve discharge end is connected of source circle and extends to the inside of compounding bucket with airtight type list.

The utility model discloses in throw the feed station discharge end and pass through the pipeline and connect vacuum feeder I feed inlet, be equipped with pipeline de-ironing separator and pipeline glass sight glass in the middle part of this pipeline, the material can eliminate magnetic impurity through the pipeline de-ironing separator in the pipeline to realize the visualization of material transport through pipeline glass sight glass, vacuum feeder I puts the material into the rubbing crusher evenly and smashes, the material after smashing gets into cache in the feed bin buffer; the discharge end of the buffer storage bin conveys the crushed materials to the airtight single-vibration-source circular vibration sieve through a pipeline for material screening and impurity removal, the finished materials are pumped into the three-dimensional motion mixer through the vacuum feeding machine II and the pipeline connection, and the finished materials are fully mixed uniformly, so that the production operation is completed.

The utility model discloses a theory of operation does: under the control of electric control, the dust-free feeding station feeds materials, the materials are pumped into a crusher by a vacuum feeding machine I for crushing treatment, and the crushed materials enter a buffer storage bin, so that the feeding is free of dust, the materials are free of impurities, and the material quantity of subsequent operation is sufficient; and pumping the materials into the airtight single-vibration-source circular vibration sieve from the buffer storage bin by the vacuum feeding machine II for material screening and impurity removal, and then conveying the finished product materials into the three-dimensional motion mixer through a pipeline to be uniformly mixed, thereby completing the production operation.

The foregoing shows and describes the general principles of the present invention, with its principal features and advantages, and further, various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. The utility model provides a medicine powder production system, its characterized in that is including the feeding station that loops through the pipe connection, crushing unit, the single source circle that shakes of airtight type shakes the sieve, three-dimensional motion blendor and vacuum feeding machine II, wherein crushing unit is by the frame and set up vacuum feeding machine I in the frame, rubbing crusher and buffer feed bin constitute, the feeding station discharge end passes through the pipeline and is connected with vacuum feeding machine I feed inlet, vacuum feeding machine I discharge end is connected with the rubbing crusher feed inlet, the rubbing crusher discharge end is connected with buffer storage feed bin feed inlet, buffer storage feed bin discharge end passes through the pipeline and is connected with the single source circle that shakes of airtight type shakes the sieve feed inlet.

2. A medical powder production system according to claim 1, wherein: and a pipeline iron remover and a pipeline glass sight glass are arranged on a pipeline between the feeding station and the vacuum feeding machine I and are respectively used for eliminating magnetic impurities in materials and realizing visualization of material conveying.

3. A medical powder production system according to claim 1, wherein: the feeding station comprises a frame, a storage bin arranged on the frame and a storage hopper arranged at the bottom of the storage bin, wherein a feeding bin door is arranged at one side of the storage bin, a dust removing fan linked with the feeding bin door is arranged at the top of the storage bin and used for automatically starting the dust removing fan when the feeding bin door is opened and automatically stopping the dust removing fan when the feeding bin door is closed, an air inlet pipe of the dust removing fan extends into the storage bin, a powder filtering device is arranged at the tail end of the air inlet pipe, a pulse back-blowing device linked with the feeding bin door and used for back-blowing the powder filtering device is arranged on the storage bin opposite to the feeding bin door and used for automatically starting the pulse back-blowing device after the feeding bin door is closed and automatically stopping after the pulse back-blowing device works for a set time, a discharging device is connected at the bottom of the storage hopper and consists of a discharging pipe and a spherical discharging hopper fixed on the discharging pipe, wherein spherical hopper passes through clamp sealing connection with the storage hopper discharge end, and the discharge tube passes through the pipeline and is connected with vacuum feeding machine I's feed inlet.

4. A medical powder production system according to claim 1, wherein: the vacuum feeding machine I comprises a sealing top cover, a negative pressure feeding barrel, an unloading barrel and an unloading barrel which are sequentially connected in a sealing and buckling mode from top to bottom, a scavenging valve communicated with an inner cavity of the negative pressure barrel is arranged on the upper portion of the sealing top cover, the other end of the scavenging valve is connected with a gas outlet/inlet, the vacuum feeding machine I is used for providing a negative pressure environment for material negative pressure feeding and smoothly unloading materials through switching the scavenging valve and providing a positive pressure environment, a material inlet hermetically connected with a material input pipeline is formed in the outer side wall of the negative pressure feeding barrel, the bottom end of the negative pressure feeding barrel is provided with a conical necking type discharge port extending into the unloading barrel, gas inlets are respectively formed in the outer side wall of the unloading barrel and used for smoothly unloading materials and providing a positive pressure environment, a flap valve is arranged on the inner side wall of the unloading barrel, a turnover plate is opposite to the discharge port at the bottom end of the negative pressure .

5. A medical powder production system according to claim 1, wherein: the rubbing crusher is including smashing the box, set up in the inside rubbing crusher who smashes the box and set up in the motor power who smashes box one side, the driving shaft in the rubbing crusher passes through the drive belt with the motor power who sets up in the frame and is connected the transmission, the toper feeder hopper on smashing box upper portion is connected with ejection of compact barrel discharge end in the vacuum material loading machine I, smash box lower part toper play hopper and be connected with buffer memory feed bin feed inlet, buffer memory feed bin's bottom is connected with discharging device, this discharging device comprises discharging pipe and the spherical play hopper that is fixed in on the discharging pipe, wherein spherical play hopper passes through clamp sealing connection with storage feed bin discharge end, the discharging pipe is connected through the feed inlet that pipeline and airtight type list vibration source.

6. A medical powder production system according to claim 1, wherein: the airtight type single-vibration-source circular vibration sieve comprises a circular vibration sieve grid and a support thereof, wherein a conical dustproof cover is installed on the top of the sieve grid through an airtight type binding ring, a net rack is installed in a flange at the bottom of the sieve grid, a funnel-shaped receiving hopper is installed below the net rack, a discharging pipe is connected to an outlet at the bottom of the receiving hopper, a ring vibration disc is installed on the inner side periphery of the flange of the sieve grid in a downward clearance fit mode at the periphery of the receiving hopper, a damping spring is installed between the vibration disc and the support through bolts, a vibration motor is installed on the outer wall of the vibration disc, a feeding port is formed in one side of the sieve grid by the upper portion of the sieve grid, impurity discharging ports are formed in the bottom of one side of the sieve grid and the upper portion of the net rack in an equal height mode, double layers of airtight type sealing rings with bosses are installed.

7. A medical powder production system according to claim 1, wherein: the three-dimensional motion mixer comprises a driven shaft, a driving shaft and a direction controller, wherein the frame is arranged on the frame, the driving shaft is provided with a universal joint, the driven shaft and the driving shaft are respectively connected with a mixing barrel through a U-shaped operating arm, a port of the mixing barrel is hermetically connected with a tee joint, the tee joint is respectively hermetically connected with a discharge end of the airtight single-vibration-source circular vibration sieve and a feed inlet of a vacuum feeding machine II through pipelines, and the pipeline connected with the discharge end of the airtight single-vibration-source circular vibration sieve extends to the inside of the mixing barrel.

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